report on project fair -2016files.gtu.ac.in/colcorner/16may/02042016.pdf · 2 preface: a project...
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1
Report on
Project Fair -2016 Date: 16th April 2016
Shree Swami Atmanand Saraswati Institute of Technology,Surat(076,Zone-5)
Index
Sr.
No. Contents
Page
No.
1
Preface
2
2 Mechanical Department 4
3 Civil Department 9
4 Computer Department 13
5 EC Department 16
6 Electrical Department 22
7 Prize Distribution Function 28
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PREFACE:
A Project Fair is organised by various departments of Shree Swami Atmanand Saraswati
Institute of Technology (SSASIT), Surat on 16th April 2016. The project fair is a great way
to get students excited about the scientific process and thinking like young
scientists. Therefore this year also various 28 guests from industries and other institutes
are invited not only to evaluate their projects but also interact and guide them for
enhancement of project knowledge. Hands-on exploration of interaction is exciting and the
educational benefits are plentiful as students develop their skills in problem-solving and
creative thinking. The project evolution is done mainly based on innovation properties and
industrial approaches of their project work.
PURPOSE:
The main motive of project fair is to provide a platform to students where they can
demonstrate their ideas to guests from various industries, faculty members and students.
To encourage the students for their best project work cash prize 105000/- Rs. has been
distributed to total 21 project groups among all disciplines of SSASIT for their
knowledge expansion and industrial relations. It also provide the motivation to 3rd year
students for making best projects in their last year.
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MECHANICAL DEPARTMENT
SECTION -1. INTRODUCTION
Date: 16 April 2016.
Number of projects: 36 & Number of students: 141
In the Mechanical project fair, students had prepared their project on various topics of
Mechanical engineering like Erosion wear, Exergy analysis, Walkcycle, Accident proof car
and more on Analytical software based. Almost all the fields of Mechanical engineering have
been covered Many new software like ANSYS, Pro-e, Creo and Minitab 14 became the main
attraction of project fair.
Evaluation Committee
Juries from Industry:
1) DR.RAJESH C. IYER, Foundar-Chairman, CYRA ENGINES Pvt. Ltd.,
2) MR.GOVIND PATEL, Foundar-CEO,Energy Audit.
3) MR.ANKUR S. VAGH, Senior Engineer – Liquid Terminal Adani Hazira Port Pvt. Ltd.
4) MR.NAIMESH SHETHIYA, Production and Technical Head,Shusha Foundary,surat
5) MR. PANKIL N. DOSHI, Director (Sales), Kantilal Chunilal & Sons APP.Pvt. Ltd.
6) PROF. CHAITANYA K. DESAI, Associate Professor, Mechanical Engineering, ckpcet, surat
Juries from Institute: (1) Dr. A. V. Deshmukh, Principal, SSASIT, surat
(2) Prof. J. G. Vaghasia, Academic Dean, SSASIT, Surat
Head of Department: Prof. V. M. Goti, MED, SSASIT, Surat
Project Coordinator: Prof. M. S. Modi, MED, SSASIT, Surat
SECTION -2. TOP THREE PROJECTS
(1)Title: ACCIDENT PREVENTION SYSTEM FOR CAR.
Students : PATEL DHRUV SHAILESHBHAI. (120760119090)
PATEL SMIT MUKESHBHAI (120760119093)
KASHIKAR PARITOSH (110760119116)
ZALAWADIYA KAUSHK R (110760119124)
Guide : Prof.V.M.GOTI ,Co Guide : Prof.M.C.BHATT
(a) Purpose/Aim
Aim to Modify the existing system of safety in care by means of which we can get optimum
safety in car by replacing the existing system or fitting the new developed system like accident
alert, control high light coming from opposite side vehicle, RFID, night vision, remove blind spot
of rear view mirror, anti-collision car laser, to reach the global safety standard. Hence, it is
required to develop an innovative kit with all above safety features at economical cost for any
moderate/heavy vehicles.
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(b) Design/Methodology/Approach
To get maximum safety
Reduce accidents
Easy to use for every one
Available for all in market
(c) Utility/Commercialization Scope
AUTO DEEPER, OBSTACLE DETECTOR, ACCIDENT ALERT SYSTEM, ANTI-
COLLISION LASER such systems used into Automobile application.
(d) Innovation/Originality/Value
By studies in this field conclusion is that, by importing this safety kit in car to get increase in
safety and comfort. And it’s also reducing the amount of accident and death occur at accident
zone.
