Sebastian Castro introduces an example of an autonomous soccer robot match that demonstrates how MATLABĀ® and SimulinkĀ® can be used for system-level modeling of complex engineering systems.
First, Sebastian describes how to establish a model architecture for the entire robot soccer system. Then he shows how to build a low-fidelity simulation of a typical robot soccer match, implement the individual robot behavior and centralized game logic using StateflowĀ®, and finally generate standalone C code from the final algorithm designs.
For more information on the tools used in this video, refer to the following resources:
Learn more from our State Machines Tech Talks: http://bit.ly/31d6Wih
Watch the Getting Started with the Mobile Robotics Simulation Toolbox video: http://bit.ly/2X0bCJ7
Watch the Programming Robot Swarms video: http://bit.ly/2K2Ucp2
Download the Mobile Robotics Simulation Toolbox: http://bit.ly/2wIHbZ8
Watch our Code Generation Video Tutorials: http://bit.ly/2wIAeY0
Other Resources
Download the files used in this video: http://bit.ly/2wIHbZ8
Contact the MathWorks student competitions team: http://bit.ly/31cBdNX
Visit the MATLAB and Simulink Robotics Arena for additional videos: http://bit.ly/2Z7mXEg
Request software for your student competition: http://bit.ly/2XzrRd4
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Get a free product Trial: https://goo.gl/ZHFb5u
Learn more about MATLAB: https://goo.gl/8QV7ZZ
Learn more about Simulink: https://goo.gl/nqnbLe
See What's new in MATLAB and Simulink: https://goo.gl/pgGtod
Ā© 2019 The MathWorks, Inc. MATLAB and Simulink are registered
trademarks of The MathWorks, Inc.
See www.mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.
First, Sebastian describes how to establish a model architecture for the entire robot soccer system. Then he shows how to build a low-fidelity simulation of a typical robot soccer match, implement the individual robot behavior and centralized game logic using StateflowĀ®, and finally generate standalone C code from the final algorithm designs.
For more information on the tools used in this video, refer to the following resources:
Learn more from our State Machines Tech Talks: http://bit.ly/31d6Wih
Watch the Getting Started with the Mobile Robotics Simulation Toolbox video: http://bit.ly/2X0bCJ7
Watch the Programming Robot Swarms video: http://bit.ly/2K2Ucp2
Download the Mobile Robotics Simulation Toolbox: http://bit.ly/2wIHbZ8
Watch our Code Generation Video Tutorials: http://bit.ly/2wIAeY0
Other Resources
Download the files used in this video: http://bit.ly/2wIHbZ8
Contact the MathWorks student competitions team: http://bit.ly/31cBdNX
Visit the MATLAB and Simulink Robotics Arena for additional videos: http://bit.ly/2Z7mXEg
Request software for your student competition: http://bit.ly/2XzrRd4
--------------------------------------------------------------------------------------------------------
Get a free product Trial: https://goo.gl/ZHFb5u
Learn more about MATLAB: https://goo.gl/8QV7ZZ
Learn more about Simulink: https://goo.gl/nqnbLe
See What's new in MATLAB and Simulink: https://goo.gl/pgGtod
Ā© 2019 The MathWorks, Inc. MATLAB and Simulink are registered
trademarks of The MathWorks, Inc.
See www.mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.
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