Movement for the Lynxmotion 4DOF Robot Arm

Overview

This repo is for our CMPUT312 Final Project. It contains code for Forward Kinematics and Inverse Kinematics for a 4DOF Robot Arm.

Forward Kinematics is used to calculate the position of the robot arm's end-effector given the joint angles of the arm.

Inverse Kinematics is used to calculate the joint angles given a position in 3D cartesian space.

It also contains code for interfacing with the Lynxmotion 4DOF Robot Arm, as well as to connect to the render engine server.

Main file: control.py - Contains code for demos: interpolation, and real-time tracking.

Denavit-Hartenberg Parameters

Joint	$\color{grey}\theta$	d	a	$\color{grey}\alpha$	offset
1	q1	4.13	0	$\color{grey}\pi/2$	0
2	q2	0	5.61	0	$\color{grey}\pi/2$
3	q3	0	6.39	0	$\color{grey}\pi/2$
4	q4	0	4.52	0	0

Robot parameters visualized using the Robotics Toolbox [1]

Jacobian Matrix [2]

[1] P. I. Corke, Robotics, Vision & Control: Fundamental Algorithms in MATLAB, Second. Springer, 2017.

[2] A. Addison, “The Ultimate Guide to Jacobian Matrices for Robotics – Automatic Addison.” https://automaticaddison.com/the-ultimate-guide-to-jacobian-matrices-for-robotics/ (accessed Nov. 11, 2021).

Name		Name	Last commit message	Last commit date
Latest commit History 29 Commits
.vscode		.vscode
.gitignore		.gitignore
LICENSE		LICENSE
LSS_movement.py		LSS_movement.py
README.md		README.md
control.py		control.py
control_projection.py		control_projection.py
data.txt		data.txt
info_client.py		info_client.py
lss.py		lss.py
lss_const.py		lss_const.py
misc.py		misc.py
robot.png		robot.png
robot_kinematics.py		robot_kinematics.py
sensor_data.txt		sensor_data.txt
test_async_sensor.py		test_async_sensor.py
test_robot_kinematics.py		test_robot_kinematics.py
util.py		util.py