Automatic control systems in biomedical engineering : an interactive educational approach

This book presents the fundamental principles and challenges encountered in the control of biomedical systems, providing practical solutions and suggesting alternatives. The perspective of the text is based on the system behaviour in the time domain both linear and non-linear, continuous and discrete, helping the reader to be able to interpret the physical significance of mathematical results during control system analysis and design focusing on biomedical engineering applications. Interactive learning is promoted, endowing students with the ability to change parameters and conditions during the simulation and see the effects of these changes, by using interactive MATLAB and SIMULINK software tools, also presenting realistic problems in order to analyse, design and develop automatic control systems. The text is also complemented with MATLAB and SIMULINK exercise files solved to aid students to focus on the fundamental concepts treated throughout the book, following a new pedagogical approach distinct from the classical one whereby fundamental control concepts are introduced together with adequate software tools in order to gain insight on the biomedical engineering control problems. The book is suitable for second or third-year undergraduate students who will find the illustrative examples particularly useful to their studies of control system design and implementation. Lecturers in the control field will find the computer aided design approach as an alternative to teaching the fundamental concepts of feedback analogic and digital control.

CHAPTER 1: INTRODUCTION TO CONTROL SYSTEMS IN BIOMEDICAL ENGINEERING. System Concept. Basic Definitions. Applications in Biomedical Engineering. CHAPTER 2: MATHEMATICAL MODELLING REPRESENTATION OF LINEAR SYSTEMS. Continuous Time Linear Systems. The Laplace Transform. Discrete Time Linear Systems. The Z Transform. Continuous and Discrete Transfer Function. Continuous and Discrete Matrix Transfer Function. Block Diagrams. The MATLAB Control System Toolbox. Example Problems and Solutions. CHAPTER 3: TIME DOMAIN ANALYSIS OF CONTINUOUS AND DISCRETE SYSTEMS. Continuous Transient Response Analysis. Systems Identification. Discrete Transient Response Analysis. Sampling and Hold. Mapping from s-plane to z-plane. Continuous and Discrete System Stability. Continuous and Discrete System Stationary Response. Example Problems and Solutions. CHAPTER 4: CONTROL SYSTEMS IN BIOMEDICAL ENGINEERING. SENSORS AND ACTUATORS. Feedback Control Elements. Sensors. Actuators. Controllers. Feedback Control Elements in Biomedical Engineering. CHAPTER 5: COMPUTATIONAL TOOLS FOR ANALYSIS AND DESIGN OF CONTROL SYSTEMS. The Root Locus Analysis of Continuous Systems. Time Delayed Systems. The Root Locus Analysis of Discrete Systems. The MATLAB rltool Toolbox. System Performance Specification. Example Problems and Solutions. CHAPTER 6: CONTROL SYSTEM DESING. Control System Design by Root Locus Method in MATLAB. PID Continuous Controller. Discretization of Continuous Controller. PID Discrete Controller. Implementation of PID Controller. Tuning of PID Controller. The SIMULINK pidtool Toolbox. Applications in Biomedical Engineering. Example Problems and Solutions. APPENDIX A: MATLAB Control Toolbox Tutorial APPENDIX C: SIMULINK Interactive Tutorial APPENDIX D: MATLAB rltool Toolbox Tutorial