|
Showing 1 - 2 of
2 matches in All Departments
Fault Diagnosis and Fault-Tolerant Control and Guidance for
Aerospace demonstrates the attractive potential of recent
developments in control for resolving such issues as flight
performance, self protection and extended-life structures.
Importantly, the text deals with a number of practically
significant considerations: tuning, complexity of design, real-time
capability, evaluation of worst-case performance, robustness in
harsh environments, and extensibility when development or
adaptation is required. Coverage of such issues helps to draw the
advanced concepts arising from academic research back towards the
technological concerns of industry. Initial coverage of basic
definitions and ideas and a literature review gives way to a
treatment of electrical flight control system failures: oscillatory
failure, runaway, and jamming. Advanced fault detection and
diagnosis for linear and linear-parameter-varying systems are
described. Lastly recovery strategies appropriate to remaining
actuator/sensor/communications resources are developed. The authors
exploit experience gained in research collaboration with academic
and major industrial partners to validate advanced fault diagnosis
and fault-tolerant control techniques with realistic benchmarks or
real-world aeronautical and space systems. Consequently, the
results presented in Fault Diagnosis and Fault-Tolerant Control and
Guidance for Aerospace, will be of interest in both academic and
aerospatial-industrial milieux.
This monograph presents some existing and new results on analysis
and design of finite-time and fixed-time converging systems. Two
main groups of approaches for analysis/synthesis of this kind of
convergence, Lyapunov functions and the theory of homogeneous
systems, are considered. The authors focus on the dynamics
described by ordinary differential equations, time-delay models and
partial differential equations. Some popular control and estimation
algorithms, which possess accelerated converge rates, are also
reviewed. Finally, the issues of discretization of
finite-/fixed-time converging systems are discussed. Divided into 3
parts, this monograph provides the reader with a complete and
accessible review of the topic. In the first part, the definitions
of the different finite-/fixed-time stability properties are given
together with their characterizations via the Lyapunov function
approach. In the second part, several stabilization algorithms for
linear and nonlinear systems are formalized, which are based on the
implicit Lyapunov function approach. In the third part, the issues
of discretization of finite-/fixed-time stable systems are
discussed, with a special attention to the solutions obtained with
the implicit Lyapunov function method. Finally, the accelerated
converge concepts are presented for systems described by time-delay
and partial differential equations. This monograph is an excellent
introduction to the complex field of Finite-Time Stability Tools.
It enables the reader to synthesize the important concepts and
further their own research in the area.
|
You may like...
Top Gun: Maverick
Tom Cruise, Miles Teller, …
Blu-ray disc
R137
Discovery Miles 1 370
|