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Notice Board

Abstract Project Details

Sr. No
Specification
Details
1
Title
“TEXTURE PARAMETER EXTRACTION FOR SATELLITE IMAGES”
Projectees
Ketki S. Palsodkar, Ankita C. Kawadkar, Saket J. Panchbhai, Mayur A. Patil, Chaitanya P. Dhondrikar, Sushant D. Kamble,
Guide
Prof. AshwiniRaut , Dr. S.P. Rao( Scientist SF,  ISRO)
Keywords
GLCM- Gray Level Co-occurrence Matrix, ASM- Angular Second Moment, IDM- Inverse Difference Moment
Abstract
Texture, the pattern of information or arrangement of the structure found in an image, is an important feature of many image types. In a general sense, texture refers to surface characteristics and appearance of an object given by the size, shape, density, arrangement, proportion of its elementary parts. Due to the signification of texture information, texture feature extraction is a key function in various image processing applications, remote sensing and content based image retrieval. Texture features can be extracted in several methods, using statistical, structural, model-based and transform information, in which the most common way is using the Gray Level Co-occurrence Matrix (GLCM). GLCM contains the second-order statistical information of spatial relationship of pixels of an image. From GLCM, many useful textural properties can be calculated to expose details about the image content. We have studied various texture parameters and some of them implemented on satellite images namely Contrast, Entropy, Angular Second Moment (ASM), Inverse Difference Moment (IDM), Energy, Variance, etc.
2
Title
“SMART GAS CYLINDER BOOKING SYSTEM AND LEAKAGE SAFETY”
Projectees
Priya S. Raut,  Sonali M. Wankhede, MeghaR.Warjurkar
Guide
Prof. Rachana P. Borghate
Keywords
LPG, MQ-2-
Abstract
The design of a wireless LPG leakage monitoring system is proposed for home safety. This system detects the leakage of the LPG and alerts the consumer about the leak by SMS and as an emergency measure the system will turn off the power supply, while activating the alarm. The additional advantage of the system is that it continuously monitors the level of the LPG present in the cylinder using load sensor and if the gas level reaches below the threshold limit of gas around 3kg so that the user can replace the old cylinder with new in time and automatically books the cylinder using a GSM module .The device ensures safety and prevents suffocation and explosion due to gas leakage. This project is implemented using Atmega8 Microcontroller and simulated using AVR Studio.
3
Title
“WEB BASED REMOTE ENERGY PARAMETER MONITORING SYSTEM"
Projectees
Nileshsule, Prabhanshu Sharma, Prathamesh Nimonkar, Himanshu Sukhdeve
Guide
Prof. Pratik Bheley/Mr.VipinKhedkar(Coal tech Automation)
Keywords
Energy audit, energy conservation, control system
Abstract
The energy audit may start from a basic walk through survey at one extreme to one that may span several phases. These phases may include a basic walk through survey, followed by monitoring of energy use in the industry services, and then model analysis using computer simulation of industry operation. Energy audit plays an important role in identifying energy conservation opportunities in the different industrial sector, while they do not provide the final answer to the problem; they do help to identify possible potential for energy conservation and induces the companies to concentrate their efforts in this area in a focused manner. The complexity of the audit is therefore directly related to the stages or degree of sophistication of the energy management program and the cost of the audit exercise. Remote monitoring and control system refers to a field of industrial automation that is entering a new era with the development of wireless sensing devices. Remote monitoring of different industries sensors, machineries, energy or the power panels are the most demanding products and many organizations are working on it. The paper discusses the available solution in the industrial area and different research going through in order to improve the system.
4
Title
“HAND GESTURE RECOGNITION AND VOICE CONVERSION SYSTEM FOR DEAF   AND DUMB PEOPLE"
Projectees
Rahul Maindalkar,PrachiUpadhey,AkshayDuragkar,NileshChacherkar
Guide
Prof. Pratik Bheley
Keywords
Communication gap,Gesture recognition
Abstract
This project aims to lower the communication gap between the mute community and additionally the standard world. The projected methodology interprets language into speech. We proposed a new technique called artificial speaking mouth for deaf & dumb people. It is based on the need of developing an electronic device that can translate sign language into speech in order to make the communication take place between the mute communities with the general public possible.Gesture recognition implies a method by that knowledge is collected from parts of the physical body (usually the hand) and processed to work out attributes like hand form, direction and speed of gesture being performed.
