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Full Description
The monograph explores the safety of unmanned flight vehicles via the corresponding fault-tolerant control design methods.
The authors analyse the safety control issues of unmanned flight vehicles, which include finite-time recovery against faults, concurrence of actuator faults and sensor faults, concurrence of actuator faults and wind effects, and faults encountered by a portion of unmanned flight vehicles in a distributed communication network. In addition, the commonly used simple but effective proportional-integral-derivative structure is also incorporated into the safety control design for unmanned flight vehicles. By using the fractional-order calculus, the developed safety control results are able to ensure flight safety and achieve the refined performance adjustments against faults and wind effects.
The book will be of interest to 3rd/4th year undergraduate students, postgraduate and graduate students, researchers, academic staff, engineers of aircraft and unmanned flight vehicles.
Contents
1. Introduction 2. Preliminaries 3. Refined Finite-Time FO FTC of UAV Against Input Saturation and Actuator Faults 4. Refined FO Adaptive Safety Control of UAVs Against Actuator-Sensor Faults 5. Composite Refined FO Safety Control of UAVs Against Actuator Faults and Wind Effects 6. Refined FO Adaptive Safety Control of UAVs Against Actuator Faults and Wind Effects 7. FO PID-Based Refined Adaptive Safety Control of UAVs 8. Refined Distributed Adaptive FO Safety Control of Multiple UAVs 9. Refined Distributed FO Adaptive Safety Control of Two-Layer Uas 10. Conclusions and Future Research Directions
