Design And Implementation Of Radio Controlled Car Lock With 5min Ignition Deactivation

5 Chapters
|
74 Pages
|
14,507 Words

The rate of car theft nowadays according to daily crime analysis is on the increase. Manual key locks have proven to be inefficient. This thesis aims at designing a radio-controlled car door locking system. The two main objectives are to unlock a set of vehicle doors when the owner approaches his or her vehicle and to lock the vehicle after the owner leaves. In addition to automatic door locking the system monitors the engine for inactivity. After five minutes of inactivity of the driver, the engine automatically deactivates. In order to design this system, the
establishment of wireless communication between the vehicle owner and their vehicle is required. The radio transmission must ensure vehicle security and also bereliable in various climates. In this study, I am using radio frequency identification mechanism for the automation.
RFID, Radio Frequency Identification is an inexpensivetechnology, can be implemented for several applications such assecurity, asset tracking, people tracking, inventory detection,access control applications. The door locking system is implemented using passive type of RFID which can activate, authenticate, andvalidate the user and unlock the door in real time for secureaccess. The advantage of using passive RFID is that it functionswithout a battery and passive tags are lighter and are lessexpensive than the active tags. A centralized system manages thecontrolling, transaction and operation task. The door lockingsystem functions in real time as the door open quickly when user comes near the vehicle. The system also creates a logcontaining check-in and check-out of each user along with basicinformation of user.

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CHAPTER ONE:
INTRODUCTION
1.1 Background Of The Study
1.2 Statement Of The Problem
1.3 Aims Of The Study
1.4 Objectivesof The Study
1.5 Scope Of The Study
1.6 Limitations Of The Study
1.7 Organization Of The Study

CHAPTER TWO:
LITERATURE REVIEW

2.1 History of Researches on RFID
2.1.1 Exploiting Wireless Sensors
2.1.2 White space sensor platform
2.1.3 Fixing the PoE and building a white space sensor grid
2.1.4 Lockitron and other commercial lock company efforts
2.2 CHARACTERISTICS AND KEY ATTRIBUTES OF RFID
2.3 RFID FEATURES
2.3.1 NFC
2.3.1.1 Using an NFC reader
2.3.1.2 Security of NFC applications
2.3.1.3 Secure elements
2.3.1.4 Security and Privacy of NFC applications
2.3.2 TFTP
2.3.4 Dynamic Host Configuration Protocol server
2.3.5 PoE
2.3.5.1 Advantages of PoE
2.3.5.2 Disadvantages of PoE
2.3.6 Alternatives to PoE
2.4 RFID SYSTEM COMPONENTS
2.4.1 RFID tags:
2.4.2 RFID Readers
2.4.3 RFID Reader Specification and Features:
2.5 RFID SYSTEM MODEL:
2.6 Applications of RFID

CHAPTER THREE:
METHODOLOGY AND SYSTEM DESIGN
3.1 Research Methodology
3.2 Proposed Architecture And Design Of The System
3.3 Overview Of The New System
3.4 Software Requirement
3.4.1 Wireshark
3.4.2 Code Composer Studio
3.5 Hardware Requirement
3.5.1 Mixed Signal Oscilloscope
3.5.2 Programmer
3.5.3 Arduino
3.5.4 Hp Procurve Switch 2626
3.5.5 Desktop Pc
3.6 Description Of The Embedded Platform
3.6.1 Motherboard
3.6.2 Daughterboard (Rfid Shield V1.0)
3.7 Connecting The Platform To The Network
3.7.1 Configuring The Dhcp Server
3.8 Serial Peripheral Interface (Spi)
3.9 Choice Of Programming Language

CHAPTER FOUR:
SYSTEM DESIGN AND IMPLEMENTATION
4.1 Verifying The Network Connection
4.2 Udp Echo Software
4.3 Network Booting
4.4 Spi Drivers Configuration
4.5 Implementing The Spi Functions
4.6 Connecting The Daughterboard And Debugging
4.7 Setting Up Appropriate Triggering Of The Mixed Oscilloscope
4.8 Android Application And Rfid Tags
4.9 Udp Server
4.10 The Smart Door Lock
4.11 Power Consumption

CHAPTER FIVE:
CONCLUSION AND FUTURE WORK

5.1 Conclusions
5.2 Future work
5.3 Reflections
References
Research Questions

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