Fingerprint Vehicles Starter

Project Title

Fingerprint Vehicles Starter

Project Area of Specialization RoboticsProject Summary

                                                 In the era of science and technology we want everything of our secure and safe and for this the world is working for the improvement in the field of security whether we have collected a lot of gold, cash or something else, we want to put it in the safe place   and  the real assets now a days are the cars vehicles in which we travel from here to there very quickly due their efficient mode where only we can access it no o   Coming towards the project as it is said that vehicle thefts have increased a lot and my project can reduce this crime as in this only authentic owner’s finger print which will match with which the data can unlock the vehicle and sit in otherwise it can’t be unlocked. After the introduction of this method we don’t need keys to handle or the  worry about misplacing them or their   deshaping or loosing them in any situation your fingers are your key for the vehicle. Previously there were locks ,alarm systems different security codes and pattrens which were not that helpful and secure because if any other person knows your code or password he can easily unlock your car and you will have no idea of that so by this angle it’s the most secure method up till now  as it directly use the image of thumb while the other things which are in market that are face recognition etc. which are also costly as the thumb patterns of all the human beings around the world are totally different even of the twins and the finger of the same hand .

It is therefore one object of the invention to replace a key actuated Starting System with fingerprint recognition technology. In one aspect of the invention, a Starting System for an engine of an automotive vehicle having an ignition System includes a fingerprint Sensor generating a fingerprint signal. A memory has an authorized fingerprint Signal Stored therein. A Switch generates a start Signal and a controller is coupled to the ignition System, the fingerprint Sensor, the memory, and the Switch. The controller compares the first fingerprint Signal with the authorized fingerprint Signal and enables the ignition System in response to the Start Signal and the first fingerprint Signal being Substantially equal to the authorized fingerprint Signal.

Project Objectives

The main objective of my project is to provide security whether its your car,house locker etc. Biometric authentication and their template security are increasing day by day over the past decade with challenging requirement in Automated Secured Personal Authentication System. The reason behind on this demand for the replacement of old-fashioned automatic personal identification tools by new one. The old-fashioned automatic personal identification tools uses traditional approaches such as Personal Identification Number (PIN), Login Id, ID card, password etc. to verify the cognizance of a person, are no longer considered as credible adequate to gratify the security concern for person identification system. A biometric scheme delivers automatic recognition of a person depending on some particular trait. 

But, there are various unfolded challenges in the existing researches in biometric personal authentication. Among these, major challenges of iris recognition systems are related to Iris Template Security and Iris Recognition Performance. Biometric being an integral part of human body, loss of one’s biometric corresponds to loss of his/her identity. Security of iris templates is one of the most important issues in any biometric authentication system. Following are the four types of biometric systems:

? Traditional Biometric Systems

? Biometric Key Release Systems

? Cancelable Biometrics Systems

? Biometric Key Generation System

Project Implementation Method

The brief introduction about the working of my project is that it comprises of three steps i.e firstly by the use of microcontroller we will install the data i.e required finger prints with the help of fingerprint module attached with it.In the next step the that data will be processed after saving and then if the applied finger print is matched then the engine starts with the help of motor attached and car will be functional other wise it will required the authentic pattern of the owner to do that.When  the system is in monitoring mode it scans the data of the user which in our case our finger print which then is being processed and allow specific user to open the car and while in this we are also having a LCD DISPLAY which will give message to us that the applied finger print is valid or not and along with  it motor is used as to demonstrate the vehicle starter. In the design of this fingerprint based vehicle starting system, signals are generated by the plastic casing  heat evacuation and working efficiency. system. The arduino reads the state of the input buttons which could be either a 1 or a 0. The signal arduino gets from the input button tells what to on at that time. This project is aimed to replace the push-button in vehicle ignition and create a more reliable and secured way of starting the ignition with fingerprint pattern only. The Arduino environmenthas been designed to be easy to use for beginners who have no software or electronics experience. With Arduino, you can build objects that can respond to and/or control light, sound, touch, and movement.Arduino has been used to create an amazing variety of things, including musical instruments, robots, light sculptures, games, interactive furniture, and even interactive clothing. Arduino is used in manyeducational programs around the world, particularly by designers and artists who want to easily create prototypes but do not need a deep understanding of the technical details behind their creations. Because itis designed to be used by nontechnical people, the software includes plenty of example code to demonstrate how to use the Arduino board’s various facilities.

