Adaptive Control of Systems with Actuator Failures

Adaptive Control of Systems with Actuator Failures by Gang Tao, Shuhao Chen, Xidong Tang, Suresh M. Joshi.

When an actuator fails, chaos or calamity can often ensue. It is because the actuator is the final step in the control chain, when the control system’s instructions are made physically real that failure can be so important and hard to compensate for. When the nature or location of the failure is unk...

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Bibliographic Details
Main Authors: Tao, Gang (Author), Chen, Shuhao (Author), Tang, Xidong (Author), Joshi, Suresh M. (Author)
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: London : Springer London : Imprint: Springer, 2004.
Edition:1st ed. 2004.
Series:Springer eBook Collection.
Subjects:
Control engineering.
Automotive engineering.
Robotics.
Mechatronics.
Chemical engineering.
Electronics.
Microelectronics.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.

MARC

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505 0 |a 1. Introduction -- 2. State Feedback Designs for State Tracking -- 3. State Feedback Designs for Output Tracking -- 4. Output Feedback Designs for Output Tracking -- 5. Designs for Multivariable Systems -- 6. Pole Placement Designs -- 7. Designs for Linearized Aircraft Models -- 8. Robust Designs for Discrete-Time Systems -- 9. Failure Compensation for Nonlinear Systems -- 10. State Feedback Designs for Nonlinear Systems -- 11. Nonlinear Output Feedback Designs -- 12. Conclusions and Research Topics -- A.1 Model Reference Adaptive Control -- A.1.1 MRAC: State Feedback for State Tracking -- A.1.2 MRAC: State Feedback for Output Tracking -- A.1.3 MRAC: Output Feedback for Output Tracking -- A.2 Multivariable MRAC -- A.3 Adaptive Pole Placement Control -- References. 
520 |a When an actuator fails, chaos or calamity can often ensue. It is because the actuator is the final step in the control chain, when the control system’s instructions are made physically real that failure can be so important and hard to compensate for. When the nature or location of the failure is unknown, the offsetting of consequent system uncertainties becomes even more awkward. Adaptive Control of Systems with Actuator Failures centers on counteracting situations in which unknown control inputs become indeterminately unresponsive over an uncertain period of time by adapting the responses of remaining functional actuators. Both "lock-in-place" and varying-value failures are dealt with. The results presented demonstrate: • the existence of nominal plant-model matching controller structures with associated matching conditions for all possible failure patterns; • the choice of a desirable adaptive controller structure; • derivation of novel error models in the presence of failures; • the design of adaptive laws allowing controllers to respond to combinations of uncertainties stemming from activator failures and system parameters. Adaptive Control of Systems with Actuator Failures will be of significance to control engineers generally and especially to both academics and industrial practitioners working on safety-critical systems or those in which full-blown fault identification and diagnosis is either too time consuming or too expensive. 
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650 0 |a Chemical engineering. 
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650 0 |a Microelectronics. 
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