Trajectory Planning for Robot Manipulators

From the series: Modeling, Simulation, and Control

Sebastian Castro discusses technical concepts, practical tips, and software examples for motion trajectory planning with robot manipulators.

First, Sebastian introduces the difference between task space and joint space trajectories and outlines the advantages and disadvantages of each approach. Then he describes various common techniques such as trapezoidal trajectories, polynomial trajectories, and rotation interpolation.

Throughout the video, you will see several MATLAB® and Simulink® examples testing different types of trajectory generation and execution using a 3D model of the seven-degrees-of-freedom Kinova® Gen3 Ultra lightweight robot.

For more information, refer to these links:

Published: 1 May 2019

Learn More

Download the files used in this video
Watch related videos for students
Contact the MathWorks student competitions team
Request software for your student competition
Read ebook: Motion Planning with MATLAB
Related Information
Watch related videos for students

Feedback

Up Next:

Create a model for a piece of hardware from input and output data using the System Identification app. Connell D'Souza and Kris Fedorenko explain the workflow from data gathering to model evaluation.

System Identification of Blue Robotics Thrusters

View full series (20 Videos)

Related Videos:

Rapid Algorithm Development for Planning and Control of an...

Building a Position Estimator for a Robot | Mission on Mars...

Logistics Simulation Software for Mission Planning

OR Simulation for Mission Planning

Mobile Robot Simulation for Collision Avoidance with...

View more related videos