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Learning Exactly Linearizable Deep Dynamics Models

Systems and Control 2025-01-28 v2 Machine Learning Systems and Control Optimization and Control
Authors: Ryuta Moriyasu , Masayuki Kusunoki , Kenji Kashima
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Abstract

Research on control using models based on machine-learning methods has now shifted to the practical engineering stage. Achieving high performance and theoretically guaranteeing the safety of the system is critical for such applications. In this paper, we propose a learning method for exactly linearizable dynamical models that can easily apply various control theories to ensure stability, reliability, etc., and to provide a high degree of freedom of expression. As an example, we present a design that combines simple linear control and control barrier functions. The proposed model is employed for the real-time control of an automotive engine, and the results demonstrate good predictive performance and stable control under constraints.

Keywords

system identification and control control systems autonomous vehicle control

Cite

@article{arxiv.2311.18261,
  title  = {Learning Exactly Linearizable Deep Dynamics Models},
  author = {Ryuta Moriyasu and Masayuki Kusunoki and Kenji Kashima},
  journal= {arXiv preprint arXiv:2311.18261},
  year   = {2025}
}

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