2.6.1 - program and course outcomes - anits
TRANSCRIPT
Department of Chemical Engineering First Page of Syllabus (Sample Copy)
ANIL NEERUKONDA INSTITUTE OF TECHNOLOGY & SCIENCES
(UGC AUTONOMOUS)
(Affiliated to AU, Approved by AICTE & Accredited by NBA)
SANGIVALASA-531 162, Bheemunipatnam Mandal, Visakhapatnam District
Phone: 08933-225083/84/87Fax: 226395
www.anits.edu.in email: [email protected]
COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Department of Civil Engineering
2.6.1 Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students
Civil Engineering COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV - 1st
Sem
CIV111 CIV111 English
CIV111.1 Analyze the structure of the phrases, clauses and
sentences
CIV111.2 Apply his enriched vocabulary to give better shape to
his communication skills.
CIV111.3 Effectively use different formats of business
correspondence.
CIV111.4 Use idiomatic expressions and foreign phrases in his
communication.
CIV111.5 Use correct structures to write sentences.
CIV112 CIV112 Engineering
Mathematics – I
CIV112.1 Familiarize with functions of several variables
CIV112.2 Apply Fourier series in solving boundary value
problems
CIV112.3 Applythe concept of three dimensional analytical
geometry
CIV112.4 Use mathematical tools needed in evaluating multiple
integral and their usage.
CIV112.5
Use the concepts of improper integrals, Gamma, Beta
and Error functions which are needed in Engineering
applications
CIV113 CIV113 Engineering Physics
CIV113.1 Design and conduct simple experiments as well as
analyse and interpret data in engineering applications
CIV113.2 Understand advanced topics in engineering
ANIL NEERUKONDA INSTITUTE OF TECHNOLOGY & SCIENCES
(UGC AUTONOMOUS)
(Affiliated to AU, Approved by AICTE & Accredited by NBA)
SANGIVALASA-531 162, Bheemunipatnam Mandal, Visakhapatnam District
Phone: 08933-225083/84/87Fax: 226395
www.anits.edu.in email: [email protected]
CIV113.3 Identify formulae and solve engineering problems
CIV113.4 Apply quantum physics to electrical phenomena
CIV114 CIV114 Engineering Drawing
CIV114.1 Draw various engineering curves and understand the
basic geometrical constructions.
CIV114.2 Prepare orthographic projections of points and lines
CIV114.3 Produce orthographic projections of plane surfaces
CIV114.4 Draw orthographic projections of solids in various
orientations.
CIV114.5 Prepare isometric projections and understand basics of
Computer Aided Drafting.
CIV115 CIV115 Environmental Sciences
CIV115.1 Understand the natural environment and its
relationships with human activities
CIV115.2 Characterize and analyze human impacts on the
environment
CIV115.3 Integrate facts, concepts, and methods from multiple
disciplines and apply to environmental problems
CIV115.4
Design and evaluate strategies, technologies, and
methods for sustainable management of environmental
systems and for the remediation or restoration of
degraded environments
CIV116 CIV116 Engineering Physics
Lab
CIV116.1 Design and conduct experiments as well as to
analyzeand interpret data.
CIV116.2 Identify, solve and apply fundamental physics
principles to solve engineering problems
CIV117 CIV117 Programming With C
Lab
CIV117.1 Gain a working knowledge on programming
CIV117.2
Learn and use the fundamentals of a programming
language (such as language-defined data types (int,
float, char, double), control constructs (sequence,
selection, repetition), program modules (including
functions, modules, methods).
CIV117.3 Exhibit the ability to formulate a program that
correctly implements the algorithm.
CIV117.4 Demonstrate the effective use the programming
environment used in the course.
CIV118 CIV118 Workshop
CIV118.1 Make simple carpentry and fitting works
CIV118.2 Understand and do different types of wiring for
practical requirements
CIV118.3 Develop cross-sections of models for tin smithy and
make them.
CIV118.4
It also helps in understanding of relevant skills
required by the engineer working in engineering
industries and workshops.
I/IV - 2nd
Sem
CIV121 CIV121 Engineering
Mathematics-II
CIV121.1 Solve linear system equations using of matrix algebra
techniques
CIV121.2 Determine the Eigen values and vectors of a matrix
CIV121.3 Apply different techniques in solving differential
equations that model engineering problem
CIV121.4
Use the application of Differential equations like
simple electric circuits, Newton’s law of cooling and
to solve any higher order linear ordinary differential
equation with constant coefficients
CIV121.5 Solve linear differential equations and Network
analysis using Laplace transforms
CIV122 CIV122 Engineering Chemistry
CIV122.1 Adopt suitable technologies for domestic and
industrial water
CIV122.2
Identify & generalize the properties of semi
conducting materials used in various engineering
fields
CIV122.3 Design suitable batteries for different applications.
CIV122.4 Select and design of suitable materials to prevent
corrosion and protect various parts from corrosion.
CIV122.5 Develop green technologies for industrial processes.
CIV122.6 Solve scientific problems related to various
engineering works
CIV123 CIV123 Professional Ethics And
Human Values
CIV123.1 Understand the right code of conduct from Human
values
CIV123.2 Draw Inspiration from great personalities and assess
his/her role as a proactive member of the society
CIV123.3 Understand basics of professional ethics and its
implementation for harmony with nature
CIV123.4 Able to practice professional ethics and solve moral
dilemmas and issues
CIV123.5 Understand and implement code of ethics of relevant
professional societies and solve global issues.
CIV124 CIV124 Mathematics For Civil
Engineers
CIV124.1 Impart knowledge in basic concepts on complex
variables and analytical functions.
CIV124.2 Enable the students to concepts of complex integration
and their applications.
CIV124.3
Impart knowledge in basic concepts of Numerical
techniques and Numerical Integration and their
applications.
CIV124.4 Enable the student to solve ordinary differential
equations by numerical techniques.
CIV124.5 Impart knowledge in basic concepts on probability and
distributions.
CIV125 CIV125 Civil Engineering
Materials
CIV125.1 Suggest the suitability of various clay products based
on their characteristics
CIV125.2 Recommend the suitability of stone and timber
products for civil engineering purposes
CIV125.3 Identify the various types of metals and glasses
CIV126 CIV126 Engineering Chemistry
Lab
CIV126.1 Able to identify the suitable method for analyzing
samples.
CIV126.2 Able to analyze different types of water samples to test
quality parameters.
CIV127 CIV127 Language Lab
CIV127.1 Handle CBT (Computer Based Tests) of the qualifying
examinations.
CIV127.2 Receive, interpret, remember and evaluate information
by practicing effective listening skills.
CIV127.3 Speak English with neutralized accent.
CIV127.4 Narrate, describe and report incidents and situations
using appropriate terminology.
II/IV - 1st
Sem
CIV211 CIV211 Engineering
Mathematics-III
CIV211.1
Understand the concepts of Gradient, Divergence and
Curl and finding scalar potential function of
irrotational vector fields.
CIV211.2
Understand the concepts of Green’s Theorem, Stokes’
Theorem and the Divergence Theorem and to evaluate
line integrals, surface, integrals and flux integrals.
CIV211.3
Understand some basic techniques for solving linear
partial differential equations and how to identify a
partial differential equation in order to determine
which technique(s) can best be applied to solve it.
CIV211.4 Understand the methods to solve the Laplace, heat,
and wave equations.
CIV211.5 Gain good knowledge in the application of Fourier
Transforms.
CIV212 CIV212 Building Technology
CIV212.1
Know the various building Bye-Laws laid by town
planning authorities and local regulatory bodies for
Planning various buildings like residential,
educational, office buildings and hospital buildings.
CIV212.2 Learn about masonry types in brick and stone
construction
CIV212.3 Understand about various Building components.
CIV212.4 Learn about various types of foundation.
CIV212.5 Know about damp prevention and fire protection
methods.
CIV212.6 Understand about various types of roofs.
CIV213 CIV213 Engineering Geology
CIV213.1
Identify and classify the different minerals and rocks
based on their physical properties and geological
genesis
CIV213.2
Map the various geological structures present in the
subsurface and their importance in the study of natural
hazards like earthquakes etc.
CIV213.3
Apply the different investigation techniques from
initial stage to final stage for the selection of proper
project site.
CIV213.4
Do the interpretation of available data to determine the
favorable geological considerations (i.e., Lithological
structural and ground water) in the study area for the
construction of different civil engineering projects
dams etc.
CIV213.5 Classify and measure the earthquake, Landslides and
subsidence prone areas to practice the hazard zonation.
CIV214 CIV214 Engineering Mechanics
CIV214.1 Analyze a given physical problem into a suitable
forces and moments.
CIV214.2 Identify the centroid of a given plane area and find its
area/ mass moment of inertia.
CIV214.3 Apply the concept of friction to simple engineering
problems.
CIV214.4 Calculate the displacement, velocity and acceleration
of a moving particle.
CIV214.5 Apply the work-energy, D ALEMBERTS principle to
particles and connected systems.
CIV215 CIV215 Surveying– I
CIV215.1 Calculate angles, distances and levels.
CIV215.2 Identify data collection methods and prepare field
notes.
CIV215.3 Understand the working principles of survey
instruments.
CIV215.4 Estimate measurement errors and apply corrections.
CIV215.5 Demonstrate an ability to compute volume of
reservoirs using contours.
CIV216 CIV216 Strength of Materials
CIV216.1 Understand and solve simple problems involving
stresses and strain in two and three dimensions.
CIV216.2
Analyses stress in two dimensions and understand the
concepts of principal stresses and the use of Mohr
circles to solve two dimensional stress problems.
CIV216.3
Draw shear force and bending moment diagrams of
simple beams and understand the relationships
between loading intensity, shearing force and bending
moment.
CIV216.4 Compute the bending stresses in beams with one or
two materials.
CIV216.5 Apply sound analytical techniques and logical
procedures in the solution of engineering problems.
CIV217 CIV217 Surveying Field Work-I
CIV217.1 Improve ability to function as a member of a survey
party in completing the assigned field work.
CIV217.2 Conduct survey and collect field data
CIV217.3 Prepare field notes from survey data
CIV217.4 Learn the measurement of elevation difference
between two points using Level instruments.
CIV217.5 Interpret survey data and compute areas and volumes.
CIV218 CIV218 Strength of Materials
Lab
CIV218.1 Determine the engineering and mechanical properties
of materials.
CIV218.2 To interpret the test results
II/IV - 2nd
Sem
CIV221 CIV221 Concrete Technology
CIV221.1 Understand the composition, manufacturing process
and properties of cement.
CIV221.2 Understand the classification, characteristics and
properties of aggregate.
CIV221.3 Acquire the skill of testing, supervision of concrete
work & interpretation of tests results.
CIV221.4 Understand the behaviour of hardened concrete.
CIV221.5 Understand the need for special concretes.
CIV222 CIV222 Environmental
Engineering-I
CIV222.1 Understand the sources of water, quality of water,
types of water borne diseases.
CIV222.2
Learn to estimate demand for water supply, and can
apply the physical principles of flow in water
distribution networks and pumping stations.
CIV222.3 Design water treatment systems and operations and
working of different units.
CIV222.4
Design elements of public water systems, pumping
and transportation of water, distribution systems, and
components of water supply network in a town/city,
functioning of water/sewer pipe appurtenances.
CIV223 CIV223 Fluid Mechanics-I
CIV223.1
Determine the physical properties of fluids and
different types of forces acting on a fluid element
extended to forces on various gates.
CIV223.2
Determine the forces that are acting on immersed
bodies in static fluids through application of buoyancy
and floatation.
CIV223.3
Determine different types of fluid flows to find out the
local and convective accelerations in 1D, 2D flows
fields and derive the Laplace equation.
CIV223.4
Apply conservation principles of mass momentum and
energy on fluids through system and control volume
approaches.
CIV224 CIV224 Surveying – II
CIV224.1 Learn to determine horizontal and vertical angles
between points by theodolite and Total Station.
CIV224.2 To impart experimental skills to determine heights and
distances of inaccessible objects.
CIV224.3 Apply surveying skills in aligning highways and
railway curves.
CIV224.4 Demonstrate the ability to solve surveying problems.
CIV224.5 Gain the ability to use modern survey equipment
(Total Station) to measure angles and distances.
CIV224.6 Learn basics in GIS and GPS.
CIV225 CIV225 Structural Analysis – I
CIV225.1 Calculate deflections in statically determinate beams
and trusses.
CIV225.2 Analyze columns and struts under axial loading.
CIV225.3 Calculate strain energy due to different types of forces.
CIV225.4 Analyze statically indeterminate beams.
CIV225.5 Analyze fixed and continuous beams.
CIV225.6 Understand how shear force and bending moment vary
with application of moving loads.
CIV226 CIV226 Building Planning &
Drawing
CIV226.1 Understand various types of buildings and housing
concept.
CIV226.2 Apply the concepts of climatology and orientation of
both residential and commercial buildings.
CIV226.3 Apply the principles of planning and bylaws used for
building planning.
CIV226.4 Recommend appropriate planning for 2 Bed room and
3 Bed room houses.
CIV226.5 Draw plan, elevation and section for various
structures.
CIV226.6 Design individual rooms with attention to functional
and furniture requirements.
CIV227 CIV227 Concrete Technology
Lab
CIV227.1 Determine the properties of concrete and its
ingredients
CIV227.2 Check the suitability of various ingredients of concrete
in constructions
CIV228 CIV228 Fluid Mechanics Lab-I
CIV228.1 Calibrate various flow measuring devices
CIV228.2 Apply Bernoulli's Principle for pipes and open flows
CIV229 CIV229 Surveying Field Work –
II
CIV229.1 Demonstrate an ability to conduct surveying for any
infrastructure project.
CIV229.2 Analyses data and report results.
CIV229.3 Work in teams doing field work and computer
analysis.
III/IV - 1st
Sem
CIV312 CIV312 Environmental
Engineering-II
CIV312.1 Plan and design the sewerage systems
CIV312.2 Select the appropriate appurtenances in the sewerage
systems
CIV312.3 Selection of suitable treatment flow for sewage
treatment
CIV312.4 Identify the critical point of pollution in a river for a
specific amount of pollutant disposal into the river
CIV313 CIV313 Reinforced Concrete
Structures-I
CIV313.1
Understand the principles of limit state method and
design of singly reinforced beams, doubly reinforced
beams, flanged beams
CIV313.2 Enable the students to understand the concept of shear;
bond and design shear reinforcement in beams.
CIV313.3 Enable the students to design one way and two way
slabs
CIV313.4 Enable the students to design columns, footings.
CIV313.5 Draw the reinforcement detailing for all the structural
elements of a reinforced concrete structure.
CIV314 CIV314 Structural Analysis – II
CIV314.1 Formulate equilibrium & compatibility equations for
indeterminate structural members.
CIV314.2 Analyze statically indeterminate trusses.
CIV314.3 Analyze statically indeterminate frames.
CIV314.4 Analyze cables and suspension bridges.
CIV314.5 Analyze two and three hinged structural members.
CIV315 CIV315 Fluid Mechanics-II
CIV315.1 Apply the principles of modelling pumps, turbines,
propellers etc using various dimensionless numbers
CIV315.2 Determine discharge and design most economical
channel section for uniform flow in open channels
CIV315.3 Use momentum and energy principles for design of
turbines and pumps
CIV315.4 Recommend suitable type of turbines and pumps for
the given project.
CIV316 CIV316 Geotechnical
Engineering – I
CIV316.1
Determine the physical characteristics of soils and use
their interrelationships to solve civil engineering
problems
CIV316.2 Determine plasticity characteristics and classify the
soil based on Standard codes
CIV316.3 Analyze the effective stress in soils and determine
permeability
CIV316.4 Analyze the effect of seepage in soils and recommend
measures for effective compaction in the field
CIV316.5 Determine the long term settlements in soils due to
consolidation
CIV317 CIV317 Geotechnical
Engineering Lab-I
CIV317.1 Determine the physical and plasticity properties of
soils
CIV317.2 Estimate their behaviour and suitability
CIV318 CIV318 Environmental
Engineering Lab
CIV318.1 Estimation some important characteristics of water and
wastewater in the laboratory.
CIV318.2
Decide whether the water body is polluted or not with
reference to the state parameters in the list of
experiments.
CIV319 CIV319 Fluid Mechanics Lab-II
CIV319.1 Apply principles of impulse moment equation in pipe
flows and hydraulic machines
CIV319.2 Determine the performance characterstics of hydraulic
machines and flow through pipes.
CIV3110 CIV3110 Quantitative & Verbal
Aptitude -I
CIV3110.1 Solve problems related to numerical computations in
company specific and other competitive tests.
CIV3110.2
Able to recall and use the concepts to solve problems
numerical estimation with respect to company specific
and competitive tests.
CIV3110.3
Apply basic principles related to geometry and
mensuration & solve questions in company specific
and competitive tests.
CIV3110.4
Detect grammatical errors in the text/sentences and
rectify them while answering their competitive/
company specific tests and frame grammatically
correct sentences while writing.
CIV3110.5
Answer questions on synonyms, antonyms, hyponyms,
hypernyms and other vocabulary based exercises while
attempting company specific and other competitive
tests.
CIV3110.6 Use their logical thinking ability and solve questions
related to reasoning based exercises.
CIV3110.7
Choose the appropriate word/s/phrases suitable to the
given context in order to make the sentence/paragraph
coherent.
CIV3110.8
Analyze the given data/text and find out the correct
responses to the questions asked based on the reading
exercises; identify relationships or patterns within
groups of words or sentences.
CIV3111 CIV3111 Technical Seminar
CIV3111.1 Make presentation on a given topic related to civil
engineering.
CIV3111.2 Improve the communication skills and cultivate
lifelong learning.
CIV3111.3 Broaden their knowledge about Civil Engineering and
its practical applications.
CIV3111.4 Update their knowledge on the latest developments in
civil engineering.
CIV3111.5
Understand the environmental, safety, economical and
sustainability aspects of any civil engineering
structure.
III/IV - 2nd
Sem
CIV321 CIV321 Reinforced Concrete
Structures-II
CIV321.1 Design and draw the reinforcement detailing of
staircase.
CIV321.2 Design and draw the reinforcement detailing of
cantilever & counterfort retaining walls.
CIV321.3 Design and draw the reinforcement detailing of pile
and pile caps
CIV321.4
Understand the basic concepts of pre-stressed
concrete, know the different prestressing systems,
analyze the prestressed concrete members and evaluate
the losses in prestressing.
CIV321.5 Understand the structural drawings for practical
execution.
CIV322 CIV322 Estimation & Costing
CIV322.1 Estimate the construction cost from the rate analysis
CIV322.2 Understand about specifications for various items in
framed buildings
CIV322.3 Do the detailed estimate of load bearing and framed
buildings
CIV323 CIV323 Geotechnical
Engineering – II
CIV323.1 Estimate the shear strength parameters of a soil under
different drainage conditions
CIV323.2 Plan soil exploration and analyse and interpret the soil
properties
CIV323.3 Calculate lateral earth pressure on a retaining structure
CIV323.4 Estimate the allowable bearing pressure of soil needed
for the design of shallow foundation
CIV323.5 Determine the load capacity of piles and analyse the
stability of slope of an earth structure
CIV324 CIV324 Transportation
Engineering-I
CIV324.1 Carry out surveys involved in planning and highway
alignment
CIV324.2 Design cross section elements, sight distance,
horizontal and vertical alignment
CIV324.3 Design flexible and rigid pavements as per IRC
CIV324.4 Learn various highway constructions techniques and
its maintenance
CIV324.5 Understand traffic studies, traffic regulations and
control.
CIV325 CIV325 Water Resources
Engineering – I
CIV325.1 Measure and analyze the rainfall in any given area and
prepare Intensity-Duration-Frequency curves.
CIV325.2
Determine the run off in a catchment and prepare the
unit hydrograph which in-turn determines the runoff
for any given rainfall.
CIV325.3 Determine hydraulic properties of an aquifer &
specific capacity, efficiency and yield of a well.
CIV325.4
Select a suitable site for the reservoir by conducting
investigations and determine the capacity of the
reservoir and its operating schedules.
CIV325.5
Specify appropriate method of irrigation for different
crops and cropping patterns and determine the quality
and quantity of water required for a crop.
CIV
326(D)
CIV 326(D) RS & GIS
applications in Civil
Engineering
CIV 326(D).1 Learn about the principles of remote sensing and GIS.
CIV 326(D).2 Understand about the various image interpretation
techniques and image classification techniques.
CIV 326(D).3 Know about the various applications of remote sensing
and GIS in civil engineering projects
CIV327 CIV327 Geotechnical
Engineering Lab-II
CIV327.1 Determine the Engineering properties of various soil
samples
CIV327.2 Interpret test results and recommend its suitability in
geotechnical practice
CIV328 CIV328 Computer Applications
in Civil Engineering Lab-I
CIV328.1 To construct various GIS data models
CIV328.2 To summarize about project system
CIV328.3 To executing the applications areas of GIS
CIV329 CIV329 Quantitative & Verbal
Aptitude –II
CIV329.1
Use their logical thinking and analytical abilities to
solve reasoning questions from company specific and
other competitive tests.
CIV329.2
Solve questions related to permutation & combinations
and probabilities from company specific and other
competitive tests.
CIV329.3 Understand and solve puzzle related questions from
specific and other competitive tests.
CIV329.4
Write paragraphs on a particular topic, essays (issues
and arguments), e mails, summaries of group
discussions, make notes, statement of purpose (for
admission into foreign universities), letters of
recommendation (for professional and educational
purposes)
CIV329.5
Converse with ease during interactive
sessions/seminars in their classrooms, compete in
literary activities like elocution, debates etc., raise
doubts in class, participate in JAM sessions/versant
tests with confidence and convey oral information in a
professional manner using reason
CIV3110.6 Use their logical thinking ability and solve questions
related to reasoning based exercises.
CIV3110.7
Choose the appropriate word/s/phrases suitable to the
given context in order to make the sentence/paragraph
coherent.
CIV3110.8
Analyze the given data/text and find out the correct
responses to the questions asked based on the reading
exercises; identify relationships or patterns within
groups of words or sentences.
CIV3210 CIV3210 Soft Skills Lab
CIV3210.1 Comprehend the core engineering subjects using
effective communication skills.
CIV3210.2 Present accurate and relevant information efficiently,
using suitable material aids.
CIV3210.3 Work effectively as an individual as well in teams and
emerge as responsible leaders.
CIV3210.4
Participate in group discussions and interviews using
analytical and problem solving abilities, which
enhance their employability skills.
CIV3210.5 Set time bound goals and realize them through
strategic plans for successful career.
IV/IV - 1st
Sem
CIV411 CIV411 Open Elective-I (Nano
Technology)
CIV411.1
CIV411.2
CIV411.3
CIV411.4
CIV411.5
CIV412 CIV412 Professional Elective -
II (Air Pollution & control)
CIV412.1 Identify the Sources of Air pollutants and its
classification.
CIV411.2 Demonstrate the ability to design and operation of
control units.
CIV411.3 Implement the methods of monitoring the pollution.
CIV411.4 To effectively utilize the control equipments for
controlling the air pollution.
CIV413 CIV413 Project Planning &
Management
CIV413.1 Prepare the schedule of actives in a construction
project
CIV413.2 Estimate project completion time using different
techniques namely CPM and PERT
CIV413.3 Prepare tender quotation for a construction project
CIV414 CIV414 Steel Structures
CIV414.1 Work with relevant IS codes
CIV414.2 Student will able to design the connection in given
situation
CIV414.3 Carryout analysis and design of various structural
member under tension, compression and flexure
CIV414.4 Analyze & design plate girders for given conditions
CIV415 CIV415 Water Resources
Engineering - II
CIV415.1
Select a suitable site for construction of dam, conduct
preliminary investigations and check the stability of
the gravity dam through stability analysis.
CIV415.2 Design earth dam that has a controlled seepage from
its body and foundation and design suitable spillways.
CIV415.3 Determine the necessity of diversion head works and
design weirs on permeable foundations.
CIV415.4
Determine the necessity of regulatory works on canals,
determine the location of falls and design different
types of falls.
CIV415.5
Suggest suitable river training works wherever
necessary and to assess the availability of Hydel power
and its utilization.
CIV416 CIV416 Transportation
Engineering-II
CIV416.1 Know the components of permanent way and their
functions.
CIV416.2 Design geometrics in a railway track.
CIV416.3 Understand the various points and crossings.
CIV416.4 Know the airport pavement orientation, various visual
aids and air traffic control.
