Applications of Discrete Event and Hybrid Systems in Humanoid Robots(<Special Section>Concurrent Systems and Hybrid Systems)
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概要
- 論文の詳細を見る
This paper considers a motion planning method for humanoid robots. First, we review a modular state net which is a state net representing behavior of a part of the humanoid robots. Each whole body motion of the humanoid robots is represented by a combination of modular state nets for those parts. In order to obtain a feasible path of the whole body, a timed Petri net is used as an abstracted model of a set of all modular state nets. Next, we show an algorithm for constructing nonlinear dynamics which describes a periodic motion. Finally, we extend the state net in order to represent primitive periodic motions and their transition relation so that we can generate a sequence of primitive periodic motions satisfying a specified task.
- 社団法人電子情報通信学会の論文
- 2004-11-01
著者
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Kobayashi Keigo
The Faculty Of Engineering Kyushu Institute Of Technology
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USHIO Toshimitsu
the Graduate School of Engineering Science, Osaka University
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ADACHI Masakazu
the Graduate School of Engineering Science, Osaka University
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TAKAHASHI Hideyuki
the Graduate School of Engineering Science, Osaka University
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NAKATANI Atsuhito
the Graduate School of Engineering Science, Osaka University
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Nakatani Atsuhito
The Graduate School Of Engineering Science Osaka University
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Takahashi H
The Graduate School Of Engineering Science Osaka University
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Adachi M
The Graduate School Of Engineering Science Osaka University
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Ushio Toshimitsu
The Graduate School Of Engineering Science Osaka University
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Takahashi Hideyuki
The Graduate School Of Engineering Science Osaka University
関連論文
- Applications of Discrete Event and Hybrid Systems in Humanoid Robots(Concurrent Systems and Hybrid Systems)
- Weak Normality for Nonblocking Supervisory Control of Discrete Event Systems under Partial Observation(Special Section on Concurrent Systems Technology)
- On-Line Synthesis of Decentralized Supervisors for Discrete Event Systems (Special Section on Concurrent Systems Technology)
- Synthesis of Reliable Decentralized Supervisors for Discrete Event Systems (Special Section on Concurrent Systems Technology)
- Co-scheduling of Communication and Control of Multi-Hop Control Networks