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Autonomy: Science and Systems @ CU-ICAR

This repository is a part of course AuE-8230 "Autonomy: Science and Systems" at CU-ICAR (Spring 2023).

Course Description:

AuE-8230: Autonomy: Science and Systems, as the name suggests, introduces students to scientific (formulations) as well as technological (ROS-based implementation) advances in the field of autonomous systems. This course is handled by Dr. Venkat Krovi, Michelin Endowed SmartState Chair Professor of Vehicle Automation at Clemson University International Center for Automotive Research (CU-ICAR) and director of Automation, Robotics and Mechatronics Laboratory (ARMLab).

Group Name:

Tinker Twins: Chinmay Samak and Tanmay Samak are twin brothers, who use "Tinker Twins" as a personal brand (the team's name was therefore decided to reflect the same brand). The twins have come a long way tinkering with various tools and technologies, which has strengthened their scientific knowledge and skills. The duo has worked on various projects ranging from microelectromechanical systems (MEMS) to in-orbit space settlements, and almost everything in between. They have a particularly keen interest in the field of robotics and autonomous systems, and are specializing in the field of autonomous vehicles.

Group Members:

Chinmay Samak: I received the B.Tech. degree in Mechatronics Engineering with a gold medal from SRM Institute of Science and Technology in 2021. Having worked on several research projects in the field of autonomous vehicles, complemented with a solid background in mechatronics engineering, I have joined ARMLab at CU-ICAR as a direct Ph.D. candidate under the supervision of Dr. Venkat Krovi to pursue focused research in the field of vehicle automation. My research interests lie at the intersection of real and virtual worlds to create physically and graphically accurate digital twins. I am currently contributing towards projects such as VIPR-GS, OpenCAV, AutoDRIVE and F1Tenth.

Tanmay Samak: I received the B.Tech. degree in Mechatronics Engineering with a silver medal from SRM Institute of Science and Technology in 2021. Having worked on several research projects in the field of autonomous vehicles, complemented with a solid background in mechatronics engineering, I have joined ARMLab at CU-ICAR as a direct Ph.D. candidate under the supervision of Dr. Venkat Krovi to pursue focused research in the field of vehicle automation. My research interests lie in formulation and development of socially and situationally aware autonomous systems. I am currently contributing towards projects such as VIPR-GS, OpenCAV, AutoDRIVE and F1Tenth.

Repository Structure

The following collapsible sections highlight the high-level outcomes of each task. Furthermore, dedicated directory for each of the milestones has a detailed README.md of its own.

Assignment 1-A: Comparative study of ROS-1, ROS-2 and ROS-I

ROS Vairants

Mini Assignment 1: Picture-proofs of ROS-1 Noetic, ROS-2 Foxy installations
ROS-1 Noetic ROS-2 Foxy
ROS-1 Noetic Installation ROS-2 Foxy Installation
Mini Assignment 2: Video-proofs of ROS-1 Noetic, ROS-2 Foxy installations
ROS-1 Noetic ROS-2 Foxy
ROS-1 Noetic Installation ROS-2 Foxy Installation
Assignment 1-B: Robot open and closed-loop control in TurtleSim
Go in Circle Go to Goal
Go in Circle Go to Goal
Open Loop Square Closed Loop Square
Open Loop Square Closed Loop Square
Group: Group details for the course during Spring 2023

Chinmay Samak: I received the B.Tech. degree in Mechatronics Engineering with a gold medal from SRM Institute of Science and Technology in 2021. Having worked on several research projects in the field of autonomous vehicles, complemented with a solid background in mechatronics engineering, I have joined ARMLab at CU-ICAR as a direct Ph.D. candidate under the supervision of Dr. Venkat Krovi to pursue focused research in the field of vehicle automation. My research interests lie at the intersection of real and virtual worlds to create physically and graphically accurate digital twins. I am currently contributing towards projects such as VIPR-GS, OpenCAV, AutoDRIVE and F1Tenth.

Tanmay Samak: I received the B.Tech. degree in Mechatronics Engineering with a silver medal from SRM Institute of Science and Technology in 2021. Having worked on several research projects in the field of autonomous vehicles, complemented with a solid background in mechatronics engineering, I have joined ARMLab at CU-ICAR as a direct Ph.D. candidate under the supervision of Dr. Venkat Krovi to pursue focused research in the field of vehicle automation. My research interests lie in formulation and development of socially and situationally aware autonomous systems. I am currently contributing towards projects such as VIPR-GS, OpenCAV, AutoDRIVE and F1Tenth.

