The Proceedings of the International Conference on Electrical Systems & Automation: Control of Electrical and Electronic Systems-Volume 2

This book is a compilation of selected contributions to the 1st International Conference on Electrical Systems & Automation, covering modelling, simulation, and control of power electronics, industrial systems, and embedded systems. It is a valuable reference for beginners, researchers, and professionals.

Format: Hardback
Length: 165 pages
Publication date: 31 March 2022
Publisher: Springer Verlag, Singapore

This comprehensive two-volume set, the second installment in a series on "Control of Electrical and Electronic Systems," presents a meticulously curated collection of distinguished contributions from the inaugural International Conference on Electrical Systems & Automation. Spanning a wide range of topics, the book delves into rigorous discussions, cutting-edge advancements, and emerging trends in the modeling, simulation, and control of power electronics, industrial systems, and embedded systems. Serving as an invaluable resource for beginners, researchers, and industry professionals alike, this publication offers a treasure trove of knowledge and insights into the realm of control of electrical and electronic systems.

The first chapter, titled "Modeling and Simulation of Power Electronic Systems," provides an in-depth exploration of the methodologies and techniques employed in the simulation of power electronic circuits. The authors discuss the importance of accurate modeling in the design and analysis of power electronic systems, highlighting the significance of considering various factors such as switching behavior, parasitic elements, and operating conditions. They also introduce various simulation tools and platforms commonly used in power electronics, including MATLAB/Simulink, PSCAD, and SPICE.

The second chapter, titled "Modeling and Simulation of Industrial Systems," delves into the application of modeling and simulation techniques in the analysis and control of industrial systems. The authors discuss the challenges associated with modeling complex industrial processes, such as process dynamics, control algorithms, and interactions between multiple components. They introduce various modeling approaches, including process modeling, system modeling, and simulation-based optimization, and illustrate their use in real-world industrial applications.

The third chapter, titled "Modeling and Simulation of Embedded Systems," focuses on the modeling and simulation of embedded systems, which are characterized by their resource constraints, real-time behavior, and interdependence with external systems. The authors discuss the challenges associated with modeling embedded systems, including the need for efficient simulation algorithms, the consideration of hardware-software interactions, and the integration of simulation with other tools such as programming languages and hardware emulators. They also present case studies and examples of embedded systems in various industries, including automotive, healthcare, and telecommunications.

The fourth chapter, titled "Control of Power Electronics," explores the principles and techniques of power electronics control. The authors discuss the design and implementation of power electronic controllers, including PWM controllers, inverter controllers, and DC-DC converters. They discuss the advantages and disadvantages of different control strategies, such as PI control, PID control, and fuzzy logic control, and illustrate their use in real-world applications. The chapter also includes a comprehensive review of power electronics technologies, including semiconductor devices, power switches, and power management systems.

The fifth chapter, titled "Control of Industrial Systems," focuses on the control of industrial systems using advanced control algorithms. The authors discuss the challenges associated with industrial control, such as process nonlinearity, time-varying dynamics, and uncertainty. They introduce various control algorithms, including model predictive control, adaptive control, and neural networks, and illustrate their use in real-world industrial applications. The chapter also includes a discussion of the role of artificial intelligence and machine learning in industrial control.

The sixth chapter, titled "Control of Embedded Systems," explores the control of embedded systems using distributed control algorithms. The authors discuss the challenges associated with distributed control, such as communication delays, network congestion, and limited resources. They introduce various distributed control algorithms, including consensus-based control, distributed optimization, and decentralized control, and illustrate their use in real-world embedded systems. The chapter also includes a discussion of the role of wireless communication in distributed control.

The seventh chapter, titled "Applications of Control of Electrical and Electronic Systems," showcases the practical applications of control of electrical and electronic systems in various industries. The authors discuss the use of control of electrical and electronic systems in power generation, transmission, distribution, and renewable energy systems. They also discuss the use of control of electrical and electronic systems in transportation, including electric vehicles, autonomous vehicles, and smart grids. The chapter also includes a discussion of the use of control of electrical and electronic systems in healthcare, including medical devices, wearable technologies, and telemedicine.

The eighth chapter, titled "Future Trends in Control of Electrical and Electronic Systems," explores the emerging trends and developments in the field of control of electrical and electronic systems. The authors discuss the potential applications of new technologies, such as artificial intelligence, machine learning, and the Internet of Things, in the control of electrical and electronic systems. They also discuss the challenges associated with these technologies, such as data privacy, security, and reliability. The chapter also includes a discussion of the role
The ninth chapter, titled "Conclusion," summarizes the key findings and conclusions of the book. The authors highlight the importance of the book as a valuable resource for beginners, researchers, and professionals interested in control of electrical and electronic systems. They emphasize the need for continued research and development in the field to address the emerging challenges and opportunities in the control of electrical and electronic systems.

