Advances in Discrete-Time Sliding Mode Control: Theory and Applications
The focus of this book is on the design of a specific control strategy using digital computers. This control strategy referred to as Sliding Mode Control (SMC), has its roots in (continuous-time) relay control. This book aims to explain recent investigations' output in the field of discrete-time sliding mode control (DSMC).

The book starts by explaining a new robust LMI-based (state-feedback and observer-based output-feedback) DSMC including a new scheme for sparsely distributed control. It includes a novel event-driven control mechanism, called actuator-based event-driven scheme, using a synchronized-rate biofeedback system for heart rate regulation during cycle-ergometer.

Key Features:





  • Focuses on LMI-based SMC (sliding mode control) for uncertain discrete-time system using novel nonlinear components in the control law



  • Makes reader understand the techniques of designing a discrete controller based on the flexible sliding functions



  • Proposes new algorithms for sparsifying control and observer network through multi-objective optimization frameworks



  • Discusses a framework for the design of SMC for two-dimensional systems along with analyzing the controllability of two-dimensional systems



  • Discusses novel schemes for sparsifying the control network

1128881721
Advances in Discrete-Time Sliding Mode Control: Theory and Applications
The focus of this book is on the design of a specific control strategy using digital computers. This control strategy referred to as Sliding Mode Control (SMC), has its roots in (continuous-time) relay control. This book aims to explain recent investigations' output in the field of discrete-time sliding mode control (DSMC).

The book starts by explaining a new robust LMI-based (state-feedback and observer-based output-feedback) DSMC including a new scheme for sparsely distributed control. It includes a novel event-driven control mechanism, called actuator-based event-driven scheme, using a synchronized-rate biofeedback system for heart rate regulation during cycle-ergometer.

Key Features:





  • Focuses on LMI-based SMC (sliding mode control) for uncertain discrete-time system using novel nonlinear components in the control law



  • Makes reader understand the techniques of designing a discrete controller based on the flexible sliding functions



  • Proposes new algorithms for sparsifying control and observer network through multi-objective optimization frameworks



  • Discusses a framework for the design of SMC for two-dimensional systems along with analyzing the controllability of two-dimensional systems



  • Discusses novel schemes for sparsifying the control network

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Advances in Discrete-Time Sliding Mode Control: Theory and Applications

Advances in Discrete-Time Sliding Mode Control: Theory and Applications

Advances in Discrete-Time Sliding Mode Control: Theory and Applications

Advances in Discrete-Time Sliding Mode Control: Theory and Applications

Overview

The focus of this book is on the design of a specific control strategy using digital computers. This control strategy referred to as Sliding Mode Control (SMC), has its roots in (continuous-time) relay control. This book aims to explain recent investigations' output in the field of discrete-time sliding mode control (DSMC).

The book starts by explaining a new robust LMI-based (state-feedback and observer-based output-feedback) DSMC including a new scheme for sparsely distributed control. It includes a novel event-driven control mechanism, called actuator-based event-driven scheme, using a synchronized-rate biofeedback system for heart rate regulation during cycle-ergometer.

Key Features:





  • Focuses on LMI-based SMC (sliding mode control) for uncertain discrete-time system using novel nonlinear components in the control law



  • Makes reader understand the techniques of designing a discrete controller based on the flexible sliding functions



  • Proposes new algorithms for sparsifying control and observer network through multi-objective optimization frameworks



  • Discusses a framework for the design of SMC for two-dimensional systems along with analyzing the controllability of two-dimensional systems



  • Discusses novel schemes for sparsifying the control network

Product Details

ISBN-13: 9780367571412
Publisher: CRC Press
Publication date: 06/30/2020
Pages: 254
Product dimensions: 6.12(w) x 9.19(h) x (d)

About the Author

Ahmadreza Argha, Steven Su, Li Li, Hung Tan Nguyen, Branko George Celler

Table of Contents

1 Introduction. 2 LMI-based SF DSMC. 3 LMI-based output feedback DSMC. 4 NCSs with measurement packet losses5 NCSs with actuation and measurement packet losses. 6 Sparse DSMC for NCSs. 7 Optimal sparse SMC for NCSs. 8 DSMC for 2D Systems. 9 Controllability Analysis of 2D systems. 10 HR Regulation During Cycle-Ergometer Exercise.

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