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Introduction to discrete linear controls : theory and application /
Introduction to Discrete Linear Controls.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Academic Press,
[1975]
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| Colección: | Operations research and industrial engineering.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Introduction to Discrete Linear Controls: Theory and Application; Copyright Page; Table of Contents; Preface; Acknowledgments; Chapter I. Systems Theory and Discrete LinearControl Systems; 1.1 Systems Theory; 1.2 Discrete Systems; 1.3 Control Theory; 1.4 Control Systems; 1.5 System Models; Exercises; Chapter II. Discrete Control-System Models; 2.1 Difference Equations; 2.2 Control of Cylinder Diameter; 2.3 Generalized Discrete Process Controller with Sampling; 2.4 Production-Inventory Control System; 2.5 Criminal Justice System Feedback Model; 2.6 Conclusion; Exercises.
- Chapter III. The Calculus of Finite Differences3.1 Differences; 3.2 Factorial Polynomials; 3.3 Summations; 3.4 The Calculus of Finite Differences and Linear Difference Equations; Exercises; Chapter IV. Classical Solution of Linear Difference Equations with Constant Coefficients; 4.1 The Nature of Solutions; 4.2 The Homogeneous Solution; 4.3 The Particular Solution; 4.4 Boundary Conditions; 4.5 Finding the Roots of the Characteristic Equation; Exercises; Chapter V. The z Transform; 5.1 The Basic Transform; 5.2 Properties of the z Transform; 5.3 Tables.
- 5.4 Transformation of Linear Difference Equations5.5 The z Transform as a Probability Generating Function; Exercises; Chapter VI. Inverse Transformation; 6.1 Contour Integration; 6.2 Table of Transform Pairs; 6.3 Power Series Expansion; 6.4 Maclaurin Series Expansion; 6.5 Partial Fraction Expansion; 6.6 The Special Case of zn = 0; 6.7 Transfer Functions; 6.8 Solution of Difference Equations with Generalized Forcing Functions; 6.9 Conclusion; Exercises; Chapter VII. System Performance: Measures and Environmental Effects; 7.1 Control-System Performance Criteria.
- 8.7 Maximum Speed of Response with Bounded Steady-State Variance of Individual Product Units8.8 Maximum Speed of Response with Random Perturbation and Bounded Steady-State Process-Output Variance; 8.9 Maximum Speed of Response with Random Perturbation and BoundedSteady-State Variance of Individual Product Units; 8.10 Minimum Steady-State Mean-Square Deviation of Process Output; 8.11 Minimum Steady-State Mean-Square Deviation of Individual Product Units; 8.12 Maximum Steady-State Probability of Acceptable Process Output.