(e) Project Picture/Diagram
(2)Title: WALKCYCLE.
Students : TRIVEDI HIREN JAGDISHBHAI. (120760119012)
ANTANI CHINMAY UDAYKUMAR. (120760119017)
GANDHI HARSHKUMAR NILESHKUMAR. (120760119063)
PATEL DAXESHKUMAR BHARATKUMAR. (120760119098)
Guide : Prof.V.A.RADADIYA , Co Guide : Prof.M.J.SAVALIYA
(a) Purpose/Aim
Main object of the project is to modify the conventional cycle design containing the
walking belts to fulfill the aim of the project it is planned to input energy in forms of
translator motion of walking belt. In cycle we need to produce direct torque, but in this
design natural walking will produce translator motion. Ultimately it is to gain that design
which will be beneficial as it will able to cut distance speedily than normal walking, use
natural human effort of whole body so health aspect, and other discussed above.
(b)Design/Methodology/Approach
Initial torque calculation
Selection of Material
Calculate the tension of cycle in running condition
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Define the material use
(c)Utility/Commercialization Scope
As we discussed above aged person or any person who cannot ride bicycle ladies at
India can use.
Who don’t want to use fuel based vehicle can probably have good option like
walkcycle.
That people who want to exercise and at the same time travel some more distance
then natural walking.
Child or person without driving license.
(d)Innovation/Originality/Value Main object of the project is to modify the conventional cycle design containing the walking
belts to fulfill the aim of the project.
(e) Project Picture/Diagram
(3)Title: DESIGN OF WATER DISTILATION SYSTEM WITH AND WITHOUT
THE USE OF FIN.
Students : PATEL UTSAV SANJAYBHAI. (110760119061)
FITER HARDIK BHUPESHBHAI. (130763119002)
SAILOR BRIJESH THAKORBHAI. (130763119024)
MISTRY JENIL KANAIYALAL. (130763119009)
Guide : Prof.J.G.VAGHASIA , Co Guide : Prof.M.S.MODI
(a) Purpose/Aim
Distillation by using solar energy represents an appreciable element of the water resource and
constitutes a realizable, simple, profitable, operational solution technically. The efficiency is
higher for solar still made up of copper sheet. The modified solar still with and without internal
reflectors is 57% higher respectively. Distillation by using solar energy represents an appreciable
element of the water resource and constitutes a realizable, simple, profitable, operational solution
technically using concentrator on simple solar still efficiency can be increased.
(b) Design/Methodology/Approach
Initially analysis carried out on existing specified engine with respect to engine performance
parameter and exhaust parameter and analytical approach is used to find relevant parameter.
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Based on that mechanism is design and later by engaging feed mechanism of oxygen
concentrator further with respect to practical approach analysis is carried out with same
engine.
(c) Utility/Commercialization Scope
Eco-friendly
Saving electricity
Reduced other impurities
No Mechanical work so noise less operation
(d) Innovation/Originality/Value
Maintain pH value of water near about 7
Reduced solid salts particles
Reduced MgCl composition
Using renewable energy (solar energy)
(e) Project Picture/Diagram
SECTION -3. PHOTO GALLERY
2nd and 3rd Year students visited Various
project Group.
1st Prize winner Group
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2nd Prize winner Group 3rd Prize winner Group
4th Prize winner Group Student interacting with Jury
SECTION -4. REVIEWS
Guest:
[1] Students have worked on wide range of subjects. Projects are innovative, they can be
converted into a good product than can be given to the society.
DR.RAJESH C. IYER
Founder-Chairman, CYRA ENGINES Pvt. Ltd.
Students:
[1] It is good providing platform to represents our idea against Industries.
PATEL DAXESHKUMAR BHARATKUMAR (4th year)
[2] It was a great experience to work as team.
MORADIYA YOGESH GHANSHYMBHAI. (4th year)
[3] Is was great initiative given by management towards students motivation as prize
distribution.
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CIVIL ENGINEERING DEPARTMENT
SECTION -1. INTRODUCTION
Date: 16/04/2016
Number of projects: 36 & Number of students: 143
Total 36 project models as well as posters were prepared & displayed on various innovative
ideas by 143 final year students from Civil Engineering field.