Assignment 1-C: TurtleBot3 open-loop control in Gazebo simulator
  1. Open-Loop Circle:
Slow Circle Medium Circle Fast Circle
Slow (lin_vel = 0.25, ang_vel = 0.25) Medium (lin_vel = 0.50, ang_vel = 0.50) Fast (lin_vel = 0.75, ang_vel = 0.75)
  1. Open-Loop Square:
Slow Circle Medium Circle Fast Circle
Slow (lin_vel = 0.25, ang_vel = 0.25) Medium (lin_vel = 0.50, ang_vel = 0.50) Fast (lin_vel = 0.75, ang_vel = 0.75)
Mini Assignment 3: Acknowledgement of TurtleBot3 Burger robot and auxiliary components reception

TurtleBot3 Acknowledgement

Assignment 2-A: TurtleBot3 Burger teardown

TurtleBot3 Teardown

Assignment 2-B: TurtleBot3 open-loop control in reality
  1. Teleoperation:
Teleop Robot Teleop Terminal
Physical TurtleBot3 Burger Remote PC Terminal Window
  1. Open-Loop Circle:
Slow Circle Slow Circle Medium Circle Medium Circle Fast Circle Fast Circle
Slow (lin_vel = 0.05, ang_vel = 0.2) Medium (lin_vel = 0.10, ang_vel = 0.4) Fast (lin_vel = 0.15, ang_vel = 0.6)
  1. Open-Loop Square:
Slow Square Slow Square Medium Square Medium Square Fast Square Fast Square
Slow (lin_vel = 0.05, ang_vel = 0.2) Medium (lin_vel = 0.10, ang_vel = 0.4) Fast (lin_vel = 0.15, ang_vel = 0.6)
Assignment 3-A: TurtleBot3 emergency braking, wall following & obstacle avoidance in simulation & reality
  1. Simulation:
Emergency Braking Wall Following Obstacle Avoidance
Emergency Braking Wall Following Obstacle Avoidance
  1. Real World:
Collision Avoidance Robot Collision Avoidance Terminal
Collision Avoidance - TurtleBot3 Collision Avoidance - Remote PC
Mini Assignment 4: Intrinsic and extrensic calibration of Arducam BO196 on TurtleBot3 Burger

Camera Calibration

Assignment 3-B: TurtleBot3 vision processing, tracking & following in simulation & reality
  1. Simulation:

Lane Keeping

  1. Real World:
Lane Following Robot Lane Following RViz
Lane Following - TurtleBot3 Lane Following - Remote PC
AprilTag Tracking Robot AprilTag Tracking RViz
AprilTag Tracking - TurtleBot3 AprilTag Tracking - Remote PC
Capstone Project: TurtleBot3 autonomous navigation (gymkhana challenge) in simulation & reality
  1. Simulation:

Capstone Project Sim

  1. Real-World:

Capstone Project Real

  1. Robustness Testing:
Wall Following Simulation Wall Following Robot Lane Following RViz Lane Following RViz
Simulation: Forward Direction; Start at Wall Following Simulation: Forward Direction; Start at Line Following Simulation: Forward Direction; Start at AprilTag Tracking Simulation: Inverse Direction; Start at Line Following
Wall Following Simulation Wall Following Robot Lane Following RViz Lane Following RViz
Real-World: Forward Direction; Day; Start at Wall Following Real-World: Forward Direction; Night; Start at Line Following Real-World: Forward Direction; Night; Start at AprilTag Tracking Real-World: Inverse Direction; Night; Start at Line Following
  1. Individual Tasks:
Wall Following Simulation Wall Following Robot Lane Following RViz
Wall Following - Simulation Wall Following - TurtleBot3 Wall Following - Remote PC
Obstacle Avoidance Simulation Obstacle Avoidance Robot Obstacle Avoidance RViz
Obstacle Avoidance - Simulation Obstacle Avoidance - TurtleBot3 Obstacle Avoidance - Remote PC
Line Following Simulation Line Following Robot Lane Following RViz
Line Following - Simulation Line Following - TurtleBot3 Line Following - Remote PC
Stop Sign Detection Simulation Stop Sign Detection Robot Stop Sign Detection RViz
Stop Sign Detection - Simulation Stop Sign Detection - TurtleBot3 Stop Sign Detection - Remote PC
AprilTag Tracking Simulation AprilTag Tracking Robot AprilTag Tracking RViz
AprilTag Tracking - Simulation AprilTag Tracking - TurtleBot3 AprilTag Tracking - Remote PC