Mobile Robot Control 2024 Optimus Prime

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Contents

  1. Introduction
  2. Group members
  3. Exercise 1 - The art of not crashing
  4. Exercise 2 - Local navigation
  5. Exercise 3 - Global path planning
  6. Exercise 4 - Localization

Introduction

We are Optimus Prime, a team of six members applying various control techniques and coding skills to optimize a robot for restaurant environments. Our goal is to enable the robot to efficiently deliver orders from the kitchen to the tables, even when faced with various obstacles. This project focuses on ensuring precise and reliable performance, ultimately improving service efficiency and the overall dining experience.

Group Members

Caption
Name student ID
Yuvan Dwaraga 1563793
Wiktor Bocian 1628798
Ramakrishnan Rajasekar 1979027
Ariyanayag Ramesh Skandan 2012618
Abhir Adiverekar 1984136
Suryakumar Hariharan 1974076

Exercise 1 - The art of not crashing

This exercise aims to enhance our understanding of control techniques and obstacle avoidance algorithms.

Exercise 2 - Local navigation

Artificial potential fields

Our motivation for choosing the artificial potential field algorithm lies in its effectiveness for real-time obstacle avoidance and smooth navigation. This approach enables our robot to dynamically maneuver around obstacles by leveraging attractive and repulsive forces, ensuring efficient path planning.

Dynamic window approach

Our motivation for choosing the Dynamic Window Approach (DWA) method is its ability to optimize both velocity and trajectory in real-time for safe and efficient navigation. This algorithm allows our robot to dynamically adjust its path by considering its kinematic constraints and the surrounding obstacles, ensuring precise and responsive movement.