In the civil project fair, students had prepared their project on various topics of civil
engineering like structure, concrete, water resources, planning, transportation, environment
and soil. Almost all the fields of civil engineering have been covered. Many new software
like SAP 2000, ETABS, HEC-RAS, EPANET and STAD-PRO became the main attraction of
project fair.
Evaluation Committee
Head of Department: Prof. K. N. Choksi, CED, SSASIT, Surat
Guest from Industry: 1) Mr. Dharma Bhagat, Director Bhagat associates, Surat
2) Yunus M. Gadhiyali, Assistant engineer, SMC, Surat
3) Ar. Shyanil Patel, MD, Space Creator, Surat
Guest from Institute: 1) Prof. Chaitali Shroff, Principal, B.M.C.A, Surat
2) Dr. Ajay Dheshmukh, Principal, SSASIT, Surat
Project Coordinator: Prof. H. G. Khalasi, Assistant Professor, SSASIT, Surat
SECTION -2. TOP THREE PROJECTS
1. Title: QUALITY OF LIFE INDEX: A TOOL TO MEASURE
SUSTAINABILITY WITH A CASE STUDY OF SURAT CITY.
Students: PATEL HARSH (120764106002)
JAGIRDAR MO.TARIQ (130763106007)
KUKADIYA KETAN (120760106006)
PATEL PARAS (120760106054)
Guide: Prof. Digant A. Pastagia.
INTRODUCTION
Quality of Life is the product of the interplay among social, health, economic and
environmental conditions which affect human and social development.
This study is based on urban development of metropolitan city. This report aims to find
Quality of Life Index for Surat city with the help of a mathematical model given by Kenneth
E. Hornback and others. QOL index for various income groups as well as for whole town
have been found. After finding QOL Index the influencing factors have been found. Based
on which the planning aspects are given to improve the Quality of life of that city.
OBJECTIVES
There are mainly four objectives behind the whole study entitled Assessment of Quality of
life Index for Surat City.
To study the urban development of metropolitan city Surat to assess influencing
parameters on Quality of Life Index for various income groups.
To find Quality of Life Index for different income groups as well as of the whole city
for comparative study.To propose planning aspects to improve Quality of Life Index.
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CONCLUSION
Surat city in Gujarat has the highest growth rate. This study has indicated that the QoL index
of this city is as average as 5.138. The industrialization and related urbanization are therefore
not the indicators of improvement in the living conditions of the people. It is therefore
desirable to use the QoL index of the urban dwellers as a tool to guide the development and
in preparation of the master plan of the urban centres.
2.TITLE: PERFORMANCE EVALUATION STUDY OF AN INACTIVE MATERIAL
TO IMPROVE THE STRENGTH OF CONVENTIONAL CONCRETE.
Students: DESAI ASHUTOSH ( 120760106073)
DHARIA RAJEN ( 120760106079)
SHAH PARTH ( 120760106105)
SHEIKH KHUZAIM (120760106112)
Guide : Prof. Kavita N Choksi
Aim : Performance evaluation study of an innovative material to improve the strength of
conventional concrete.
Objective
To improve the strength of the damaged structural element using innovative
material/techniques.
To study the change in nature of structural element after the application of innovative
material/techniques.
To compare different types of characteristics of the specimen by using graphs and charts.
To suggest the best material which gives maximum strength at optimum cost.
METHODOLOGY
A Reinforced Concrete Cement specimen of size 150 x 150 x 700 mm is being adopted, as
per the feasible laboratorial conditions.
Firstly, round about 21 numbers of beams were casted and were kept for curing for 28 days.
The grade of the concrete and water cement ratio was M25 and 0.5 was adopted respectively.
Conclusion On observing cracks formed on the beam different beams where selected for the different
methods of retrofitting .on observing the results of the retrofitting of beam we can
conclude that there is strength improvement on the beam more than 75% of original load
carrying capacity.so carbon fiber fabric a new material that can be used for the retrofitting
of the structural member under specific conditions.
3.TITLE: FEASIBILITY ANALYSIS AND DESIGN OF WATER DISTRIBUTION
SYSTEM FOR PUNA GAM AREA USING “WATERGEMS” AND “EPANET”
SOFTWARE.
Students: KATHROTIYA NAMRATA (120760106001)
LUNAGARIYA PAYAL (120760106018)
KAKADIYA SHITALBEN (120760106040)
MAVANI KRUNALI (120760106052)
Guide: Prof. Darshan J. Mehta
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AIM OF THE STUDY To check the performance of Water Distribution Network of Punagam area of Surat city
using hydraulic simulation software i.e. EPANET, WATERGEMS and to report any
improvements required in existing network and the mode of operation, in order to improve
the quantity and quality of water distributed to the users.