5
Title
“THREE PARALLEL REED SOLOMON ENCODER USING VERILOG HDL”
Projectees
PoojaWandile, KiranBudhabaware, RevatiChoudhary, Vaibhavi Kulkarni
Guide
Prof. ShrikantBhoyar
Keywords
Galois Field-Galois Field Constant Multiplier-Conventional Encoder-Reed Solomon Encoder-Two Parallel Reed Solomon Encoder-Three Parallel Reed Solomon Encoder
Abstract
In coding theory, the Reed Solomon codes belong to the class of non-binary cyclic error-correcting codes. The Reed Solomon codes are based on univariate polynomials over finite fields . It is popularly used for error correction in many applications like storage devices (CD, DVD), wireless communications, high speed modems and satellite communications.
Our aim of the project is to implement Three parallel Reed Solomon encoder using Verilog test bench waveform and also to analyze error probability that is occurring during transmission. Precisely, here investigation of clock cycles for a (255,239) Reed Solomon code of Three Parallel Encoder in comparison with Two Parallel Encoder is done.
The Three Parallel Encoder is implemented using constant GF multipliers. In constant GF multipliers any one of the inputs applied is constant. Constant inputs to multipliers are provided by coefficients of generator polynomial. For Three Parallel Encoder three partial generator polynomials are required, each having 16 coefficients. So total number of GF multipliers required are 48.
Three Parallel RS Encoder using constant finite field multipliers is implemented on same software with Spartan 6 FPGA XC6SLX16-3CSG24.
Finally an efficient architecture is obtained in terms of less clock cycles.
6
Title
“BLUETOOTH BASED PORTABLE HEALTH MONITORING SYSTEM”
Projectees
AakankshaWarankar, AishwaryaKulkarni, PoojaChanne, SurabhiDiwe
Guide
Prof. PriyankaMandavgade
Keywords
NTC - Negative Temperature  Coefficient, ADC - Analog to Digital ConverterLDR - Light Dependant Resistor, LED - Light Emitting Diode
Abstract
In this fast pace of life it is difficult for people to be constantly available for their near ones who might need them while they are suffering from any disease or physical disorder. So also constant monitoring of the patient’s body parameters such as pulse rate, respiratory rate etc becomes difficult. Also in intensive care units it is necessary to monitor continuously the patient’s health parameters and keep their record. But there is a possibility of human errors. Hence to remove human errors and to lessen excessive burden of continuously monitoring patient’s health from doctor’s head, we are proposing patient monitoring system using Bluetooth. A patient monitoring system which provides continuous monitoring of a patient includes a data acquisition & processing module which receives physiological data from the patient and Bluetooth module to transmit acquired data to doctor’s mobile. This unit may be inserted in a bedside display unit to display the physiological condition of the patient. Patient monitoring systems measure physiological characteristics either continuously or at regular intervals over time.
7
Title
“TITLEDATA LOGGER FOR GREEN HOUSE”
Projecteess
BhawnaK.Pasare,BhagyashriG.Tambe,Wrundesh,P.Koparkar,RohitaD.katkar,ShivaliD.Manwatkar
Guide
Prof. ApurvaGanar
Keywords
ADC - Analog to Digital Converter                                                  
LDR - Light Dependant Resistor
Abstract
This project is a fine combination of analog and digital electronics. This project is designed so as to fulfill the requirements of the industry applications, home applications. The project consists of parameters monitoring, parameter storage. PC interface is one of the main features of the project in which various data like value of parameters, date and time are sent to the PC using a hyper terminal. We have used Microcontroller as a main component of the project. Now a Microcontroller has become a main component of many of the electronic circuits. Also Liquid Crystal Display (LCD) is used on major basis for the display and storage purpose. This project which will consist of two basis modules. First is “Data monitoring” & other is “Data Storage
8
Title
“WIRELESS HEALTH MONITORING SYSTEM”
Projecteess
AishwaryaKolhe, JuileeDeshmukh, MayuriPadole
Guide
Ms. DarshanaChaware
Keywords
Monitoring system, patients
Abstract
The aim of project is to develop an ATmega32 based system for wireless Blood oxygen saturation and temperature monitoring system using GSM. We are using two sensors for measuring temperature one is LM35 and the other is thermistor and calculating oxygen percentage in blood with SPO2 sensor. We are using ATmega 32 microcontroller which facilitates single cycle execution for most instructions. A GSM module is used for communication between patient and a doctor. We are using a 20*4 LCD to show output having temperature in farhenite and oxygen saturation in percentage. The system proposes a method to measure patient’s body temperature and oxygen percentage in real time. 
