Control System Analysis and Identification with MATLAB (R)
-10%
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Control System Analysis and Identification with MATLAB (R)
Block Pulse and Related Orthogonal Functions
Roychoudhury, Srimanti; Deb, Anish
Taylor & Francis Ltd
08/2018
386
Dura
Inglês
9781138303225
15 a 20 dias
771
Descrição não disponível.
1. Block Pulse and Related Basis Functions 2. Function Approximation via Block Pulse Function and Related Functions 3. Block Pulse Domain Operational Matrices for Integration and Differentiation 4. Operational Transfer Functions for System Analysis 5. System Analysis and Identification Using Convolution and "Deconvolution" in BPF Domain 6. Delayed Unit Step Functions (DUSF) for System Analysis and Fundamental Nature of the Block Pulse Function (BPF) Set 7. Sample-and-Hold Functions (SHFs) for System Analysis 8. Discrete Time System Analysis Using a Set of Delta Functions (DFs) 9. Non-Optimal Block Pulse Functions (NOBPFs) for System Analysis and Identification 10. System Analysis and Identification Using Linearly Pulse-Width Modulated Generalized Block Pulse Functions (LPWM-GBPF) Appendix A: Introduction to Linear Algebra Appendix B: Selected MATLAB Programs
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Block Pulse Functions;Block Pulse;block;Closed Loop Sampled Data Systems;pulse;Single Input Single Output Plant;unit;Minimum Mise;step;Delta Domain;input;Integral Operational Matrix;operational;Vide Appendix;matrix;Unit Step Input;transfer;Walsh Function;function;Operational Transfer Function;walsh;Linear Single Input;Srimanti Roychoudhury;Plant Transfer Functions;Delay Matrix;Open Loop Control System;Exact Integration;Simple Feedback Control System;Pulse Width Modulated;Operational Matrix;Impulse Response Function;ISE;Convolution Result;Impulse Response;Rademacher Functions;Laplace Domain
1. Block Pulse and Related Basis Functions 2. Function Approximation via Block Pulse Function and Related Functions 3. Block Pulse Domain Operational Matrices for Integration and Differentiation 4. Operational Transfer Functions for System Analysis 5. System Analysis and Identification Using Convolution and "Deconvolution" in BPF Domain 6. Delayed Unit Step Functions (DUSF) for System Analysis and Fundamental Nature of the Block Pulse Function (BPF) Set 7. Sample-and-Hold Functions (SHFs) for System Analysis 8. Discrete Time System Analysis Using a Set of Delta Functions (DFs) 9. Non-Optimal Block Pulse Functions (NOBPFs) for System Analysis and Identification 10. System Analysis and Identification Using Linearly Pulse-Width Modulated Generalized Block Pulse Functions (LPWM-GBPF) Appendix A: Introduction to Linear Algebra Appendix B: Selected MATLAB Programs
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Block Pulse Functions;Block Pulse;block;Closed Loop Sampled Data Systems;pulse;Single Input Single Output Plant;unit;Minimum Mise;step;Delta Domain;input;Integral Operational Matrix;operational;Vide Appendix;matrix;Unit Step Input;transfer;Walsh Function;function;Operational Transfer Function;walsh;Linear Single Input;Srimanti Roychoudhury;Plant Transfer Functions;Delay Matrix;Open Loop Control System;Exact Integration;Simple Feedback Control System;Pulse Width Modulated;Operational Matrix;Impulse Response Function;ISE;Convolution Result;Impulse Response;Rademacher Functions;Laplace Domain