CIV416.5 Understand the basic elements of port and harbors
CIV417 CIV417 Computer Applications
in Civil Engineering Lab-II
CIV417.1 Ability to use the software packers for drafting and
modeling
CIV417.2
The students will be able to draft the plan, elevation
and sectional views of the buildings and truss, using
computer software.
CIV417.3 The students will be able to draft the detailing of basic
RC structural elements, using computer software.
CIV417.4
The student acquires hands on experience in design
and preparation of structural drawings for concrete /
steel structures normally encountered in Civil
Engineering practice.
CIV418 CIV418 Transportation
Engineering Lab
CIV418.1 To know the properties of the aggregates.
CIV418.2 To know the properties of the bitumen.
CIV418.3 To know the properties of the soil.
CIV419 CIV419 Project work-I
CIV419.1
An ability to apply knowledge of mathematics,
science, and engineering to design and conduct
experiments, as well as to analyze and interpret data.
CIV419.2
An ability to design a system, component, or process
to meet desired needs within realistic constraints such
as economic, environmental, social, political, ethical,
health and safety, manufacturability, and
sustainability.
CIV419.3
An ability to function on multi-disciplinary teams and
engage themselves in life-long learning to be abreast
with technological changes.
CIV419.4
An ability to identify, formulate, and solve engineering
problems using latest technological and software tools
and also to communicate effectively with the
engineering community and society at large.
CIV4110 CIV4110 Industrial Training
CIV4110.1
Investigate and analyze at least one complex civil
engineering problem with substantiated conclusions
using first principles of mathematics, natural sciences,
and engineering sciences.
CIV4110.2
Select and apply appropriate techniques, resources,
and modern engineering and IT tools to complex civil
engineering activities with an understanding of the
limitations.
CIV4110.3
Assess societal, health, safety, legal and cultural issues
and the consequent responsibilities relevant to one
civil engineering problem.
CIV4110.4
Function effectively as an individual, and as a member
or leader in teams as well as to comprehend and write
effective reports and design documentation, make
effective presentations, and give and receive clear
instructions.
CIV4110.5
Demonstrate knowledge and understanding of the
engineering and management principles and apply
these to manage at least one civil engineering project,
as a member and leader in a team.
IV/IV - 2nd
Sem
CIV
421(D)
CIV 421(D) Professional
Elective – III (Ground
Improvement Techniques)
CIV422.1
Possess the knowledge of various methods of ground
improvement and their suitability to different field
situations.
CIV422.2 Learn the grouting techniques.
CIV422.3 Learn the concept of Vertical drains, its construction
and design principles.
CIV422.4 Outline the various function of Geosynthetics and its
application in Civil engineering
CIV422.5 Understand the concept of Dewatering Techniques.
CIV423 CIV423 Engineering Economics
& Finance
BIV423.1 Understand the economic environment and to give an
idea on various concepts of Engineering economics.
BIV423.2 Gain knowledge about the concepts of cost estimating
and financial management.
CIV424 CIV424 Irrigation Structures
Design & Drawing
CIV424.1 Design and Draw the Canal head regulator
CIV424.2 Design and Draw the Surplus weir
CIV424.3 Design and Draw the Type 3 Syphon Aqueduct
CIV424.4 Design and Draw the Trapezoidal Notch fall
CIV424.5 Design and Draw the Tank Sluice with tower head
CIV426 CIV426 Project Work - II
CIV426.1
An ability to apply knowledge of mathematics,
science, and engineering to design and conduct
experiments, as well as to analyze and interpret data.
CIV426.2
An ability to design a system, component, or process
to meet desired needs within realistic constraints such
as economic, environmental, social, political, ethical,
health and safety, manufacturability, and
sustainability.
CIV426.3
An ability to function on multi-disciplinary teams and
engage themselves in life-long learning to be abreast
with technological changes.
CIV426.4
An ability to identify, formulate, and solve engineering
problems using latest technological and software tools
and also to communicate effectively with the
engineering community and society at large.
Department of Chemical Engineering
2.6.1 Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students.
CHEMICAL ENGINEERING COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV & I
Sem.
CHE111 English
By the end of the course, the student will be able to:
1. Analyze the structure of the phrases, clauses and sentences
2. Apply his enriched vocabulary to give better shape to his
communication skills.
3. Effectively use different formats of business correspondence.
4. Use idiomatic expressions and foreign phrases in his communication.
5. Analyse, interpret and compose meaningful texts.
CHE112 Engineering
Mathematics I
By the end of the course, student will be able to:
1. Familiarize with functions of several variables
2. Apply Fourier series in solving boundary value problems
3. Apply the concept of three dimensional analytical geometry
4. Use mathematical tools needed in evaluating multiple integral and
their usage.
5. Use the concepts of improper integrals, Gamma, Beta and Error
functions
which are needed in Engineering applications
CHE113 Engineering
Physics
By the end of the course, student will be able to:
1. Understand the fundamental concepts of thermodynamics.
2. Familiar with the fundamentals of electromagnetic induction and
Ultrasonics.
3. Aware of the basic concepts of optics like interference, diffraction,
polarization and its various applications.
4. Understand the working principle and applications of lasers and fiber
optics.
5. Learn fundamentals of modern physics and its importance in modern
technology.
CHE114 Engineering
Drawing
By the end of the course, student will be able to:
1. Draw various engineering curves and understand the basic
geometrical constructions.
2. Prepare orthographic projections of points and lines
3. Produce orthographic projections of plane surfaces
4. Draw orthographic projections of solids in various orientations.
5. Prepare isometric projections and understand basics of Computer
Aided Drafting.
CHE115 Environmental
Sciences
By the end of the course, student will be able to:
1. Identify the characteristics of various natural resources and can
implement the conservation practices
2. Realize the importance of Ecosystem and Biodiversity for
maintaining ecological balance
3. Classify, analyze various pollutants and can develop methods for
solving problems related to environment
4. Design and evaluate strategies and methods for sustainable
development of environmental systems
and for the remediation or restoration of degraded Environments
5. Get awareness on various environmental laws and
regulations applicable to global issues and play a role in solving social
problems
CHE116 Engineering
Physics Lab
Course Outcomes: By the end of the course, student will be able to:
1. Design and conduct experiments as well as to analyze and interpret
data.
2. Apply experimental skills to determine the physical quantities related
to Heat, Electromagnetism and Optics.
CHE117 Programming
with C Lab
Course Outcomes: By the end of the course, student will be able to:
1. Gain a working knowledge on programming.
2. Learn and use the fundamentals of a programming language (such as
language-defined data types
(int, float, char, double), control constructs (sequence, selection,
repetition),
program modules (including functions, modules, methods).
3. Exhibit the ability to formulate a program that correctly implements
the algorithm.
4. Demonstrate the effective use the programming environment used in
the course.
CHE118 Work Shop
Course Outcomes: By the end of the course, student will be able to:
1. Make different carpentry joints.
2. Make simple fitting jobs.
3. Make simple jobs like funnel, elbow etc. using sheet metal.
4. Understand and build circuits for different types of applications like
stair case wiring,
series and parallel connections.
I/IV & II
Sem.
CHE121 Engineering
Mathematics II
Course Outcomes: By the end of the course, student will be able to:
1. Solve linear system equations using of matrix algebra techniques
2. Determine the Eigen values and vectors of a matrix
3. Apply different techniques in solving differential equations that
model engineering problem
4. Use the application of Differential equations like simple electric
circuits,
Newton’s law of cooling and to solve any higher order linear ordinary
differential equation
with constant coefficients
5. Solve linear differential equations and Network analysis using
Laplace transforms.
CHE122 Engineering
Chemistry
By end of the course, student will be able to:
1. Identify the problems associated with raw water in various
applications and
can adopt suitable technologies for domestic and industrial feed waters.
2. Identify & generalize the properties of semiconducting materials and
can select
suitable semiconducting & various ceramic materials for specific
applications.
3. Classify and analyze the conventional energy sources and design of
suitable batteries/cells
for different engineering applications
4. Select and design of suitable materials to prevent corrosion and
protect various parts from corrosion.
5. Implement the green chemistry principles, concept of tribology,
unique properties of
nano &composite materials in designing of suitable methods and
materials to meet the technological challenges.
6. Solve scientific problems related to various engineering fields.
CHE123
Professional
Ethics & Human
Values
By end of the course, student will be able to:
1. Understand the right code of conduct from human values
2. Draw inspiration from great personalities and assess his/her roles as a
proactive member of the society
3. Understand basics of professional ethics and its implementation for
harmony with nature.
4. Solve moral dilemmas and issues
5. Understand and implement Code of ethics of relevant Professional
societies and solve global issues
CHE124 Physical
Chemistry
By the end of the course, the student will be able to:
1. Apply the principles of laws of thermodynamics in various Industrial
Processes and Designing.
2. Develop suitable conditions in reaction equilibria of various
Chemical Processes.
3. Identify the changes in heterogeneous systems and understand the
role of
various physical quantities useful in Chemical Engineering Industry.
4. Adopt suitable catalytic mechanisms to determine kinetic parameters
applicable in
Chemical Reaction & Bioprocess Engineering
5. Predict the nature of substances and their behaviour by applying
advanced electrochemical laws.
6. Implement the various principles for solving the challenges in the
field of Chemical Engineering.
CHE125
Introduction to
Chemical
Engineering
By the end of the course, the student will be able to:
1. Appreciate the need and role of a Chemical Engineer in industries.
2. Interpret different units and dimensions and make material and
energy balances.
3. Apply the principles involved in momentum, heat and mass transfer.
4. Identify the usage of different equipments for different operations.
CHE126 Engineering
Chemistry Lab
By end of the course, student will be able to:
1. Apply experimental skills in quantitative chemical analysis
of water quality parameters, substances and ores.
2. Select and use a suitable instrumental technique for the quantitative
estimation and analyse the data obtained.
CHE127 Language Lab
By the end of the course, student will be able to:
1. Handle CBT (Computer Based Tests) of the qualifying examinations.
2. Receive, interpret, remember and evaluate information by practicing
effective listening skills.
3. Speak English with neutralized accent.
4. Narrate, describe and report incidents and situations using appropriate
terminology
II/IV & I
Sem. CHE211
Engineering
Mathematics - III
At the end of the course student will be able to:
1. Understand the concepts of Gradient, Divergence and Curl and
finding scalar potential function of irrotational vector fields.
2. Understand the concepts of Green’s, Stoke’s, Divergence theorems
and evaluate their related integrals like line, surface, flux.
3. Understand some basic techniques for solving partial differential
equations.
4. Apply the knowledge of partial differential equations to various
engineering problems.
5. Understand the characteristics, properties of Fourier transforms and
gain knowledge in the application of Fourier Transforms.
CHE212 Organic
Chemistry
Course Outcomes: At the end of the course, the student will be able to:
1. Understand the basics of reaction intermediates and polar effects.
2. Design organic molecules in stereo chemical models.
3. Arrive at an idea on mechanism of addition and condensation
reactions.
4. Meet the need to understand the industrial preparation of organic
compounds at various conditions.
5. Develop further organic applications using synthetic reagents and
understand the biological activity of few organic compounds.
CHE213
Mechanicl
Engineering and
Strength of
Materials
By the end of the course, student will be able to
1. Understand the application of thermodynamic laws.
2. Identify the use of boilers in industries.
3. Classify IC engines and their applications.
4. Evaluate stress-strain analysis
5. Understand the design of thin and thick cylinders.
CHE214
Basic Electrical
& Electronics
Engineering
By the end of the course, student will be able to
1. Able to understand the basic concepts of electrical and magnetic
circuits and electromagnetic induction.
2. Able to understand the Construction details & Principle of operations
of D.C Machines, methods of Excitation,
Starting methods of D.C Motor and applications.
3. Able to understand the AC circuit analysis and asses efficiency and
regulation of transformer with and without loading.
4. Able to analyzed the performance of Three phase induction motor,
and Regulation methods of Alternator,
construction of synchronous motors
5. Able to understand the basic concepts of electronic components like
diode, zener diode and transistor.
CHE215
Chemical
Process
Calculations
By the end of the course, student will be able to
1. Understand and solve basic stoichiometry calculations.
2. Evaluate composition of gases at various temperatures and pressures.
3. Apply material balance on various unit operation and processes.
4. Apply energy balance on various unit operation and processes.
5. Implement the concepts of humidity to humidification and
dehumidification processes.
CHE216
Organic
Chemistry
Laboratory
At the end of the course, the student will be able to:
1. Synthesize and analyze the properties and nature of the organic
compound.
2. Use different types of solvents and reagents in analyzing the
functional group of the organic compound.
CHE217
Mechanicl
Engineering
Laboratory
At the end of the course, the student will be able to:
1. Measure the physical properties of a given sample.
2. Perform the load test and draw the performance curves.
II/IV & II
Sem.
CHE221
Engineering
Mathematics -
IV
At the end of the course student will be able to:
1. Understand, interpret and use the basic concepts: analytic function,
harmonic function, Taylor
and Laurent series, singularity.
2. Familiarize the concepts of Finite Differencesinterpolation
techniques.
3. Familiarize the concept and solving of differentiation and integration
by numerical methods.
4. Examine, analyze, and compare Probability distributions.
5. Analyze the Statistical data by using statistical tests and to draw valid
inferences about the
population parameters.
CHE222 Momentum
Transfer
After studying this subject, student will be able to
1. Understand the fluid statics and apply dimensional analysis
2. Apply quantitative laws to fluid flow problems.
3. Analyze the velocity distributions, frictional flow patterns in pipes.
4. Determine the pressure drop, velocities in packed and fluidized bed
columns.
5. Analyze the performance aspects of pumps and flow metering
devices.
CHE223 Mechanical
Operations
After studying this subject, student wii be able to
1. Identify the size reduction equipment for various samples.
2. Apply the screening techniques for different size separations.
3. Understand and apply the filtration techniques.
4. Predict the different settling regimes.
5. Classify various agitators and conveyors.
CHE224 Process
Instrumentation
After studying this subject, student will be able to
1. Identify the characteristics of various instruments and the
instrumentation process.
2. Recognize the relevant from expansion and thermoelectric
thermometers.
3. Understand the working and use of various resistance and radiation
pyrometers.
4. Apply the various techniques for composition analysis.
5. Interpret the pressure, head and level measuring devices.
CHE225
Chemical
Engineering
Thermodynamics
- I
By the end of the course, student will be able to
1. Apply first law of thermodynamics to various systems.
2. Predict the PVT behavior using Virial equations.
3. Calculate heat effects on industrial reactions.
4. Apply second law of thermodynamics to various systems.
5. Develop balance equations on various equipments.
CHE226
Momentum
Transfer
Laboratory
At the end of the course, the student will be able to:
1. Measure the flow rate by using different flow measuring devices.
2. Draw the characteristic curves of various pumps.
CHE227
Mechanical
Operations
Laboratory
At the end of the course, the student will be able to:
1. Measure the average size of a given sample.
2. Operate crushing and grinding equipment.
3. Analyze various separation techniques for a given sample.
III/IV & I
Sem.
CHE312
Chemical
Engineering
Thermodynamics
- II
By the end of the course, the student will be able to
1. Understand and apply refrigeration and liquefaction processes.
2. Identify the relations between phases in equilibrium.
3. Understand the concept of fugacity and apply it to non-ideal
solutions.
4. Estimate the activity co-efficients.
5. Compute equilibrium constant for a chemical reaction.
CHE313 Heat Transfer
By the end of the course, the student will be able to:
1. Implement the basic laws of conduction to steady state and unsteady
state problems.
2. Predict convective heat transfer coefficients at various conditions.
3. Compute heat loss / gain due to radiation.
4. Classify various heat transfer equipments.
5. Determine the performance of different Evaporators.
CHE314 Mass Transfer - I
By the end of the course, the student will be able to:
1. Estimate the flux of molecules and diffusivity of gases, liquids and
solids
2. Predict the mass transfer coefficients and know its importance
3. Design an absorption column
4. Generate VLE data and estimate the number of stages for a
distillation column
5. Identify the equipment for different gas-liquid operations.
CHE315
Chemical
Reaction
Engineering - I
By the end of the course, the student will be able to:
1. Predict various mechanisms for various reactions.
2. Analyse batch reactor data by various methods
3. Design various ideal reactors
4. Design various combinations of reactor systems
5. Quantify product distribution for multiple reactions
CHE316
Elective - I
(Polymer
Technology)
By the end of the course, the student will be able to
1. Classify polymers and determine molecular weight of a polymer.
2. Identify the kinetics of polymerization and importance of their
properties.
3. Summarize the methods of polymerization.
4. Understand the principles and working of processing equipment.
5. Select the manufacturing process for a polymer compound.
CHE316
Elective - I
(Fertilizer
Technology)
At the end of the course, the student will be able to:
1. Classify the raw materials for fertilizer production and their
importance.
2. Identify manufacturing processes of nitrogenous fertilizers.
3. Describe the production of N, P, K fertilizers.
4. Apply the knowledge of design of reactors for the manufacturing
processes.
5. Acquaint with various methods of storage and handling of fertilizers.
CHE317 Heat Transfer
Laboratory
At the completion of the course, the student will be able to
1. Determine the heat transfer coefficients.
2. Operate various heat transfer equipments.
CHE318 Soft Skills
Laboratory
By the end of the course, the studentwill be able to:
1 Comprehend the core engineering subjects using effective verbal and
nonverbal communication skills.
2 Present accurate and relevant information efficiently, using suitable
material aids.
3 Work effectively as an individual as well in teams and emerge as
responsible leaders with appropriate professional ethics.
4 Participate in group discussions and interviews using analytical and
problem solving abilities, which enhance their employability skills.
5 Set time bound goals and realize them through strategic plans for
successful career.
III/IV & II
Sem.
CHE321 Mass Transfer -
II
By the end of the course, the student will be able to
1. Plot Ternary liquid equilibrium and process design of extractors.
2. Classify different leaching equipments and compute material balance.
3. Understand adsorption isotherms and evaluate the processdesign
aspects of adsorption column.
4. Estimate total time for drying operation and understand different
types of drying equipment.
5. Identify the importance of crystallization and membrane separation
processes.
CHE322
Chemical
Reaction
Engineering - II
By the end of the course, the student will be able to:
1. Analyze the temperature and pressure effects of chemical reactions
2. Distinguish between ideal and non-ideal reactors
3. Characterize the catalyst by knowing their properties
4. Design solid-catalyst reactors
5. Formulate the mechanisms for solid-fluid and fluid-fluid reactions
CHE323 Material Science
and Engineering
By the end of the course, the student will be able to
1. Identify and depict the crystal structure and their properties based on
the structure.
2. Quantify the imperfections in a crystal.
3. Analyse the mechanical properties of engineering materials, draw the
stress – strain diagrams.
4. Classify composite materials and their importance in engineering
design and determine the type of fracture mechanism.
5. Outline heat treatment process to obtain required mechanical
properties for a given alloy.
CHE324 Chemical
Technology
By the end of the course, the student will be able to:
1. Outline the manufacturing of sulphur and nitrogen product industries.
2. Describe the manufacturing of phosphoric acid, chloro-alkali and
cement industries.
3. Understand the manufacture of coal chemicals and petroleum
products.
4. Acquire the knowledge on extraction of vegetable oils and
manufacture of paints and varnishes.
5. Describe the manufacture of pulp, cane sugar and polymerization
products
CHE325 Elective - II
(Petrochemicals)
By the end of the course, the student will be able to
1. Understand petrochemical industry feedstocks, various chemicals
produced from
methane.
2. Describe the production of different chemicals from C2 carbon atoms
3. Outline the production of different chemicals from C3, C4 and higher
carbon atoms and
production of various polymers.
4. Acquire the knowledge on production of petroleum aromatics
5. Describe the production of different intermediate chemicals, synthetic
fibres, rubber and
synthetic detergents.
CHE325
Elective - II
(Industrial
Pollution and
control)
By the end of the course, the student will be able to:
1. Understand the various types of pollution and their effects on man
and environment.
2. Analyze the sources and meteorological aspects of air pollution.
3. Comprehend the sampling and control methods of air pollution.
4. Understand the sampling and control methods of water pollution.
5. Acquire knowledge on management of solid and hazardous wastes.
CHE326 Mass Transfer
Laboratory
By the end of the course, the student will be able to,
1. Determine the diffusion an mass transfer coefficient.
2. Operate the various distillation equipments.
3. Evaluate the performance of mass transfer operations.
CHE327
Chemical
Reaction
Engineering
Laboratory
By the end of the course, the student will be able to
1. Determine the kinetics of a chemical reaction in various reactors
2. Acquire hands on experience on the operation of various ideal and
non-ideal reactors
CHE328
Chemical
Technology
Laboratory
By the end of the course, the student will be able to
1. Analyze water and other compounds
2. Prepare different industrial products on laboratory scale
IV/IV & I
Sem.
CHE412 Transport
Phenomena
By the end of the course, the student would be able to:
1. Determine the dependency of transport properties on pressure and
temperature.
2. Identify the coordinates and develop velocity, temperature and
concentration profiles in
laminar flow.
3. Apply equations of change for non-isothermal systems for solving
steady state problems.
4. Evaluate velocity distributions using time smoothed quantities.
5. Estimate the friction factors, heat transfer coefficients and mass
transfer coefficients
CHE413
Process
Dynamics and
Control
By the end of the course, the student will be able to:
1. Formulate and solve linear chemical processes
2. Develop block diagram and transfer function for a closed loop
system.
3. Analyze stability of control systems
4. Analyze the response of processes for various controllers
5. Acquire the knowledge on advanced control strategies, controller
tuning and control valves.
CHE414
Process
Modeling and
Simulation
By the end of the course the student will be able to:
1. Apply the fundamental laws to develop a mathematical model for
simple flow systems.
2. Formulate mathematical models for various types of reactors
3. Develop a mathematical model for various Mass transfer equipment.
4. Solve the mathematical models using numerical methods.
5. Simulate mathematical models for various operations.
CHE415
(A)
Elective - III-
Petroleum
Refinery
Engineering
By the end of the course, the student will be able to:
1. Formulate and solve linear chemical processes
2. Develop block diagram and transfer function for a closed loop
system.
3. Analyze stability of control systems
4. Analyze the response of processes for various controllers
5. Acquire the knowledge on advanced control strategies, controller
tuning and control valves.
CHE
415(C)
Elective - III:
Nanotechnology
By the end of the course, the student will be able to:
1. Understand the basics of nanotechnology
2. Classify different classes of nanomaterials.
3. Apply nanotechnology to chemical and its related industries
4. Process Design different synthesis route of nanomaterials
5. Apply chemical reaction engineering concepts for production of
different nanomaterials
CHE416
Process
Dynamics and
Control
Laboratory
By the end of the course, the student will be able to:
1. Outline the formation of crude oil and its reserves
2. Acquire knowledge on pretreatment and fractionation of petroleum
3. Predict the suitable treatment techniques for the desired products
4. Classify various petroleum cracking operations
5. Identify different refinery value addition processes
CHE417
Process
Modeling and
Simulation
Laboratory
By the end of the course, the student will be able to:
1. Represent the process in terms of mathematical equations.
2. Acquire hands on experience on simulation packages and tools.
CHE418 Project Seminar
By the end of the course, the student will be able to:
1. Prepare Technical Reports
2. Develop Presentation and Communication Skills
CHE419 Industrial
Tranining
By the end of the course, the student would be able to
1. Practically analyze various unit operations and processes in a
chemical industry.
2. Prepare a technical report
IV/IV & II
Sem. CHE421
Chemical
Process
Economics and
Equipment
Design
By the end of the course, the student would be able to
1 Outline the general design considerations for design / expansion of the
process.
2 Estimate the time value of money and depreciation
3 Compute the cost of an equipment and process plant
4 Evaluate mechanical design of equipment.
5 Design process equipment
CHE422
(B)
Elective - IV-
Process
Optimization
By the end of the course, student will be able to:
1. Apply the knowledge of optimization to formulate the problems
2. Apply different methods of optimization and to suggest a technique
for specific problem with a single variable
3. Apply different methods of optimization and to suggest a technique
for specific problem with multivariable.
4. Apply of simplex method for linear optimization problems
5.Understand how optimization can be used to solve the industrial
problems of relevance to the chemical industry
CHE423
Chemical
Process
Equipment
Design
Laboratory
By the end of the course, the student would be able to
1 Design heat transfer equipment
2 Design reactor and mass transfer equipment
CHE424 Project
By the end of the course, student will be able to:
1. Identify the gap between the needs of society and available
technology through literature survey
2. Formulate and analyze the objectives of their study
3. Aggregate research in the form of a written report
Department of Computer Science and Engineering
2.6.1 Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students
Computer Science & Engineering COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV - 1st
Sem
CSE111 ENGLISH 1.Analyze the structure of the phrases, clauses and sentences
2. Apply his enriched vocabulary to give better shape to his
communication skills.
