Fault Detection and Isolation

Examining the design of detection and isolation algorithms for unmanned vehicles including spacecraft and aerial drones, this book discusses a range of factors, proposing a geometric approach as well as new fault-detection methods in Markovian jump systems.

Fault Detection and Isolation: Multi-Vehicle Unmanned System deals with the design and development of fault detection and isolation algorithms for unmanned vehicles such as spacecraft, aerial drones and other related vehicles. Addressing fault detection and isolation is a key step towards designing autonomous, fault-tolerant cooperative control of networks of unmanned systems. This book proposes a solution based on a geometric approach, and presents new theoretical findings for fault detection and isolation in Markovian jump systems. Also discussed are the effects of large environmental disturbances, as well as communication channels, on unmanned systems. The book proposes novel solutions to difficulties like robustness issues, as well as communication channel anomalies. Fault Detection and Isolation: Multi-Vehicle Unmanned System is an ideal book for researchers and engineers working in the fields of fault detection, as well as networks of unmanned vehicles.

Presents applications for a wide range of unmanned vehicles, including spacecraft, unmanned aerial vehicles, unattended ground sensor networks and automated highway systems Discusses Markovian jump linear systems as a model for creating a network of vehicles in the presence of imperfect communication channels Shows how to design unmanned vehicles to be able to operate autonomously in the face of uncertainty and unexpected events or errors Includes supplementary material: sn.pub/extras

Klappentext

Fault Detection and Isolation: Multi-Vehicle Unmanned Systems deals with the design and development of fault detection and isolation algorithms for unmanned vehicles such as spacecraft, aerial drones and other related vehicles. Addressing fault detection and isolation is a key step towards designing autonomous, fault-tolerant cooperative control of networks of unmanned systems. This book proposes a solution based on a geometric approach, and presents new theoretical findings for fault detection and isolation in Markovian jump systems. The book also:

• Discussesthe effects of large environmental disturbances, as well as communication channels, on unmanned systems

• Proposes novel solutions to difficulties like robustness issues, as well as communication channel anomalies Fault Detection and Isolation: Multi-Vehicle Unmanned Systems is an ideal book for researchers and engineers working in the fields of fault detection, as well as networks of unmanned vehicles.

  Inhalt
  Introduction.- Geometric Approach to Fault Detection and Isolation.- Fault Detection and Isolation in a Network of Unmanned Vehicles: Ideal Communication Channels.- A Robust Fault Detection and Isolation Scheme with a Disturbance Decoupling Property.- Compensating for Communication Channels Effects in Fault Detection and Isolation