PROJECT PREDITOR PROJECT PREDITOR

TEAM PRESENTING: Asim HassanHussnain javaidFarzana NeloferBrishna

ROBOTICS • Robotics is the branch of technology that deals with the design,

construction, operation and application of robots  and computer systems for their control, sensory feedback, and information processing. These technologies deal with automated machines that can take the place of humans, in hazardous or manufacturing processes, or simply just resemble humans. Many of today's robots are inspired by nature contributing to the field of bio-inspired robotics just as project predator is.

• The concept in creation of machines that could operate autonomously dates back to classical times, but research into the functionality and potential uses of robots did not grow substantially until the 20th century. Throughout history, robotics has been often seen to mimic human behavior, and often manage tasks in a similar fashion. Today, robotics is a rapidly growing field, as we continue to research, design, and build new robots that serve various practical purposes, whether domestically, commercially, or militarily. Many robots do jobs that are hazardous to people such as defusing bombs, exploring shipwrecks, and mines.

INSPIRATION • After an avalanche smashed into a Pakistan

Army camp, burying at least 124 soldiers and 11 civilians in “the world’s highest battleground”. A battleground from where they never came back.

• What they left was just there families and an inspiration, to build a robot which can save life from deadly havocs and minimize any other incident in future.

ADVANTAGES OF PROJECT

• DTMF controlling new innovation which will reduces cost of GSM controlling upto50%.

• Surveillance Coverage of 360 degree view by cameras.

• Injecting Morphine & then drag a person • Auto modes of surveillance.• Will be capable to Handle Ammunition.• Remote efficient and silent camouflaged machine • Mine detection (optional)• Capable to eliminate hurdles (up to funds)• FPGA optional (up to funds).• Speed up to 120Km/h optional (up to funds).

FUTURE BENEFITS• Will provide best Security & surveillance where

implemented• First aid where no human can reach under hard

circumstances• A new innovation regarding GSM controlling• Great scope of idea for Mini detection which can be

extended to detect suicide bombers also• Emerges scope of robotics in Pakistan • Can be used by military in areas such as searching

glacier• Can be used as a spy

NECESSITY• Pair Of Laptops• Pair Of Mobile phones• 4 Cameras• Conveyer Belt(18x4)• DTMF, micro-Controller etc• Motors • Welding Machine• Iron frame• Microcontroller• Suppressor • 70cc Engine• Misc.

s/no Elapsed time since start of the project

Milestone Deliverable

1 15 July 2012 Documentation, diagrams, simulations, graphical views

A logical view of robot

2 15 August 2012 The circuit hardware with all controller

A physical set to show the controller equipment working)

3 20 December 2012 The body of robot conveyer belts etc

Frame of project

4 20 January 2013 Complete robot A complete robot working

5 15 April 2013 Testing robot for accuracy

A complete project predator

MILESTONES AND DELIVERABLES

20

2020

2020

80

60

40

20

0

0 20 40 60 80 100 120

15-Jul-12

15-Aug-12

20-Dec-12

20-Jan-13

15-Apr-131

23

45

completed Remaining

3D MAX VIEW

DUAL-TONEMULTI-FREQUENCY (DTMF)

• Dual-tone multi-frequency (DTMF) signaling is used for telecommunication signaling over analog telephone lines in the voice-frequency band between telephone handsets and other communications devices and the switching center. The version of DTMF used for telephone tone dialing is known by the trademarked term Touch-Tone (canceled March 13, 1984), and is standardized by ITU-T Recommendation

• As a method of in-band signaling, DTMF tones were also used by cable television broadcasters to indicate the start and stop times of local commercial insertion points during station breaks for the benefit of cable companies. Until better out-of-band signaling equipment was developed in the 1990s, fast, unacknowledged, and loud DTMF tone sequences could be heard during the commercial breaks of cable channels in the United States and elsewhere.

TELEPHONE KEYPAD• The contemporary keypad is laid out in a 3x4 grid,

although the original DTMF keypad had an additional column for four now-defunct menu selector keys. When used to dial a telephone number, pressing a single key will produce a pitch consisting of two simultaneous pure tone sinusoidal frequencies. The row in which the key appears determines the low frequency, and the column determines the high frequency. For example, pressing the key will result in a sound composed of both a 697 and a 1209 hertz (Hz) tone. The original keypads had levers inside, so each button activated two contacts. The multiple tones are the reason for calling the system multi frequency. These tones are then decoded by the switching center to determine which key was pressed

DTMF Keypad Frequencies

1209 Hz 1336 Hz 1477 Hz 1633 Hz

697 Hz 1 2 3 A

770 Hz 4 5 6 B

852 Hz 7 8 9 C

941 Hz * 0 # D

CONTROLLER DIAGRAM

PROJECT IMPLEMENTATION METHOD

• We will Identify risk areas then we will Information audit

• we will Identify lobbyists for project• Our prime goal is to secure funds by making a

business case, Project description, alternative options• We will Scope the system, Compare vendors and

systems; even site visits.• Project governance structures, Folder hierarchy,

Budgets.• Diagrammatic display of project• Implementation by which we mean to create the

equipment • Will do the final review for accuracy