NONLINEAR ADAPTIVE OUTPUT FEEDBACK CONTROL DESIGN WITH UNKNOWN PARAMETER
スポンサーリンク
概要
- 論文の詳細を見る
This study proposes a nonlinear adaptive control design using backstepping approach for output feedback type nonlinear control systems with unknown constant parameters. A class of nonlinear systems with parameter uncertainties and with some unmeasured states is of interest for nonlinear adaptive control. The proposed control design uses the control Lyapunov functions to maintain the stability of the control system and makes the parameter adaptation using tuning functions. One of the aim of this study is to prove the applicability of the proposed adaptive control design approach to the real control systems. For this aim, an active magnetic bearing system is used for experimental verification. The obtained results are encouraging for future studies.
- 一般社団法人日本機械学会の論文
著者
-
Nonami Kenzo
Department Of Electronics And Mechanical Engineering Chiba University
-
Nonami Kenzo
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
-
Sivrioglu Selim
Department Of Electronics And Mechanical Engineering Faculty Of Engineering Chiba University
-
Nonami Kenzo
Department For Electronics And Mechanical Engineering University Of Chiba
関連論文
- Autonomous Hovering and Landing of a Quad-rotor Micro Aerial Vehicle by Means of on Ground Stereo Vision System
- Visual Servoing of Quadrotor Micro-Air Vehicle Using Color-Based Tracking Algorithm
- 204 適応不釣合い振動制御を有するゼロパワー非線形制御磁気軸受
- Development and Control of Mine Detection Robot COMET-II and COMET-III(Advances in Motion and Vibration Control Technology)
- Unbalance Vibration Control of Magnetic Bearing Systems Using Adaptive Algorithm with Disturbance Frequency Estimation
- T-2-3-3 Neuro-Based Position and Force Hybrid Control of Six-Legged Walking Robot
- AIR GAP CONTROL AT SENSOR HEAD OF MOBILE MANIPULATOR ON MINE DETECTION ROBOT
- Adaptive Unbalanced Vibration Control of Magnetic Bearing Systems with Rotational Synchronizing and Asynchronizing Harmonic Disturbance
- CAD Model Based Autonomous Locomotion of Quadruped Robot by Using Correction of Trajectory Planning with RNN
- Robust Control of Magnetic Bearing Systems Using μ-Synthesis with Descriptor Form