The objective is a device used to keep track on patient should be easy to use, portable, light weighted, small size so that it gives freedom of mobility for patient. The devices which can be carried everywhere to keep track on patients health .This device that is a heartbeat sensor would help them keep track on heartbeat counts of a patient and check for any abnormalities. If any varied change takes place it is notified. This would help patient c oncern doctor to take appropriate action at proper time
9
Title
DESIGN AND DEVELOPMENT OF PROSTHETIC LIMB”
Projecteess
Miss. Nidhi S. Giridhar,Mr. Kunal H. Ukande,Mr. Dilip B. Agashe
Mr. Aman J. Kawre
Name of Guide
Prof .SnehaDhakne
Keywords
EMG Electromyography, TMR- Targeted muscle renovation, TSR- targeted sensory renovation, IPMC- Ionomeric Polymer-Metal Composites, DOF- degrees of freedom, PLA- Poly Lactic Acid, MDA- mechanical design automation, CAGD- called computer-aided geometric design
Abstract
This project presents the ideology of this research, which is to utilize advanced actuators to design and develop innovative, lightweight, powerful, compact, and dexterous prosthetic technology. The key to satisfying these objectives is the use of advanced or smart materials, such as Accelerometer to power the fingers. A new prosthetic limb actuated by servos developed in this paper. Different from typical geared motor, servo is light weight and silent, however shows a little short stroke and small attracting force per each unit. In order to achieve enough output force and motion range of limb, multiple Servos with advanced specification can be used which facilitates enough motion required in limb. The fundamental properties of the Servos including output force and electrical response were determined experimentally and considered for the design of limb mechanism. Besides, the structure of arm and whole system has been designed based on observation of human limb. The electrical hardware to control multiple shape memory alloy type artificial muscles has been also developed. Finally, the usefulness of the prosthetic limb has been investigated through experiments for lifting several types of objects
10
Title
“MEMS ACCELEROMETER BASED ON 3D MOUSE AND  HANDWRITTEN RECOGNITION SYSTEM”
Projecteess
AnkeshSontakke , Ankit Dhawale, OmprakashThakare,SabhyataThool ,SupritBanmare
Guide
Prof .SnehaDhakne
Keywords
MEMS(Micro Electro Mechanical System), Zigbee, IDE(Integrated Development Environment)
Abstract
Due to the rapid development and research in the field of computer technology, human-computer interaction techniques have become an indispensable system in our daily life. MEMS accelerometer based embedded system have been designed for handwritten recognition and mouse gesture recognition algorithm and its applications. The hardware module consists of a tri-axial MEMS accelerometer, PIC microcontroller, and zigbee wireless module for sensing and collecting accelerations of handwriting and hand gesture trajectories. The accelerations of hand motions measured by MEMS accelerometer are transmitted wirelessly to the Computer. This system operates in two modes. It can operate as a mouse by recognizing the gestures. In other mode it can operate as handwritten recognition for identifying the digits and characters, and also it provides static authentication for the system by recognizing the characters and digits. MEMS accelerometer based 3D mouse can be treated as the new age input device. MEMS accelerometer based device is more natural in its feel and provides the user with efficient ease of use. Hand written digits and characters are one form of human interaction can be used effectively in human-computer interaction for gesture recognition and static authentication with better password protection. An Integrated Development Interface is developed using MATLAB
11
Title
“DESIGN OF HIGH SPEED MODIFIED CARRY SELECT ADDER FOR 32 BIT VEDIC MULTIPLIER”
Projecteess
DeepaAblankar, VaishnaviShilankar, Monika Gudadhe
NikilKumbhare
Guide
Prof. ShrikantBhoyar
Keywords
Modified carry select adder, binary to excess 1 converter, ripple carry adder, vedic multiplier, etc
Abstract
A high speed 32*32 bit Vedic Multiplier is design by using high speed modified carry select adder. Modified Carry Select Adder employs a newly incremented circuit in the intermediate stages often Carry Select Adder (CSA) which is known to be the fastest adder among the conventional adder structures.
12
Title
“ROSE HARVESTING SYSTEM USING PIC”
Projectees
RadhaBhoyar, RadhikaSabnis, JuileeSathone
Guide
Prof. KumudiniBorkute
Keywords
Color sensor, pic-microcontroller, rose detection, raspberry-pi.
Abstract