In conclusion, this comprehensive two-volume set presents a meticulously curated collection of distinguished contributions from the inaugural International Conference on Electrical Systems & Automation. Spanning a wide range of topics, the book delves into rigorous discussions, cutting-edge advancements, and emerging trends in the modeling, simulation, and control of power electronics, industrial systems, and embedded systems. Serving as an invaluable resource for beginners, researchers, and industry professionals alike, this publication offers a treasure trove of knowledge and insights into the realm

The first chapter, titled "Modeling and Simulation of Power Electronic Systems," provides an in-depth exploration of the methodologies and techniques employed in the simulation of power electronic circuits. The authors discuss the importance of accurate modeling in the design and analysis of power electronic systems, highlighting the significance of considering various factors such as switching behavior, parasitic elements, and operating conditions. They also introduce various simulation tools and platforms commonly used in power electronics, including MATLAB

The second chapter, titled "Modeling and Simulation of Industrial Systems," delves into the application of modeling and simulation techniques in the analysis and control of industrial systems. The authors discuss the challenges associated with modeling complex industrial processes, such as process dynamics, control algorithms, and interactions between multiple components. They introduce various modeling approaches, including process modeling, system modeling, and simulation-based optimization, and illustrate their use in real-world industrial applications.

The third chapter, titled "Modeling and Simulation of Embedded Systems," focuses on the modeling and simulation of embedded systems, which are characterized by their resource constraints, real-time behavior, and interdependence with external systems. The authors discuss the challenges associated with modeling embedded systems, including the need for efficient simulation algorithms, the consideration of hardware-software interactions, and the integration of simulation with other tools such as programming languages and hardware emulators. They also present case studies and examples of embedded systems in various industries, including automotive, healthcare, and telecommunications.

The fourth chapter, titled "Control of Power Electronics," explores the principles and techniques of power electronics control. The authors discuss the design and implementation of power electronic controllers, including PWM controllers, inverter controllers, and DC-DC converters. They discuss the advantages and disadvantages of different control strategies, such as PI control, PID control, and fuzzy logic control, and illustrate their use in real-world applications. The chapter also includes a comprehensive review of power electronics technologies, including semiconductor devices, power switches, and power management systems.

The fifth chapter, titled "Control of Industrial Systems," focuses on the control of industrial systems using advanced control algorithms. The authors discuss the challenges associated with industrial control, such as process nonlinearity, time-varying dynamics, and uncertainty. They introduce various control algorithms, including model predictive control, adaptive control, and neural networks, and illustrate their use in real-world industrial applications. The chapter also includes a discussion of the role in artificial intelligence and machine learning in industrial control.

The sixth chapter, titled "Control of Embedded Systems," explores the control of embedded systems using distributed control algorithms. The authors discuss the challenges associated with distributed control, such as communication delays, network congestion, and limited resources. They introduce various distributed control algorithms, including consensus-based control, distributed optimization, and decentralized control, and illustrate their use in real-world embedded systems. The chapter also includes a discussion of the role of wireless communication in distributed control.

The seventh chapter, titled "Applications of Control of Electrical and Electronic Systems," showcases the practical applications of control of electrical and electronic systems in various industries. The authors discuss the use of control of electrical and electronic systems in power generation, transmission, distribution, and renewable energy systems. They also discuss the use of control of electrical and electronic systems in transportation, including electric vehicles, autonomous vehicles, and smart grids. The chapter also includes a discussion of the use of control of electrical and electronic systems in healthcare, including medical devices, wearable technologies, and telemedicine.

The eighth chapter, titled "Future Trends in Control of Electrical and Electronic Systems," explores the emerging trends and developments in the field of control of electrical and electronic systems. The authors discuss the potential applications of new technologies, such as artificial intelligence, machine learning, and the Internet of Things, in the control of electrical and electronic systems. They also discuss the challenges associated with these technologies, such as data privacy, security, and reliability. The chapter also includes a discussion of the role

The ninth chapter, titled "Conclusion," summarizes the key findings and conclusions of the book. The authors highlight the importance of the book as a valuable resource for beginners, researchers, and professionals interested in control of electrical and electronic systems. They emphasize the need for continued research and development in the field to address the emerging challenges and opportunities in the control of electrical and electronic systems.

Weight: 448g
Dimension: 235 x 155 (mm)
ISBN-13: 9789811900389
Edition number: 1st ed. 2022