Fractional-Order Design: Devices, Circuits, and Systems introduces applications from the design perspective so that the reader can learn about, and get ready to, design these applications. The book also includes the different techniques employed to comprehensively and straightforwardly design fractional-order systems/devices. Furthermore, a lot of mathematics is available in the literature for solving the fractional-order calculus for system application. However, a small portion is employed in the design of fractional-order systems. This book introduces the mathematics that has been employed…mehr
Fractional-Order Design: Devices, Circuits, and Systems introduces applications from the design perspective so that the reader can learn about, and get ready to, design these applications. The book also includes the different techniques employed to comprehensively and straightforwardly design fractional-order systems/devices. Furthermore, a lot of mathematics is available in the literature for solving the fractional-order calculus for system application. However, a small portion is employed in the design of fractional-order systems. This book introduces the mathematics that has been employed explicitly for fractional-order systems.
Students and scholars who wants to quickly understand the field of fractional-order systems and contribute to its different domains and applications will find this book a welcomed resource.
Produktdetails
Produktdetails
Emerging Methodologies and Applications in Modelling, Identification and Control
Farooq Ahmad Khanday (M'15, SM'19) received B.Sc., M.Sc., M. Phil. and Ph.D. Degrees from the University of Kashmir in 2001, 2004 2010 and 2013 respectively. From June 2005 to Jan. 2009, he served as Assistant Professor on a contractual basis at the University of Kashmir, Department of Electronics and Instrumentation Technology. In 2009, Dr. Khanday joined the Department of Higher Education J&K and Department of Electronics and Vocational Studies, Islamia College of Science and Commerce Srinagar, as Assistant Professor. In May 2010, he joined as Assistant Professor in the Department of Electronics and Instrumentation Technology, University of Kashmir. His research interests include Fractional-order Circuits, Nano-Electronics, Low-voltage analog integrated circuit design, Hardware Neural Network, Quantum Computing, Stochastic Computing, and Biomedical Circuit Design. Dr. Khanday is the author or co-author of more than 85 publications in peer-reviewed indexed International and Natio
nal journals/conferences of repute and three book chapters. A book of Dr. Khanday on "Nanoscale Electronic Devices and their Applications? is to appear in July 2020. Dr. Khanday is the Management Committee (MC) Observer of the COST Action CA15225 (Fractional-order systems - analysis, synthesis, and their importance for future design) of the European Union. He is the senior member of IEEE and a member of several professional societies. Dr. Khanday is serving as a reviewer for many reputed International and National scientific journals in Electronics. He has successfully guided many Ph.D., M. Phil scholars, and M. Tech thesis. Dr. Khanday also has completed/ongoing funded research projects to his credit and has established laboratories with state of the art facilities for pursuing research in the field of IC design, Nanoelectronics, fractional-order systems, etc.
Inhaltsangabe
1. MOS realizations of fractional-order elements
2. A chaotic system with equilibria located on a line and its fractional-order form
3. Approximation of fractional-order elements for sinusoidal oscillators
4. Synchronization between fractional chaotic maps with different dimensions
5. Stabilization of different dimensional fractional chaotic maps
6. Observability of speed DC motor with self-tuning fuzzy-fractional-order controller
7. Chaos control and fractional inverse matrix projective difference synchronization on parallel chaotic systems with application
8. Aggregation of chaotic signal with proportional fractional derivative execution in communication and circuit simulation
9. CNT-based fractors in all four quadrants: design, simulation, and practical applications
10. Fractional-order systems in biological applications: estimating causal relations in a system with inner connectivity using fractional moments
11. Unitary fractional-order derivative operators for quantum computation
12. Analysis and realization of fractional step filters of order (1 + a)
13. Fractional-order identification and synthesis of equivalent circuit for electrochemical system based on pulse voltammetry
14. Higher-order fractional elements: realizations and applications
15. Fabrication of polymer nanocomposite-based fractional-order capacitor: a guide
16. Design guidelines for fabrication of MWCNT-polymer based solid-state fractional capacitor