Control systems engineering (Record no. 3497)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 09188nam a22002057a 4500 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| ISBN | 9780470646120 |
| Terms of availability | TZS 112,148/= |
| 040 ## - CATALOGING SOURCE | |
| Original cataloging agency | MUL |
| Language of cataloging | eng |
| Description conventions | AACR |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 629.8 NIS |
| 100 ## - MAIN ENTRY--AUTHOR NAME | |
| Personal name | Nise, Norman S. |
| 245 ## - TITLE STATEMENT | |
| Title | Control systems engineering |
| Statement of responsibility, etc | / Norman S. Nise |
| 250 ## - Edition Statement | |
| Edition statement | 6th ed. |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication | Hoboken, NJ, : |
| Name of publisher | Wiley, |
| Year of publication | ©2011. |
| 300 ## - PHYSICAL DESCRIPTION | |
| Number of Pages | xviii, 926 p. : |
| Other physical details | ill. ; |
| Dimensions | 26 cm. |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE | |
| Bibliography, etc | Includes index |
| 505 ## - Formatted Contents | |
| Formatted contents note | Preface ix <br/>1 Introduction<br/>1 (32)<br/>1.1 Introduction<br/>2 (2)<br/>1.2 A History of Control Systems<br/>4 (3)<br/>1.3 System Configurations<br/>7 (3)<br/>1.4 Analysis and Design Objectives<br/>10 (5)<br/>Case Study<br/>12 (3)<br/>1.5 The Design Process<br/>15 (5)<br/>1.6 Computer-Aided Design<br/>20 (1)<br/>1.7 The Control Systems Engineer<br/>21 (12)<br/>Summary<br/>23 (1)<br/>Review Questions<br/>23 (1)<br/>Problems<br/>24 (6)<br/>Cyber Exploration Laboratory<br/>30 (1)<br/>Bibliography<br/>31 (2)<br/>2 Modeling in the Frequency Domain<br/>33 (84)<br/>2.1 Introduction<br/>34 (1)<br/>2.2 Laplace Transform Review<br/>35 (9)<br/>2.3 The Transfer Function<br/>44 (3)<br/>2.4 Electrical Network Transfer Functions<br/>47 (14)<br/>2.5 Translational Mechanical System Transfer Functions<br/>61 (8)<br/>2.6 Rotational Mechanical System Transfer Functions<br/>69 (5)<br/>2.7 Transfer Functions for Systems with Gears<br/>74 (5)<br/>2.8 Electromechanical System Transfer Functions<br/>79 (5)<br/>2.9 Electric Circuit Analogs<br/>84 (4)<br/>2.10 Nonlinearities<br/>88 (1)<br/>2.11 Linearization<br/>89 (28)<br/>Case Studies<br/>94 (3)<br/>Summary<br/>97 (1)<br/>Review Questions<br/>97 (1)<br/>Problems<br/>98 (14)<br/>Cyber Exploration Laboratory<br/>112 (3)<br/>Bibliography<br/>115 (2)<br/>3 Modeling in the Time Domain<br/>117 (44)<br/>3.1 Introduction<br/>118 (1)<br/>3.2 Some Observations<br/>119 (4)<br/>3.3 The General State-Space Representation<br/>123 (1)<br/>3.4 Applying the State-Space Representation<br/>124 (8)<br/>3.5 Converting a Transfer Function to State Space<br/>132 (7)<br/>3.6 Converting from State Space to a Transfer Function<br/>139 (2)<br/>3.7 Linearization<br/>141 (20)<br/>Case Studies<br/>144 (4)<br/>Summary<br/>148 (1)<br/>Review Questions<br/>149 (1)<br/>Problems<br/>149 (8)<br/>Cyber Exploration Laboratory<br/>157 (2)<br/>Bibliography<br/>159 (2)<br/>4 Time