On the Mathematical Modeling of Memristor, Memcapacitor, and Meminductor
This book introduces the basic fundamentals, models, emulators and analyses of mem-elements in the circuit theory with applications. The book starts reviewing the literature on mem-elements, models and their recent applications. It presents mathematical models, numerical results, circuit simulations, and experimental results for double-loop hysteresis behavior of mem-elements. The authors introduce a generalized memristor model in the fractional-order domain under different input and different designs for emulator-based mem-elements, with circuit and experimental results. The basic concept of memristive-based relaxation-oscillators in the circuit theory is also covered. The reader will moreover find in this book information on memristor-based multi-level digital circuits, memristor-based multi-level multiplier and memcapacitor-based oscillators and synaptic circuits.

1121391024
On the Mathematical Modeling of Memristor, Memcapacitor, and Meminductor
This book introduces the basic fundamentals, models, emulators and analyses of mem-elements in the circuit theory with applications. The book starts reviewing the literature on mem-elements, models and their recent applications. It presents mathematical models, numerical results, circuit simulations, and experimental results for double-loop hysteresis behavior of mem-elements. The authors introduce a generalized memristor model in the fractional-order domain under different input and different designs for emulator-based mem-elements, with circuit and experimental results. The basic concept of memristive-based relaxation-oscillators in the circuit theory is also covered. The reader will moreover find in this book information on memristor-based multi-level digital circuits, memristor-based multi-level multiplier and memcapacitor-based oscillators and synaptic circuits.

109.99 In Stock
On the Mathematical Modeling of Memristor, Memcapacitor, and Meminductor

On the Mathematical Modeling of Memristor, Memcapacitor, and Meminductor

On the Mathematical Modeling of Memristor, Memcapacitor, and Meminductor

On the Mathematical Modeling of Memristor, Memcapacitor, and Meminductor

Paperback(Softcover reprint of the original 1st ed. 2015)

$109.99 
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Overview

This book introduces the basic fundamentals, models, emulators and analyses of mem-elements in the circuit theory with applications. The book starts reviewing the literature on mem-elements, models and their recent applications. It presents mathematical models, numerical results, circuit simulations, and experimental results for double-loop hysteresis behavior of mem-elements. The authors introduce a generalized memristor model in the fractional-order domain under different input and different designs for emulator-based mem-elements, with circuit and experimental results. The basic concept of memristive-based relaxation-oscillators in the circuit theory is also covered. The reader will moreover find in this book information on memristor-based multi-level digital circuits, memristor-based multi-level multiplier and memcapacitor-based oscillators and synaptic circuits.


Product Details

ISBN-13: 9783319366203
Publisher: Springer International Publishing
Publication date: 05/22/2016
Series: Studies in Systems, Decision and Control , #26
Edition description: Softcover reprint of the original 1st ed. 2015
Pages: 231
Product dimensions: 6.10(w) x 9.25(h) x 0.02(d)

About the Author

Ahmed G. Radwan, Senior IEEE Member, Ph.D., is an Associate Professor at the Faculty of Engineering, Cairo University, and also at the Nanoelectronics Integrated Systems Center, Nile University, Egypt. His research interests include chaotic, fractional order, and memristor-based systems. He is the recipient of several awards in Mathematical and Engineering Sciences and has published over 100 international research papers, several US patents, several book chapters and three books ("Analog circuit design in the fractional order domain", “Practical testing mythologies for detecting hard and soft faults in analog digital circuits”, "Memristor-based multilevel arithmetic circuit").

Mohammed Fouda, is an assistant lecturer, Faculty of Engineering, Cairo University, Egypt. His research interests include Mem-element-based circuits and analog circuits. He has more than 20 international journal and conference papers. He won the best paper award in ICM 2013 in Lebanon.

Table of Contents

Introduction.- Memristor: Models, Types and Applications.- Memristor Mathematical Models and Emulators.- Memristor-based Relaxation Oscillator Circuits.- Memristor-based Multilevel Digital Systems.- Memcapacitor: Modelling, Analysis and Emulators.- Memcapacitor based applications.- Meminductor: Modelling, Analysis and Emulators.
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