CONCLUSIONS & RECOMMENDATIONS
• The main focus of this study is to analyze the water distribution network and identify
deficiencies (if any) in its suitability, implementation and its usage.
• At the end of the analysis it was found that the resultant pressures at all the junctions
and the flows with their velocities at all pipes are adequate enough to provide water
within the study area.
• It was observed that the pipes connected to the tanks as distribution pipes to the other
pipes have smaller diameters.
• Comparison of these results indicates that the simulated model seems to be reasonably
close to actual network.
SECTION -3. PHOTO GALLERY
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SECTION -4. REVIEWS Guest:
1] The event “Project Fair”, organized by Civil Department, SSASIT on date 16/04/2016. An
innovative approach towards giving the students lift in engineering. Several projects were
found well acquainted with their study. The variety of project is excellent and topics are
innovative as per current issues. The knowledge and technical strength of students are too
good and the support of their guide’s related work is appreciable.
Mr. Ghadiyali Yunus M. Assistant Engineer SMC, Surat
[2] The overall quality of projects of final year civil engineering students is excellent. The
topic chosen by the students depth of study in relevant area and their own contribution to
come to final conclusion is also remarkable. The way of presentation, explanation and
digestion of the topic by the students is also appreciated. The efforts made by their reactive
supervising teachers/guide are also seen in quality of projects.
Mr. Shyanil Patel M.D. Space Creators, Surat
[3] The project fair is typically bath a learning experience in itself and a means of evaluating
academic progress and achievement. Main benefits of this fair is to interact with field people,
consultant etc. so that possible solution are made for satisfying the needs of society. Project
fair are a way for students to develop critical thinking about global issues to maintain healthy
and sustainable societies in today’s environment.
Prof. Kavita Choksi HOD, CED, SSASIT, Surat
Student:
[1] Project fair was the great stage to characterize the students inner accepted wisdom. By
this fair we have learned to concentrate our whole project into a very small area which was a
big challenge and we are glad that such type of fair or function is held by our college
authorities. We are thank full to all the faculty member for the effort and their dedication to
the completion of fair.
Gaurang Kapopara
4th year, Civil Dept.
COMPUTER DEPARTMENT
SECTION-1: INTRODUCTION
Date: 16th April 2016
Number of projects: 19 & Number of students: 69
In the computer project fair, students had prepared their project on various Technology of
computer engineering. Almost all technology of Computer engineering have been covered.
Some of the group have presented the hardware and software related Project based on GPS
system. Many External Guides from the various industries also visited project fair and give
their valuable time.
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Evaluation Committee
Prof. Vasundhara V. Uchhula (Head of Computer Department)
Mr. Sanjay Ramani (Guest from Raksh Infotech, Surat)
Mr. Ashvin Savani (Guest from Avinashi System Pvt. Ltd, Surat)
Mr. Vishal Gangwane (Guest from Insightbitz, Mumbai)
Mr. Jaydeep Gheewala (Guest from SCET, Surat)
Prof. Zinal G. Solanki (Project Coordinator of Computer Department)
SECTION-2: TOP THREE PROJECTS
1. TITLE: FLYSYNC – THE ANDROID PC SUITE
Students: Vivek Lukhi (120760107016)
Chirag Patel (120760107018)
Pathik Devani (120760107020)
Divyesh Desai (120760107027)
Guide: Prof. Dharmendra Singh S. Kumar
[a] Purpose/Aim: The purpose of Flysync - the perfect android PC Suite is to provide
offline connectivity between Android phone & Laptop/PC. Using Flysync application, user
can get access of android device in network synchronised PC/Laptop which allows some
application as transfer of data, manage data, Backup of device. An attractive feature Selective
Synchronization is introduced which synchronize only selected data or applications.
[b] Design/Methodology/Approach:
[c] Project Picture/Diagram
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2. TITLE: IMAGE INPAINTING
Students: Riddhita Sutariya (120760107028)
Jasmin Vadoliya (120760107018)
Kinal Rank (120760107050)
Jinal Patel (120760107059)
Guide: Prof. Drasti J. Chauhan
[a] Purpose/Aim: : The aim of this application is to implement a technique that
automatically removes an undesirable object from image very effectively. The process of
inpaint starts with original image and create mask on object to be removed. Selection of
object is depends on the subjective choice of user and generate reconstructed image as an
output.