Response<br/>161 (74)<br/>4.1 Introduction<br/>162 (1)<br/>4.2 Poles, Zeros, and System Response<br/>162 (4)<br/>4.3 First-Order Systems<br/>166 (2)<br/>4.4 Second-Order Systems: Introduction<br/>168 (5)<br/>4.5 The General Second-Order System<br/>173 (4)<br/>4.6 Underdamped Second-Order Systems<br/>177 (9)<br/>4.7 System Response with Additional Poles<br/>186 (5)<br/>4.8 System Response With Zeros<br/>191 (5)<br/>4.9 Effects of Nonlinearities Upon Time Response<br/>196 (3)<br/>4.10 Laplace Transform Solution of State Equations<br/>199 (4)<br/>4.11 Time Domain Solution of State Equations<br/>203 (32)<br/>Case Studies<br/>207 (6)<br/>Summary<br/>213 (1)<br/>Review Questions<br/>214 (1)<br/>Problems<br/>215 (13)<br/>Cyber Exploration Laboratory<br/>228 (4)<br/>Bibliography<br/>232 (3)<br/>5 Reduction of Multiple Subsystems<br/>235 (66)<br/>5.1 Introduction<br/>236 (1)<br/>5.2 Block Diagrams<br/>236 (9)<br/>5.3 Analysis and Design of Feedback Systems<br/>245 (3)<br/>5.4 Signal-Flow Graphs<br/>248 (3)<br/>5.5 Mason's Rule<br/>251 (3)<br/>5.6 Signal-Flow Graphs of State Equations<br/>254 (2)<br/>5.7 Alternative Representations in State Space<br/>256 (10)<br/>5.8 Similarity Transformations<br/>266 (35)<br/>Case Studies<br/>272 (6)<br/>Summary<br/>278 (1)<br/>Review Questions<br/>279 (1)<br/>Problems<br/>280 (17)<br/>Cyber Exploration Laboratory<br/>297 (2)<br/>Bibliography<br/>299 (2)<br/>6 Stability<br/>301 (38)<br/>6.1 Introduction<br/>302 (3)<br/>6.2 Routh-Hurwitz Criterion<br/>305 (3)<br/>6.3 Routh-Hurwitz Criterion: Special Cases<br/>308 (6)<br/>6.4 Routh-Hurwitz Criterion: Additional Examples<br/>314 (6)<br/>6.5 Stability in State Space<br/>320 (19)<br/>Case Studies<br/>323 (2)<br/>Summary<br/>325 (1)<br/>Review Questions<br/>325 (1)<br/>Problems<br/>326 (9)<br/>Cyber Exploration Laboratory<br/>335 (1)<br/>Bibliography<br/>336 (3)<br/>7 Steady-State Errors<br/>339 (48)<br/>7.1 Introduction<br/>340 (3)<br/>7.2 Steady-State Error for Unity Feedback Systems<br/>343 (6)<br/>7.3 Static Error Constants and System Type<br/>349 (4)<br/>7.4 Steady-State Error Specifications<br/>353 (3)<br/>7.5 Steady-State Error for Disturbances<br/>356 (2)<br/>7.6 Steady-State Error for Nonunity Feedback Systems<br/>358 (4)<br/>7.7 Sensitivity<br/>362 (2)<br/>7.8 Steady-State Error for Systems in State Space<br/>364 (23)<br/>Case Studies<br/>368 (3)<br/>Summary<br/>371 (1)<br/>Review Questions<br/>372 (1)<br/>Problems<br/>373 (11)<br/>Cyber Exploration Laboratory<br/>384 (2)<br/>Bibliography<br/>386 (1)<br/>8 ROOT LOCUS TECHNIQUES<br/>387 (68)<br/>8.1 Introduction<br/>388 (4)<br/>8.2 Defining the Root Locus<br/>392 (2)<br/>8.3 Properties of the Root Locus<br/>394 (3)<br/>8.4 Sketching the Root Locus<br/>397 (5)<br/>8.5 Refining the Sketch<br/>402 (9)<br/>8.6 An Example<br/>411 (4)<br/>8.7 Transient Response Design via Gain Adjustment<br/>415 (4)<br/>8.8 Generalized Root Locus<br/>419 (2)<br/>8.9 Root Locus for Positive-Feedback Systems<br/>421 (3)<br/>8.10 Pole Sensitivity<br/>424 (31)<br/>Case Studies<br/>426 (5)<br/>Summary<br/>431 (1)<br/>Review Questions<br/>432 (1)<br/>Problems<br/>432 (18)<br/>Cyber Exploration Laboratory<br/>450 (2)<br/>Bibliography<br/>452 (3)<br/>9 Design Via Root Locus<br/>455 (78)<br/>9.1 Introduction<br/>456 (3)<br/>9.2 Improving Steady-State Error via Cascade Compensation<br/>459 (10)<br/>9.3 Improving Transient Response via Cascade Compensation<br/>469 (13)<br/>9.4 Improving Steady-State Error and Transient Response<br/>482 (13)<br/>9.5 Feedback Compensation<br/>495 (8)<br/>9.6 Physical Realization of Compensation<br/>503 (30)<br/>Case Studies<br/>508 (5)<br/>Summary<br/>513 (1)<br/>Review Questions<br/>514 (1)<br/>Problems<br/>515 (15)<br/>Cyber Exploration Laboratory<br/>530 (1)<br/>Bibliography<br/>531 (2)<br/>10 Frequency Response Techniques<br/>533 (92)<br/>10.1 Introduction<br/>534 (6)<br/>10.2 Asymptotic Approximations: Bode Plots<br/>540 (19)<br/>10.3 Introduction to the Nyquist Criterion<br/>559 (5)<br/>10.4 Sketching the Nyquist Diagram<br/>564 (5)<br/>10.5 Stability via the Nyquist Diagram<br/>569 (5)<br/>10.6 Gain Margin and Phase Margin via the Nyquist Diagram<br/>574 (2)<br/>10.7 Stability, Gain Margin, and Phase Margin via Bode Plots<br/>576 (4)<br/>10.8 Relation Between Closed-Loop Transient and Closed-Loop Frequency Responses<br/>580 (3)<br/>10.9 Relation Between Closed- and Open-Loop Frequency Responses<br/>583 (6)<br/>10.10 Relation Between Closed-Loop Transient and Open-Loop Frequency Responses<br/>589 (4)<br/>10.11 Steady-State Error Characteristics from Frequency Response<br/>593 (4)<br/>10.12 Systems with Time Delay<br/>597 (5)<br/>10.13 Obtaining Transfer Functions Experimentally<br/>602 (23)<br/>Case Study<br/>606 (1)<br/>Summary<br/>607 (2)<br/>Review Questions<br/>609 (1)<br/>Problems<br/>610 (11)<br/>Cyber Exploration Laboratory<br/>621 (2)<br/>Bibliography<br/>623 (2)<br/>11 Design Via Frequency Response<br/>625 (38)<br/>11.1 Introduction<br/>626 (1)<br/>11.2 Transient Response via Gain Adjustment<br/>627 (3)<br/>11.3 Lag Compensation<br/>630 (5)<br/>11.4 Lead Compensation<br/>635 (6)<br/>11.5 Lag-Lead Compensation<br/>641 (22)<br/>Case Studies<br/>650 (2)<br/>Summary<br/>652 (1)<br/>Review Questions<br/>653 (1)<br/>Problems<br/>653 (7)<br/>Cyber Exploration Laboratory<br/>660 (1)<br/>Bibliography<br/>661 (2)<br/>12 Design Via State Space<br/>663 (60)<br/>12.1 Introduction<br/>664 (1)<br/>12.2 Controller Design<br/>665 (7)<br/>12.3 Controllability<br/>672 (4)<br/>12.4 Alternative Approaches to Controller Design<br/>676 (6)<br/>12.5 Observer Design<br/>682 (7)<br/>12.6 Observability<br/>689 (4)<br/>12.7 Alternative Approaches to Observer Design<br/>693 (7)<br/>12.8 Steady-State Error Design Via Integral Control<br/>700 (23)<br/>Case Study<br/>704 (5)<br/>Summary<br/>709 (1)<br/>Review Questions<br/>710 (1)<br/>Problems<br/>711 (8)<br/>Cyber Exploration Laboratory<br/>719 (2)<br/>Bibliography<br/>721 (2)<br/>13 Digital Control Systems<br/>723 (60)<br/>13.1 Introduction<br/>724 (3)<br/>13.2 Modeling the Digital Computer<br/>727 (3)<br/>13.3 The z-Transform<br/>730 (5)<br/>13.4 