Benefits of the Project

It is highly accurate.It is unique and can never be same for two persons.It is the most economical technique.It is easy to use.Use of small storage space.One advantage of the invention is that the fingerprint recognition System can act as the Security System and the"key' to enable operation of the ignition System.Advantageously, the System relies on the fingerprint of the operator, which is not Subject to loSS.This security system is highly reliable.It has another benefit that the processing speed is very fast.It is also and easy and user friendly system. The benefits of a biometric finger scanner, however, are obvious. It's quite easy to copy a key or write down an alarm code and pass it along to unauthorized persons. It's nearly impossible to duplicate another person's fingerprint in a form that the scanner will recognize.
Other types of access control solutions have a weakness in that they depend on something that can easily be lost, shared or duplicated. Finger prints have none of those weaknesses. Another strength in finger print recognition is that, in the case of providing access through a door, whomever has an approved finger print does not necessarily have access to any other part of the security system. Anyone with the key to any door has access to a wealth of information: the manufacturer of the lock and possibly the model, they type of keys used at the facility and, in the worst case scenario, possible access to a master-level key that can open more than one door.Likewise, hackers are experts at finding out passwords to your computer. If they know you well enough to know your birthday, your dog's name and what kind of car you drive, they have a start. No matter what other information they may have, however, they likely don't have a useable copy of your fingerprint!

Technical Details of Final Deliverable

HARDWARE SPECIFICATIONS:

•             Fingerprint module

•             LCD

•             Push Buttons

•             Motor

•             Atmega 328 Microcontroller

•             Rectifier

•             Regulator

•             Transformer

•             Resistors

•             Capacitors

•             Diodes

Fingerprint Module:

This is a fingerprint sensor module with TTL UART interface for direct connections to microcontroller UART or to PC through MAX232 / USB-Serial adapter. The user can store the finger print data in the module and can configure it in 1:1 or 1: N mode for identifying the person. The FP module can directly interface with 3v3 or 5v Microcontroller. A level converter (like MAX232) is required for interfacing with PC serial port.

Optical biometric fingerprint reader with great features and can be embedded into a variety of end products, such as: access control, attendance, safety deposit box, car door locks

Features

•             Integrated image collecting and algorithm chip together, ALL-in-One

•             Fingerprint reader can conduct secondary development, can be embedded into a variety of end products

•             Low power consumption, low cost, small size, excellent performance

•             Professional optical technology, precise module manufacturing techniques

•             Good image processing capabilities, can successfully capture image up to resolution 500 dpi

ATmega328

The Atmel 8-bit AVR RISC-based microcontroller combines 32 KB ISP flash memory with read-while-write capabilities, 1 KB EEPROM, 2 KB SRAM, 23 general purpose I/O lines, 32 general purpose working registers, three flexible timer/counters with compare modes, internal and external interrupts, serial programmable USART, a byte-oriented 2-wire serial interface, SPI serial port, 6-channel 10-bit A/D converter (8-channels in TQFP and QFN/MLF packages), programmable watchdog timer with internal oscillator, and five software selectable power saving modes. The device operates between 1.8-5.5 volts. The device achieves throughputs approaching 1 MIPS per MHz.

Features

•             High Performance, Low Power AVR® 8-Bit Microcontroller

– Advanced RISC Architecture

– 131 Powerful Instructions

– Most Single Clock Cycle Execution

– 32 x 8 General Purpose Working Registers

– Fully Static Operation

– Up to 20 MIPS Throughput at 20 MHz

– On-chip 2-cycle Multiplier

•             Flash Program Memory: 32 kbytes

•             EEPROM Data Memory: 1 kbytes

•             SRAM Data Memory: 2 kbytes

•             I/O Pins: 23

•             Timers: Two 8-bit / One 16-bit

•             A/D Converter: 10-bit Six Channel

•             PWM: Six Channels

•             RTC: Yes with Separate Oscillator

•             MSSP: SPI and I²C Master and Slave Support

•             USART: Yes     

PRICES OF REQUIRED COMPONENTS

Finger print module R307: Rs.2550  

ATMEGA 328                    

Final Deliverable of the Project HW/SW integrated systemType of Industry IT Technologies RoboticsSustainable Development Goals Industry, Innovation and InfrastructureRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	66012
finger print module	Equipment	1	15000	15000
batnerry car for childre	Equipment	1	25000	25000
AURDINO UNO	Equipment	2	1000	2000
DC GEAR MOTORS	Equipment	4	3503	14012
STATIONARY	Miscellaneous	10	1000	10000