「運動と振動の制御」シンポジウム講演論文集
Online ISSN : 2424-3000
セッションID: C308
会議情報
C308 エネルギー整形非線形制御による倒立振子型移動体の不安定性を利用した加速制御(OS7 非線形制御理論とその応用3)
横山 和人高橋 正樹
著者情報
会議録・要旨集 フリー

詳細
抄録
A nonlinear controller for accelerating a mobile inverted pendulum (MIP) with interconnection and damping assignment passivity-based control (IDA-PBC) is proposed. For underactuated systems, nonlinear partial differential equations (PDEs) must be solved to derive the IDA-PBC and it is a difficult task in general. However, this study shows that the MIP can be properly described as a full actuated port-Hamiltonian system focusing only on the pendulum dynamics. The controller is derived without solving the PDEs. Although our controller is for only the pendulum part of the system, the translational acceleration can be indirectly controlled utilizing the relation between the inclination of the pendulum and the acceleration arising from instability of the system. The controller can realize various properties through energy shaping procedure of the IDA-PBC. Especially an energy function which will lead to safe operation of the MIP is proposed in this study. The function ensures that motion of the pendulum is restricted in a predefined region and converges to a desired pendulum angle. The controller also gets the pendulum back to the desired angle with a large state-dependent gain when the pendulum comes close to fall over. Effectiveness of the controller is verified through simulations.
著者関連情報
© 2011 一般社団法人 日本機械学会
前の記事 次の記事
feedback
Top