3. Effectively use different formats of business correspondence.
4. Use idiomatic expressions and foreign phrases in his
communication.
5. Use correct structures to write sentences.
CSE112 ENGINEERING
MATHEMATICS-I 1. Familiarize with functions of several variables
2. Apply Fourier series in solving boundary value problems
3. Apply the concept of three dimensional analytical geometry
4. Use mathematical tools needed in evaluating multiple integral
and their usage.
5. Use the concepts of improper integrals, Gamma, Beta and
Error functions which are needed in Engineering applications
CSE113 ENGINEERING
CHEMISTRY 1. Adopt suitable technologies for domestic and industrial water
2. Identify & generalize the properties of semi conducting
materials used in various
3. engineering fields Design suitable batteries for different
applications.
4. Select and design of suitable material to prevent corrosion
and protecting metals from corrosion.
5. Develop green technologies for industrial processes.
6. solve scientific problems related to various engineering works
CSE114
PROFESSIONAL
ETHICS &HUMAN
VALUES
1. Understand the right code of conduct.
2. Assess his/her roles as a proactive member of the society
3. Solve moral dilemmas and issues
4. Implement Code of ethics of relevant Professional societies
CSE115
BASIC
ELECTRONICS
ENGINEERING
1. Analyze different types of diodes, operation and its
characteristics.
2. Design different types of voltage rectifiers.
3. Design and analyze the DC bias circuitry of BJT and FET and
set up required bias point
4. Design simple electronic circuits to accomplish a specific
function, e.g. DC power supplies, Electronic switches etc.
CSE116 ENGINEERING
CHEMISTRY LAB 1. Able to identify the suitable method for analyzing samples.
2. Able to analyze different types of water samples to test quality
parameters.
3. Able to use different types of instruments in estimating the
composition of materials in samples related to Soil, Water.
CSE117 PROGRAMMING
WITH C-LAB 1. Gain a working knowledge on programming.
2.Learn and use the fundamentals of a programming language
(such as languagedefined data types (int, float, char, double),
control constructs (sequence, selection,
repetition), program modules (including functions, modules,
methods)).
3.Exhibit the ability to formulate a program that correctly
implements the algorithm.
4. Demonstrate the effective use the programming environment
used in the course
I/IV -
2nd Sem
CSE121 ENGNEERING
MATHEMATICS-II
1. Solve linear system equations using of matrix algebra
techniques
2. Determine the Eigen values and vectors of a matrix
3. Apply different techniques in solving differential equations
that model engineering problem
4. Use the application of Differential equations like simple
electric circuits, Newtons law of cooling and to solve any higher
order linear ordinary differential equation with constant
coefficients
5. Solve linear differential equations and Network analysis using
Laplace transforms.
CSE122 ENGINEERING
PHYSICS
1. Design and conduct simple experiments as well as analyse and
interpret data in engineering applications
2. understand advanced topics in engineering
3. Identify formulae and solve engineering problems
4. Apply quantum physics to electrical phenomena
CSE123 ENVIRONMENTAL
SCIENCES
1.Understand the natural environment and its relationships with
human activities.
2.Characterize and analyze human impacts on the environment
3.Integrate facts, concepts, and methods from multiple disciplines
and apply to environmental problems
4.Design and evaluate strategies, technologies, and methods for
sustainable management of environmental systems and for the
remediation or restoration of degraded environments
CSE124 ENGINEERING
DRAWING 1.Perform basic sketching techniques will improve.
2.Draw orthographic projections and sections
3.Use architectural and engineering scales will increase
4. Produce engineering drawing will improve
5.Convert sketches to engineered drawing will increase.
6. Develop good communication skills and team work.
7. Become familiar with Auto CAD two dimensional drawings.
CSE125
ELEMENTS OF
ELECTRICAL
ENGINEERING
1.Calculate voltage a cross, current through and power supplied /
absorbed by an electrical element.
2.Obtain the performance characteristics of D.C. Machines.
3.Obtain the voltage regulation characteristics of a Transformer.
4. Obtain the performance characteristics of Induction Motor.
CSE126 ENGINEERING
PHYSICS LAB
1. Design and conduct experiments as well as to analyzeand
interpret data.
2. Identify, solve and apply fundamental physics principles
CSE127 LANGUAGE LAB 1. Handle CBT (Computer Based Tests) of the qualifying
examinations.
2. Receive, interpret, remember and evaluate information by
practicing effective listening skills.
3. Speak English with neutralized accent.
4. Narrate, describe and report incidents and situations using
appropriate terminology.
CSE128
OBJECT ORIENTED
PROGRAMMING
WITH C++ --LAB
1. Understand how to use the programming constructs of CPP.
2. Use Object Oriented Programming concepts to develop object
oriented programs.
3. Apply various object oriented features to solve real world
computing problems using C++ language.
CSE129 WORKSHOP 1. Make simple carpentry and fitting works
2. Understand and do different types of wiring for practical
requirements
3. Develop cross-sections of models for tin smithy and make
them.
4. It also helps in understanding of relevant skills required by the
engineer working in engineering industries and workshops.
II/IV -
1st Sem
CSE 211 DATA STRUCTURES
AND ALGORITHMS
1. Analyze the complexities of recursive and Non recursive
algorithms.
2. Apply ADT concepts such as arrays, stacks and queues for
solving infix to post fix, postfix evaluation, priority queues.
3. Apply the concepts of dynamic memory allocation for
reducing the time and space complexity of algorithms.
4. Implement linear, binary, interpolation, hashing searching
techniques and sorting techniques namely bubble, insertion,
selection, quick, merge sort.
5. Design and implement the Non linear data structures (trees
and graphs) to optimize the solution.
CSE 212 DIGTAL LOGIC
DESIGN
1. Analyze and synthesize logic circuits by applying the
knowledge of number systems, codes and Boolean algebra.
2. Implement new digital designs by synthesizing them using
modern engineering tool VHDL.
3. Design and analyze synchronous sequential machines
including registers & counters using gates & flip-flops.
CSE 213
DISCRETE
MATHEMATICAL
STRUCTURES
1.Understand set theory, relations, mathematical logic,
mathematical reasoning and to study about the validity of the
arguments.
2 Apply basic counting techniques to solve combinatorial
problems.
3 Understand Recurrence Relation, Generating functions and
solving problems involving recurrence equations.
4 Familiarize the different types of binary relations and related
algorithms on transitive closure.
5 Familiarize with the applications of graphs, trees and
algorithms on minimal spanning tress.
CSE 214
OBJECT ORIENTED
PROGRAMMING
WITH JAVA
1. Design Classes for Real Time Applications.
2. Establish The Connectivity Among The Classes Using
Inheritances And Interfaces.
3. Modularize The Application Using Packages and apply threads
on classes to achieve parallelism through synchronization.
4. Develop Test Cases By Including The Runtime Errors Using
Exceptions Handling Mechanism.
5. Identify AWT components to Design the GUI Using Applet &
AWT Frameworks
CSE 215
PROBABILITY,
STATISTICS &
QUEUING THEORY
1.Understand the concepts of various statistical measures like
mean, variance and standard deviation of a random variable.
2 Familiarize the different types of probability distributions and
their properties.
3 Compute simple correlation between the variables and fit
straight line, parabola by the principle of least squares.
4 Analyze the statistical data and apply various small or large
sample test for testing the hypothesis.
5 Learn about different Queuing models and its applications.
CSE 216 DATA STRUCTURES
LAB
1. Implement of stack and queue data structures and their
applications.
2. Implement operations like insertion, deletion, search and
traversing mechanism on binary search tree
3. Apply BFS and DFS algorithms to implement graph
traversal.
4. Implement the techniques for searching and sorting(quick
and merge).
CSE 217 DIGITAL
ELECTRONICS LAB
CSE 218 JAVA LAB 1.Understanding of OOP concepts and basics of Java
programming (Console and GUI based)
2. The skills to apply OOP and Java programming in problem
solving.
3. Should have the ability to extend his/her knowledge of Java
programming further on
his/her own.
II/IV -
1st Sem
CSE221 DATA
COMMUNICATIONS
1.Describe the basic data communications model, differentiate
TCP/IP models and examine the transmission impairments.
2.Analyse and explain the features of Transmission media,
various encoding techniques.
3. Apply the error correction and detection techniques.
4. Analyse the performance issues of different types of LANs
5 Explain the characteristics of multiplexing and spread spectrum.
CSE 222 MICROPROCESSORS
AND INTERFACING
1.To interpret the concepts of internal operations of the computer
and the working principles of Microprocessor.
2.To understand the architecture, pin configuration of 8085
Microprocessors along with the programming knowledge for
practical implementation of assemble level programming using
instruction set of 8085
3.To demonstrate the significance of Addressing modes and the
timing diagrams to analyse the working of the microprocessor.
4.Experimenting the interfacing of the 8085 microprocessor with
co-processors and External I/O devices.
5.To analyse the internal architecture and pin configuration of
8086 MicroProcessor along with the programming knowledge for
practical implementation of assemble level programming using
instruction set of 8085
CSE223 OPERATING
SYSTEMS
1. Illustrate the structure of OS, Functionality and services
provided by the OS.Analyse the concept of process state and state
transitions.
2. Implement the CPU Scheduling algorithms (FCFS, SJF,
PRORITY and ROUND ROBIN).Demonstrate the concept of
Process synchronization and resource allocation.
3. Apply and analyze the memory management mechanism
(virtual memory, demand paging and page replacement).
4. Demonstrate the structure and organization of file systems
and analyze the implementation of file systems.
Analyze the disk structure, disk scheduling, management and
protection issues
CSE 224 COMPUTER
ORGANIZATION
1.Identify the basic principles and apply to arithmetic for ALU
implementation.
2. Examine the functional aspects of processor unit.
3 Compare and assess the working principles of hardwired and
microprogrammed control unit .
4.Inspect addressing modes, instruction formats in various CPU
organizations and Assess the performance implications of
processing techniques.
5. Infer the design issues in memory and I/O organizations.
CSE225
FORMAL
LANGUAGES AND
AUTOMATA
THEORY
1. Analyze the finite automata and regular expressions for
accepting the language.
2. Apply rigorously formal mathematical methods to prove
properties of languages, grammars and automata.
3. Construct algorithms for different problems and correctness on
different restricted machine models of computation (Context free
grammar).
4. Construct a Pushdown automata for languages acceptance of a
PDA and pumping lemma for CFGs
5. Construct the Turing machine for accepting unrestricted
grammar and determine the decidability of computational
problems.
CSE 226
MICROPROCESSOR
& INTERFACING
LAB
1.Design, build, and debug simple microprocessor(8085) based
systems using MPS 85-3.
2. Analyse the modes of 8255 PPI and interfacing of peripheral
devices with 8-bit processor.
3.Apply the TurboC programming to interface the peripheral
interfaces to PCI component.
4.Apply the instruction set of 8086 microprocessor using
TASM/MASM emulators
CSE227 OPERATING
SYSTEMS LAB Develop operating system level programs.
2. Implement shell script commands & programs.
3. Examine Process scheduling and memory management
algorithms in an operating systems..
4. Identify Deadlock occurrence in an operating systems.
CSE 228 HARDWARE LAB 1. Identify the peripherals of a computer and CPU components .
2.Distinguish disassemble and assemble the PC.
3.Interpret the installation of Windows and Linux Operating
systems.
4.Determine the Hardware Defectives and software errors in
computer system.
III/IV -
1st Sem
CSE
311(A)
File systems & Data
Bases
1.differentiate the architecture of file systems and Databases and
interpret them
2.design E-R Diagrams and Relational Model
3.analyze and practice Query Processing
4.analyze and apply Normalization technics.
5.observe Transaction Processing, Concurrency Control.
CSE
311(B)
Computer Operating
Systems
1. Recall the basics like need, functions, Challenges of Operating
System and processes concepts.
2. Analyse the theory and logic behind inter process
communication, Synchronization and deadlock handling.
3. Differentiate various memory management techniques.
4. Utilize file system interface, protection and security
mechanism disk management and disk scheduling algorithms for
better utilization of memory.
5. Compare various features like scheduling, memory
management etc of different Operating systems.
CSE 311© Fundamentals of
Computer Networks
1.Analyzing the basics fundamental of Data Communications and
Computer Networks protocols.
2. Enumerate the layers of the OSI model and TCP/IP
3. Specify and identify deficiencies in existing protocols, and then
go onto formulate new and better protocols.
4. Should have the ability to administrate a network and analyze
the flow of information in computer network.
5. Identify the different types of network devices and their
functions within a network.
CSE
311(D)
Concepts of Object
Oriented Programming 1. Identify the peripherals of a computer and CPU components .
2. Establish the Connectivity Among The Classes Using
Inheritances and Interfaces
3. Modularize the Application Using Packages
4. Add the Test Cases By Including The Runtime Errors Using
Exceptions Handling Mechanism.
5. Develop the GUI Using Applet and AWT Frameworks
CSE 312
DATA BASE
MANAGEMENT
SYSTEMS
1. Interpret the basic concepts of Database Management Systems,
Transaction Management and Architecture of DBMS.
2. Apply the principles of ER Model and Relational Model in
Conceptual and Logical Database Design.
3. Construct and evaluate SQL Queries and Relational Algebra,
Relational Calculus expressions.
4. Apply the principles of normalization in schema refinement.
5.Investigate different transaction management and recovery
techniques
CSE313 COMPUTER
GRAPHICS
1. Explain computer graphics, applications and contemporary
terminology, hardware components etc.
2. Design 2D and 3D objects using algorithms and apply
attributes of primitives, anti -aliasing.
3. Apply geometric transformations on 2D and 3D objects.
4. Apply viewing transformations on 2D and 3D objects
5. Explain visible surface methods
CSE314 COMPUTER
NETWORKS
1. Identify the network model and the hardware components at
physical layer.
2. Analyze the organization structure; choose the most
appropriate network architecture and technology.
3. Contrast connection oriented and connection less services for
datagram transformation. Discuss routing algorithms, congestion
control algorithms and network layer protocols.
4. Illustrate transport layer, application layer protocols and
security issues in transport layer.
5. Analyze domain name system, SNMP architecture and
management protocols.
CSE315
DESIGN &
ANALYSIS OF
ALGORITHMS
1. Demonstrate the steps for algorithmic problem solving, types
of problems and asymptotic notations. Analyze the recursive and
non-recursive algorithms using time and space complexity.
2. Analyze the brute force, decrease –and -conquer, divide -and-
conquer methods for solving the sorting, searching, permutations
and combinations, subset sum, matrix multiplication, convex hull
and closest pair problems.
3. Examine the transform-and-conquer, dynamic programming
approaches for solving of pre-sorting techniques, heap sort,
Balanced Trees, optimal binary search tree, Warshall’s & Floyd’s
algorithms , Knapsack problems.
4. Apply prim’s, Kruskal’s and Dijkstra’s for finding a shortest
path in a graph. Apply Huffman methods for encode and decode
the text.
5. Demonstrate the concepts of P , NP and NP-hard problems .
Analyze limitations of Back tracking, branch and bound
approaches.
CSE 316
DATA BASE
MANAGEMENT
SYSTEMS LAB
1.Write and compile basic SQL queries.
2. Write and compile complex queries like nested queries and
joins
3. Construct triggers and views and stored procedures.
4. Design and implement a database schema for given problem
domain
5. Normalize a database and formulate integrity constraints
accordingly.
CSE317 COMPUTER
NETWORKS LAB
1. Implement various Network Topologies using Simulation
Tools.
2. Implement the various protocols using simulation tools
3. Analyze the performance of the protocols in different layers.
4. Implement and compare various routing algorithms
5. Implement programs using socket
CSE 318 SOFT SKILLS LAB 1.Work effectively in teams and emerge as leaders.
2.Practice positive postures and gestures and communicate with
others effectively.
3.Present a topic confidently using positive body language and
appropriate material aids.
4.Participate in group discussions and give a proper direction to
the discussion by playing a few positive roles.
5.Set a few short term and long term goals for himself and meet
the demand of the time-bound tasks which would give him
direction for his successful career.
CSE 319 QUANTITATIVE
APTITUDE I
1. Solve problems related to numerical computations in company
specific and other competitive tests.
2 Able to recall and use the concepts to solve problems numerical
estimation with respect to company specific and competitive
tests.
3 Apply basic principles related to geometry and mensuration &
solve questions in company specific and competitive tests.
CSE 319 VERBAL APTITUDE
I
1 Detect grammatical errors in the text/sentences and rectify them
while answering their competitive/ company specific tests and
frame grammatically correct sentences while writing.
2 Answer questions on synonyms, antonyms, hyponyms,
hypernyms and other vocabulary based exercises while
attempting company specific and other competitive tests.
3 Use their logical thinking ability and solve questions related to
reasoning based exercises.
4 Choose the appropriate word/s/phrases suitable to the given
context in order to make the sentence/paragraph coherent.
5 Analyze the given data/text and find out the correct responses to
the questions asked based on the reading exercises; identify
relationships or patterns within groups of words or sentences.
III/IV -
2nd Sem
CSE321 COMPILER DESIGN
CSE 322 SOFTWARE
ENGINEERING
1. Classify the process of project life cycle model and design the
SRS
2. Summarize & Evaluate the different architecture styles
3. Design the real world system based on Functional Oriented and
Object Oriented Approach by using UML & DFD diagrams
4. Apply testing techniques on software products
5. Analyse & estimate the Software quality by using COCOMO
model
CSE323 WEB
TECHNOLOGIES
1.Given the knowledge of HTML, CSS and JAVASCRIPT,
Learner is able to Design the static web pages using HTML5,
apply styles using CSS and provide dynamic nature to the web
pages using JAVASCRIPT to create a good website structure.
2.Apply the PHP concepts of decision making, looping, form
processing, cookies, sessions to create a responsive website, to
deploy the website in the server, analyze the browser capabilities.
3.Understand the need for a web server, servlets-life cycle,
servlet API,HTTP Packages for handling http request and
responses, cookies, session tracking concepts, compare servlets
and CGI in website development with respect to handling request
and responses..
4.Understand Java Server Pages (JSP) objects, variables, error
handling, passing control between JSP pages, scope and memory
usage of objects, Compare JSP and servlets in website
development.
5. Develop a website to access database content from the user
interface using database programming using PHP, Servlets and
JSP. Identify the need of JSON in websites by understanding
JSON syntax, objects and arrays.
CSE 324
ADVANCED
COMPUTER
ARCHITECTURE
1. Describe the functional requirements, performance analysis
and technology enhancements of different classes of architecture.
2. Explain about different levels of memory arrangement and
demonstrate the memory hierarchical arrangement of Arm
Cortex-A8 and Intel Core i7.
3. Analyze the principle of instruction level parallelism through
pipelining in Intel Corei7 and ARM CORTEX A-8 processors.
4. Analyze the thread level parallelism on distributed shared
memory and directory based coherence by applying
synchronization techniques in multi core processor environment.
5. Illustrate the workloads for Google warehouse-scale
computer.
CSE325(A) Smart Systems Design
& Programming
1.To describe the Embedded system fundamentals, design and
memory management.
2.To write programs in ARM based assembly level language.
3.To design Embedded system applications.
4.To test and debug embedded system applications.
5.To develop applications on Arduino and Raspberry Pi kits.
CSE325(B) High Performance
Computing
1. Interpret contemporary computing machines, Performance
metrics of multicore machines, parallel programs.
2. Apply PCAM methodology, Decomposition patterns for
multicore machines, parallel programs.
3. Examine shared memory programming and Thread
Management methods.
4. Analyze Loop-level parallelism, Task parallelism and its
optimization issues.
5. Estimate Distributed memory programming and
communication methods namely point-to-point, Non-blocking
communication
CSE325(C)
Principles Of
Programming
Languages
1. Identify the importance of programming languages and
programming environments.
2. Analyse the scope of the variables based on the datatypes.
3. Evaluating the expressions and programs for solving a
computational problem.
4. Memorize the principles of programming language
abstractions.
5. Analyse the concepts of Exception Handling in object oriented
programming languages.
CSE325(D) Advanced Data
Structures
1. Apply Sets, map ,Dictionary, skip lists and hash tables to text
compression
2. Analyse advantages and disadvantages to Red black trees,
splay trees, and B-trees.
3. Apply sorting algorithm to data structures to solve problems.
4. Demonstrate the external memory and external sorting
algorithms.
5. Analyse variety of graph data structures (ADT) and their
implementations of DFS.
CSE325(E) Digital Image
Processing
1. Apply the basic concepts of 2D image acquisition, sampling,
quantization, relationships between pixels and components of
image.
2. Analyze the filtering techniques in spatial domain for face
reorganization, pattern reorganization and segmentation.
3. Analyze and apply the filtering techniques in frequency
domain for classify the images.
4. Apply image morphological techniques for manipulate
digital images
5. Apply the image Segmentation techniques on Edge detection
and Region-Based Segmentation.
CSE325(F) No SQL Data Bases 1.Compare and contrast the uses of relational RDBMSs and
NoSQL systems for different types of data and applications.
2.Differentiate various data models.
3.Differentiate Key value Databases and document databases.
4. Apply image morphological techniques for manipulate
digital images
CSE 326
OPEN SOURCE
TECHNOLOGIES
LAB
1.Understand and analyze an open source software project.
2.Examine open source project workflow using github.
3.Develop static web pages using HTML, CSS.
4.Develop a dynamic web site with Client side scripting
language-Javascript and Server side scripting language-PHP
5.Integrate PHP, JAVASCRIPT and MYSQL technologies in
open source environments to develop a complete web site and
deploy the website using WAMP/MAMP/LAMP/XAMP Servers.
CSE327
SOFTWARE
ENGINEERING
LAB/MINI PROJECT
LAB
1. Analyze the case study and apply the UML notations.
2. Estimate the project metrics using COCOMO
3. Calculate the complexity using McCabe's Cyclomatic
Complexity
4. Compare and contrast testing techniques
CSE 328 QUANTITATIVE
APTITUDE II
1.Use their logical thinking and analytical abilities to solve
reasoning questions from company specific and other competitive
tests.
2.Solve questions related to permutation & combinations and
probabilities from company specific and other competitive tests.
3.Understand and solve puzzle related questions from specific
and other competitive tests
CSE 328 VERBAL APTITUDE
II
1.Write paragraphs on a particular topic, essays (issues and
arguments), e mails, summaries of group discussions, make notes,
statement of purpose (for admission into foreign universities),
letters of recommendation (for professional and educational
purposes)
2.Converse with ease during interactive sessions/seminars in their
classrooms, compete in literary activities like elocution, debates
etc., raise doubts in class, participate in JAM sessions/versant
tests with confidence and convey oral information in a
professional manner using reason
3. Prepare his/her resume, apply the business English concepts
learnt in the course, and refine one’s overall demeanor which
would be very essential to face the corporate world
4. Prepare his/her resume, apply the business English concepts
learnt in the course, and refine one’s overall demeanor which
would be very essential to face the corporate world
5. Respond to their interviewer/employer with a positive mind,
customize answers to the questions asked during their
technical/personal interviews, exhibit skills required for the
different kinds of interviews (stress, technical, HR) that they
would face during the course of their recruitment process
IV/IV -
1st Sem
CSE411(A) Introduction to Soft
Computing 1.To comprehend the basic concepts of artificial neural networks.
2.To analyze different artificial neural network structures and
their uses thereby.
3.To analyze the mechanism Fuzzy logic and Fuzzy inference
systems.
4.To be able to solve classification and selection problems.
5.To design fitness functions to solve various optimization
problems.
CSE411(B) Web Designing 1.Develop the static web pages using HTML
2.Analyze a web project and identify its elements and attributes in
comparison to traditional project.
3.Demonstrate computational and problem solving skills as
applied to the computing industry.
4.Apply the knowledge to create dynamic web pages using
Servlets ,JSP.
5.Developweb application using software tools and identify the
environments currently available on the market to design web
sites
CSE411(
C) Cloud Computing
1. To be familiar with the basics, challenges, need of cloud
computing.
2.Able to identify infrastructure of cloud.
3.Describe different cloud services.
4.Analyzing different cloud data storage and cloud security
options.
5. To analyze the need to migrate to the cloud and how cloud
computing might evolve.
CSE411(D
)
Fundamentals of
Digital Image
Processing
1.Demonstrated understanding of the basic concepts of two-
dimensional signal acquisition, sampling, and quantization
2.Demonstrated understanding of spatial filtering techniques,
including linear and nonlinear methods
3.Demonstrated understanding of 2D Fourier transform concepts,
including the 2D DFT and FFT, and their use in frequency
domain filtering.