[b] Design/Methodology/Approach: We focus on the single iteration of the exemplar based
algorithm. Exemplar based inpainting is fills the part in an image by searching similar
information on the known region and simply copy into unknown region as is done in texture
synthesis.
3. TITLE: SQUEAKY CLEAN
Students: Asmita Jayani (120760107007)
Srushti Lakhani (120760107014)
Shivani Pandya (120760107031)
Kinna Mangroliya (120760107033)
Guide: Prof. Akhilesh Y. Ladha
Co-Guide: Prof. Zinal G. Solanki
The purpose of Squeaky Clean application is to quickly and smoothly run the android phone.
Make the system free from needed storage. Squeaky Clean application is also use to save
battery and track idle application.
[b] Design/Methodology/Approach: The project is split up into individual phases, each with
its own task and deliverables. As Squeaky clean evolve and become the predominant mode of
improving performance of an android device. Squeaky Clean is a pretty useful application for
keeping your device always clean and optimized. So that it is crucial to anyone who has
memory management and battery life issues.
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[d] Project Picture/Diagram
SECTION-3: PHOTO GALLERY
SECTION-4: REVIEWS
The project fair was visited by many developers from IT industry. We received very good
reviews from them. Few of them are listed below.
1. Awesome Projects with innovative idea for real user interaction.
2. I am quite impressed and happy to see that students of SSASIT have taken innovative
projects based on emerging issues and need of the society as well as IT industry.
3. Students need to work on recent areas like Cloud, Big Data, Embedded Systems, IOT
Systems, but its good students are working on IOS and Android.
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EC DEPARTMENT
SECTION -1. INTRODUCTION
Date: 16th April-2016
Number of projects: 18 & Number of students: 69
In the EC project fair, students had prepared their project on various topics of EC engineering
like Embedded and Software based. Almost all the fields of EC engineering have been
covered Many new software like MATLAB, HFSS, KEIL, PROTEUS became the main
attraction of project fair.
Evaluation Committee
Head of Department: Prof. A. P. Lakhlani, ECD, SSASIT, Surat
Jury from Industry: Mr. Rajesh Desai, Director, Rajesh Electronics Pvt. Ltd., Surat, Mr.
Bharat Bhut, Director, Goldi Green Pvt. Ltd., Surat and Mr. Dipak
Panchal,
Maintenance Manager, Goldi Green Pvt. Ltd., Surat
Guest from Institute: 1) Dr Ajay V. Deshmukh, Principal, SSASIT, surat
2) Prof. J. G. Vaghasia, Dean of Academics, SSASIT, Surat
Project Coordinator: Prof. Bhavesh Asodariya, ECD, SSASIT, Surat
SECTION -2. TOP THREE PROJECTS
1. TITLE: LOW POWER SECURED WIRELESS PROTOCOL DESIGN USING
RFID
Students : Hemantkumar M. Agrawal (120760111022)
Priyanka M. Bari (120760111015)
Brijesh R. Chopda (120760111035)
Dhrumen D. Dharani (130763111002)
Guide : Prof. Bhavesh M. Asodariya
[a]Purpose/Aim
The aim of the project is to design full functional nodes and to deploy low power consuming
as well as secure wireless protocol for Industrial parameter monitoring using RFID and other
applications.
[b]Design/Methodology/ApproachTo compare and contrast existing Wireless Sensor
Network protocol suitable for measuring industrial parameter considering energy demands,
battery lifetime, data rates, physical dimensions, costs and other important aspects.
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To create the Graphical User interface in LabVIEW development environment for
API interfaced to application for acquisition and extracting sensor nodes information.
The sensor nodes parameter graphically displayed on real time graphs. Finally, the
testing phase Coordinator and Slave nodes tested in terms of indoor range, outdoor
range, current consumption, reliability. This phase also test hardware and software
implementation of nodes.
[c]Utility/Commercialization Scope
The low power secure wireless protocol is designed to deploy wireless sensor network for
industrial parameter monitoring. Sensor nodes acquire the industrial variable from field and
wirelessly transmit to central master node for acquisition, monitoring, analysis and storage.
