Robust Engineering Designs of Partial Differential Systems and Their Applications
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Robust Engineering Designs of Partial Differential Systems and Their Applications
Chen, Bor-Sen
Taylor & Francis Ltd
10/2024
441
Mole
9781032134451
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Part I: Background 1. Introduction to Partial Differential Systems 2. Fuzzy Solutions to Partial Differential Equations Part II: Robust Signal Processing Design 3. Robust Filter Design for Linear Stochastic Partial Differential Systems via a Set of Sensor Measurements 4. Robust Filter Design for Nonlinear Stochastic Partial Differential Systems in Sensor Signal Processing 5. Robust Synchronization Design of Partial Differential Systems via Diffusion Coupling Part III: Robust Control System Design 6. Robust Stabilization Control Design of Large Structural Systems under Mode Truncation, Parameter Perturbations and Actuator Saturations 7. Robust Observer-Based Output Feedback Control Design of Large Flexible Structures: Mode State-Space Approach and Frequency Domain Robustness Measurement Method 8. Robust Stabilization Design for Stochastic Linear Partial Differential Systems under Spatiotemporal Disturbances and Sensor Measurement Noises 9. Fuzzy State-Space Modeling and Robust Observer-Based Control Design for Nonlinear Partial Differential Systems 10. Robust Tracking Control Design of Nonlinear Distributed Parameter Time-Delayed Systems 11. Robust Stabilization Control Design of Nonlinear Stochastic Partial Differential Systems 12. Robust Fuzzy H? Estimator-Based Stabilization Design for Nonlinear Parabolic Partial Differential Systems with Different Boundary Conditions 13. Low Design-Cost Fuzzy Controllers for Robust Stabilization of Nonlinear Partial Differential Systems
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Observer Based Output Feedback Control;Filter Design;Finite Difference Method;Sensor;Nano Electromechanical Systems;Diffusion Coupling;Fuzzy Closed Loop System;Fuzzy Logic;Noise Attenuation Level;Robust Fuzzy H?, Actuators;Diffusion Coefficient Matrix;Entropy;Asymptotically Stable;LMI Toolbox;Neumann Boundary Condition;Time Layers;Robust Stability Condition;Central Finite Difference Scheme;Robust Stability Criteria;Robust Stabilization;Spatiotemporal Domain;Noise Attenuation;Prescribed Attenuation Level;Space Dependent Coefficients;Asymptotical Synchronization;Ordinary Differential Equations;Conventional Linear Systems;Matrix Inequalities;BMI Problem;Membership Functions;PDE Problem
Part I: Background 1. Introduction to Partial Differential Systems 2. Fuzzy Solutions to Partial Differential Equations Part II: Robust Signal Processing Design 3. Robust Filter Design for Linear Stochastic Partial Differential Systems via a Set of Sensor Measurements 4. Robust Filter Design for Nonlinear Stochastic Partial Differential Systems in Sensor Signal Processing 5. Robust Synchronization Design of Partial Differential Systems via Diffusion Coupling Part III: Robust Control System Design 6. Robust Stabilization Control Design of Large Structural Systems under Mode Truncation, Parameter Perturbations and Actuator Saturations 7. Robust Observer-Based Output Feedback Control Design of Large Flexible Structures: Mode State-Space Approach and Frequency Domain Robustness Measurement Method 8. Robust Stabilization Design for Stochastic Linear Partial Differential Systems under Spatiotemporal Disturbances and Sensor Measurement Noises 9. Fuzzy State-Space Modeling and Robust Observer-Based Control Design for Nonlinear Partial Differential Systems 10. Robust Tracking Control Design of Nonlinear Distributed Parameter Time-Delayed Systems 11. Robust Stabilization Control Design of Nonlinear Stochastic Partial Differential Systems 12. Robust Fuzzy H? Estimator-Based Stabilization Design for Nonlinear Parabolic Partial Differential Systems with Different Boundary Conditions 13. Low Design-Cost Fuzzy Controllers for Robust Stabilization of Nonlinear Partial Differential Systems
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Observer Based Output Feedback Control;Filter Design;Finite Difference Method;Sensor;Nano Electromechanical Systems;Diffusion Coupling;Fuzzy Closed Loop System;Fuzzy Logic;Noise Attenuation Level;Robust Fuzzy H?, Actuators;Diffusion Coefficient Matrix;Entropy;Asymptotically Stable;LMI Toolbox;Neumann Boundary Condition;Time Layers;Robust Stability Condition;Central Finite Difference Scheme;Robust Stability Criteria;Robust Stabilization;Spatiotemporal Domain;Noise Attenuation;Prescribed Attenuation Level;Space Dependent Coefficients;Asymptotical Synchronization;Ordinary Differential Equations;Conventional Linear Systems;Matrix Inequalities;BMI Problem;Membership Functions;PDE Problem
