Simulation of Holonomic Mechanical Systems by Means of Automatic Differentiation

Klaus Röbenack; Jan-Christoph Winkler; Mirko Franke

doi:https://doi.org/10.1145/2666202.2666209

Simulation of Holonomic Mechanical Systems by Means of Automatic Differentiation

Research output: Contribution to book/conference proceedings/anthology/report › Conference contribution › Contributed › peer-review

Contributors

Klaus Röbenack - , Chair of Control Theory (Author)
Jan-Christoph Winkler - , Chair of Control Theory (Author)
Mirko Franke - , Chair of Control Theory (Author)

Abstract

We discuss both the theoretical framework and implementation issues for the simulation of holonomic mechanical systems using automatic differentiation. Our approach allows the direct simulation of such systems based on its Lagrangian. The Lagrangian may be given as explicit equations or as an algorithm containing control structures such as loops. The method is illustrated by the well-known ball and beam system.

Details

Original language	German
Title of host publication	EOOLT '14: Proceedings of the 6th International Workshop on Equation-Based Object-Oriented Modeling Languages and Tools
Publisher	Association for Computing Machinery (ACM), New York
Pages	43-46
Number of pages	4
ISBN (electronic)	978-1-4503-2953-8
Publication status	Published - 2014
Peer-reviewed	Yes

Publication series

Series	EOOLT: Equation-Based Object-Oriented Modeling Languages and Tools

External IDs

Scopus	84939482623
ORCID	/0000-0002-3347-0864/work/142255201

Keywords

DFG Classification of Subject Areas according to Review Boards

Automation, Control Systems, Robotics, Mechatronics, Cyber Physical Systems

Subject groups, research areas, subject areas according to Destatis

Control, Measurement and Regulation Technology (electrical)

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