Rose harvesting using embedded system and raspberry pi elaborates the perfection of harvesting the rose flower using embedded system and raspberry pi in order to carry out the fully grown roses or bud with the help of color sensor and robotic mechanism. To overcome the handling difficulties that arise during rose cultivation, a rose harvesting mechanism using embedded system is carried out. Embedded system architecture (PIC microcontroller, color sensor and motor driver circuit and raspberry pi module is been used in  the project. The embedded system architecture is used for operating the whole system which is a variant of PIC microcontroller and motor driver circuit to work with LCD, a library for displaying the details of system in real time. A cutting tool is used with the help of gear motor system to cut the fully blossom roses using robotic process. Through LCD various parameters received will be displayed. Also raspberry pi connected with a led helps to show output giving detailed parameters about the rose which has been detected and identified.

13
Title

“ADVANCED HOME AUTOMATION USING FPGA CONTROLLER”

Projectees
Shraddha Kodhe , TineshwariPathade, Vaishnavi Barbate, Samiksha Mande
Guide

Prof. Prashant Wanjari

Abstract

The analysis and implementation of the home automation technology using Global System for Mobile Communication (GSM) modem to control home appliances such as light, conditional system, and security system via Short Message Service (SMS) text messages is presented in this project. As there is demand for smart home automation, this project presents a novel technology where the user controls the devices through mobiles. Home owners will be able to receive feedback status of any home appliances under control whether switched on or off remotely by a SMS text. The proposed research work is focused on functionality of the GSM protocol, which allows the user to control the target system away from residential using the frequency bandwidths. Technology advancements have made the implementation result in increasing the capabilities and features of HACS (Home Automation Control System). Implementation is done using FPGA (Field Programmable Gate Array) as a controller to which the devices are directly interfaced. Control to the devices is communicated to the FPGA from the mobile phone using SMS

14
Title

GRANARY ENVIORNMENT MONITERING SYSTEM USING ZIGBEE

Projectees
Chetan Janardhan Wagh, . Shubham Kumar, Shrivallabh Sunil Bhite, Dhiraj Purushottam  Shete  
Guide

Ms.Vishakha Nandanwar

Keywords

ZigBee, Wireless sensor system

Abstract

Grain storage is the important factor for seasonal production. Grain is an important strategic resource of the country. This article design Granary environment storage monitoring system which is having combination of Embedded system and Zigbee sensor Network technology. The design of wireless sensor network using ZigBee which is used for multipoint acquisition and transmission of environment parameter using ARM7 to the Grain storage managers which improve the Scalability and flexibility of grain storage management

15
Title

“PORATABLE  DIGITAL CRO”

Projectees

Payal Pancheshwar , Nikita Konge , Komal Mendhe , Pratiksha Pande

Guide

Prof. Rohit Himte

Keywords

Oscilloscope, GLCD, CRT, ATMEGA32

Abstract

Oscilloscopes are very useful electronic instruments that enable one to see voltage wave-shapes in an electronic circuit. But these instruments are very expensive and average students can hardly afford to buy one. This project describes the design and development of a low-cost portable oscilloscope based on ATMEGA32 and Graphical Liquid Crystal Display (GLCD). This project is designed and developed to achieve the same functionality of traditional oscilloscopes. An Atmel microcontroller is used for data acquisition which will then be displayed as a waveform on a GLCD screen as it would have appeared on a traditional CRT oscilloscope. The oscilloscope displays waveforms in real-time by reading a finite number of samples and storing them into its internal RAM. Once the memory is full the Microcontroller will stop sampling and transfer the data to the GLCD display. This handheld oscilloscope is very cheap, uses low power, generates low internal noise, uses very few components and easy to operate. We have discussed the development of existing digital oscilloscope which is used for research and development purpose. To convert costly device affordable and which consume less space and less power leads to save time and money. In this way we have tried to reduce the cost and space occupied by oscilloscope.