[d]Innovation/Originality/Value
It works on the frequency of 433MHz efficient design and implementation of wireless sensor
networks has become a hot area of research in recent years, due to the vast potential of sensor
networks to enable applications that connect the physical world to the virtual world. By
networking large numbers of tiny sensor nodes, it is possible to obtain data about physical
phenomena that was difficult or impossible to obtain in more conventional ways.
[e] Project Picture/Diagram
2. TITLE: TO DETECT & DISPLAY THREAD BREAKAGE IN TFO (TWO FOR
ONE) MACHINE TO MAKE PROCESS EFFICIENT
Students : Ankita Anghan (120760111003)
Jimesha Avaiya (120760111005)
Surbhi Sharma (120760111006)
Deepika Saraswat (120760111007)
Guide : Prof. Bhavesh M. Asodariya
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[a]Purpose/Aim
This project is for yarn twisting machine TFO. Aim of this project is to detect thread (yarn)
cut in between bobbins of TFO and then display that bobbin’s number wirelessly on LCD.
[b]Design/Methodology/Approach
There are many aspects related with the project to gain the aim of project. The project is
designed to attain the following objectives.
To improve working efficiency because yarn is too thin so it is difficult to observe by
worker.
To reduce cost because it will reduce requirement of worker, only one person is
enough to handle.
To make a module which is flexible so that it can be easy to install or remove.
To eliminate requirement of sensors.
[c]Utility/Commercialization Scope
This project is useful in textile industry for TFO machine. This module will detect thread cut
in between bobbins of TFO and then wirelessly display it on LCD. This module doesn’t use
any sensor for thread detection, it just use a simple spring for this purpose and improve
accuracy of work. It is also compatible with old TFOs.
[d]Innovation/Originality/Value
This project is useful in textile industry for TFO machine. This module will detect thread cut
in between bobbins of TFO and then wirelessly display it on LCD. This module doesn’t use
any sensor for thread detection, it just use a simple spring for this purpose and improve
accuracy of work. It is also compatible with old TFOs.
3. TITLE: IMPLEMENTATION OF MICROCONTROLLER ON FPGA.
Students : Ramani Raj R. (120760111045)
Hirpara Soham J. (120760111046)
Lakdiwala Urvish H. (120760111048)
Chaudhari Niket M. (120760111058)
Guide : Prof. Nirmal A. Bhatt
[a]Purpose/Aim
The aim of the project is to make a softcore microcontroller on FPGA with USB protocol
which used to transfer data from any machine with high speed and low power.
[b]Design/Methodology/Approach
There are many aspects related with the project to gain the aim of project. The project is
designed to attain the following objectives.
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To understand implementation of any protocol on microcontroller.
To develop a microcontroller which can be helpful to transfer data from machine as
well as it performs given task without the use of external assistive devices.
To help the industries & students to develop their system with low cost
microcontroller and low power.
[c]Utility/Commercialization Scope
This softcore microcontroller is used in any embedded system as well as students who
develop their own system with low cost as well as low power with high speed. This
microcontroller will perform its assigned task very efficiently with low power and high
speed. In the future expansion of this project, this microcontroller can be modified to the
more protocol and with some feature with even more power saving. This type of new
generation microcontroller can be used for any embedded system with low cost and low
power.
[d]Innovation/Originality/Value
They are commonly designed for embedded system, to help industries and students to work
with low power and cost as well as with high speed. This microcontroller is used as simple
microcontroller and with USB to transfer data from system it is very easy. In any embedded
system to complete given task this microcontroller can be use with low power and high speed
with cost effective system. This microcontroller is designed with RISC architecture.
3. TITLE: WOBBIE- A WEARABLE WRISTBAND FOR AUTOMATION.
Students : Shah Parth (130763111012)
Balar Manisha (120760111010)
Sutariya Rushmita (120760111016)
Patel Roshan (120760111060)
Guide : Prof. Dipesh Bhagat
[a]Purpose/Aim
The purpose of this project is to develop a wearable wristband by which people can control
any appliances by simple hand movement without using switches. This project is very helpful
to the old people who cannot stand so many times to turn ON and OFF any appliances.
[b]Design/Methodology/Approach
There are many aspects related with the project to gain the aim of project. The project is
designed to attain the following objectives.To understand the working of different sensors, its
range, communication protocol used in our project.
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[c]Utility/Commercialization Scope
Our project has a wide range of scopes because now a day’s attraction towards wearable
device are rapidly increase and this device add more comfort to the human life. this is
cheapest automation solution so middle class and lower class family can also use this
automation system.