4. Demonstrated understanding of the fundamental image
enhancement algorithms such as histogram modification, contrast
manipulation, and edge detection
5.Demonstrated programming skills in digital image processing
related problems
CSE412
CRYPTOGRAPHY &
NETWORK
SECURITY
1. Memorizing the concepts of Cryptographic systems.
2. Interpret the application of Cryptographic Techniques in
Network Security.
3. Apply the algorithms to achieve the security goals of
Confidentiality, Authentication and Integrity to a given
application.
4. Determine the applications of authentication mechanisms.
5. Illustrate the techniques of Intrusion Detection systems and
Firewalls.
CSE413
OBJECT
ORIENDTED
ANALYSIS &
DESIGN
1. Outline the concepts & principles of Object Oriented
Programming
2. Model UML diagrams according to object oriented
Methodologies
3. Summarize on Object oriented Analysis & Identify the
Classes
4. Structuring the basics of object Oriented Design along with
patterns
5. Design Access Layer ,View layer & protocols for classes
CSE414(A) Mobile Computing 1.Interpret the GSM architecture and its services.
2. Analyze the various wireless applications and study technical
feasibility of various mobile applications.
3.Utilize the mobile network layer protocols and its
functionalities.
4.Analyze & develop any existing or new models of mobile
environments for 3G networks.
5.Evaluate and create the platform, protocols and related concepts
of Ad hoc and Enterprise wireless networks
CSE414(B) Distributed Operating
Systems
1. Analyze the system model, software layers of distributed
operating systems and its challenges.
2. Examine the inter-process communication, TCP stream
communication procedures and protocols.
3.Evaluate the concepts of Remote procedural calls and
communication among objects in distributed operating system.
4. Apply the knowledge of peer-to-peer system, distributed
mutual exclusion of distributed file system in real world scenario
5.Apply concurrency control, deadlock management techniques
in distributed operating system for group communication.
CSE414(
C)
Neural Networks &
Deep Learning 1.Examine different neural network architectures.
2.Describe the underlying mathematics in neural networks and
deep learning algorithms.
3.Select an appropriate neural network approach for a given task.
4.Identify the deep learning algorithms which are more
appropriate for various types of learning tasks in various
domains.
5.Implement neural networks & deep learning algorithms and
solve real-world problems.
CSE414(D
)
Human Computer
Interaction
1.Make use of four pillars of design, participatory design,
scenario development of design processes that supports social,
ethical and legal issues.
2.Apply an interactive design process and universal design
principles to design HCI systems.
3. Analyze Importance of response time, attitudes and user
productivity related to quality of service on Display Design, Web
Page Design, Window Design HCI Systems.
4.Distinguish the online user documentation from paper
documentation along with online communities’ assistance.
5.Compare searching and visualization methodologies in Textual
Documents, Database Querying, and Multimedia Documents.
CSE414(E
) Pattern Recognition
1. Apply pattern recognition techniques, simple pattern classifiers
and discriminate functions for a normal density.
2. Analyze the statistical bases of the classification theory
3. Analyze segmentation using non parametric techniques and
linear discriminate functions.
4. Evaluate multi layer neural networks components, operations
and algorithms.
5. Apply stochastic methods and non metric methods on real
world problems
CSE415(A) Computer vision 1.Summarize the effect of radiometry in space and surface,
Interpret local and global shading models and its effects.
2.Identify appropriate linear filter mechanisms to enhance texture
images
3.Make use of clustering mechanisms in order to perform image
segmentation.
4.Apply fitting mechanisms on lines, curves and different shapes
for image segmentation.
5.Classify the images fitting usingClass Histograms, Feature
Selection, Neural Networks, Support Vector Machines.
CSE415(B) Embedded Systems 1.Find the basic components required to build an embedded
system.
2.Select an appropriate software architecture to build an
embedded system..
3.Design embedded software using RTOS.
4.Build embedded software using different software tools.
5.Debug embedded software using different software and
hardware tools.
CSE415© Data Ware Housing &
Data Mining
1. Extend the basics, challenging issues in Data Mining data
warehousing and OLTP technologies.
2. Focus on data pre-processing approaches and data mining
primitives, language, system architecture.
3. Analyze data generalization, summarization-based
characterization; attribute relevance analysis in concept
description. Analyze association rule mining in large databases.
4. Illustrate classification by using decision tree induction,
Bayesian , back propagation and prediction methods.
5. Interpret categorization of major clustering methods.
CSE415(D) Machine Learning
1. Demonstrate well posed machine learning problems and
examine Find-s, version space and candidate elimination
algorithm.
2. Construct and analyze the problems and issues of decision
tree learning algorithm.
3. Apply Bayes theorem, concept learning, maximum
likelihood, least squared error hypothesis for classification of text
data.
4. Illustrate neural network representation, problems of neural
networks and back propagation algorithm
5. Determine nearest neighborhood learning and locally
weighted regression. Illustrate optimization problems using
genetic algorithms.
CSE415(
E) Cyber Security
1. Explain about vulnerability scanning approaches and
describe the functionality of different types of scanning and
service tools.
2. Comprehend about networking layersand summarize the
defense methodologies and its relevant tools functionality.
3. Describe and inspect web vulnerabilities through Zed Attack
Proxy, Sqlmap. DVWA, Webgoat and password cracking
mechanisms.
4. Comprehend the cybercrime scenario and recognize the
appropriate cyber law.
5. Demonstrate the cybercrime scenario and solve the crime
through investigation by applying ethical hacking mechanisms.
CSE416
CRYPTOGRAPHY &
NETWORK
SECURITY LAB
1.Demonstrate the process of capturing Network traffic using
tools(Ethereal,Wireshark, Tcpdump).
2.Implement Cryptographic algorithms DES,RSA in C/C++/Java.
3.Build Secure Communication Channel for Web
Communications.
4.Use tools NMAP and IP Tables for Network Security .
CSE417
INDUSTRIAL
TRAINING &
SEMINAR
1. Demonstrate the use, interpretation and application of an
appropriate international engineering standard in a specific
situation.
2. Analyze a given engineering problem, identify an appropriate
problem solving methodology, implement the methodology and
propose a meaningful solution.
3. Apply prior acquired knowledge in problem solving.
CSE418 PROJECT I 1. Identify the problem and perform the literature survey
2. able to summarize the literature review,analyze the previous
researcher's work and relate them to current project
3.able to identify the appropriate method to the particular
problem
IV/IV -
2nd Sem
CSE421(A) Client Server
Computing 1. Analyse the concept of client server computing.
2. Describe the components of client/ server applications.
3. Analyze the client/ server network.
4. Demonstrate the developments of client/ server systems
5. Analyze the roles and responsibilities of server and database
administrator.
CSE421(B) Augmented Reality 1.understand augmented reality and its future as an aiding tool
2.know and use different hardware and software components to
build an augmented reality application
3.design 3D or 2D objects that can act as contents for augmented
reality application and also to make these objects interact with the
real world
4.build a small mobile augmented reality app that works on AR
Marker.
5.understand various application for augmented reality and work
on those application areas
CSE421(
C) Semantic Web
1.understand the semantic web as the future of the web and its
importance
2.understand and differentiate between taxonomies, thesauri and
ontologies along with gaining knowledge on rules for building
ontologies.
3.describe a resource using RDF format along with working on
RDF schema and OWL. And also developing the inference rules
using rule languages.
4.build an ontology model using the tools like prot g , Jena
ontology framework.
5.develop a small application of semantic web like a semantic
desktop with limited functionality.
CSE421(D) Big Data Analytics 1.know fundamental basis of big data
2.know the modern storage concepts and devices for storing big
data
3.know big data processing algorithms
4.handle and analyze business data
5.develop methods for business data analysis
CSE421(E) Information Security &
Auditing
1. Explain the basic concepts and summarize techniques in
intrusion detection system.
2. Interpret the types of firewalls and explain the mechanism of
intrusion prevention system using security tools.
3. Develop the general techniques in establishing security and
audit in IT Infrastructure.
4 .Describe and develop basic concepts and general techniques in
risk assessment, handling legal and ethical issues.
5.Analyse various internet protocol security and standards and
operating system security.
CSE421(
F)
Social Network
Analysis 1. Analyse the basic components of Social Network.
2. Model and visualize the social network.
3.Illustrate the mining communities in the social network.
4.Infer and evaluate the techniques for Text and Opinion Mining.
5.Investigate security and privacy issues in social networking
sites.
CSE422(A) Network Management
1. Describe Communications protocols, network management
standards (OSI and TCP/IP) and illustrate the challenges and
issues in network management.
2. Explain SNMP V1 model, functionality and its
communication in the network.
3.Demonstrate SNMP V2 architecture, protocol and its
information management.
4.Evaluate various commercial network management systems and
open network management systems.
5.Analyse and interpret functionality of Network Management
Tools and Systems and use NMS tools on web based applications
management.
CSE422(B) Fuzzy Computing
1.Illustrate the Utility, Limitations, Uncertainty, accuracy in
fuzzy system. Differentiate between Fuzzy sets ,crisp sets and
their relational operations
2. Apply Fuzzification and de-Fuzzification with different
member functions.
3. Demonstrate automated methods of learning, Rule-based
systems, Graphical techniques of inferences
4.Identify Batch least squares algorithm, Recursive least squares
algorithm, Gradient method, Clustering method for problem
solving
5.Examine decision making methods Synthetic evaluation,
Preference &consensus, Multiobjective decision making and
classification & clustering methods namely Crisp relations and
Fuzzy relations, Hard c-Means (HCM) and Fuzzy c-Means
(FCM).
CSE422(C) Wireless Sensor
Networks
1. Memorizing the concepts and the need of wireless sensor
networks.
2. Apply the infrastructure of the WSAN.
3. Analyse the routing protocols & algorithms to implement the
wireless sensor networks.
4. Identify the challenges of wireless sensor networks.
5. Evaluating the problems of critical nodes and links.
CSE422(F) Cloud Computing 1. Classify the architecture, taxonomy of parallel distributed
computing and role of cloud computing for a business case.
2 . Analyze security, different levels of network and services in
infrastructure of cloud
3. Differentiate the IaaS, PaaS and Saas cloud services ,contrast
the services to the business case as Amazon, Salesforce, google
app Engine and Microsoft.
4. Analyzing the cloud data storage, data security challenges and
cloud security
5. Analyze the need to migrate to the cloud and best practices of
cloud computing evolution
CSE422(G) Computing
Optimization
1.Develop optimization models for various problem specific
solutions.
2.Apply evolutionary programming and strategies in engineering
aspects.
3.Design fitness functions.
4.Apply variety of evolutionary programming computing
techniques.
CSE423 PROJECT II 1.Analyze the steps to find the solution to the problem
2.Evaluate the result with the given problem
3.Produce the project outcome of good quality
CSE424 MOOC
Department of Electronics and Communication Engineering
2.6.1 Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students
Electronics & Communication ENGINEERING COURSE OBJECTIVES AND COURSE OUTCOMES (R15
Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV & I
Sem.
ECE 111 ENGLISH Analyze the structure of the phrases, clauses and sentences
Apply his enriched vocabulary to give better shape to his
communication skills.
Effectively use different formats of business
correspondence.
Use idiomatic expressions and foreign phrases in his
communication.
Use correct structures to write sentences.
ECE 112 ENGINEERING
MATHEMATICS-I Familiarize with functions of several variables
Apply Fourier series in solving boundary value problems
Applythe concept of three dimensional analytical geometry
Use mathematical tools needed in evaluating multiple
integral and their usage.
Use the concepts of improper integrals, Gamma, Beta and
Error functions which are needed in Engineering
applications
ECE 113 ENGINEERING
CHEMISTRY
Adopt suitable technologies for domestic and industrial
water
Able to distinguish different material properties to be used
in the semiconductor electronic devices.
Design suitable batteries for different applications.
Select and design of suitable material to prevent corrosion
and protecting metals from corrosion.
Develop green technologies for industrial processes.
solve scientific problems related to various engineering
works
ECE114 PROFESSIONAL ETHICS
AND HUMAN VALUES Understand the right code of conduct
Assess his/her roles as a proactive member of the society
Solve moral dilemmas and issues
Implement Code of ethics of relevant Professional societies
ECE115 ENGINERING PHYSICS Design and conduct simple experiments as well as analyse
and interpret data in engineering applications
understand advanced topics in engineering
Identify formulae and solve engineering problems
Apply quantum physics to electrical phenomena
ECE 116 ENGINEERING
CHEMISTRY LAB Able to identify the suitable method for analyzing samples.
( Able to analyze different types of water samples to test
quality parameters.
Able to use different types of instruments in estimating the
composition of materials in samples related to Soil, Water.
ECE 117 PROGRAMMING WITH
C LAB Gain a working knowledge on programming.
Learn and use the fundamentals of a programming
language (such as language-defined data types (int, float,
char, double), control constructs (sequence, selection,
repetition), program modules (including functions,
modules, methods)).
Exhibit the ability to formulate a program that correctly
implements the algorithm.
Demonstrate the effective use the programming
environment used in the course.
I/IV & 2
Sem.
ECE121 ENGINEERING
MATHEMATICS-II Solve linear system equations using of matrix algebra
techniques
Determine the Eigen values and vectors of a matrix
Apply different techniques in solving differential equations
that model engineering problem
Use the application of Differential equations like simple
electric circuits, Newtons law of cooling and to solve
any higher order linear ordinary differential equation with
constant coefficients
Solve linear differential equations and Network analysis
using Laplace transforms.
ECE122 APPLIED PHYSICS Correlate the theoretical principles with experimental
observations
Identify engineering materials for specific engineering
applications
Apply the knowledge of advanced materials for
engineering applications
ECE123 ENVIRONMENTAL
SCIENCES
Understand the natural environment and its relationships
with human activities.
Characterize and analyze human impacts on the
environment.
Integrate facts, concepts, and methods from multiple
disciplines and apply to environmental problems
Design and evaluate strategies, technologies, and methods
for sustainable management of environmental systems and
for the remediation or restoration of degraded
environments
ECE124 ENGINERING DRAWING Perform basic sketching techniques will improve.
Draw orthographic projections and sections
Use architectural and engineering scales will increase.
Produce engineering drawing will improve.
Convert sketches to engineered drawing will increase.
Develop good communication skills and team work.
Become familiar with Auto CAD two dimensional
drawings.
ECE125 BASIC ELECTRONICS
ENGINEERING Understand the behavior of passive electrical components
Determine Acquire knowledge on measuring physical
variables using meters/ instruments such as volt meters,
ammeters power supplies, CRO etc according to the range
selected.
Determine the parameters of the semiconductor devices
such PN junction diode, Zener diode, LED, etc., from the
electrical behaviour of the devices.
Understand how to operate transistor such as BJT, JFET
and MOSFET in the desired operating region using any of
the available biasing techniques.
Analyze the characteristics of Integrated circuits and its use
in several applications in electronics circuits particularly
the IC Op- Amp and 555 timer, IC voltage regulators etc.
ECE126 ENGINEERINGPHYSICS
LAB
Design and conduct experiments as well as to analyze and
interpret data.
Identify, solve and apply fundamental physics principles
to solve engineering problems
ECE127 LANGUAGE LAB Handle CBT (Computer Based Tests) of the qualifying
examinations.
Receive, interpret, remember and evaluate information by
practicing effective listening skills.
Speak English with neutralized accent.
Narrate, describe and report incidents and situations using
appropriate terminology.
ECE 128
OBJECT ORIENTED
PROGRAMMING WITH
C++ LAB
Understand how to use the programming constructs of
CPP.
Use Object Oriented Programming concepts to develop
object oriented programs.
Apply various object oriented features to solve real world
computing problemsusing C++ language.
ECE129 WORKSHOP Make simple carpentry and fitting works
Understand and do different types of wiring for practical
requirements
Develop cross-sections of models for tin smithy and make
them.
It also helps in understanding of relevant skills required by
the engineer working in engineering industries and
workshops.
II/IV & 1
Sem.
ECE 211 ENGINEERING
MATHEMATICS –III
Understanding the concepts of Gradient, Divergence and
Curl and finding scalar potential function of irrrotational
vector fields.
Understanding the concepts of Green’s Theorem, Stokes’
Theorem and the Divergence Theorem and to evaluate line
integrals, surface, integrals and flux integrals.
Understand some basic techniques for solving linear partial
differential equations and how to identify a partial
differential equation in order to determine which
technique(s) can best be applied to solve it.
Understand the methods to solve the Laplace, heat, and
wave equations.
Gain good knowledge in the application of Fourier
Transforms.
ECE 212 ELECTRICAL
MACHINES Find efficiency of DC Machine
Find Regulation and Efficiency of Single phase
Transformer
Analyze the performance of Induction Motors
Understand working of synchronous machine
Understand basic concepts of Electric Power System
ECE 213 DATA STRUCTURES Demonstrate the knowledge in problem solving techniques.
Write programs for different data structures
Implement different applications using tree structures.
Implement various sorting techniques
Apply and implement learned algorithm design techniques
and data structures to solve problems using Graphs.
ECE 214 SIGNALS AND SYSTEMS
Apply transformations on the independent variable of the
given CT and DT signals and analyze the properties of CT
and DT signals and systems.
Represent mathematically the CT and DT LTI systems and
determine the response of an LTI system for the given
input signal using either convolution integral or
convolution sum.
Represent CT and DT signals and systems in the
Frequency domain using Fourier Analysis tools like CTFS,
CTFT, DTFS and DTFT.
Represent the CT signals in terms of its samples and
reconstruct using interpolation.
Represent DT signals in the Frequency domain and
analyze DT systems using Z-Transforms and analyze CT
signal and systems using Laplace transforms
ECE 215 NETWORK ANALYSIS
AND SYNTHESIS
Apply basic network theorems and analyze both D.C and
A.C. circuits.
Determine various parameters of two port networks.
Analyze circuits under resonant condition.
Calculate natural and forced response of RL, RC & RLC
circuits
Measure real, reactive, apparent power in three phase
circuits.
ECE 216 ELECTRONIC CIRCUITS
AND ANALYSIS-I
Determine the performance parameters like current gain,
voltage gain, input impedance, output impedance using the
models such as h-parameter model, simplified CE h –
parameter model and π-model.
Analyze the frequency response characteristics of single
stage and multistage amplifier circuits (i.e. given a lower
cut off, upper cut-off frequencies of an amplifier
determining the coupling and bypass capacitor values) and
different circuit configurations for improving the transistor
amplifier characteristics such input impedance, voltage
gain etc.
Analyze the response of linear wave shaping circuits such
as high pass and low pass filter circuits for different types
of inputs such as step input, pulse input, square input ramp
input.
Analyze the response of Non-linear wave shaping circuits
such as clipping and clamping circuits when the sinusoidal
input is applied and to design two level clipping circuits in
order to select the desired portion of the input signal.
Determine the stable state voltages and currents and
design the various multivibrators to meet the given
specifications.
ECE 217
ELECTRONIC CIRCUITS
AND ANALYSIS-I
LABORATORY
Measure the important parameters of a PN diode and to
implement for various Applications.
Design and construct different rectifier and voltage
regulation circuits used in regulated Power supplies.
Design amplifier circuits for specific applications, based on
their input and output Characteristics of BJT and FET.
Design and verify the output of linear wave shaping
circuits for different inputs.
Design and analyze different multivibrator circuits.
ECE 218 NETWORK & EM
LABORATORY Conduct the experiments based on basic network theorems.
Predict the characteristics of D.C machines and single
phase transformers
Predict the regulation of an alternator.
II/IV & 2
Sem.
ECE 221 ENGINEERING
MATHEMATICS –IV
Understand, interpret and use the basic concepts: Analytic
function, harmonic function, Taylor and Laurent Series,
Singularity, Residues and evaluation of improper integrals.
Familiarize the concepts of Finite Differences and
Interpolation techniques.
Familiarize the concept of Differentiation and Integration
by numerical methods.
Understand the characteristics and properties of Z-
transforms and its applications.
Analyze the Statistical data by using statistical tests and to
draw valid inferences about the population parameters.
ECE 222 ELECTRONIC CIRCUITS
AND ANALYSIS-II
Analyze negative feedback amplifiers and sinusoidal
oscillators for different performance metrics such as input
impedance, output impedance, voltage gain, condition for
oscillations, frequency of oscillations etc.
Determine the resonant frequency for the tuned voltage
amplifiers and analyze class-A, class-B, class-AB , class-C
amplifiers for efficiency.
Analyze current mirror differential amplifier circuits using
BJTs.
Design and analyze analog circuits like integrator,
differentiator, comparator, instrumentation amplifier and
logarithmic amplifier using op-amps.
Analyze the response of common source, common drain
and common gate amplifiers with enhancement and
depletion loads.
ECE 223 DIGITAL ELECTRONICS
Perform number conversions between different number
systems and codes and apply Boolean algebra to minimize
logic expressions up to three variables.
Analyze the characteristics of logic families and compare
their performance in terms of performance metrics.
Apply tabulation method to minimize logic expressions up
to Five variables and design a combination logic circuit
like decoders, encoders, multiplexers, and de-multiplexers
etc. for a given specification and verify the correctness of
the design.
Analyze the operation of sequential circuits built with
various flip-flops by finding the Boolean function or truth
table and design various sequential circuits like flip-flops,
registers, counters etc.
Design of sequential detector by constructing a state/output
tables or diagrams from a word description or flow chart
specification of sequential behavior using either mealy
and/or Moore machines.„
ECE 224
PROBABILITY THEORY
AND RANDOM
PROCESSES
Calculate probabilities and conditional probabilities of
events defined on a sample space.
Compute statistical averages of one random variables using
probability density and distribution functions and also
transform random variables from one density to another
Compute statistical averages of two or more random
variables using probability density and distribution
functions and also perform multiple transformations of
multiple random variables.
Determine stationarity and ergodicity and compute
correlation and covariance of a random process.
Compute and sketch the power spectrum of the response of
a linear time-invariant system excited by a band pass/band-
limited random process.
ECE 225
ELECTROMAGNETIC
FIELD THEORY &
TRANSMISSION LINES
Apply vector calculus to static electric fields in different
engineering situations
Solve the problems related to magnetostatic fields by
applying magnetostatic laws.
Analyze Maxwell’s equation in different forms
(differential and integral) and apply them to diverse
engineering problems.
Analyze the phenomena of wave propagation in different
media.
Apply the concepts of transmission line and use smith chart
to find various parameters useful to design a matching
circuits at radio frequency
ECE 226 CONTROL SYSTEMS Apply block reduction techniques and signal flow graphs
Apply mathematical modelling of mechanical and
electrical systems
Analyze the given systems in time domain
Determine the relative and steady state stability of the
systems
Analyze the systems in frequency domain
ECE 227
ELECTRONIC CIRCUITS
AND ANALYSIS-II
LABORATORY
Design and identify the applications of feedback amplifiers
and sinusoidal oscillators in different electronic circuits.
Design and implement different power amplifiers and
tuned voltage amplifiers.
Calculate the parameters of BJT differential amplifier.
Apply op-amps fundamentals in design and analysis of op-
amps applications.
Apply the MOSFET inverter in different electronic
circuits.
ECE 228 SIMULATION
LABORATORY Calculate the convolution and correlation between signals
Plot magnitude and phase spectrum of a given signal using
various transformation tools.
Generate random sequences for a given distribution.
Understand the basics of VHDL and describe the logic
circuit using different types of models in the architecture of
the body.
Design and simulate combinational and sequential circuits
using VHDL
III/IV & 1
Sem.
ECE
311(a)
INTRODUCTION TO
EMBEDDED SYSTEMS learn about the general principles of computer architecture
learn about the working of a simple embedded system and
embedded system applications
learn the hardware aspects of embedded systems
understand the sensors, ADCs and actuators used in
embedded systems
understand the real world examples of embedded systems
ECE
311(b)
ELECTROMAGNETIC
INTERFERENCE AND
COMPATABILITY
Gain enough knowledge to understand the concept of EMI
/ EMC related to product design & development.
Analyze the different EM coupling principles and its
impact on performance of electronic system.
Know how to bring down the electromagnetic interference
highlighting the concepts of both susceptibility and
immunity
Acquire broad knowledge of various EM radiation
measurement techniques
Gain enough knowledge to understand the present leading
edge industry standards in different countries
ECE 312
COMMUNICATION
SYSTEMS
ENGINEERING
Analyze about various blocks in a Communication System.
