ABSTRACT
In our rapidly advancing world, the integration of automation has become pivotal for modern living particularly in car parking management. Hence, this research project is focused on design and construction of RFID-based Car Parking System while utilizing Arduino technology. Defering from manual check-ins, this system employs RFID technology to seamlessly detect and manage vehicles, reducing congestion and enhancing the overall parking experience. The project's standout features include real-time monitoring, contactless RFID communication, and adaptability for diverse urban settings. In addition, the system shows a real-time monitoring capability, made possible by RFID tags affixed to vehicles. The testing showed that the system can instantaneously track the number of cars within the parking lot, providing a visible display of parking space availability. This not only saves valuable time for drivers but also alleviates the stress associated with endless circling in search of parking spaces. This innovation addresses challenges posed by urbanization and increasing vehicle numbers, offering real-time information on parking availability.
Table of Contents
COVER PAGE
CERTIFICATION
DEDICATION
ACKNOWLEDGEMENT
ABSTRACT
COVER PAGE
LIST OF FIGURES
CHAPTER ONE
INTRODUCTION
1.1 BACKGROUND
1.2 PROBLEM STATEMENT
1.3 AIM AND OBJECTIVES
1.4 RESEARCH HYPOTHESES
1.5 JUSTIFICATION OF STUDY
1.6 SCOPE OF STUDY
1.7 SUMMARY
CHAPTER TWO
LITERATURE REVIEW
2.1THEORETICAL BACKGROUND
2.1.1 Arduino Microcontroller Board
2.1.3MFRC522 RFID Tag
2.1.4SG90 Servo Motor
2.1.4Ultrasonic-Sensor-Hc-Sr04
2.2 REVIEW OF RELATED WORK
CHAPTER THREE
METHODOLOGY
3.1 INTRODUCTION
3.2 MATERIALS
Jumper wires to connect various components on the breadboard and Arduino
3.3 METHODS
3.2.1 An Overview of the design
3.2.2 Arduino Uno Microcontroller
3.2.3 MFRC522 RFID Modules
3.2.4 Servo Motors SG90
3.2.5 LED (Light-Emitting Diode)
3.2.6 Seven-Segment Display
3.2.7 RFID Tags
3.2.8 Jumper Wires
3.2.9 Arduino Integrated Development Environment (IDE)
3.3 Arduino Ide Serial Monitor For Debugging
CHAPTER FOUR
RESULTS AND DISCUSSION
4.1 CONSTRUCTION/IMPLEMENTATION
4.3 DISCUSSION
CHAPTER FIVE
CONCLUSION AND RECOMMENDATION
5.1 CONCLUSION
5.2 RECOMMENDATION
REFRENCES
LIST OF FIGURES
Figure 1: Arduino UNO Microcontroller Board8
Figure 2 RC522 RFID Reader Module.11
Figure 3 MFRC522 RFID Tag.12
Figure 4 SG90 Servo Motor.13