[d]Innovation/Originality/Value
This is completely new method for automation, in which user can control any device by
wearing a wristband, there are so many method for automation like remote control, android
based, image processing based etc. but this method has vast possibilities to replace all this
methods.To turn on/off any device just put hand towards the direction of the receiver of that
appliances and do predefine gesture, device will respond.
[e] Project Picture/Diagram
SECTION -3. PHOTO GALLERY
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SECTION -4. REVIEWS
Guest: [1] Great effort given by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Some of the students ideas are practically
applicable for industries. But also students need to improve their fundamentals.
Mr. Rajesh Desai
Director- Rajesh Electronics Pvt. Ltd., Surat
[2] It is the innovative experiment that this type of arrangement must be there in each
colleges so that 1st, 2nd & 3rd year students are encouraged to have such type of different
ideas or thought in their mind and try to think as well as implement on it. This type of activity
must be there at the end of 7th & 8th semester before they are going for external project
exam. The project fair was well organised.
Mr. Bharat Bhut
Director - Goldi Green Pvt. Ltd., Surat
Student:
[1] The project fair 2016 was a great and successful event. In that fair, we got ideas and
knowledge about all the new technologies. Also we got ideas how to find project problems
and how we can implement it.
Suhagiya Monika, and Lunagariya Mayuri (3rd year, E&C Dept.)
[2] We also get some extra knowledge from our seniors and faculty members. It was a great
kind of idea to present such a kind of projects so that some new and innovative kinds of
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projects must be prepared in the upcoming years by us which would be helpful for the
progress of the state and the nation.
Yash Doshi, Patel Akash, Sadab Shaikh (3rd year, E&C Dept.)
[3] It was an nice experience and a good opportunity for us to explore our project and it had
motivated us a lot to do further work on our project.
Vaibhavi, Lucy, Sunny, and Swati (4th year, EC Dept)
ELECTRICAL DEPARTMENT
SECTION -1. INTRODUCTION
Number of projects: 18 Number of students: 71 Date: 16/04/2016
Introduction:
Project Fair 2016 was organized by Shree Swami Atmanand Saraswati Institute of
Technology, Surat and GTU Innovation Council (GIC), Ahmedabad on 16th April. 2016. The
departmental event was coordinated by Prof. Archan B. Patel, Project Coordinator under the
guidance of Prof. Nikunj R. Patel, Head of Electrical Engineering Department. Overall event
was coordinated by Prof. Foram N. Dharsandiya, Project Fair Coordinator. Total 18 number
of projects were presented by different groups of students. It includes hardware based as well
as software based projects. Industrial guides also visited the fair and guided many of the
projects groups during their visit. Invited experts have done thorough evaluation of all the
projects and combining all the evaluations from different experts top three projects from the
Electrical Engineering Department were given cash prize of Rs. 5000/- each.
Evaluation Committee
Expert from Industry: 1. Mr. Pradhyuman Ahir, Sr. Engineer, DGVCL, Surat
2. Mr. Pravin Mayatra, Executive Engineer, Torrent Power Ltd.
3. Mr. Aniket Tambadiya, GETCO, Vadodara
Expert from Academics: 1. Prof. Mohan Patel, Assistant Professor, SCET, Surat
Head of Department: Prof. N. R. Patel , Head of Department, EED,SSASIT,Surat
Project Coordinator: Prof. A. B. Patel, Assistant Professor, EED, SSASIT, Surat
SECTION -2. TOP THREE PROJECTS
1. TITLE: MONITORING & PROTECTION OF THREE PHASE EQUIPMENT
THROUGH INTERNET OF THINGS (IOT)
Students: Suratwala Darshan, Gamit Rajneesh N, Makwana Shaead, Vaghela Mehul.
Guide : Prof. Richa P. Mali
[a] Purpose/Aim
The main aim of the project is to acquire real time data from three phase equipment remotely
over the internet and to protect the equipment in case of abnormal condition. The Supervision
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of the 3-Phase Equipment can be done by monitoring different parameter of equipment from
sensing device like Hall Effect Sensor, Voltage Transformer& temperature sensor.
[b] Design/Methodology/Approach
Basically the project is divided into four subsystem according to its functionality namely:
Sensing System, Controlling and processing unit, Protection system, Monitoring system.
Different subsystem had its own function of operation like sensing, controlling, processing
etc. These sub system interpret with each other for the real-time monitoring of sensed data.