Analyze and design the analog modulator and demodulator
circuits.
Apply the concepts to explain about various blocks in
Transmitters and Receivers.
Analyze and design the pulse analog modulation
techniques and evaluate the performance of analogue
communication systems in the presence of noise.
Gain knowledge of satellite orbits, its launching methods,
Link design, earth segment and space segment
components.
ECE 313 MICROPROCESSORS
AND APPLICATIONS
Able to program 8085 microprocessor to meet the specific
requirements of the client
Able to organize the hardware involved in BIU & EU of
8086 microprocessor & analyze the minimum and
maximum mode 8086 systems using timing diagrams
Able to program 8086 microprocessor to meet the specific
requirements of the client
Able to interface 8086 microprocessor to semiconductor
memories (SRAM & EPROM), stepper motor to meet the
specific requirements of the Client, Also able to generate a
specific waveform by designing an interface between a
CRO and 8086 microprocessor & able to convert a given
analog sample value into its equivalent digital value by
designing an interface between 8086 microprocessor and
analog input using A/D converter to meet the meet the
specific requirements of the Client
Able to design interface between peripheral devices and
8086 microprocessor using 8259 (Programmable Interrupt
Controller) to get services from 8086 microprocessor on
Interrupt basis & able to interface USART to 8086 to
perform serial communication.
ECE314
COMPUTER
ARCHITECTURE AND
ORGANIZATION
Work with the typical assembly language instructions of a
computer
Organize the hardware involved in the CPU of a computer
Design CPU & control unit of a basic computer
Use computing resources such as memory and I/O in an
effective manner to improve the performance of a
computer
Illustrate the concept of pipelining and multiprocessors
ECE315 INTEGRATED CIRCUITS
AND APPLICATIONS
Analyze the static and dynamic electrical behavior of
CMOS circuits.
Design and analyze active filters of an op-amp& IC
Voltage regulators
Design circuits for several applications using IC 555
Timer, PLL, analog multiplier ICs etc.
Design several circuits using D/A and A/D convertor.
Design the combinational and Sequential circuits using
digital ICs.
ECE 316 ANTENNAS AND WAVE
PROPAGATION
1. Analyze the basic antenna parameters by applying the
concepts & properties of electromagnetism
2. Determine the fundamental parameters of practical
antennas operating at various frequencies from LF to
Microwave applications.
3. Analyze & design the linear antenna arrays.
4. Assess antenna performance by using suitable
measurement technique.
5. Identify & Analyze the characteristics of radio wave
propagation.
ECE 317
MICROPROCESSORS &
APPLICATIONS
LABORATORY
Program 8085 & 8086 microprocessor to meet the
requirements of the user.
Interface peripherals like switches, LEDs, stepper motor,
Traffic lights controller, etc..,
Handle interrupts
Design a microcomputer to meet the requirement of the
user
ECE318 INTEGRATED CIRCUITS
LABORATORY
Design the circuits using op-amps for various applications
like adder, subtractor, integrator, differentiator and Schmitt
trigger
Design active filters for the given specifications and obtain
their frequency response characteristics.
Design and analyze multivibrator circuits using op-amp
and 555Timer
Design and analyze various combinational circuits like
multiplexers, and de-multiplexers, binary adder, subractor,
etc
ECE 319 QUANTITATIVE
APTITUDE - I
Solve problems related to numerical computations in
company specific and other competitive tests
Recall and use the concepts to solve problems numerical
estimation with respect to company specific and
competitive tests.
Apply basic principles related to geometry and
mensuration & solve questions in company specific and
competitive tests.
Detect grammatical errors in the text/sentences and rectify
them while answering their competitive company specific
tests and frame grammatically correct sentences while
writing.
Answer questions on synonyms, antonyms, hyponyms,
hypernyms and other vocabulary based exercises while
attempting company specific and other competitive tests.
Use their logical thinking ability and solve questions
related to reasoning based exercises.
Choose the appropriate word/s/phrases suitable to the given
context in order to make the
sentence/paragraph coherent
Analyze the given data/text and find out the correct
responses to the questions asked based on the reading
exercises; identify relationships or patterns within groups
of words or sentences.
III/IV & 2
Sem.
ECE 321 MICROWAVE & RADAR
ENGINEERING
Apply the EM fundamentals in solving problems related to
guided wave theory.
Analyze the working of microwave components using S-
matrix.
Choose suitable microwave tube or a solid state device for
generating / amplifying microwave signals for a specific
application.
Determine the parameters of a microwave device such a
wavelength VSWR, impedance.
Analyze different types of radars to be used for specific
application.
ECE 322 DIGITAL SIGNAL
PROCESSING
Mathematically classify different types of signals and
perform basic operations on time and amplitude and
Represent DT signals in the Frequency domain using
Fourier Analysis and Z-Transforms.
Transform a DTS into frequency domain using DFT and
FFT and compare these two methods with respect to their
computation complexity.
Design and realize IIR and FIR digital filters for a arbitrary
frequencies and attenuation values .
Implement sampling rate conversion using decimation and
interpolation applied in digital filter banks.
Explain the DSP processors which can be used for practical
applications and also acquired knowledge on various
applications of Digital Signal Processors in speech
processing.
ECE 323 MICROCONTROLLERS
& EMBEDDED SYSTEMS
Acquire knowledge of the architecture and operation of
Intel 8051 microcontroller and Analyze the hardware
features like timers, memory, interrupts and serial
communication available in 8051 Microcontroller Family
of devices
Develop assembly language programs for data transfer,
arithmetic, logical, and branching operations using
instruction set of 8051 and apply them in control
applications
Develop applications that will provide solution to real
world problems by Interfacing 8051 Microcontroller with
various peripherals such as ADC, DAC, keyboard, display,
Interrupt and Serial communication modules.
Evaluate the Embedded system design flow from the
requirements to the deployment level and analyze the
hardware/software tradeoffs involved in the design of
embedded systems.
Express the implementation of ARM and SHARC
Processors in terms of architecture, and memory
organization. Also evaluate the performance metrics of
simple and networked Embedded systems
ECE
324(a) ANALOG IC DESIGN Understand the basic MOS device physics and models
Analyze and design single stage amplifiers
Analyze and design differential amplifiers
Analyze and design current sources/sinks/mirrors
Analyze and design basic operational amplifiers circuits
ECE
324(b)
ELECTROMAGNETIC
INTERFERENCE /
COMPATABILITY
Understand the concept of EMI / EMC, related to product
design & development.
Analyze the different EM coupling principles and its
impact on performance of electronic system.
Ensure that a designed system conforms itself to certain
standard through a thorough understanding of various
standards in different countries.
Have broad knowledge of various EM radiation
measurement techniques.
Model a given electromagnetic environment/system so as
to comply with the standards.
ECE
324(c)
ELECTRONIC
MEASUREMENTS AND
INSTRUMENTATION
Measure various parameters with accuracy, precision and
resolution and understand the operation of PMMC and
EMMC with their applications
Understand the principle of operation, working of different
electronic instruments
Apply the knowledge of cathode ray oscilloscopes and
understand the functioning, specification, applications of
signal analyzing instruments
Understand principles of measurement associated with
different bridges
Select appropriate passive or active transducers for
measurement of physical phenomenon
ECE
324(d)
TELECOMMUNICATION
SWITCHING AND
NETWORKS
Understand and describe the concepts of multiplexing and
switching.
Apply probability related concepts to resolve traffic and
network related issues
Analyze and solve problems in traffic engineering
Recognize the significance of ISDN and outline its
architecture
Obtain an overview of end to end transmission in data
networks
ECE 325 DIGITAL
COMMUNICATIONS
Compare and analyze various baseband and bandpass
digital modulation techniques
Calculate probability of error for various digital
modulation techniques to analyze the performance of
DCS in the presence of noise.
Analyze the performance of spread spectrum code
acquisition and tracking circuits.
Evaluate the channel capacity and Calculate efficiency of
various source encoding techniques.
Implement channel coding techniques and comprehend
error correction and detection.
ECE 326
COMMUNICATION
SYSTEMS
ENGINEERING
LABORATORY
Design and Simulate different Modulation schemes
Design high pass and Low-pass filters used in
communication system.
Perform multiplexing on analog signals and Retrieve useful
information by observing AM and FM in frequency
domain.
Design and Simulate a Practical Pre-emphasis and De-
emphasis circuit.
Measure the characteristics of practical AM Super
Heterodyne Radio Receiver using Spectrum Analyzer,
Cathode Ray Oscilloscope & Digital Multi Meter.
ECE327
MICROCONTROLLER &
EMBEDDED SYSTEMS
LABORATORY
Program 8051 microcontroller to meet the requirements of
the user.
Interface peripherals like switches, LEDs, stepper motor,
Traffic lights controller, etc..,
Handle interrupts
Design a microcontroller development board to meet the
requirements of the user
ECE328 SOFT SKILLS LAB Comprehend the core engineering subjects using effective
verbal and nonverbal communication skills.
Present accurate and relevant information efficiently, using
suitable material aids.
Work effectively as an individual as well in teams and
emerge as responsible leaders with appropriate
professional ethics.
Participate in group discussions and interviews using
analytical and problem solving abilities, which enhance
their employability skills.
Set time bound goals and realize them through strategic
plans for successful career.
IV/IV & 1
Sem.
ECE 411
ENGINEERING
ECONOMICS AND
MANAGEMENT
Understand the concepts of Economics
Gain basic understanding of management and manage
organizations effectively and to relate
the concepts of management with industrial organizations
and manage organizations
efficiently
Have the basic knowledge of production management and
make decisions proficiently
Understand the basic concepts of accounting, finance and
marketing management
ECE 412 COMPUTER NETWORK
ENGINEERING
Apply the concepts of Computer Networks and Networks
Models for Data Communication.
Analyze networking architecture and infrastructure for
wired and wireless link
Design, calculate, and apply subnet masks and routing
addresses to fulfill networking requirements
Analyze issues of routing and congestion mechanism for
independent and internetworking networks for wired and
wireless link.
Analyze internal workings of the Internet and of a number
of common Internet applications and protocols (DNS,
SMTP, FTP, HTTP, WWW, Security and Cryptography).
ECE
414(a)
ADVANCED DIGITAL
SIGNAL PROCESSING
Understand decimation and interpolation of discrete-time
signals.
Design a digital system with different sampling rates.
Describe the properties of various linear filters.
Apply various adaptive algorithms for different
applications.
Analyze the parametric and non parametric methods of
power spectrum estimation.
ECE
414(b)
RADAR SIGNAL
PROCESSING Describe the principles of CW and FM radar
Understand moving target indication radar, and analyse the
time, frequency and signal processing aspects of pulse
Doppler radar
Represent the design aspects of radar waveforms including
matched filtering
Understand and analyze pulse burst waveform and
frequency modulated pulse compression waveforms
Understand the basic principles of synthetic aperture radar
ECE
414(c)
DIGITAL IC DESIGN
USING HDL
Interpret the importance of EDA tools and its flow for
VLSI designs
Model logic gates ,half adder, full adder ,various digital
blocks by using modern tools with HDL
Construct verilog HDL models for combinational and
sequential circuits using gate level, behavioral level and
dataflow level
Build CMOS circuits using Verilog switch level
programming
Apply design rule checks and timing parameters to digital
circuits and model the state machines
ECE
414(d)
DIGITAL IMAGE
PROCESSING
Describe the basic components of digital image processing
system and transform techniques (FFT, DCT and
Hadamard transform).
Analyze image enhancement in spatial domain using
smoothing and sharpening operators.
Analyze image enhancement in frequency domain using
High pass and low pass filters.
Describe image restoration using Weiner filtering and
image segmentation using thresholding and region growing
techniques.
Compare and contrast image compression techniques
(Variable length coding, LZW coding, Bit plane coding,
Lossless predictive coding, Lossy prediction, transform
coding).
ECE 415 VLSI DESIGN Delineate IC Production process, fabrication processes for
NMOS, PMOS, BiCMOS Technologies.
Analyze CMOS electrical properties with circuit concepts.
Draw stick diagrams, layouts for CMOS circuits and
compute delays of CMOS circuits using modern tools.
Design and test the CMOS digital Circuits at different
levels of abstraction using modern tools.
Apply testing methods on the digital designs for DFT.
ECE
416(a) VLSI LAB Work with XILINX VLSI design tools.
Develop the systems for various signal processing and
computing applications
Test and verify the prototypes at system level using
XILINX Vivado simulators.
Analyze and Develop the prototypes of Digital systems on
Artix 7 FPGA.
ECE
416(b)
SIGNAL AND IMAGE
PROCESSING LAB
Compute and analyze signal spectrum of discrete system
using DFT/FFT algorithms in MATLAB
Design & implement the digital filter in MATLAB
programming environments
Program a DSP chip with a variety of real-time signal
processing algorithms
Perform some basic operations on an image and improve
the appearance and quality of images using Spatial and
frequency domain filtering.
Know how morphological functions change images by
applying erosion and dilation operations.
Understand the concept of edge detectors and their
operation in noisy images.
ECE
416(c)
VIRTUAL
INSTRUMENTATION
LAB
Develop software programs called virtual instruments that
apply user interface, program control, data structures, file
input output, hardware interfacing, data analysis and signal
processing
Experiment with,analyze and document prototype
measurement systems using a computer, plug in DAQ
interfaces and bench level instruments.
Build an engineering application in lab view, install and
configure data acquisition hardware.
Design DAQ using LABVIEW modules.
ECE
416(d) ANTENNA DESIGN LAB Get familiarized with the simulation software
Design the antenna with given specification using the
simulation tools.
Extract the various parameters that indicate the
performance of the antenna
Interpret the extracted results and analyse them and prepare
a formal laboratory report.
ECE 417
DIGITAL
COMMUNICATIONS
LABORATORY
Implement modulation /demodulation of PCM, DPCM and
Delta modulation schemes.
Implement different digital modulation schemes like FSK,
PSK, and DPSK.
Design and Construct a source Encoder.
Design and implement Channel Encoding techniques.
Simulate various digital communication techniques like
PCM, ASK, Companding techniques etc.
IV/IV & 2
Sem.
ECE 421
CELLULAR AND
MOBILE
COMMUNICATIONS
Principle of operation of cellular mobile systems and their
interferences.
Mobile radio propagation & mobile multipath channels.
Handoff, dropped calls and Frequency management and
channel assignment strategies.
Analyze and design
forward and reverse channels of various Multiple access
techniques in wireless communications
The changes in implementation of receiver circuitry with
the integration of mobile satellites.
ECE
422(a)
PHASED ARRAY
SYSTEMS
Apply the knowledge the engineering and science in
understanding and differentiating various system
requirements with phased arrays for radar and
communication system.
Analyze linear/planar array antennas with required side
lobes, beam width, bandwidth etc., and determine their
directivity & study various scanning techniques.
Identify, formulate and analyze different antennas to form
an array for a given application
Formulate the array patterns using various synthesis
techniques
Apply different feeding mechanisms for resonant and
travelling wave arrays & measure different parameters of
the array
ECE
422(b)
BIOMEDICAL
INSTRUMENTATION Understand various methods of acquiring bio signals.
Understand and analyze different biomedical electrodes
and sensors used for clinical observation.
Analyze ECG and EEG signal with characteristic feature
points.
Measure heart rate, blood pressure and respiration rate.
And also understand various sources of blood flow meters.
Understand bio-telemetry & instrumentation used for
Clinical Laboratory.
ECE
422(c)
OPTICAL
COMMUNICATIONS
Illustrate the structure and fabrication methods of Optical
fibers
Analyze the channel impairments: losses and dispersion
Analyze the Optical sources (LED and LASER) and
detectors(PIN and Avalanche Photo diode).
Apply design considerations to analog and digital fiber
optic systems
Analyze the components of fiber optic networks: Couplers,
multiplexers, switches and filters.
ECE
422(d)
EMBEDDED AND REAL
– TIME SYSTEMS
Acquire knowledge of embedded systems architecture with
respect to both hardware and software
Acquire knowledge of real time systems
Familiarize with the concepts of Embedded/Real-Time
operating Systems
Familiarize with various operating Systems
Familiarize with the basics of embedded system
development
ECE
423(a)
SATELLITE
COMMUNICATIONS &
GPS
Describe and justify communication satellite subsystem
with specifications.
Analyze C/N ratio for satellite single link budgets in air
and rain.
Classify and analyze multiple access techniques required
for satellite communication.
Determine GPS receiver position using one & more
satellite in 2D & 3D.
Describe various GPS system segments, GPS signals &
signal structures using PRN codes.
ECE
423(b)
VLSI SIGNAL
PROCESSING
Represent the DSP algorithms and transforms as systems
with block, signal flow and data flowdiagrams.
Design pipeline and parallel processed FIR filters.
Perform retiming and minimize the registers and solve the
systems of inequalities.
Design systolic architecture using canonical mapping and
generalized mapping
Design and analyse parallel and pipeline IIR
ECE
423(c)
WIRELESS SENSOR
NETWORKS
Understand the technologies that enable wireless sensor
networks
Identify various sensor network scenarios and architectures
Distinguish between various classes of MAC protocols
Understand allocation of addresses and management of
names in WSNs
Appreciate the growing demand for WSNs in diverse areas
ECE
423(d)
COGNITIVE RADIO
NETWORKS
Illustrate the mathematical modeling and design issues of
OFDM and MIMO
Evaluation of Software Defined Radio architecture and its
parameters
Develop mathematical model for cognitive radio networks
Analyze spectrum sensing network by using OFDMA and
spectrum management by Heterogeneous Wireless
Networks
Interpret Regulatory Issues and International Standards
ECE 424
MICROWAVE
EINGINEERING
LABORATORY
Find the bench set up before start of the experiment,
identifying the required apparatus and procedure of doing
the experiment.
Measure various parameters of the signal, load &
characterize various microwave sources using microwave
bench setup.
Plot the radiation pattern of horn antenna and other
antennas using antenna trainer system.
Design the antenna with given specification using
simulation tools.
Measure and record the experimental data, plot it and
analyse the results, and prepare a formal laboratory report.
Department of Electrical and Electronics Engineering
2.6.1 Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students
Electrical & Electronics Engineering COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV - 1st
Sem
111 English
Analyze the structure of the phrases, clauses and sentences
Apply his enriched vocabulary to give better shape to his communication
skills.
Effectively use different formats of business correspondence.
Use idiomatic expressions and foreign phrases in his communication.
Analyse, interpret and compose meaningful texts.
112 Engineering
mathematics-1
Familiarize with functions of several variables
Apply Fourier series in solving boundary value problems
Applythe concept of three dimensional analytical geometry
Use mathematical tools needed in evaluating multiple integral and their
usage.
Use the concepts of improper integrals, Gamma, Beta and Error functions
which are needed in Engineering applications
113 Engineering
physics
Understand the fundamental concepts of thermodynamics.
Familiar with the fundamentals of electromagnetic induction and
Ultrasonics.
Aware of the basic concepts of optics like interference, diffraction,
polarization and its various applications.
Understand the working principle and applications of lasers and fiber
optics.
Learn fundamentals of modern physics and its importance in modern
technology.
114 Engineering
drawing
Draw various engineering curves and understand the basic geometrical
constructions.
Prepare orthographic projections of points and lines
Produce orthographic projections of plane surfaces
Draw orthographic projections of solids in various orientations.
Prepare isometric projections and understand basics of Computer Aided
Drafting.
115 Environmental
sciences
Identify the characteristics of various natural resources and can implement
the conservation practices
Realize the importance of Ecosystem and Biodiversity for maintaining
ecological balance
Classify, analyze various pollutants and can develop methods for solving
problems related to environment
Design and evaluate strategies and methods for sustainable developmentof
environmental systems and for the remediation or restoration of degraded
environments
Get awareness on various environmental laws and regulations applicable to
global issues and play a role in solving social problems
116 Engineering
physics lab
Design and conduct experiments as well as to analyze and interpret data.
Apply experimental skills to determine the physical quantities related to
Heat, Electromagnetism and Optics.
117 programming
with "c" lab
Gain a working knowledge on programming.
Learn and use the fundamentals of a programming language (such as
language-defined data types (int, float, char, double), control constructs
(sequence, selection, repetition), program modules (including
functions,modules, methods).
Exhibit the ability to formulate a program that correctly implements the
algorithm.
Demonstrate the effective use the programming environment used in the
course.
Make different carpentry joints.
118 Workshop
Make simple fitting jobs.
Make simple jobs like funnel, elbow etc. using sheet metal.
Understand and build circuits for different types of applications like stair
case wiring, series and parallel connections.
I/IV -
2nd Sem
121 Engineering
mathematics-II
Solve linear system equations using of matrix algebra techniques
Determine the Eigen values and vectors of a matrix
Apply different techniques in solving differential equations that model
engineering problem
Use the application of Differential equations like simple electric circuits,
Newton’s law of cooling and to solve any higher order linear ordinary
differential equation with constant coefficients
Solve linear differential equations and Network analysis using Laplace
transforms.
122 Engineering
chemistry
Identify the problems associated with raw water in various applications and
can adopt suitable technologies for domestic and industrial feed waters.
Identify & generalize the properties of semiconducting materials and can
select suitable semiconducting & various ceramic materials for specific
applications.
Classify and analyze the conventional energy sources and design of suitable
batteries/cells for different engineering applications.
Select and design of suitable materials to prevent corrosion and protect
various parts from corrosion.
Implement the green chemistry principles, concept of tribology, unique
properties of nano &composite materials in designing of suitable methods
and materials to meet the technological challenges.
Solve scientific problems related to various engineering fields.
123
Professional
ethics and human
values
Understand the right code of conduct.
Assess his/her roles as a proactive member of the society
Solve moral dilemmas and issues
Implement Code of ethics of relevant Professional societies
124 Applied physics
Understand the properties of magnetic materials and superconductivity.
Understand the dielectric nature of materials, properties and its applications.
Aware about nano material properties, synthesis and characterization tools.
Familiar with fundamentals of crystal structures.
Learn the basic phenomenon involved in semiconductors and
semiconductor devices.
125 Fundamentals of
EEE
Apply KVL, KCL, Source Transformation, Mesh and Nodal Analysis.
Find Energy and Power Equations of a given circuit.
Apply network reduction techniques.
Operate different types of electronic components like diode, transistor,
FET, MOSFET.
Use the basic concepts of Magnetic Circuits and Electro Mechanical Energy
conversion.
126 Engineering
chemistry lab
Apply experimental skills in quantitative chemical analysis of water quality
parameters, substances and ores.
Select and use a suitable instrumental technique for the quantitative
estimation and analyse the data obtained.
127 Language Lab
Handle CBT (Computer Based Tests) of the qualifying examinations.
Receive, interpret, remember and evaluate information by practicing
effective listening skills.
Speak English with neutralized accent.
Narrate, describe and report incidents and situations using appropriate
terminology.
128
Object oriented
programming
with C++ lab
Understand how to use the programming constructs of CPP.
Use Object Oriented Programming concepts to develop object oriented
programs.
Apply various object oriented features to solve real world computing
problemsusing C++ language.
II/IV -
1st Sem
211 Engineering
Mathematics-III
CO1: Understanding the concepts of Gradient, Divergence and Curl and
finding scalar potential function of irrrotational vector fields.
CO2: Understanding the concepts of Green’s Theorem, Stokes’ Theorem
and the Divergence Theorem and to evaluate line integrals, surface,
integrals and flux integrals.
CO3: Understand some basic techniques for solving linear partial
differential equations and how to identify a partial differential equation in
order to determine which technique(s) can best be applied to solve it.
CO4: Understand the methods to solve the Laplace, heat, and wave
equations.
CO5: To gain good knowledge in the application of Fourier Transforms.
212
Engineering
Mechanics &
Strength of
Materials
CO1: Evaluate the forces in concurrent and coplanar force systems, using
various principles and also under different conditions of equilibrium.
Analyze the forces in various applications and apply the concepts of friction
to some basic applications of Electrical engineering.
CO2: Understand and apply principles of parallel force systems to find
centroid and moment of inertia of different objects.
CO3: Apply the concepts of kinematics and kinetics to analyze force on
particles under rectilinear.
CO4: Distinguish between various mechanical properties like yield
strength, ultimate strength etc., of a given material and also to determine
various types of direct stresses. Analyze the effect of shear force & bending
moment on various beams.
CO5: Determine the bending stresses in different beams of various cross
sections and to find torsional stresses in shafts.
213 Electromagnetics
Discuss about coordinate systems, Analyze problems on coulomb’s law,
Electric Field Intensity Electric Flux Density, and Gauss law.