16
Title

ELECTRONIC NOTICE BOARD USING GSM

Projectees

Ravina Raut, Ashwini Panchal, Chaitali Umredkar, Sneha Awari

Guide

Prof. Rohit Himte

Keywords

Microcontroller 89c51, GSM Modem and MAX232 level converter, Assembly language Programming, Flash Magic, and RIDE

Abstract

Notice board is primary thing in any institution or organization or  public utility places like bus stops, railway stations or parks. But sending various notices day to day is a tedious process. This paper deals with advanced notice board. This is the model for displaying notices in colleges on digital notice board by sending messages in form of SMS through mobile; it is a wireless transmission system which has very less errors and maintenance. Its operation is based on microcontroller ATMEGA32 programmed in assembly language. A SIM300 GSM modem with a SIM card is interfaced to the ports of the microcontroller with the help of AT commands. When the user sends a SMS via a registered number from his mobile phone, it is received by SIM300 GSM modem at the receiver’s end. SIM300 is duly interfaced through a level shifter IC MAX232 to the microcontroller. It is used to convert RS232 voltage levels to TTL voltage levels and vice versa. The messaged is thus fetched into the microcontroller. Microcontroller coding will be done using assembly language programming. It is further displayed on an electronic notice board which equipped with LCD display interfaced to microprocessor powered by a regulated power supply from mains supply of 230 volts ac.  This project is our experiment on real time noticing.

17
Title

“MESSENGER ROBOT USING RASPBERRY PI”

Projectees
Shreya Kale, Alhad Pathak, SupriyaRane, Vishakha Trivedi
Guide
Prof.Lokesh Chawle
Keywords

Raspberry Pi 2 model B, Wi-Fi, Pi camera, TFT display, LINUX based Raspbian Wheezy

Abstract
This project comprises of basically three modules Wi-Fi Module, Router & Raspberry board which handles all basic functionalities of a Robot. Wi-Fi technology is expanded to next level because Wi-Fi connection not only uses to surf internet but Wi-Fi connection can be explorable and used to a high level. On the robot, Wi-Fi module having specifications NANO EW7811UN is mounted which is interfaced with the board. A controller is a client sitting on a computer or a laptop in range of Wi-Fi administers the robot. Whenever a client sends the control signal, it is transmitted wirelessly and is captured by the Wi-Fi module mounted on the robot. This signal is transmitted to microcontroller i.e. ARMv7 attached to it. Microcontroller analyzes this signal and it takes appropriate action to rotate the motor i.e., either clockwise or anticlockwise.
Due to the output at the GPIO pins we can control the movement of robot either in forward or backward, left or right directions.  Raspberry pi 2 board is connected to the base station wirelessly and TFT display will simultaneously work with robot and are controlled by Raspberry pi 2 model B board. At the user PC, we will have videos on the web browser and the robotic movement can also be controlled. This robot controlled over Wi-Fi will be used to display notices and news updates with the help of Thin Film Transistor display (TFT). Along with this the Raspberry Pi camera mounted on the Robot helps to guide the robot on the specified path.
18
Title
DRIVER ASSISTANCE SYSTEM
Projectees
ApekshaParate, SamikshaUkey, MrunalUpadhye, TruptiDeshpande
Guide
Prof. Nilesh V. Chide
Keywords
ATMEGA16 MICROCONTROLLER, IR Sensor, Ultrasonic sensor, MQ3 alcohol sensor
Abstract
Automotive Electronics sector have more demand of driver assistance system to prevent accidents due to driver’s negligence. Driver Assistance system is the system that helps the driver in driving process. An ATMEGA16 microcontroller is used as the core controller in the smart vehicle to achieve a real-time operation system (OS). This controller works as the control system to operate the entire vehicle. The real-time controller enhances the performance of control and simplifies the design and management of software. In addition, , some active safety systems, such as Lane Departure Warning (LDW) simply warn the driver, with sound  signals, if the vehicle begins to depart from its lane when the turn signal switch has not been used. The more advanced lane departure systems, Lane Keeping Assistant (LKA) systems, will actively intervene to turn the vehicle back into its lane with the movement of the steering wheel providing a further warning to the driver. However, driver input will always override the LKA system's steering interventions. Now a day, many accidents are occurring because of the alcohol consumption of the driver or the person who is driving the vehicle. Thus, drunken driving is one f the reason of accidents in almost all countries all
over the world. Alcohol Detector in Car system is designed for the safety of the people inside the car.  So if a driver is drunk and tries to drive the system detects alcohol presence in his/her breathe and locks the engine so that the vehicle fails to start.
Some other features to improve the safety of drive are seat belt detector, reverse parking system and obstacle detector. "The seat belt detector connects the driver's and the front passenger's seat belts with the ignition system so unless the belts are properly fastened, the car will not start. The utilization of high precision of ultrasonic sensors for reverse parking and IR sensors for obstacle avoidance provides a guarantee for safety.
19
Title
DESIGN AND IMPLEMENTATION OF 128-BIT QAM USING VHDL
Projectees
AbhishekSatpaisePrafulNannawareRajatLandgeSwapnilSawarkar
Guide
Prof. Nilesh Chide
Keywords
Quadrature Amplitude Modulation (QAM), Spartan 6 FPGA, Xilinx software 13.1
Abstract
Quadrature Amplitude Modulation (QAM) is used in both analog and digital communication. In this technique, both amplitude and phase varies of carrier wave with respect to digital data or information. It provides high data rate for transmission. QAM is used in many application like color television, Wi-Max, OFDM (Orthogonal Frequency Division Multiplexing), and in digital satellite communication system. FPGAs (Field Programmable Gate Arrays) provide magnificent platform for implementation of many type of algorithms. The FPGA technology has been playing a vital role in portable and mobile communication due to the feature of configurability in designing and Implementation. This paper represents the review of implementation and optimization techniques of QAM on different FPGA development boards.
FPGAs provide magnificent speed of operation of sophisticated algorithms at sample rates of hundreds of MHz This kind of processing power makes it possible to use FPGAs for implementing not only conventional baseband functionality but also high-speed signal processing. This project is a demonstration of complete system generator based design of 128-QAM transmitter which can be easily implemented on FPGA as compared to the existing models. This modulation scheme is used in many communication standards such as s IEEE802.11a, IEEE 802.16d and DVB-S2.
The FPGA technology has been playing a considerable role in Reportable and mobile communication. This is due to the features of flexibility, accuracy and configurability in designing and Implementation. The project presents a complete design for QAM Transmitter based on the Spartan 6 FPGA kit. The implemented system can be used in typical wimax system and any other communication systems. The carrier synchronization and timing synchronization issues are covered in the implementation.
20
Title