[c]Utility/Commercialization Scope
Monitoring and Supervising of various parameter of the Equipment in the industry/company
is bonded to some extend.This problem can be overcome by the new network system called
internet of Things (IoT). The number of connected devices on IoT network is huge about 40
billion. The IoT basically connecting embedded system to internet.
[d]Innovation/Originality/Value
A novel system for monitoring and protection of three phase equipment is developed. Use of
IOT is done which is a novel methos in this field.
[e] Project Picture/Diagram
2.TITLE: DESIGN & DEVELOPMENT OF SOLAR CUM ELECTRIC CAR
Students: Medapara Jainish, Khunt Sagar, Bhanderi Hardik, Sorathiya Sandip
Guide : Prof. Archan B. Patel
[a] Purpose/Aim
The main purpose is conservation of energy. Their solar panels work silently so they don’t
add to the noise pollution already on the road. Solar panels don’t create greenhouse gases, as
gasoline engines do. Most importantly, solar energy is free, widely available, and grants the
solar car driver complete independence from foreign oil.
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[b] Design/Methodology/Approach
Solar cars combine technology found in the aerospace, bicycle, alternative energy and
automotive industries. The design of a solar powered car is limited by the necessity of getting
lots of energy from the sun and storing that energy in batteries. Almost all solar cars ever
built have been for the purpose of solar car races.
[c] Utility/Commercialization Scope
There is still a long, long way to go before solar cars become viable for commercial use. For
the time being, they are probably better off where they are, in solar car races, and research
programs. For now, we can live with having solar powered accessories and sound systems,
knowing that the day will come when a completely solar powered vehicle will be up for sale
at the local car dealership. That day, we finally lose our dependence on fossil fuels.
[d] Innovation/Originality/Value
A novel technology is developed for charge controller and simulated using battery.
Optimized design for solar car is developed and tested. One 2 seater car will cost around
25000/- rupees.
[e] Project Picture/Diagram
2. TITLE: AUTOMATIC TRANSFORMER WINDING DEVICE
Students: Patel Parthkumar, Sakariya Mitesh, Kapopara Piyush, Modi Vishal
Guide : Prof. Nikunj R. Patel
[a] Purpose/Aim
By using this project we can number of transformer such as a 50VA, 100VA & more than
100VA.
[b] Design/Methodology/Approach
The main attention is to reduce effort behind manually operated machine & implement the
idea of automation in coil winding machine at minimum manufacturing cost also in increases
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productivity of automated machine. In practical world of electrical engineering transformer
coil is very sensitive and important part. By this Paper we can also improve quality of
winding as well as life of product. Automatic plants can work continuously and can decrease
the gap between demand and supply.
[c] Utility/Commercialization Scope
The scope this device is to be manufacture different rating transformer. By this we made
control transformer. This transformer is used to measure the current. In industry there are
number of transformer are made in each day. By using this device we can built transformer
within 10 to 15 minute so time would be reduced and it gives a accurate reading.
[d] Innovation/Originality/Value
Application of this project is to built a control as well a measuring transformer. For example
50VA, 100VA & 200VA.
[e] Project Picture/Diagram
SECTION-3: PHOTO GALLERY
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SECTION - 4. REVIEWS
Experts: [1]. I am highly delighted that your institute is organizing this kind of events and aslo IDP
projects are allowed. This type of fair can give clear cut idea about development of product
and recent trends in the market or industry. All the groups have done wonderful work.
Mr. Pradhyuman Ahir
DGVCL, Surat
[2]. Very nice try to create a discussion forum between industry and academia. This fair
provides a platform to the passing out students to showcase their innovative ideas and design.
Nice to interact with all the staffs of the department. Projects developed by the students are
really nice. They have worked upto some extrent such that they have gain some knowledge.
Mr. Pravin Mayatra
Executive Engineer, Torrent Power.
Students:
[1] By visiting the project fair of electrical department, we came to know that all the students
have showcased their technical knowledge as well as presentation skills in their best possible
manner, as well as there were many innovative designs which will change the face of future
electrical engineering.
Megha Brahmbhatt (4th year, Electrical Dept)
[2] It was very nice presentation and exhibition of projects. This will help us to decide our
final project year title.
Khyati Piprotar (3rd year, Electrical Dept)
[3] A very good project presentation by our seniors. Came to know about some new
technological advancement in industries. Nice event to present our work.
Aditya More (3rd year, Electrical Dept.)