Calculate potential for different charge configurations. Classify the
properties of conductors and dielectrics
Apply Poisson and Laplace equations to one dimensional solution. Analyze
Biot Savart’s Law, Magnetic Field Intensity, Magnetic Flux Density and
Ampere’s circuit law .
Compute forces on different current elements. Determine inductance for
solenoid ,torrid and coaxial cables
Compare Maxwell’s equation in different forms, Discuss wave propagation
and Poynting theorem
214 Network Theory Solve network circuits by using basic theorems for ac&dc
Calculate various parameters of two port networks
Evaluate natural and forced response o RL, RC and RLC circuits
Analyze circuits under resonant condition
Develop the networks using LC, RC, RL by cauer and foster forms, Apply
laplace transforms for electrical circuits
215
Electronic
Devices &
Circuits
CO1: Design simple electronic circuits to accomplish a specific function.
CO2: Understand the voltage regulation.
CO3: Understand the working of transistors.
CO4: Design and analyze the basic amplifier circuits with proper bias
stabilization.
CO5: Choose an appropriate device for given applications and use it
satisfactorily.
216 Digital Logic
Design
Conversion of number systems and Demonstrate the theorems of boolean
algrbra
Application K-Map and tabulation method for logical circuits
Analyze synchronous sequential circuits and Design of registers and
counters using gates and flipflops
Classify various types of sequential logic circuits and Design of
synchronous and asynchronous sequential logic circuits
Differentiate programmable of logic devices and Design of programmable
of logic devices
217 Networks lab
CO1: Can Understand and verify the network theorems.
CO2: Understood the Series & Parallel resonance, importance of quality
factor.
CO3: Calculate two port network parameters for a given network.
218
ELECTRONIC
DEVICES &
CIRCUITS LAB
Understand the use of RPS and CRT.
Verify the working of diodes, transistors and their applications.
Set up a bias point in a transistor
Design simple hardware circuits using diodes and transistors.
Design simple DC power supply circuits.
II/IV -
2nd Sem 221
Engineering
mathematics-IV
CO1: Understanding the characteristics and properties of Z-transforms and
apply the concepts of Z- Transform in Digital Systems.
CO2: Familiarize the formation of Difference Equations and method of
solving difference equations.
CO3: Understand, interpret and use the basic concepts: analytic function,
harmonic function, Taylor and Laurent series, singularity.
CO4: Study the concepts of Residues, evaluating definite integrals using
technique of residues and understand the concepts of conformal mappings.
CO5: Analyze the Statistical data by using statistical tests (based on small
sample and large sample) and to draw valid inferences based on the analysis
of statistical data.
222 Electrical
measurements
Determine the shunts and multipliers required to extend the range of
instruments.
Identify and compensate the errors while measuring power and energy by
using measuring instruments.
Analyze the behavior of the bridges when any changes are occurred in the
arms of the bridges while measuring R,L,C and frequency.
Analyze the behavior of magnetic materials by using different meters.
Apply the concepts of potentiometers to construct voltmeter, ammeter,
wattmeter, frequency, phase and amplitude meters.
223
Performance of
Electrical
Machines-I
Analyze the construction and operation of various DC Machines
Analyze the various starting and testing methods of DC motors
Analyze different speed control techniques of DC Motors
Evaluate the equivalent circuit parameters of single phase transformer
Distinguish the performance of different three phase transformer
connections
224
Analog
Electronic
Circuits
CO1: Perform the analysis of small signal and low frequency hybrid model
circuits.
CO2: Determine various parameters of an amplifier like gain, input
impedance and output impedance and bandwidth.
CO3: Know about various distortions that occur in amplifiers.
CO4: To apply the concepts of feedback analysis to the design of amplifiers
to meet or exceed stated specifications.
CO5: To design and analyze tuned amplifiers and oscillators to meet or
exceed stated specifications.
225 Signals &
Systems
CO1: Characterize and analyze the properties of CT and DT signals and
systems.
CO2: Analyze CT and DT systems in Time domain using convolution.
CO3: Represent CT and DT systems in the Frequency domain using Fourier
Analysis tools like CTFS, CTFT, DTFS and DTFT
CO4: Conceptualize the effects of sampling a CT signal.
CO5: Analyze CT and DT systems using Laplace transforms and Z
Transforms.
226
Microprocessors
and Micro
Controllers
Explain the architecture and pin configuration of 8085
Classify memories and interfacing memory to CPU
Describe architecture ,register and memory organization
Discuss various interfacing devices with 8085
Applications of microcontroller 8051 ADC and DAC, led’s, push button,
relay’s ,keyboard interfacing, interfacing seven segment display.
227
Electrical
measurements
lab
Understand the operational features of various measuring devices
Understand and design bridges for the measurement of R, L & C.
Understand the operation of AC potentiometers and their applications.
228
ANALOG
ELECTRONIC
CIRCUITS LAB
CO1: Acquire a basic knowledge in solid state electronics including voltage
transistor, power transistors and operational amplifier.
CO2: Design analog electronic circuits using discrete components.
CO3: Observe the amplitude and frequency responses of common
amplification circuits.results in the laboratory with theoretical analysis.
CO4: Measure various parameters of analog circuits and compare
experimental
CO5: Design and construct simple electronic circuits to accomplish a
specific function, e.g., designing amplifiers, oscillators.
III/IV -
1st Sem
312 Data Structures
Understand the concepts of arrays, recursion and structures
Understand and apply various data structure such as Linked lists, Stacks,
Queues,
Tress and Graphs.
Implement linked data structure to solve various problems.
Implement algorithms and how to apply customary algorithms for searching
and sorting.
313 Pulse and Digital
Circuits
Determine the response of linear circuits for different input signals.
Design application based nonlinear circuits.
Analyze and design the multivibrators.
Understand the operation & application of Miller, Bootstrap circuit and
calculate errors present in sweep signals.
Realize logic gates belonging to different logic families such as TTL,
CMOS.
314 Linear IC’s and
Applications
Understand the DC and AC characteristics of operational amplifiers and its
effect on output and their compensation techniques.
Design and analyze linear and non-linear applications of an opamp and
special application ICs.
Understand concept of PLL and demonstrate different applications based on
it.
Differentiate D/A and A/D convertor, understand their types and analyze
their applications.
Demonstrate the applications of waveform generators, timers and Voltage
regulators
315
Electrical Power
Generation &
Utilization
Buildthe knowledge of generation of electricity based on conventional
energy resources.
Identifythe power system components for specified power generating
application.
Analyzepower/energy demand curves for optimal selection of generating
units.
Determineinterior and exterior lighting systems and illumination levels for
different purposes and Recognizedifferent process of utilizing electric
energy for heating and welding for industrial purposes.
316 Linear Control
Systems
Apply signal flow graph and block diagram reduction techniques to Linear
time invariant systems.
Develop mathematical modeling of mechanical and electrical systems.
Analyze the performance of 1st and 2
nd order systems with and without
feedback control.
Calculate the time domain system stability using Routh-Hurwitz criterion
and root locus technique.
Calculate the frequency domain system stability using bode plots, polar
plots and Nyquist plots technique.
317
Digital
Electronics &
Microprocessors
Lab
Develop the combinational and sequential circuits.
Analyze and build the Programming of 8085 microprocessor.
Relate the Programming of 8085 microprocessor to interface with the
peripherals.
Design the Programming of 8086 microprocessor
318
Linear Integrated
Circuits & Pulse
and Digital
Circuits Lab
Design the circuits using op-amps for various applications like adder,
subtractor, integrator, differentiator and Schmitt trigger
Design active filters for the given specifications and obtain their frequency
response characteristics.
Design and analyze multi vibrator circuits using op-amp, Transistor and
555Timer
Design application based on linear and nonlinear circuits
Understand the operation & application of Bootstrap circuit
III/IV -
2nd Sem
321
Professional
Elective-
I(ACSD)
Develop the mathematical model for any electrical and mechanical systems.
Develop the state model and identify its stability of the given electrical and
mechanical systems.
Observe the effect of a controller to improve the time response.
Design a compensator to improve the response.
322 Thermo
Dynamics and
Understand the physical significance of laws of thermodynamics.
Apply thermodynamic principles to analyze the performance of IC engines.
Mechanics of
Fluids (TD&MF) Comprehend the fundamentals of fluid mechanics and properties of fluids.
Apply Bernoulli’s equation and impulse momentum equation to practical
applications.
Distinguish different classes of hydraulic turbines and analyze their
performance.
323
Computer
Architecture and
Organization
(CAO)
Apply the basic knowledge of the design of digital logic circuits computer
organization.
Acquire the knowledge on instruction codes and instruction cycle.
Understand the Micro Programming Control and detail understanding of
CPU.
Learn and apply Input and output organization.
Learn about the Memory Organization.
324
Performance of
Induction and
Synchronous
Machines
(PISM)
Explain the performance of three phase induction motor
Classifiy the single phase induction motor.
Predict the performance of three phase induction motor using circle
diagram.
Predict the regulation by different methods and analyse parallel operation
of alternators.
Construct V and inverted V curves, excitation circles and power circles of
Synchronous motors.
325 Power
Electronics (PE)
Explain the working principle of SCR, Demonstration of Static and
Dynamic Characteristics and Classify various turn on methods.
Analyze the Commutation and triggering circuits and also operational
aspects of series and parallel thyristors.
Analyze the operation and wave forms of phase controlled rectifiers
Classify various types of inverters and Analyze the operation of inverters.
Analyze operational aspects of various choppers, Cycloconverter and
examine the modern semi conductor devices.
326 Power
Transmission and
Distribution
(PT&D)
Compare various supply systems and determine the most economical size
of the conductor.
Estimate the minimum voltage drop of distributors with concentrated loads.
Determine the inductance and capacitance of solid, stranded and bundled
conductors. Analyze the performance of short, medium and long
transmission lines in terms of regulation and efficiency.
Calculate the sag and tension of transmission tower supports at equal and
unequal levels and Determine the capacitance of single core and three core
belted cables and find the power loss due to corona.determine the string
efficiency of suspended type insulators.
327 Electrical Have knowledge of various parts of a D.C electrical machines
Machines
Laboratory- I
(EM Lab-I)
Conduct experiments on different types of D.C machines and find the
characteristics.
Conduct experiments on Transformers and find the characteristics.
Apply mathematical and technical concepts required to engineering
problems.
328
TD&MF
Laboratory
Calibrate pressure gauge and flow measuring devices such as venturimeter
and orificemeter.
Determine the properties of fuels and lubricating oils.
Determine the friction factor and minor losses in pipes.
Determine the force exerted by jet on vane and compare with theoretical
values.
Analyze the performance of IC engines and turbo-machinery.
IV/IV -
1st Sem
412 Professional
Elective-II(EDT)
Classify the elctrical drives,explain the four quadrant operation in detail
Analyse and modify the speed torque characteristics of 3-phase Induction
Motors, DC Motors & synchonous motors
Analyse the starting of 3-phase Induction Motors, DC Motors &
synchonous motors in detail
Analyse the braking of 3-phase Induction Motors, DC Motors &
synchonous motors in detail
Determine the specific energy consumption for a pirticular run and Explain
the factors effecting it
412 Professional
Elective-II(DCS)
Discuss the basic elements in discrete control system
Apply z-transform techniques to obtain discrete signal from time signal
Analysis of discrete control system using transform techniques
Analyze discrete time systems using signal flow graph and state space
analysis
Determine the stability of sampled data signals
413
Professional
Elective-
III(EHV)
Understand the history and general concept of vehicle drive requirement
and performance.
Understand the concept and different configurations of Electric Hybrid
Trains.
Understand the idea of only Electric Drive Trains along with different
Electric component commonly used in EHV and EV.
Understand the different possible ways of energy storage and sizing of
major electric components used in EV or EHV.
Understand the concept of energy management structure and strategies
used in EHV or EV..
413 Professional
Elective-
Discuss HVDC transmission over conventional AC transmission.
Analyze HVDC power converters and their commutation process.
III(HVDC) Solve mathematical problems related to rectifier and inverter control
methods and explain about different control schemes.
Analyze the different harmonics generated by the converters and to
differentiate the faults happening on both AC and DC sides.
Classify different FACTS devices and discuss their operation and
applications.
414 Power System
Analysis
Develop reactance diagram for a given single line diagram using per unit
system.
Apply Gauss-Seidel, Newton-Raphson and Fast Decoupled methods to
solve power flow problem.
Analyze symmetrical and unsymmetrical faults in power systems.
Determine steady state stability limit and analyze transient stability on
single machine connected to infinite bus system.
415
Power
Semiconductor
Drives
Explain the operation of single phase and three phase controlled rectifiers
connected to various D.C motors and Determine the values of output
voltage, speed and torque for a given D.C drive.
Classify various types of braking techniques and Explain the four quadrant
operation fed Dual converter. Determine the values of output voltage, speed
and torque in motoring and braking modes.
Classify various types of Choppers fed D.C motors and Analyze the
operation and speed –torque characteristics. Simplify the Speed-torque
expressions.
Classify various methods of speed control of induction motors using A.C
Voltage controller, Cycloconverter, VSI and CSI. Analyze the operation
and speed –torque characteristics.
Analyze the operation and speed –torque characteristics of Separate control
& self control of synchronous motors using VSI, CSI and
Cycloconverter. Examine the possible combinations of converter fed
motors.
416 Power System
Protection
Compare the construction, operation and applications of electromagnetic
relays and Over Current protection. Determine the settings of PSM and
TMS of Over Current relay.
Explain the construction, operation and applications of Distance and
Differential Protection. Determine the minimum value of earthing
resistance and percentage of winding unprotected for Alternators.
Determine relay setting and CT ratio of transformer protected by percentage
differential protection.
Explain operation of Static Over current, Distance, Differential protection
and Microprocessor based relay.
Explain the construction, operation and applications of various types of
Lightning arresters. Determine reflected, refracted voltages and currents of
Travelling waves.
Explain the construction, operation and application of various types of
Fuses and Circuit Breakers. Determine the TRV/RRRV. Construct
substation layout and bus bar arrangement using single diagram.
417
Power
Electronics
Laboratory
Analyze the VI characteristics of SCR and Illustrate different turnoff and
turn on methods.
Analyze the operation of 1-phase & 3-phase rectifier circuits &Sketch the
output waveforms for different firing angles
Analyze the operation of on 1-phase inverter circuits &Sketch the output
waveforms for different frequencies
Analyze the operation of on 1-phase cyclo-converter with different
frequencies for different loads and Compare the output waveforms of 1-
phase AC voltage controller circuits for different firing angles for different
loads
Distinguish TRC & Frequency control methods on chopper circuits
&Sketch the output waveforms
418
Electrical
Machines
Laboratory-II
Analyze the Transformer for 3 phase to 2 phase or 2 phase to 3 phase
conversion and separate the core losses.
Analyze the speed control and performance characteristics of 3 phase
Induction machine
Analyze the voltage regulation and performance characteristics of 3 phase
synchronous machine
IV/IV -
2nd Sem
421
Engineering
Economics &
Mgmt
Understand the concepts of Economics
Gain basic understanding of management and to relate the concepts of
management with industrial organizations and manage organizations
efficiently
Have the basic knowledge of production management and make decisions
proficiently
Understand the basic concepts of accounting, finance and marketing
management
423
Energy
Management
& Control
Solve Economic Dispatch, Unit Commitment, Hydro-Thermal scheduling
and Optimal Power Flow problems using Lagrange multiplier method.
Analyze Single- Area and Two-area Load Frequency control mechanism.
Analyze Automatic Voltage Regulator control mechanism and Compare
various excitation systems.
Identify different levels of the EMS and State their functions. Describe
Operating States of Power System.
Apply Energy diagnosis procedure for Power Distribution systems,
Lighting systems, Compressed Air system, Air Condition and Ventilation
system.
424 Power System
Simulation Lab
Write Matlab programs for Y-bus and String efficiency.
Analyze the performance of Transmission lines, Transient stability and
Economic distich using Matlab program.
Analyze and Simulate Symmetrical, Unsymmetrical faults and Load flow
methods for a given power system network using ETAP software.
Analyze and Simulate Single area and two-area load frequency mechanism
using Matlab software.
425 Control Systems
Laboratory
Determine the transfer functions of DC and AC servomotor
To analyze the performance of synchro pair, BLDC motor, DC position
control system and Magnetic amplifier
To analyze the response of 1st, 2
nd and 3
rd order systems with and without
feedback
Design of compensators using Bode plot techniques
Estimate the effect of Temperature controlled system using conventional
controllers
Department of Information Technology
2.6.1 Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students
Information Technology COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV - 1st
Sem
IT111 ENGLISH
1.Analyze the structure of the phrases, clauses and sentences.
2.Apply his enriched vocabulary to give better shape to his
communication skills.
3.Effectively use different formats of business correspondence.
4.Use idiomatic expressions and foreign phrases in his
communication.
5.Use correct structures to write sentences.
IT112 ENGINEERING
MATHEMATICS-I
1.Familiarize with functions of several variables.
2.Apply Fourier series in solving boundary value problems.
3.Apply the concept of three dimensional analytical geometry.
4. Use mathematical tools needed in evaluating multiple integral
and their usage.
5.Use the concepts of improper integrals, Gamma, Beta and
Error functions which are
needed in Engineering applications.
IT113 ENGINEERING
CHEMISTRY
1.Adopt suitable technologies for domestic and industrial water .
2.Identify & generalize the properties of semi conducting
materials used in various engineering fields.
3. Design suitable batteries for different applications.
4.Select and design of suitable material to prevent corrosion and
protecting metals from
corrosion. 5.Develop green technologies for industrial processes.
6.solve scientific problems related to various engineering
works.
IT114
PROFESSIONAL
ETHICS AND HUMAN
VALUES
1.Understand the right code of conduct.
2.Assess his/her roles as a proactive member of the society .
3.Solve moral dilemmas and issues.
4.Implement Code of ethics of relevant Professional societies
IT115 BASIC ELECTRONICS
ENGINEERING
1.Analyze different types of diodes, operation and its
characteristics.
2.Design different types of voltage rectifiers.
3.Design and analyze the DC bias circuitry of BJT and FET and
set up required
bias point.
4.Design simple electronic circuits to accomplish a specific
function, e.g. DC
power supplies, Electronic switches etc.
IT116 ENGINEERING
CHEMISTRY LAB
1.Able to identify the suitable method for analyzing samples.
2.Able to analyze different types of water samples to test quality
parameters.
3.Able to use different types of instruments in estimating the
composition of
materials in samples related to Soil, Water.
IT117 PROGRAMMING WITH
C LAB
1.Gain a working knowledge on programming.
2.Learn and use the fundamentals of a programming language
(such as languagedefined data types (int, float, char, double),
control constructs (sequence, selection,
repetition), program modules (including functions, modules,
methods)).
3.Exhibit the ability to formulate a program that correctly
implements the algorithm. 4.Demonstrate the effective use the
programming environment used in the course.
IT121 ENGINEERING
MATHEMATICS-II
1.Solve linear system equations using of matrix algebra
techniques.
2.Determine the Eigen values and vectors of a matrix .
3.Apply different techniques in solving differential equations
that model engineering problem.
4.Use the application of Differential equations like simple
electric circuits, Newtons law
of cooling and to solve any higher order linear ordinary
differential equation with
constant coefficients .
5.Solve linear differential equations and Network analysis using
Laplace transforms.
I/IV -
2nd Sem
IT122 ENGINERING PHYSICS
1.Design and conduct simple experiments as well as analyse and
interpret data in
engineering applications. 2.understand advanced topics in
engineering. 3.Identify formulae and solve engineering
problems. 4.Apply quantum physics to electrical phenomena.
IT123 ENVIRONMENTAL
SCIENCES
1.Understand the natural environment and its relationships with
human activities. 2.Characterize and analyze human impacts on
the environment. 3.Integrate facts, concepts, and methods from
multiple disciplines and apply to
environmental problems
. 4.Design and evaluate strategies, technologies, and methods for
sustainable management
of environmental systems and for the remediation or restoration
of degraded
environments.
IT124 ENGINERING
DRAWING
1.Perform basic sketching techniques will improve.
2.Draw orthographic projections and sections
. 3.Use architectural and engineering scales will increase.
4.Produce engineering drawing will improve.
5.Convert sketches to engineered drawing will increase.
6.Develop good communication skills and team work.
7.Become familiar with Auto CAD two dimensional drawings.
IT125
ELEMENTS OF
ELECTRICAL
ENGINEERING
1.Calculate voltage a cross, current through and power supplied /
absorbed by an
electrical element.
2.Obtain the performance characteristics of D.C. Machines.
3.Obtain the voltage regulation characteristics of a Transformer.
4.Obtain the performance characteristics of Induction Motor.
IT126 ENGINEERINGPHYSICS
LAB
1.Design and conduct experiments as well as to analyzeand
interpret data.
2.Identify, solve and apply fundamental physics principles.
IT127 LANGUAGE LAB
1.Handle CBT (Computer Based Tests) of the qualifying
examinations.
2.Receive, interpret, remember and evaluate information by
practicing effective listening
skills.
3.Speak English with neutralized accent.
4.Narrate, describe and report incidents and situations using
appropriate terminology.
IT128
OBJETC ORIENTED
PROGRAMMING WITH
C++LAB
1.Understand how to use the programming constructs of CPP.
2.Use Object Oriented Programming concepts to develop object
oriented programs.
3.Apply various object oriented features to solve real world
computing problemsusing
C++ language.
IT129 WORKSHOP
1.Make simple carpentry and fitting works.
2.Understand and do different types of wiring for practical
requirements.
3.Develop cross-sections of models for tin smithy and make
them.
4.It also helps in understanding of relevant skills required by the
engineer working in engineering industries and workshops.
II/IV -
1st Sem
IT211 Data Structures
1. Analyze, evaluate and choose appropriate abstract data types
and algorithms to solve particular problems
2. Compare and contrast the benefits of dynamic and static data
structures implementations
3. Design and implement abstract data types such as linked list,
stack, queue and tree by Using C as the programming language
using static or dynamic implementations
4. Describe common applications for arrays, records, linked
structures, stacks, queues, trees, and graphs
IT212 Digital Logic Design
1. Analyze and synthesize logic circuits by applying the
knowledge of number systems, codes, Boolean algebra and
digital logic circuits to solve typical problems on the same.
2. Minimize the given Switching function in SOP and POS
forms using K-Map & Design of different types of
combinational logic circuits using various logic gates.
3. Design and analyze synchronous sequential logic circuits
including registers & counters using gates & flip-flops.
4. Design combinational logic circuits using different types of
PLDs, namely, PROM, PLA and PAL.
IT213 Discrete Mathematical
Structures
1. To understand set theory, relations, mathematical logic,
mathematical reasoning and to study about the validity of the
arguments.
2. Be able to apply basic counting techniques to solve
combinatorial problems.
3. To understand Recurrence Relation, Generating functions and
solving problems involving recurrence equations.
4. To familiarize the different types of binary relations and
related algorithms on transitive closure.
5. To familiarize with the applications of graphs, trees and
algorithms on minimal spanning tress.
IT214 Computer Organization
1. Understand Register transfer language, computer instructions
and solve problems using micro operations
2. Analyze micro program control to implement micro program
instructions
3. Understand central processing unit, stack organization and to
evaluate stack operations
4. Review peripheral devices, types of memories and analyze
how mapping is done between various memories.
IT215 Data Communications
1. Understand the basic concepts of Data Communications and
different models
2. Understand and analyses the characteristics of signals
propagated through different transmission media
3. Apply signal encoding techniques, error detection, correction
techniques and learn interfacing
4. Distinguish various Multiplexing techniques and learn various
modems like ADSL, xDSL.
5. Illustrate various Data link control protocols namely flow
control, error control and HDLC
IT216 Data Structures Lab
1. Implement linear data structures such as stacks, queues,
linked lists and apply on real time problem like conversions &
evaluations of expressions.
2. Implement non linear data structures such as Trees and
Graphs and apply on real time problem like finding shortest
path.
3. Implement different sorting and searching techniques.
IT217 Digital Electronics lab
1. Identify various analog (active and passive), digital electronic
components.
2. Design and Analyze different circuits using analog ICs like
operational amplifier and regulators.
3. Simplify the given Boolean function and implement using
logic gates using Integrated Circuits.
4. Design, Analyze and Implement combinational and sequential
digital circuits.
5. Model combinational and sequential digital circuits using
VHDL program in behavioral, structural, and dataflow models.
6. Develop test benches to simulate combinational and
sequential circuits, perform functional and timing verifications
of digital circuits.