Transfer Functions<br/>735 (4)<br/>13.5 Block Diagram Reduction<br/>739 (3)<br/>13.6 Stability<br/>742 (7)<br/>13.7 Steady-State Errors<br/>749 (4)<br/>13.8 Transient Response on the z-Plane<br/>753 (2)<br/>13.9 Gain Design on the z-Plane<br/>755 (3)<br/>13.10 Cascade Compensation via the s-Plane<br/>758 (4)<br/>13.11 Implementing the Digital Compensator<br/>762 (21)<br/>Case Studies<br/>765 (4)<br/>Summary<br/>769 (1)<br/>Review Questions<br/>770 (1)<br/>Problems<br/>771 (7)<br/>Cyber Exploration Laboratory<br/>778 (2)<br/>Bibliography<br/>780 (3)<br/>Appendix A List of Symbols<br/>783 (4)<br/>Appendix B MATLAB Tutorial<br/>787 (49)<br/>B.1 Introduction<br/>787 (1)<br/>B.2 MATLAB Examples<br/>788 (45)<br/>B.3 Command Summary<br/>833 (3)<br/>Bibliography<br/>835 (1)<br/>Appendix C MATLAB's Simulink Tutorial<br/>836 (21)<br/>C.1 Introduction<br/>836 (1)<br/>C.2 Using Simulink<br/>836 (5)<br/>C.3 Examples<br/>841 (16)<br/>Summary<br/>855 (1)<br/>Bibliography<br/>856 (1)<br/>Appendix D LabVIEW Tutorial<br/>857 (30)<br/>D.1 Introduction<br/>857 (1)<br/>D.2 Control Systems Analysis, Design, and Simulation<br/>858 (1)<br/>D.3 Using LabVIEW<br/>859 (3)<br/>D.4 Analysis and Design Examples<br/>862 (14)<br/>D.5 Simulation Examples<br/>876 (11)<br/>Summary<br/>885 (1)<br/>Bibliography<br/>886 (1)<br/>Appendix E MATLAB's GUI Tools Tutorial (Online)<br/>Appendix F MATLAB's Symbolic Math Toolbox Tutorial (Online)<br/>Appendix G Matrices, Determinants, and Systems of Equations (Online)<br/>Appendix H Control System Computational Aids (Online)<br/>Appendix I Derivation of a Schematic for a DC Motor (Online)<br/>Appendix J Derivation of the Time Domain Solution of State Equations (Online)<br/>Appendix K Solution of State Equations for to ≠ 0 (Online)<br/>Appendix L Derivation of Similarity Transformations (Online)<br/>Appendix M Root Locus Rules: Derivations (Online)<br/>Glossary 887 (10)<br/>Answers to Selected Problems 897 (6)<br/>Credits 903 (4)<br/>Index 907 |
| 546 ## - LANGUAGE NOTE | |
| Language note | eng |
| 650 ## - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical Term | Systems engineering |
| 650 ## - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical Term | Automatic control |
| 942 ## - ADDED ENTRY ELEMENTS | |
| Item type | Book |
| Withdrawn status | Lost status | Damaged status | Not for loan | Permanent Location | Current Location | Date acquired | Source of acquisition | Full call number | Accession Number | Copy number | Price effective from | Koha item type |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Mzumbe University Main Campus Library | Mzumbe University Main Campus Library | 11/08/2017 | MAK Solution LTD | 629.8 NIS | 0081470 | 1 | 11/11/2022 | Book | ||||
| Mzumbe University Main Campus Library | Mzumbe University Main Campus Library | 11/08/2017 | MAK Solution LTD | 629.8 NIS | 0081471 | 2 | 11/11/2022 | Book | ||||
| Mzumbe University Main Campus Library | Mzumbe University Main Campus Library | 01/08/2017 | Mak Solutions LTD | 629.8 NIS | 0081469 | 3 | 16/01/2023 | Book |