“DETECTION OF ALCOHOL USING SMART HELMET THROUGH BLUETOOTH.”

Projectees

1.Jaya kolhe 2.Rutuja channe 3.Krutika Tupkar

Guide

Prof.YeshwantDeodhe

Keywords

Alcohol sensor,Bluetooth.microcontroller 89c51,Ride

Abstract
An accident is a specific, unexpected, unusual and unintended external action which occurs in a particular time and place, with no apparent and deliberate cause but with marked effects. Carelessness of the driver is the major factor of such accidents. The traffic authorities give a lot of instructions to the vehicle operators. But many of them do not obey the rules. Nowadays most of the countries are forcing the motor riders to wear the helmet and not to use the vehicles when the person is in drunken condition.
21
Title
SMART EMBEDDED SYSTEM FOR BLIND PEOPLE”
Projectees
Mr. Akshay A. Sherekar, Mr. Avash S. Khare, Mr. Saurahh K. Raut, Mr. Yash S. Admane
Guide
Prof. Sagar P Soitkar
Keywords
Arduino nano, GSM, GPS, Ultrasonic sensor, Voice module.
Abstract
Considering, the problems related to the blind person a system is being designed which will help to navigate without any supervision. The system consists of Arduino nano, GSM, GPS, Ultrasonic sensor, Voice module.
The main objective of this project is to solve the problems of blind person of Providing safety and security navigating across without any supervisor that whenever the blind person goes out he comes across various hurdles. So to overcome this hurdles ultrasonic sensor is used to detect the obstacle coming in front of him. Voice module has a provision of giving command continuously like move, obstacle, slow down, etc. A switch is used which a blind person will use in case of emergency and a message will be send to the supervisor that a blind person is in trouble (“I am in trouble”). Using GPS it is easy to track the exact location of blind person and that exact location is being send to the supervisor in the form of string and message.
           