IT218 Python Programming Lab
1. Understand and use the syntaxes of python in problem solving
2. Apply python data structures to solve real world problems
3. Implement object oriented concepts in python programming
4. Demonstrate File I/O and exception handling
II/IV -
1st Sem IT221 Computer Networks
1. Be able to analyze different network architecture’s and
designs
2. Mathematically model various error control and routing
schemes.
3. Ability to analyze the working of LAN in an organization.
4. Ability to design network architecture for an organization.
5. Ability to design and implement a network for scalability and
robustness and security.
IT222 Information Systems
Design
1. Understand the Information systems and systems design.
2. Apply the knowledge of information gathering, Requirement
analysis in Software Engineering.
3. Will be able to identify specific components of a software
design and use in Interface Designing
4. Use the knowledge of testing and estimate the software
development cost
IT223 Operating Systems
1 Learn basics of operating system and their structures.
2 Analyze various issues related to inter process communication
like process scheduling, resource management and deadlocks.
3 Interpret the issues and challenges of memory management.
4 Understand the concepts of I/O management, file system
implementation and problems related to security and protection.
IT224 Probability Statistics &
Queuing Theory
1. Understand the concepts of various statistical measures like
mean, variance and standard deviation of a random variable.
2. Familiarize the different types probability distributions and
their properties.
3. Compute simple correlation between the variables and fit
straight line, parabola by the principle of least squares.
4. Analyze the statistical data and apply various small or large
sample tests for testing the hypothesis.
5. Learn about different Queuing models and its applications
IT225 Computer Graphics &
Multimedia
1. Understand Computer graphics applications and apply
algorithms to obtain output primitives..
2. Apply Geometric Transformations on multimedia.
3. Students will understand the concepts and techniques used in
3D computer graphics.
4. Apply 2D and 3D multimedia building blocks to Develop
multimedia applications.
IT226 Networking Lab
1. Understand and identify the various network infrastructure
and command needed for network design and troubleshooting.
2. Understand the basic concepts and functions of Layer 1
(Hubs), Layer 2(Switches and bridges) and Layer 3 (Router). 3.
Understand the building components of network design.
4. Understand the basic format of known protocols such as TCP,
UDP, ICMP..Etc.
5. Allow the student to gain expertise in some specific areas of
networking such as the design and maintenance of individual
networks.
IT227 Computer Graphics &
Multimedia Lab
1. Draw various types of lines and curves.
2. Create animations using various editing tools
3. Use audio, video, internet editing tools to develop multimedia
applications
IT228 Operating Systems (Linux)
Lab
1. Implement schedulling algorithms, deadlock management.
2. Implement free space managent and page replacement
strategies.
3. Implement file allocation methods and disk schedulling
algorithms.
III/IV -
1st Sem IT312
Database Management
Systems
1. Understand Basics and applications of database systems.
2. Construct ER Model and Write queries using SQL.
3. Apply Normalization principles on databases.
4. Familiar with transaction processing, concurrency control and
database recovery.
IT313 Unix Network
Programming
1. Get familiar with the variety of interfaces and frameworks for
network applications
2. Get the knowledge of Interfaces, STREAMS, sockets, RPC
libraries.
3. Know the underlying mechanisms to program client-server
model.
4. Using UNIX socket system calls to manage multiple I/O
streams
IT314 Formal Languages
Automata Theory
1. Understand and Design Regular Languages, Finite Automata.
2. Analyze Context Free Languages and Design Push Down
Automata.
3. Construct Turing Machines.
4. Discriminate Decidability, Undecidability and Analyze
Recursive Enumerability.
IT315
Object Oriented
Programming through
JAVA
1. Understand and apply OOP and Java programming in
problem solving
2. understand multithreading and evaluate exception handing to
create new applications
3. Apply the concepts of Java Files, collections and database in
real time problem solving
4. Design GUI applications
IT316 Database Management
Systems Lab
1. Create and manipulate Relational Database using SQL
2. Write PL/SQL programs, Triggers and Cursors
IT317 Unix Network
Programming Lab
1. write, execute and debug c programs which use Socket API
2. understand the use of client/server architecture in application
development
3. Design reliable servers using both TCP and UDP sockets
IT318 Java Programming Lab
1. Demonstrate OOP and Java programming in problem solving.
2. Apply multithreading and evaluate exception handing to
create new applications
3. Create Java Files and apply collections in real time problem
solving
4. Design simple and complex UI applications
IT319 Quantitative Aptitude - 1
& Verbal Aptitude – 1
1. Solve problems related to numerical computations in
company specific and other competitive tests.
2. Able to recall and use the concepts to solve problems
numerical
1. Detect grammatical errors in the text/sentences and rectify
them while answering their competitive /
company specific tests and frame grammatically correct
sentences while writing.
2. Answer questions on synonyms, antonyms, hyponyms,
hypernyms and other vocabulary based
exercises while attempting company specific and other
competitive tests.
3. Use their logical thinking ability and solve questions related
to reasoning based exercises.
4. Choose the appropriate word/s/phrases suitable to the given
context in order to make the
sentence/paragraph coherent.
5. Analyze the given data/text and find out the correct responses
to the questions asked based on the
reading exercises; identify relationships or patterns within
groups of words or sentences. estimation with respect to
company specific and competitive tests. 3. Apply basic
principles related to geometry and mensuration & solve
questions in company specific and competitive tests.
III/IV -
2nd Sem
IT321 Compiler Design
1. Familiar with finite automata, regular expressions and
describe compiler architecture.
2. Evaluate lexical analyzer and design parsers.
3. Analyze symbol table and formulate intermediate code.
4. Analyze register allocation, code optimization techniques.
IT322 Design & Analysis of
Algorithms
1. Understand the use of various data structures and complexity
notations to solve problems.
2. Apply different techniques like decrease and conquer, divide
and conquer etc., to solve various problems.
3. Design an appropriate algorithm to solve the problem.
4. Evaluate time complexities of various algorithms.
IT323 Object Oriented Analysis
and Design with UML
1. Analyze the project using Object Oriented concepts.
2. Design models for software
3. Design classless and interactions for a project
4. Apply analysis and design methods
IT324 Mobile Computing and
Application Development
1. Understand the fundamentals of Android system
2. Learn and Use Mobile User Interfaces
3. Apply Database concepts in App Development
4. Develop and publish an App
IT325(A) Professional Elective-
I(Distrubuted systems)
1. Discuss trends in Distributed Systems.
2. Understand communication in Distributed systems
3. Understand synchronization and shared memory in
Distributed systems
4. Design process and resource management systems
5 Analyze the file system in DOS and name it accordingly
IT325(C)
Professional Elective-
I(Software Testing and
Automation)
1. Apply software testing knowledge and engineering methods
for a software testing project.
2. understand and identify various software testing problems
3. Have basic understanding, knowledge of contemporary issues
in software testing and test planning.
4. Develop a test tool to support test automation.
IT325(D)
Professional Elective-
I(Client Server
Technologies)
1. Introduce the client server architecture and fundamentals of
distributed systems
2. Understand applications and computing aspects of client/
server approach
3. Analyze the hardware and software structure of a client/server
model
4. Understand the categories, classes and environment of server
5 Understand the structural design of server operating systems
IT325(B)
Professional Elective-
I(Technology
management)
1. Understand Decision support system,Knowledge Management
System
2. Acquire the knowledge on Data Warehousing,Intranets
3. Understand the concepts of E- Business, E – Governance
4. Gain the knowledge on Testing
IT326
Mobile Computing and
Application Development
Lab
1. Apply the concepts to building simple app
2. Develop mobile application
IT327 Web based open source
technologies Lab
1. Identify XHTML/HTML5/CSS and create a basic page with
these languages
2. Identify the types of images used in modern web design and
explain what types are appropriate for different functions 3.
Understand the various platforms, devices, display resolutions,
viewports, and browsers that render websites
4. Use the gathered requirements to create and utilize a
wireframe to further plan a website design Work within a
modern content management system (CMS), WordPress
5. Recognize the various tools to plan, design, code, and share
projects/documents
IT328 Computer aided software
engineering tools Lab
1. Design and implement projects using OO concepts
2. Use the UML analysis and design diagrams
3. Create code from design and contrast various testing
techniques
IT329 Soft Skills lab
1 Comprehend the core engineering subjects using effective
verbal and nonverbal communication skills.
2 Present accurate and relevant information efficiently, using
suitable material aids.
3 Work effectively as individuals as well as in teams and
emerge as responsible leaders with appropriate professional
ethics.
4 Participate in group discussions and interviews using
analytical and problem solving abilities, which enhance their
employability skills.
5 Set time bound goals and realize them through strategic plans
for successful career.
IT3210 Quantitative Aptitude-2 &
Verbal Aptitude -2
1 Use their logical thinking and analytical abilities to solve
reasoning questions from company specific and other
competitive tests.
2 Solve questions related to permutation & combinations and
probabilities from company specific and other competitive tests.
3 Understand and solve puzzle related questions from specific
and other competitive tests
IV/IV -
1st Sem
IT411 Cryptography & Network
Security
CO1 Able to encrypt and decrypt information using some of the
standard algorithms
CO2 To develop strategies to protect organization information
assets from common attacks.
CO3 Understand how authentication is implemented in wireless
systems
CO4 Acquire knowledge on the role of a “professional
computing practitioner” with particular regard to an
understanding of legal and ethical issues
IT412 Data Analytics
1. Understand big data and Apache Hadoop Eco system
2 Apply Hadoop concepts
3. Understand the design of Hadoop Distributed file system
4. Understand concepts of map and reduce and functional
programming
IT414(A) Professional Elective –
III(Artificial Intigilience)
CO1 Understand the concepts of State Space and Heuristic
Search Algorithms.
CO2 Solve problems in propositional logic, predicate calculus
and other axiomatic systems.
CO3 Understand the role of knowledge representation, problem
solving and learning in intelligent systems.
CO4 Differentiate traditional systems and various Rule-based
and Expert Systems.
CO5 Understand the working of different categories of Neural
Networks.
IT414(B) Professional Elective –
III(Parrallel Computing)
CO1 Can analyze the need for high performance and parallel
programming models.
CO2 Can write and analyze the behavior of high performance
parallel programs for distributed memory architectures (using
MPI).
CO3 Can write and analyze the behavior of high performance
parallel programs for shared memory architectures (using
Pthreads and OpenMP).
CO4 Can write simple programs for the GPU.
IT414(C)
Professional Elective –
III(Data WareHouse and
Mining)
CO1 Understand why there is a need for data warehouse in
addition to traditional operational database systems.
CO2 Identify components in typical data warehouse
architectures.
CO3 Understand why there is a need for data mining and in
what ways it is different from traditional statistical techniques.
CO4 Understand the details of different algorithms made
available by popular commercial data mining software.
IT414(D)
Professional Elective –
III(Software Project
managment)
CO1 Understand the principles of software project management
CO2 Demonstrate cost estimation
CO3 Understand risk management and control the project
CO4 Manage the software project
IT413(A) Professional Elective –
II(Machine Learning)
CO 1 Identify the applications of Machine learning and able to
state the developing of Learning System.
CO 2 Classify Decision Tree Learning Algorithms for learning
of appropriate problems.
CO 3 Use Learning Algorithms to classify text by applying
various Classification Algorithms.
CO 4 Formulate Computational Learning Theory for Finite and
Infinite hypothesis spaces.
CO 5 Generate Rule Sets and setup First Order Rules.
IT413(B) Professional Elective –
II(Storage Area Networks)
CO 1 Understand Storage Area Networks characteristics and
components.
CO 2 Become familiar with the SAN application environment,
network storage and topologies
CO 3 Identifying the issues and down time’s in relation with the
SAN failure
CO 4 Understand the technology related to back up’s
CO 5 Analyze and understand the security and monitoring
aspects in SAN’s
IT413(C) Professional Elective –
II(User Experience)
CO 1 analyze users’ needs, usability goals and user experience
goals of a software application
CO 2 use software prototyping tools to design user interfaces
that take into account human capabilities and constraints, users’
needs, usability goals
CO 3 implement functional user interface prototypes based on
the design process
CO 4 critically evaluate the usability of software application
IT415 Analytics Lab
1. Understand the Big Data Platform and its Use cases
2. demonstrate HDFS Concepts and Interfacing with HDFS
3. use Map Reduce Jobs in various applications
4. Apply analytics on Structured, Unstructured Data.
IT416 Network Security Lab
1) Implement the cipher techniques
2) Develop the various security algorithms
3) Use different open source tools for network security and
analysis
IT417 Project - 1
IV/IV -
2nd Sem
IT421(A) Professional Elective –
IV(Soft Computing)
CO1 Identify and describe soft computing techniques and their
roles in building intelligent systems.
CO2 Recognize the feasibility of applying a soft computing
methodology for a particular problem.
CO3 Apply fuzzy logic and reasoning to handle uncertainty and
solve engineering problems.
CO4 Apply genetic algorithms to combinatorial optimization
problems.
CO5 Apply neural networks to pattern classification and
regression problems.
IT421(B)
Professional Elective –
IV(COGNITIVE
Computing)
1. Understand applications in Cognitive Computing.
2. Understand Natural language processor role in Cognitive
computing .
3. Learn future directions of Cognitive Computing.
4. Evaluate the process of taking a product to market.
IT421(c) Professional Elective –
IV(Cloud Computing)
CO1 Understand the evolution of cloud computing paradigm
and its architecture
CO2 Explain and characterize different cloud deployment
models, service models and technological drivers
CO3 Understand the programming model and application
environment including the role of the Operating systems
CO4 Analyze open source support and networking of cloud
CO5 Identify the security issues in cloud computing
IT421(D) Professional Elective –
IV(Ecommerece)
CO1 Understand the fundamental concepts of Electronic
commerce environment and modes
CO2 Identify the approaches and authenticative methods for safe
E-Commerce
CO3 Apply secure E-mail technologies for E-Commerce
CO4 Use the key aspects of Internet Resources for Commerce,
internet Access
IT422(A) Professional Elective –
IV(Image Processing)
CO1 Explain Basic Concepts in Image Processing and various
color models
CO2 Apply Spatial Domain Techniques for Image Enhancement
CO3 List the Image Compression Techniques
CO4 Discuss Various Morphological Algorithms
CO5 Classify Various Image Segmentation Techniques
IT422(B) Professional Elective –
IV(Cyber Security)
CO 1 Understand cyber crimes and types of cyber attacks
CO 2 Know how to prevent themselves from cyber attacks
CO 3 Identify applicable cyber laws
IT422(C) Professional Elective –
IV(ERP)
CO 1 Understand the fundamental concepts of ERP systems
their architecture, and working of different modules in ERP.
CO 2 Know how to implement activities of ERP project
management cycle
CO 3 Understand the emerging trends in ERP developments.
IT422(D) Professional Elective –
IV(IOT)
CO 1 Understand the concepts of Internet of Things
CO 2 Know basic communication protocols in IoT
CO 3 Design IoT applications in different domains and
Implement basic IoT applications on embedded platforms
CO4 Learn real world application scenarios of IoT along with its
societal and economic impact using case studies.
IT422 Project - 2
Department of Mechanical Engineering
2.6.1Programme outcomes and course outcomes for all Programmes offered by the institution are stated and
displayed on website and communicated to teachers and students
Mechanical ENGINEERING COURSE OBJECTIVES AND COURSE OUTCOMES (R15 Regulation)
Year &
Semester
Course
Code Course Name Course Outcomes
I/IV & I
Sem.
MEC
111 ENGLISH
By the end of the course, the student will be able to:
1. Analyze the structure of the phrases, clauses and sentences
2. Apply his enriched vocabulary to give better shape to his
communication skills.
3. Effectively use different formats of business correspondence.
4. Use idiomatic expressions and foreign phrases in his
communication.
5. Analyse, interpret and compose meaningful texts.
MEC
112
Engineering
Mathematics I
By the end of the course, student will be able to:
1. Familiarize with functions of several variables
2. Apply Fourier series in solving boundary value problems
3. Apply the concept of three dimensional analytical geometry
4. Use mathematical tools needed in evaluating multiple integral and
their usage.
5. Use the concepts of improper integrals, Gamma, Beta and Error
functions
which are needed in Engineering applications
MEC
113
Engineering
Physics
By the end of the course, student will be able to:
1. Understand the fundamental concepts of thermodynamics.
2. Familiar with the fundamentals of electromagnetic induction and
Ultrasonics.
3. Aware of the basic concepts of optics like interference, diffraction,
polarization and its various applications.
4. Understand the working principle and applications of lasers and
fiber optics.
5. Learn fundamentals of modern physics and its importance in modern
technology.
MEC
114
Engineering
Drawing
Draw various engineering curves and understand the basic geometrical
constructions.
Prepare orthographic projections of points and lines
Produce orthographic projections of plane surfaces
Draw orthographic projections of solids in various orientations.
Prepare isometric projections and understand basics of Computer
Aided Drafting.
MEC
115
Environmental
Sciences
By the end of the course, student will be able to:
1. Identify the characteristics of various natural resources and can
implement the conservation practices
2. Realize the importance of Ecosystem and Biodiversity for
maintaining ecological balance
3. Classify, analyze various pollutants and can develop methods for
solving problems related to environment
4. Design and evaluate strategies and methods for sustainable
development of environmental systems
and for the remediation or restoration of degraded Environments
5. Get awareness on various environmental laws and
regulations applicable to global issues and play a role in solving social
problems
MEC
116
Engineering
Physics Lab
By the end of the course, student will be able to:
1. Design and conduct experiments as well as to analyze and interpret
data.
2. Apply experimental skills to determine the physical quantities
related to Heat, Electromagnetism and Optics.
MEC
117
Programming
with C Lab
Gain a working knowledge on programming.
Learn and use the fundamentals of a programming language (such as
language-defined data types (int, float, char, double), control constructs
(sequence, selection, repetition), program modules (including
functions,modules, methods).
Exhibit the ability to formulate a program that correctly implements
the algorithm.
Demonstrate the effective use the programming environment used in
the course.
MEC
118 Work Shop
Make different carpentry joints.
Make simple fitting jobs.
Make simple jobs like funnel, elbow etc. using sheet metal.
Understand and build circuits for different types of applications like
stair case wiring, series and parallel connections.
I/IV & 2nd
Sem
MEC1
21
Engineering
Mathematics II
Course Outcomes: By the end of the course, student will be able to:
1. Solve linear system equations using of matrix algebra techniques
2. Determine the Eigen values and vectors of a matrix
3. Apply different techniques in solving differential equations that
model engineering problem
4. Use the application of Differential equations like simple electric
circuits,
Newton’s law of cooling and to solve any higher order linear ordinary
differential equation
with constant coefficients
5. Solve linear differential equations and Network analysis using
Laplace transforms.
MEC1
22
Engineering
Chemistry
By end of the course, student will be able to:
1. Identify the problems associated with raw water in various
applications and
can adopt suitable technologies for domestic and industrial feed waters.
2. Identify & generalize the properties of semiconducting materials and
can select
suitable semiconducting & various ceramic materials for specific
applications.
3. Classify and analyze the conventional energy sources and design of
suitable batteries/cells
for different engineering applications
4. Select and design of suitable materials to prevent corrosion and
protect various parts from corrosion.
5. Implement the green chemistry principles, concept of tribology,
unique properties of
nano &composite materials in designing of suitable methods and
materials to meet the technological challenges.
6. Solve scientific problems related to various engineering fields.
MEC1
23
Professional
Ethics &
Human Values
By end of the course, student will be able to:
1. Understand the right code of conduct from human values
2. Draw inspiration from great personalities and assess his/her roles as
a proactive member of the society
3. Understand basics of professional ethics and its implementation for
harmony with nature.
4. Solve moral dilemmas and issues
5. Understand and implement Code of ethics of relevant Professional
societies and solve global issues
MEC1
24 Applied Physics
Understand the properties of magnetic materials and superconductivity.
Understand the dielectric nature of materials, properties and its
applications.
Aware about nano material properties, synthesis and characterization
tools.
Familiar with fundamentals of crystal structures.
Learn the basic phenomenon involved in semiconductors and
semiconductor devices.
MEC1
25
Advanced
Engineering
Drawing
Prepare orthographic projections for sections of solids.
Prepare the development of surface for solids.
Prepare orthographic projections for intersections of solids.
Convert & draw isometric projections into orthographic projections
and vice-versa.
Develop 2-D and 3-D models using Auto-CAD.
MEC1
26
Engineering
Chemistry Lab
By end of the course, student will be able to:
1. Apply experimental skills in quantitative chemical analysis
of water quality parameters, substances and ores.
2. Select and use a suitable instrumental technique for the quantitative
estimation and analyse the data obtained.
MEC1
27 Language Lab
By the end of the course, student will be able to:
1. Handle CBT (Computer Based Tests) of the qualifying
examinations.
2. Receive, interpret, remember and evaluate information by practicing
effective listening skills.
3. Speak English with neutralized accent.
4. Narrate, describe and report incidents and situations using
appropriate terminology
MEC1
28
Object oriented
Programming
with C++ Lab
Illustrate the concept of OOP paradigm using class, object, data and
functions. (Apply)
Design CPP programs to implement OOP Concepts such as function
overloading, operator overloading, Inheritance, virtual functions and
polymorphism.
Develop CPP programs to solve real-world problems.
II/IV & I
Sem.
MEC2
11 M3
Apply gradient, divergence & curl to scalar and vector point functions
and also physically interpret their meaning.
Apply the concepts of Vector calculus & the corresponding theorems
to evaluate line, surface and flux integrals.
Solve both first & higher order partial differential equations by
different techniques
Apply the method of separation of variables to solve the one & two
dimensional heat conduction equations and also equations pertaining to
the vibrations of a string.
Apply the principles of Fourier transforms to Boundary value
problems.
MEC2
12 MMS
Analyse the fundamental structures of materials and their properties.
Identify various phases of alloys accompanied with various heat
treatment methods.
Classify & explain various properties and applications of ferrous and
nonferrous alloys.
Analyze the failure of the given component using failure mechanisms.
Identify & synthesize the composite material and explain the principles
of powder Metallurgy components.
MEC2
13 EM
Determine the resultant force for the given coplanar and non-coplanar
force systems.
Determine the forces in the given 2D-trusses using the method of joints
and sections; and calculate the forces required to keep the given body
in equilibrium by considering friction.
Calculate the centroid and moment of inertia of the plane surfaces
including composite areas and also determine the mass moment of
inertia for the given solid.
Determine the kinematic and kinetic parameters of the given particle
under rectilinear and curvilinear translations; and calculate the
velocities of bodies under collision.
Determine the kinematic and kinetic parameters of the given rigid
bodies under rectilinear and curvilinear translations and also calculate
the time period of Simple & compound pendulum.
MEC2
14 MOS
Determine the principal stresses and strains on an oblique plane for a
given structure/mechanical components under complex loading
conditions
Evaluate the effect of shear force and bending moment on various
beams for all types of loading to determine bending stress and shear
stresses.
Evaluate the slope and deflection induced in the beams by using
Double integration, Macualay’s and Moment Area method.
Determine the torsional stresses in shafts and further estimate the
crippling loads in short and long columns under both direct and
eccentric loading.
Evaluate the hoop and longitudinal stresses in thin and thick cylinders
due to internal and external pressures.
MEC2
15 ETD I
Classify thermodynamic systems & analyse the interaction between
system & surroundings
Apply the laws of thermodynamics to both flow & non flow process
and evaluate the energy interactions between system & surroundings
Assess the entropy generation & exergy destruction in a
thermodynamic process.
Evaluate the properties of a gas mixture and further apply
thermodynamic laws to compute the change in properties of a system
undergoing a thermodynamic process.
Analyse the performance of air standard cycles.
MEC2
16 MFT I
Outline the basic concepts of sand casting technique and analyze the
elements of gating system.
Differentiate various casting processes and elucidate casting defects
through non-destructive methods.
Categorize and compare various bulk metal deformation processes.
Distinguish various sheet metal operations and explain the fundamental
concepts of high energy rate forming processes.
Classify different welding processes and further identify the welding
defects.
MEC2 SM-LAB Measure and evaluate tensile and compressive properties of materials
17 using UTM.
Utilize torsion tester and spring tester to determine the Modulus of
Rigidity of a given material.
Experiment with different hardness test rigs to assess the hardness of
both ferrous and non-ferrous materials and further determine the
impact strength of given material by using Impact Tester.
Determine Modulus of Elasticity by conducting deflection test on
beams of the given material.
MEC2
18 ME-1-LAB
Draw & Explain the port& valve timing diagram for two stroke and
four stroke engines
Determine the properties like flash point & fire point, calorific value
and viscosity for various fluids by experimentation
Calibrate the pressure gauge and justify its correctness.
