LMI-Based Neurocontroller for State-Feedback Guaranteed Cost Control of Discrete-Time Uncertain System(Neural Networks and Fuzzy Systems, <Special Section>Recent Advances in Circuits and Systems)
スポンサーリンク
概要
- 論文の詳細を見る
The application of neural networks to the state-feedback guaranteed cost control problem of discrete-time system that has uncertainty in both state and input matrices is investigated. Based on the Linear Matrix Inequality (LMI) design, a class of a state feedback controller is newly established, and sufficient conditions for the existence of guaranteed cost controller are derived. The novel contribution is that the neurocontroller is substituted for the additive gain perturbations. It is newly shown that although the neurocontroller is included in the discrete-time uncertain system, the robust stability for the closed-loop system and the reduction of the cost are attained.
- 社団法人電子情報通信学会の論文
- 2005-08-01
著者
-
Mukaidani Hiroaki
Graduate School Of Education Hiroshima University
-
ISHII Yasuhisa
Graduate School of Engineering, Hiroshima University
-
BU Nan
Graduate School of Engineering, Hiroshima University
-
TANAKA Yoshiyuki
Graduate School of Engineering, Hiroshima University
-
TSUJI Toshio
Graduate School of Engineering, Hiroshima University
-
Bu Nan
Graduate School Of Engineering Hiroshima University
-
Tsuji Toshio
Graduate School Of Engineering Hiroshima University
-
Tsuji Toshio
Cluster Ii Faculty Of Engineering Hiroshima University
-
Ishii Yasuhisa
Graduate School Of Engineering Hiroshima University
-
Tanaka Yoshiyuki
Graduate School Of Engineering Hiroshima University
関連論文
- A-1-34 A Design Method of Robust Non-Fragile Stabilizing Controllers for Uncertain Linear Continuous-Time Systems(A-1. 回路とシステム, 基礎・境界)
- Developing and Evaluating a Training Program for Server Administrators in Schools
- LMI-Based Neurocontroller for State-Feedback Guaranteed Cost Control of Discrete-Time Uncertain System(Neural Networks and Fuzzy Systems, Recent Advances in Circuits and Systems)
- Effects of Ionizing Radiation on Locomotory Behavior and Mechanosensation in Caenorhabditis elegans
- Near-Optimal Control for Singularly Perturbed Stochastic Systems
- A Numerical Algorithm for Finding Solution of Cross-Coupled Algebraic Riccati Equations
- Nitrogen-15 NMR Spectroscopy of Sugar Sensor with B-N Interaction as a Key Regulator of Colorimetric Signals
- Recursive Computation of Static Output Feedback Stochastic Nash Games for Weakly-Coupled Large-Scale Systems
- Grasp and manipulation for multiple objects
- Stochastic H_∞ Control Problem with State-Dependent Noise for Weakly Coupled Large-Scale Systems
- Development of a Mechanical Impedance Model-Based Computer Simulator for Evaluation of an Active Headrest Mechanism in Rear-End Impact