22
Title
GSM BASED CAR THEFT PREVENTION SYSTEM USING FACE RECOGNITION
Projectees
Chinmay Barhanpure, Chaitanya Talokar, Aniket Radke
Guide
Prof. Shashant Jaykar
Keywords
GSM Technology, Embedded System
Abstract
Automotive theft has been a persisting problem around the world and greater challenge comes from professional thieves. This paper deal with the design and development of a theft control system for an automobile which is being used to prevent and control the theft of vehicle. The developed system makes use of a embedded system based on GSM technology and image processing. Design and developed system is installed in vehicle. Here, GSM links owner’s mobile with his car engine by means of message. This unit compares the driver’s image with the default owner’s image and generates output if they are unmatched. Response from owner ceases the engine immediately. Driver’s captured image can also be used for further police investigation. The main intention of this project is to reduce car theft attempts.
23
Title
FPGA IMPLEMENTATION FOR IMAGE PROCESSING ALGORITHMS USING XILINX SYSTEM GENERATOR
Projectees
Yogesh Pokle, Akshay Tayde, Diksha Aglawe, Pooja Dahikar
Guide
Prof. Shashant S. Jaykar
Keywords
FPGA, XSG, MATLAB
Abstract
Digital image enhancement techniques are to improving the visual quality of images. Main objective of image enhancement is to process an image so that result is more suitable than original image for specific application. This project presents various real time hardware Image Processing Algorithms and Filtering algorithms like brightness control, contrast stretching, negative transformation, thresholding, histogram equalization using the most efficient tool Field programmable gate array (FPGA) and Xilinx System Generator (XSG) for MATLAB. The Xilinx System Generator tool is a new application in image processing, and offers a model based design for processing. The algorithms are designed by blocks and it even supports MATLAB codes through user customizable blocks. It also offers an ease of designing with GUI environment. This tool support software simulation, but most importantly it generates necessary files for implementation in all Xilinx FPGAs, with the parallelism, robust, speed and automatic area minimization.
These algorithms successfully implemented on gray scale and colour images in VHDL using Xilinx ISE, MATLAB SIMULINK and XSG. The device selected here for implementation is (Spartan-3E) from Xilinx. Use of Xilinx system generator for image processing effectively reduces intricacy in structural design also provides additional feature for hardware co-simulation.
24
Title
AUTOMATIC E-CHALLAN SYSTEM
Projectees
Abhishek Borse,Mangesh Khandaskar, Shubham Khote,Shubham Patil
Guide
Prof Narendra G. Narole
Keywords
RFID, Traffic Monitoring system, Accident control, Device to track culprit vehicle, automatic monitoring system, Identify every vehicle uniquely.
Abstract
The main objective of this project is to design an “Automatic E-challan System”. Breaking traffic rules and accidents on road is a major issue now a days. Due to large population and traffic congestion it is difficult to identify which vehicle has broken traffic rules or by which vehicle the accident has happened. To monitor culprit vehicle manually is very difficult. Therefore, there is need to monitor these vehicles automatically. Hence, I propose a smart system that will monitor the culprit vehicle. The proposed system will generate detailed data at the time of incident and that data will be send to the R.T.O office and user mobile. With the help of these details the officer can take further action. RFID is an advanced technology which has been used for decades in military, hospitals, airlines, security, animal tracking and other areas. Many industries make use of RFID in various applications such as personal/ vehicle access control, logistics, equipment tracking etc. By this technology automatic identification of items is done using radio waves. There are numerous applications and implementations of this in past years. RFID tags have been developed to replace bar codes. These RFID tags can be read wireless and also contain more information as compared to bar codes. RFID tag is much more superior to a bar code as it can store information about manufacture, product type and can be identified without requiring line of sight.
25
Title
AUTOMATIC CAR SECURITY SYSTEM
Projectees
Harsha J. Dadilwar
2. Ashwini Shirbhate             
3. Ankita Pimple
4. Priyanka Zode
Guide
Dr. A. S. Khobragade
Abstract
Automotive theft has been a persisting problem around the world and greater challenge comes from professional thieves. Modern security can be deceived by professional thieves therefore a need of biometric authentication technology arises in automotive vehicles. Traditional automotive security systems rely on many sensors and cost a lot. When one vehicle is really lost, no more feedback could be valid to help people to find it back. In this paper, we present an immobilizer automotive security system that disables an automobile when lost. The system automatically takes photos of driver and compares his or her face with database to check whether he is an authenticated driver or not. He can have access to the vehicle only if he is an authenticated driver. If he is not an authenticated driver access to the vehicle will not be provided.