ABSTRACT
This project involves the design and implementation of an intelligent obstacle-avoiding robot car. The
objective of this project is to implement a robot car, which while moving should have the ability to
detect obstacles in its path and change direction where obstacles are present without any form of
external influence. The new direction to be taken to avoid collision is the direction that has the most
distance between the obstacle and the sensor and this is determined by the robot based on sensor
inputs.
This implementation was done using an ultrasonic wave sensor, which measures distance by sending
pulses. Also, the movement of the servo motor (for sensor movement) and the DC motors (for wheel
movement) are controlled by the motor driver shield in order to enable the obstacle avoidance
function. The commands are sent to the Arduino microcontroller chip which serves as the main control
of the robot car, as it controls the sensor and car movement.
The implemented robot car was able to successfully detect and avoid obstacles within the line of sight
of the Ultrasonic sensor used.
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Contents
DECLARATION ....................................................................................................................................................... i
CERTIFICATION .................................................................................................................................................... ii
DEDICATION ....................................................................................................................................................... iii
ACKNOWLEDGEMENT ........................................................................................................................................ iv
ABSTRACT ............................................................................................................................................................ v
Chapter 1: Introduction .......................................................................................................................................1
1.1 Background ..........................................................................................................................................1
1.2 Research Problem ...............................................................................................................................1
1.3 Motivation ...........................................................................................................................................2
1.4 Aim and Objectives ..............................................................................................................................2
Chapter 2: Literature review ...............................................................................................................................3
2.1 Artificial Intelligence ............................................................................................................................3
2.2 Robotics and Robots ............................................................................................................................3
2.3 Robot Learning ....................................................................................................................................4
2.4 Autonomous Robot .............................................................................................................................4
2.5 Arduino ................................................................................................................................................5
2.5.1 Overview.............................................................................................................................................5
2.5.2 Features ..............................................................................................................................................6
2.5.3 Advantages .........................................................................................................................................7
2.5.4 Arduino Board Types ..........................................................................................................................7
Chapter 3: Materials and Analysis Techniques ...................................................................................................9
3.1 Materials ..............................................................................................................................................9
3.2 Analysis ................................................................................................................................................9
3.2.1 HC-SR04 Ultrasonic Sensor ..........................................................................................................9
3.2.2 SG-90 Servo Motor ................................................................................................................... 13
3.2.3 Arduino UNO R3 ....................................................................................................................... 15
3.2.4 DC Motor .................................................................................................................................. 17
3.2.5 L293D Motor Driver Shield ....................................................................................................... 19
3.3 Methodology .................................................................................................................................... 20
3.3.1 Robot Construction ......................................................................................................................... 20
3.3.2 Programming the Robot .................................................................................................................. 24
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Chapter 4: Results and Discussion .................................................................................................................... 33
4.1 Results .............................................................................................................................................. 33
4.2 Discussion ............................................................................................................................................... 34
5 Conclusion, Recommendation and Issues for Future Work ..................................................................... 35
5.1 Conclusion ........................................................................................................................................ 35
5.2 Recommendation ............................................................................................................................. 35
5.3 Issues ................................................................................................................................................ 35
References ........................................................................................................................................................ 37
Appendix........................................................................................................................................................... 39
Research, A. & ARI, M (2020). ARDUINO BASED OBSTACLE AVOIDANCE ROBOT CAR. Afribary. Retrieved from https://tracking.afribary.com/works/arduino-based-obstacle-avoidance-robot-car
Research, Afri, and MICHAEL ARI "ARDUINO BASED OBSTACLE AVOIDANCE ROBOT CAR" Afribary. Afribary, 30 Nov. 2020, https://tracking.afribary.com/works/arduino-based-obstacle-avoidance-robot-car. Accessed 21 Nov. 2024.
Research, Afri, and MICHAEL ARI . "ARDUINO BASED OBSTACLE AVOIDANCE ROBOT CAR". Afribary, Afribary, 30 Nov. 2020. Web. 21 Nov. 2024. < https://tracking.afribary.com/works/arduino-based-obstacle-avoidance-robot-car >.
Research, Afri and ARI, MICHAEL . "ARDUINO BASED OBSTACLE AVOIDANCE ROBOT CAR" Afribary (2020). Accessed November 21, 2024. https://tracking.afribary.com/works/arduino-based-obstacle-avoidance-robot-car