Experiment with single stage reciprocating air compressor to assess its
volumetric efficiency
Experiment with irregular body like connecting rod to determine its
centre of gravity & mass moment of inertia.
Classify different boilers, mountings & accessories and perceive their
principal of operation.
II/IV & 2
Sem.
MEC2
21 M-4
Evaluate the limit, derivative and integral of complex functions
Formulate the finite difference form of the given differential equation
in various forms and further use different interpolation formulae to find
the missing value.
Apply various numerical methods for solving differentiation &
integration problems.
Apply probability theorems to evaluate the probability of an event and
determine the statistical parameters like mean, variance etc. in various
probability distributions.
Analyze the Statistical data by using statistical tests (based on small
sample and largesample) and draw valid inferences based on the
analysis of statistical data.
MEC2
22 BEEE
Solve the circuits by using Basic theorems
Explain the working principles of DC machines and single phase
transformer
Explain the principle of operation of Alternator and induction motor.
Elucidate the principles of diodes & transistors & their applications
Explain the working principle of indicating instruments and CRO.
MEC2
23 FM
Apply hydrostatic law for measuring pressures by using manometers,
determine the hydrostatic force on submerged surfaces and further
analyze the stability of floating and submerged bodies.
Analyze the forces acting on a fluid in motion and further apply the
principles of continuity equation, Impulse momentum and Angular
momentum to fluid flow problems.
Determine the major and minor losses in flow through closed conduits
under various configurations and further analyze viscous flows
Explain the boundary layer concepts and further apply the principles of
dimensional and modelling analysis to practical flow problems.
Analyze flow over submerged bodies like sphere, cylinder, airfoil and
evaluate the drag & lift forces exerted on them.
MEC2
24 TOM-1
Identify the kinematic pairs & evaluate the mobility of a planar
mechanism and further describe the inversions of 4-bar chain, single-
slider and double slider crank chains.
Analyze applications of mechanisms with lower pairs like straight line
mechanisms, steering mechanisms, copier mechanism & Hooke’s joint.
Analyze the given planar mechanism for calculating the kinematic
parameters by Instantaneous centre method and Relative velocity
method.
Design cam profiles based on the prescribed motion of the follower
and determine the kinematic parameters of Tangent cams with roller
follower and circular arc cam with flat faced follower.
Calculate all the gear parameters related to spur gear, and determine
the speed & torques in epicyclic gear trains using tabulation method.
MEC2
25 MFT II
Apply the basics of engineering in calculating the cutting process
parameters, stress, strain, velocities of cutting, shear and chip flow and
also evaluate the forces in orthogonal cutting process.
Describe the cutting tool geometry, evaluate tool-life, calculate
machining time and estimate the cost of machining.
Compare various machine tools – their kinematic systems and
operations and further select a suitable indexing method for gear
cutting.
Categorize the construction and working features of various abrasive
machine tools and their applications and also further compute their
machining time.
Classify and comprehend the various non-traditional machining
processes and select a suitable process for a given practical application.
MEC2
26 MD
Apply the concepts of Engineering drawing to draw orthographic and
sectional views of mechanical components.
Draw standard fasteners and select an appropriate fastener for a given
application.
Draw and designate appropriate joints, keys and couplings.
Build the assembly drawings of machine tools and engine parts based
on their functionality.
Evaluate limits, tolerance and judge the type of fit by using both shaft
base system and hole base system and further create the process sheet
for manufacturing a component indicating all necessary geometrical
tolerances
MEC2
27 BEEE-LAB
Analyze linear circuits by using network theorem.
Predict the performance characteristics of DC machines and induction
motor
Predict the regulation of single phase transformer & alternator.
Perform experimentation on rectifiers and evaluate their
characteristics.
MEC2
28 MFT-1-LAB
Prepare sand mould for different patterns in casting process.
Evaluate the properties of moulding sand to check its suitability.
Gain proficiency in manual arc welding process by fabricating a
spectrum of weld joints.
III/IV & 1
Sem.
MEC3
12 HMS
Determine the forces exerted by a jet of fluid on stationary and moving
vanes of different shapes.
Distinguish different classes of turbines and further analyze their
working principles.
Assess the performance of hydraulic turbines.
Distinguish between different classes of pumps, their construction
features and further
Analyze their performance.
Explain the working principles of various hydraulic systems, hydraulic
control systems and fluidics and select a suitable hydraulic device for a
particular application.
MEC3
13 ETD II
Identify the phase change process of a pure substance on property plots
and determine the steam properties using steam tables and mollier
chart.
Analyse the working of a simple vapour power cycle and further apply
thermodynamic techniques to enhance its performance.
Distinguish the various classes of nozzles and condensers, evaluate
their performance and further select suitable nozzle or condenser for
specific application
Compare the functioning of different classes of steam turbines,
compounding techniques and also evaluate their performance.
Distinguish the various refrigeration cycles and analyse their
performance and further explain the psychrometric terms and
processes.
MEC3
14 TOM II
Calculate gyroscopic couple and analyze its effect in aeroplane, ship,
two wheelers and four wheelers and design Governors for a specific
application.
Perform dynamic force analysis of slider crank mechanism and design
flywheel for an IC engine.
Solve static and dynamic balancing of rotating masses in different
planes and further evaluate the balancing forces in single & multi-
cylinder engines.
Calculate the frequency & amplitude of free, forced and damped
vibrations in longitudinal vibration systems.
Calculate the natural frequency of free vibrations in transverse and
torsional vibration systems including geared systems.
MEC3
15 DME I
Design a competitive product by following all the design
considerations.
Analyze the types of failure and design the geometrical dimensions of
the component based on the various criteria of the design against static
and fluctuating loads.
Design threaded and welded joints, subjected to Eccentric &
fluctuating loads.
Design shafts, keys and couplings subjected to static and dynamic
loads.
Design springs subjected to static and dynamic loads.
MEC3
16 FM-LAB
Infer the veracity of Bernoulli’s theorem by experimentation.
Calibrate flow measuring devices such as venturimeter, orifice meter,
orifice plate and V-notch.
Experiment with flow through pipes to assess the major and minor
losses.
Determine the force exerted by a jet of fluid on vanes of different
shapes by experimentation and further compare with theoretical values.
Predict the performance characteristics of different classes of turbines
and pumps through experiments.
MEC3
17 MFT-II-LAB
Perform facing, turning, taper turning, knurling, forming and thread
cutting operations on the given work-piece and also generate tool
geometry (tool angles) on a tool blank using lathe.
Generate chips through machining processes and analyze their
characteristics by varying the machining parameters on various work-
piece materials.
Analyze the cutting forces experienced by the cutting tool for varying
cutting parameters in machine tools (lathe, drilling and milling
machines).
Measure and analyze the cutting tool temperature and shear angle of
the given cutting tool for various cutting parameters in lathe and
shaping machines.
MEC3
18
SOFTSKILLS
LAB
By the end of the course, the studentwill be able to:
1 Comprehend the core engineering subjects using effective verbal and
nonverbal communication skills.
2 Present accurate and relevant information efficiently, using suitable
material aids.
3 Work effectively as an individual as well in teams and emerge as
responsible leaders with appropriate professional ethics.
4 Participate in group discussions and interviews using analytical and
problem solving abilities, which enhance their employability skills.
5 Set time bound goals and realize them through strategic plans for
successful career.
MEC3
19
VERBAL &
QUANTITATI
VE
APTITUDE-I
Solve problems related to numerical computations in company specific
and other competitive tests.
Able to recall and use the concepts to solve problems numerical
estimation with respect to company specific and competitive tests.
Apply basic principles related to geometry and mensuration & solve
questions in company specific and competitive tests.
Detect grammatical errors in the text/sentences and rectify them while
answering their competitive/ company specific tests and frame
grammatically correct sentences while writing.
Answer questions on synonyms, antonyms, hyponyms, hypernyms and
other vocabulary based exercises while attempting company specific
and other competitive tests.
Use their logical thinking ability and solve questions related to
reasoning based exercises.
Choose the appropriate word/s/phrases suitable to the given context in
order to make the sentence/paragraph coherent.
Analyze the given data/text and find out the correct responses to the
questions asked based on the reading exercises; identify relationships
or patterns within groups of words or sentences.
III/IV & 2
Sem.
MEC3
21 MFT III
Identify, distinguish & analyze the principles of various automation
techniques that can be applied to machine tools like Numerical
Control(NC), Computer Numerical Control(CNC) and Direct
Numerical Control(DNC)
Develop program for simple contours using Manual and Automated
Programmable Tool (APT) methods
Select suitable measuring instruments for linear and angular
measurements and explain their construction, working principles and
uses.
Select suitable method and accordingly calculate various parameters of
spur gears and screw threads.
Apply different methods to calculate average surface roughness and
select suitable tests to check the alignment of lathe, radial drilling and
milling machines.
MEC3
22 IEM
Apply functions and principles of management to multi-disciplinary
engineering environments.
Employ the techniques of production planning and control to manage
production operations.
Apply work measurement techniques and method study procedures for
productivity improvement.
Analyse the selection of material handling equipment & purchasing
techniques and explain factories act, 1948 & industrial disputes act,
1947.
Evaluate quality of product using statistical process control charts and
acceptance sampling plans.
MEC3
23 DME II
Design the various types of gears based on static and dynamic Loads
Design the various IC engine components (connecting rod, crankshaft,
cylinder & Piston) subjected to combined loads and design frictional
clutches based on uniform pressure and wear theory.
Design various types of brakes, crane hooks & wire ropes.
Design and analyze the life of bearings subjected to static and dynamic
loads.
Design belt and chain drives for power transmission.
MEC3
24 ETD III
Distinguish between different classes of IC Engines and further
evaluate their performance
Compare & analyze the air standard, fuel-air and actual cycles.
Explain the combustion phenomenon in S.I & C.I engines and further
analyse the effect of engine parameters on it.
Distinguish various classes of compressors, evaluate their performance
and interpret their characteristics.
Categorise the gas turbine plants and analyse the different methods for
improving their performance.
MEC3
25 OR
Formulate a linear programming problem and choose an appropriate
method for obtaining an optimal solution.
Assess the minimum cost through transportation models and obtain the
optimum solution by using MODI method and further estimate the
maximum price or minimum cost.
Apply the concepts of PERT/CPM for decision making and computing
the scheduled time of completion of a project.
Apply the various replacement models and sequencing models to
compute optimum replacement period and optimum Job sequencing.
Classify the inventory models and apply them in inventory
management and further use Queuing models to estimate the average
waiting time.
MEC3
26 PPE
Explain the functioning of various integral sections in steam power
plant and accessories.
Analyze the working of various accessory systems in tandem with
internal combustion engine power plant and further explain the
operation of different configurations of gas turbine power plant.
Comprehend different components of hydroelectric power plant and
evaluate rainfall and run-off estimation
Explain the functioning of various integral sections in nuclear power
plant and further classify reactors.
Analyze power plant economics and evaluate power tariff.
MEC3
27 M&M LAB
Calibrate the given measuring instruments (Vernier calliper, Screw
gauge & Dial gauge).
Measure the angle of a given specimen by using universal bevel
protractor and taper angle of a bar by using sine bar & slip gauges.
Determine the angle of the given V-groove and Gear tooth parameters
of the given spur gear by using Vernier height gauge & Vernier
calliper.
Check the concentricity and roundness of the given spigot by using a
dial gauge, check the flatness of the given surface and determine the
central distance between two holes in a template using Vernier height
gauge.
Explain the various components of PLC and sensor kit & develop
ladder logic programme in PLC for various practical applications
(burglar alarm, Traffic signal, Belt Conveyer, Lift and Pneumatic
operations).
MEC3
28 ME-II-LAB
Experiment with I.C Engines to evaluate their performance
Experiment with two stage Air compressor and test for its efficiencies
Estimate actual & theoretical COP’s of VCRS by experimentation
Compare the graphical and analytical methods used for kinematic
analysis of simple mechanisms
Make use of a gyroscopic model to compare the theoretical and
experimental gyroscopic couples
MEC3
29
VERBAL &
QUANTITATI
VE
APTITUDE-II
Use their logical thinking and analytical abilities to solve reasoning
questions from company specific and other competitive tests.
Solve questions related to permutation & combinations and
probabilities from company specific and other competitive tests.
Understand and solve puzzle related questions from specific and other
competitive tests.
Write paragraphs on a particular topic, essays (issues and arguments), e
mails, summaries of group discussions, make notes, statement of
purpose (for admission into foreign universities), letters of
recommendation (for professional and educational purposes)
Converse with ease during interactive sessions/seminars in their
classrooms, compete in literary activities like elocution, debates etc.,
raise doubts in class, participate in JAM sessions/versant tests with
confidence and convey oral information in a professional manner using
reason
Use their logical thinking ability and solve questions related to
reasoning based exercises.
Choose the appropriate word/s/phrases suitable to the given context in
order to make the sentence/paragraph coherent.
Analyze the given data/text and find out the correct responses to the
questions asked based on the reading exercises; identify relationships
or patterns within groups of words or sentences.
IV/IV & 1
Sem.
MEC4
12 MEFA
Differentiate micro vs macro economics and apply the concepts of
demand analysis & demand forecasting
Explain the cost concepts and types of costs and further evaluate
Break-even point.
Identify classes of market structures,business organizations and phases
of business cycles
Differentiate fixed and working capital and Explain the methods and
sources of finance.
Prepare balance sheet ofa business organization with sole proprietor.
MEC4
13 HT
Analyze and evaluate the heat transfer rate in 1D Steady state heat
transfer applications.
Assess the temperature distribution and evaluate effectiveness and fin
efficiency for different cross-sections and further determine
temperature distribution in bodies of regular cross-sections under un-
steady state heat transfer condition.
Explain the mechanisms of convection, significance of non-
dimensional numbers and apply suitable correlations for evaluating the
heat transfer coefficients in different flows under free and forced
convection.
Explain the regimes of pool boiling, flow boiling, types of
condensation and determine the heat transfer rates and areas in heat
exchangers.
Elucidate the laws governing radiation heat transfer, evaluate the
radiation properties and determine the heat exchange by radiation
between bodies.
MEC4
14 CAD
Explain the usage of computer peripherals and Graphic display
devices.
Develop database for wire-frame model and design tree for solid
model.
Apply various FEM packages for solving problems in mechanical
engineering.
Write the algorithms for solving mechanical design problems.
Apply the technique of Artificial Intelligence to design problems.
MEC4
15 FEA
Analyze springs and bar problems using Rayleigh-Ritz and Galerkins
methods, compare and contrast FEM with other analytical methods and
explain the steps involved in FEM.
Analyze one dimensional bar problems using FEM.
Analyze plane truss and beam problems using FEM.
Analyze two dimensional structural problems using CST and Axi-
symmetric elements.
Analyze one dimensional steady state problems in Heat transfer using
FEM.
MEC4
16-I R&AC
Compare the various refrigeration systems, their applications and
further analyse aircraft refrigeration systems.
Analyse the working principles of Vapour Compression Refrigeration
Systems (VCRS) and the methods of improving their performance.
Select appropriate refrigerant for a given application and further
explain the working principles of Evaporators & Expansion devices.
Explain the functioning of vapour absorption refrigeration systems
(VARS) and further compare VARS & VCRS.
Apply the Psychrometry principles for estimating the air-conditioning
loads in various applications.
MEC4
16-III AE
Categorize automobiles and describe the constructional features of
engine parts.
Examine the operational features of various systems of engines used
in an automobile.
Explain various transmission systems of an automobile.
Describe & distinguish various suspension systems, steering systems &
brake systems of an automobile.
Illustrate the principles related to electrical and electronic systems used
in an automobile.
MEC4
17 HT Lab
Determine the thermal conductivity of a given insulating powder/a
given metal by experimentation.
Determine the heat transfer coefficient of air in free and forced
convection by experimentation and compare these with theoretical
values.
Conduct experiment in unsteady heat transfer to verify lumped system
analysis.
Experimentally determine the Stefan-Boltzmann constant and
emissivity of a grey body.
MEC4
18 CAD Lab
Draw two dimensional views of any mechanical component using
Auto CAD software.
Create three dimensional part models and assemblies of machine
components using Solidworks software.
Evaluate the stresses in 2D beams and trusses in static conditions using
ANSYS software.
Determine the stresses in 3D Components using Solidworks software.
Develop and execute programs for CNC Machine, further perform
material handling operation using “Pick and Place” ROBOT.
MEC4
19 Industrial visit Directly mapped with POs
IV/IV & 2
Sem.
MEC4
21 ICS
Explain the basic principles & performance characteristics of
measurement and also select a suitable displacement measuring
instrument for a given application/experimentation.
Explain the basic principles, working, advantages, disadvantages and
applications of temperature and pressure measuring devices and select
a suitable pressure & temperature measuring instrument for a given
application/experimentation.
Comprehend the basic principles, working, advantages, disadvantages
and applications of level, flow, speed, acceleration and vibration
measuring instruments and also select a suitable instrument for a given
application/experimentation.
Describe the basic principles, working, advantages, disadvantages and
applications of stress strain, humidity, force, torque and power
measuring instruments and also select a suitable instrument for a given
application/experimentation.
Explain the basic principles, working, advantages, disadvantages and
applications of various control systems for measuring instruments.
MEC4
22 NCSE
Distinguish various renewable energy sources & calculate solar
variables by applying the principles of solar radiation
Classify solar collectors, solar storage systems & explain the various
solar photovoltaic systems
Evaluate the performance characteristics of wind generators and
classify the bio-gas plants.
Elucidate the working principles of OTEC, tidal power generation &
geothermal power plants.
Illustrate the principle and importance of Direct energy conversion
devices (MHD & Fuel cells).
Mechanical
ENGINEE
RING
COURSE
OBJECTIV
ES AND
COURSE
OUTCOM
ES (R19
Regulation)
Dept code Course name Title of the Course
II/IV - 1st
Sem
MEC2
11 Engineering Mathematics - III
CO1
explain the characteristics of scalar and vector valued functions and
provide a
physical interpretation of the gradient, divergence, curl and related
concepts.
CO2
transform line integral to surface integral, surface to volume integral
and
vice versa using Green’s theorem, Stoke’s theorem and Gauss’s
divergence
theorem.
CO3
Explain analytical methods for solving PDEs like applying Separation
of
Variables to solve elementary problems in linear second order Partial
Differential Equations (heat and wave equations)..
CO4
Understand the need for a function or its approximation as an infinite
Fourier
series to represent discontinuous function which occurs in signal
processing
and electrical circuits
CO5
Find different Fourier transforms of non-periodic functions and also
use them
to evaluate boundary value problems
MEC2
12 Material science & Metallurgy
CO1
Gain knowledge of fundamental structures of materials and their
properties.
CO2
Understand the fundamentals of various phases of alloys and heat
treatment methods
CO3
Classify and understand the properties and applications of ferrous and
non- ferrous alloys.
CO4
Understand the modes of plastic deformation and failure mechanisms
and basic principles
of powder metallurgy.
CO5
Understand the principles and synthesis of composite materials and
powder Metallurgy
components
MEC2
13 Engineering Mechanics
CO1
Determine the resultant force for the given coplanar and non-coplanar
force
systems.
CO2
Determine the forces in the given 2D-trusses using the method of joints
and
sections; and calculate the forces required to keep the given body in
equilibrium by considering friction.
CO3
Calculate the centroid and moment of inertia of the plane surfaces
including
composite areas and also determine the mass moment of inertia for the
given
solid.
CO4
Determine the kinematic and kinetic parameters of the given particle
under
rectilinear and curvilinear translations; and calculate the velocities of
bodies
under collision.
CO5
Determine the kinematic and kinetic parameters of the given rigid
bodies
under rectilinear and curvilinear translations; and also SHM.
MEC2
14 Mechanics of solids
CO1
Determine the principal stresses and strains on an oblique plane for a
given
structure/mechanical components under complex loading conditions.
CO2
Evaluate the effect of shear force and bending moment on various
beams for all types
of loading to determine bending stress and shear stresses.
CO3
Evaluate the slope and deflection induced in the beams by using
Double integration,
Macaulay’s and Moment Area method.
CO4
Determine the torsional stresses in shafts and further estimate the
crippling loads in
short and long columns under both direct and eccentric loading.
CO5
Evaluate the hoop and longitudinal stresses in thin and thick cylinders
due to internal
and external pressures.
MEC2
15 Basic Thermodynamics
CO1
Classify thermodynamic systems & analyze the interaction between
system & surroundings
CO2
Apply the first law of thermodynamics to both flow & non flow
process and evaluate
the energy interactions between system & surroundings
CO3
Apply the second law of thermodynamics and evaluate efficiency and
COP of systems.
CO4
Assess the entropy generation & exergy distraction in a
thermodynamic process.
CO5
Evaluate the properties of gas mixture and further apply gas laws to
compute the change
in properties of system undergoing a process.
MEC2 Manufacturing Processes
16
CO1
Explain casting process, identify different types of patterns and
evaluate gating system
design
CO2 Differentiate various casting processes and identify the casting defects.
CO3 Distinguish welding processes and analyze different weld defects.
CO4
Illustrate various bulk metal forming processes and categorize various
sheet metal
operations
CO5
Interpret additive manufacturing and compare different Additive
Manufacturing processes
MEC2
17 Mechanics of solids-Lab
CO1
Measure and analyze the various properties of materials under
tensile/compressive
loads
CO2
Determine the modulus of rigidity of a material by subjecting it to a
twisting
Moment and also for a given spring material.
CO3 Determine the hardness and impact strength of a given material
CO4 Determine modulus of elasticity of a given beam material.
MEC2
18 Manufacturing- Lab
CO1 Prepare sand mould for different patterns in casting process.
CO2 Evaluate the properties of moulding sand to check its suitability
CO3
Gain proficiency in manual arc welding and spot welding process by
fabricating a
spectrum of weld joints.
MEC
224 Kinematics of Machinery
CO1
Understand the basic concepts of different mechanisms and their
inversions.
CO2
Understand and analyze mechanisms like straight line motion
mechanisms & steering gear
mechanisms and Hooke’s joint.
CO3 Perform kinematic analysis of any given simple mechanisms
CO4 Design cam profile based on the prescribed follower motion.
CO5
Get acquainted with gear terminology, distinguish gears & perform
kinematic analysis of
gears & gear trains.
MEC
225 Metal cutting, Machine Tools & Metrology
CO1
Apply the basics of engineering in computing the cutting parameters,
stress, strain,
velocity and forces and identify the types of chips in machining process
CO2
Describe the cutting tool geometry, evaluate tool-life and compute
machining time
and cost estimations.
CO3
Distinguish different machine tools – their kinematic systems and
operations and
further demonstrate the application of various tool and work holding
devices.
CO4
Identify various surface finishing operations applicable for work-pieces to
meet the
required design specifications.
CO5
Classify and choose appropriate method and instruments for inspection of
various
gear elements and thread elements, further, understand the standards of
length,
angles, evaluation of surface finish and measure the parts with various
comparators.
MEC
226 Mechanical Engineering Drawing
CO1
Draw the orthographic views and sectional views of mechanical
components.
CO2
Draw various thread profiles, Screwed fasteners, locking arrangements,
foundation bolts
and riveted joints.
CO3
Draw various temporary fasteners such as cotter joints, pin joints and
couplings.
CO4
Draw Assembly drawings of various engine components and machine tool
components.
CO5
Draw the production drawings indicating limits, geometrical tolerances
and surface
roughness and also prepare process sheets.
MEC
227 Machine Tools Lab
CO1
Perform facing, turning, taper turning, knurling, forming and thread
cutting operations
on the given work-piece and also generate tool geometry (tool angles) on
a tool blank
using lathe.
CO2
Generate chips through machining process and analyze their
characteristics by varying
the machining parameters on various work-piece materials.
CO3
Analyze the cutting forces experienced by the cutting tool for varying
cutting
parameters in machine tools (lathe, drilling and milling machines).
CO4
Measure and analyze the cutting tool temperature and shear angle of the
given cutting
tool for various cutting parameters in lathe and shaping machines.
MEC
228 BASIC ELECTRICAL AND ELECTRONICS ENGINEERING LAB
CO1
Understand the KVL and KCL, Load test on DC Shunt machine,
Swinburne’s test
CO2
Analyze the OC and SC test on Transforme, Regulation of alternator by
EMF method, 3 Phase Induction Motor load test
CO3
Obtain the V-I characteristics of PN junction diode, Zener diode and use
them in applications such as rectifier in different configurations and logic
gates.
CO4
Configure a common emitter bipolar junction transistor circuit to study its
input and output characteristics.