Trajectory Planning for Robot Manipulators

MATLAB and Simulink examples for trajectory generation and evaluation of robot manipulators.
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Actualizado 16 Oct 2019

This submission consists of educational MATLAB and Simulink examples for trajectory generation and evaluation of robot manipulators.

All examples feature the 7-DOF Kinova Gen3 Ultra lightweight robotic manipulator: https://www.kinovarobotics.com/en/products/robotic-arms/gen3-ultra-lightweight-robot

There is a presaved MATLAB rigid body tree model of the Kinova Gen3; however, you can
access the 3D model description from the Kinova Kortex GitHub repository: https://github.com/Kinovarobotics/ros_kortex

For more information on the Robotics System Toolbox functionality for manipulators,
see the documentation: https://www.mathworks.com/help/robotics/manipulators.html

For more background information on trajectory planning, refer to this presentation: https://cw.fel.cvut.cz/old/_media/courses/a3m33iro/080manipulatortrajectoryplanning.pdf

If you have any questions, email us at roboticsarena@mathworks.com.

Citar como

MathWorks Student Competitions Team (2024). Trajectory Planning for Robot Manipulators (https://github.com/mathworks-robotics/trajectory-planning-robot-manipulators), GitHub. Recuperado .

Compatibilidad con la versión de MATLAB
Se creó con R2019b
Compatible con cualquier versión desde R2019b
Compatibilidad con las plataformas
Windows macOS Linux

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Versión Publicado Notas de la versión
1.1

Linked to GitHub. Updated syntax for R2019b and setup instructions to import latest external robot model.

1.0.0

Para consultar o notificar algún problema sobre este complemento de GitHub, visite el repositorio de GitHub.
Para consultar o notificar algún problema sobre este complemento de GitHub, visite el repositorio de GitHub.