Performance Analysis and Synthesis for Discrete-Time Stochastic Systems with Network-Enhanced Complexities
1st Edition
Published on 8. October 2018
Book
Hardback
268 pages
978-1-138-61001-9 (ISBN)
Description
The book addresses the system performance with a focus on the network-enhanced complexities and developing the engineering-oriented design framework of controllers and filters with potential applications in system sciences, control engineering and signal processing areas. Therefore, it provides a unified treatment on the analysis and synthesis for discrete-time stochastic systems with guarantee of certain performances against network-enhanced complexities with applications in sensor networks and mobile robotics. Such a result will be of great importance in the development of novel control and filtering theories including industrial impact.
Key Features
Provides original methodologies and emerging concepts to deal with latest issues in the control and filtering with an emphasis on a variety of network-enhanced complexities
Gives results of stochastic control and filtering distributed control and filtering, and security control of complex networked systems
Captures the essence of performance analysis and synthesis for stochastic control and filtering
Concepts and performance indexes proposed reflect the requirements of engineering practice
Methodologies developed in this book include backward recursive Riccati difference equation approach and the discrete-time version of input-to-state stability in probability
Key Features
Provides original methodologies and emerging concepts to deal with latest issues in the control and filtering with an emphasis on a variety of network-enhanced complexities
Gives results of stochastic control and filtering distributed control and filtering, and security control of complex networked systems
Captures the essence of performance analysis and synthesis for stochastic control and filtering
Concepts and performance indexes proposed reflect the requirements of engineering practice
Methodologies developed in this book include backward recursive Riccati difference equation approach and the discrete-time version of input-to-state stability in probability
More details
Language
English
Place of publication
London
United Kingdom
Publishing group
Taylor & Francis Ltd
Target group
College/higher education
Professional and scholarly
Illustrations
53 s/w Abbildungen
53 Illustrations, black and white
Dimensions
Height: 234 mm
Width: 156 mm
Weight
556 gr
ISBN-13
978-1-138-61001-9 (9781138610019)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Derui Ding | Zidong Wang | Guoliang Wei
Performance Analysis and Synthesis for Discrete-Time Stochastic Systems with Network-Enhanced Complexities
Book
06/2020
1st Edition
CRC Press
€79.70
Shipment within 15-20 days
Derui Ding | Zidong Wang | Guoliang Wei
Performance Analysis and Synthesis for Discrete-Time Stochastic Systems with Network-Enhanced Complexities
E-Book
10/2018
1st Edition
CRC Press
€73.99
Available for download
Persons
Derui Ding, Zidong Wang, Guoliang Wei
Content
1 Introduction. 2 Finite-Horizon H? Control with Randomly Occurring Non-linearities and Fading Measurements. 3. Finite-Horizon H? Consensus Control for Multi-Agent Systems with Missing Measurements. 4 Finite-Horizon Distributed H? State Estimation with Stochastic Parameters through Sensor Networks. 5 Finite-Horizon Dissipative Control for State-Saturated Discrete Time-Varying Systems with Missing Measurements. 6 Finite-Horizon H? Filtering for State-Saturated Discrete Time-Varying Systems with Packet Dropouts. 7 Finite-Horizon Envelope-Constrained H? Filtering with Fading Measurements. 8 Distributed Filtering under Uniform Quantizations and Deception Attacks through Sensor Networks. 9 Event-Triggered Distributed H? State Estimation with Packet Dropouts through Sensor Networks. 10 Event-Triggered Consensus Control for Multi-Agent Systems in the Framework of Input-to-State Stability in Probability. 11 Event-Triggered Security Control for Discrete-Time Stochastic Systems subject to Cyber-Attacks. 12 Event-Triggered Consensus Control for Multi-Agent Systems subject to Cyber-Attacks in the Framework of Observers.