Unlock the potential of cutting-edge advancements in power electronics and IoT with Power Devices and Internet of Things for Intelligent System Design, a vital resource that bridges the gap between industry and academia, inspiring innovative solutions across diverse fields such as agriculture, healthcare, and security.
This book explores the latest technological advancements in electrical circuits, particularly in the power electronics sector and IoT-based smart systems. The outcomes are closely aligned with current industrial applications, spanning from DC to higher-frequency spectrums. Research progress in electrical systems not only enhances power electronics and fault tolerance but also extends to internet-based surveillance systems designed to address emerging threats and develop mitigation strategies. Modern IoT-based system design incorporates numerous human-centered benefits, with the integration of blockchain architecture adding an interdisciplinary dimension to the research.
The primary goal of this book is to leverage IoT and power engineering technologies to develop practical solutions to contemporary challenges while exploring the diverse applications of the Internet of Things across fields such as agriculture, home security, data protection, construction, healthcare, wildlife monitoring, cryptology, and employment in the hospitality sector. Power Devices and Internet of Things for Intelligent System Design serves as a critical link between industry and academia, a role that underscores the success of this endeavor.
Preface xvii 1 Comparative Analysis Between PI and Model Predictive Torque-Flux Control of VSI-Fed Three-Phase Induction Motor Under Variable Loading Conditions 1 Sujoy Bhowmik, Pritam Kumar Gayen and Arkendu Mitra 1.1 Introduction 2 1.2 Mathematical Modeling of Three-Phase Induction Motor and Voltage Source Inverter 4 1.3 Control Logics of Induction Motor Drive 7 1.4 Results and Discussions 14 1.5 Conclusion 21 1.6 Future Scope 22 2 A Survey on Congestion Control in Large Data Centers 25 Indrajit Das, Papiya Das, Papiya Debnath, Manash Chanda and Subhrapratim Nath 2.1 Introduction 26 2.2 Key Issues in Data Center Networks 29 2.3 Review of Undertaken Research 34 2.4 Comparative Analysis 84 2.5 Conclusion 84 3 Secure Information Transfer Using Blockchain Architecture 87 Suryapratim Ray, Aditya Bhattacharya, Preetam Ghosh, Rajat Biswas and Arpan Deyasi 3.1 Introduction 87 3.2 Fundamentals of Blockchain Technology 88 3.3 Proof of Work (PoW) 90 3.4 System Architecture 91 3.5 Data Chain Implementation 92 3.6 Conclusion and Future Work 96 4 Cyber Literacy, Awareness, and Safety of Senior Citizens: A Comprehensive Case Study of the Contemporary Landscape 99 Preetam Bhattacharya, Sayak Karar, Suranjan Saha and Debraj Chatterjee 4.1 Introduction 100 4.2 Background 101 4.3 Cyber Literacy and Awareness Among Senior Citizens 104 4.4 Common Cyber Attacks Faced by Senior Citizens 107 4.5 Safe Cyber Practices for Senior Citizens 126 4.6 Conclusion 128 5 Smart IoT-Based Kit for Agriculture with Sensor-Incorporated Systems: A Review 133 Caprio Mistry and Arighna Basak 5.1 Introduction 134 5.2 Research Background 135 5.3 Detailed Description of the Project 136 5.4 Literature Review 138 5.5 Hardware Requirement 139 5.6 Discussion 142 5.7 Conclusion 143 6 Music Generation Using Deep Learning 147 Sneha Roy Chowdhury, Samridha Biswas, Shuvayan Nandy, Suman Kumar Maity and Debraj Chatterjee 6.1 Introduction 147 6.2 Literature Survey 149 6.3 Proposed Methodology 158 6.4 Results and Discussion 161 6.5 Conclusion and Future Scope 163 7 Design of Cost-Efficient LPG Gas Sensing Prototype Module Embedded with Accident Prevention Feature 167 Rajarshi Dhar, Shreemoyee Bhattacharyya, Pampa Debnath and Arpan Deyasi 7.1 Introduction 167 8 Various Versions of Power Converter Topologies in a Common Platform 177 Tapas Halder 8.1 Introduction 177 8.2 Derivation of the Flyback Converter From the Buck-Boost Converter 179 8.3 Power Circuit Operation of the Buck-Boost Converter 179 8.4 Design of the Power Inductor of the Converter 185 8.5 Impact of the Ripple Voltage Across the Output Capacitor 188 8.6 Derivation of the Flyback Converter from the Buck-Boost Converter 189 8.7 Derivation of the Buck Converter 189 8.8 Derivation of the Boost Converter from the Buck-Boost Converter 192 8.9 Derivation of the CUK Converter Topology 194 8.10 Derivation of the SEPIC Topology 197 8.11 Derivation of the Zeta Converter Topology 200 8.12 Results 202 8.13 Conclusions 202 9 Comparative Analysis of Two-Inductor Boost with Conventional Boost Converter for Brushless DC Motor Drive 205 Saha Sunam, Chattopadhyay Madhurima, Chowdhury Debjyoti and Mukherjee Moumita 9.1 Introduction 205 9.2 Brushless DC Motor Drive 207 9.3 Converter Design and Operation 209 9.4 Design Parameters of the Modified Boost Converter 211 9.5 Proposed Scheme of BLDC Drive 213 9.6 Results and Discussions 214 9.7 Conclusion 222 10 A Survey on NSF Future Internet Architecture (FIA) for MobilityFirst (MF), Named Data Networking (NDN), NEBULA, and eXpressive Internet Architecture (XIA) 225 Indrajit Das, Papiya Das, Papiya Debnath, Manash Chanda and Subhrapratim Nath 10.1 Introduction 227 10.2 MobilityFirst 229 10.3 Named Data Networking 238 10.4 Nebula 250 10.5 eXpressive Internet Architecture (XIA) 258 10.6 Security and Privacy Analysis of NSF FIA Systems 266 10.7 Conclusion 267 11 Detection and Elimination of Single and Multiple Missing Gate Fault (SMGF/MMGF) of Reversible Arithmetic Circuits 271 Arindam Banerjee 11.1 Introduction 272 11.2 Basic Concept of ATPG and Missing Gate Fault of Reversible Circuits 272 11.3 Generation of a Test Pattern for Fault Detection and Elimination Model of Reversible Gates 273 11.4 Test Pattern Generation and Fault Elimination of Half and Full Adder 278 11.5 Test Pattern Generation and Fault Elimination of Half and Full Subtractor 280 11.6 Test Pattern Generation and Fault Elimination of Half and Full Adder-Subtractor 284 11.7 Circuit Parameter Calculation 290 11.8 Computational Delay Analysis 298 11.9 Result Analysis 298 11.10 Conclusion 300 11.11 Future Scope of the Research 300 12 Development of Efficient Algorithm for Detection and Tracking of Infected Chicken at an Early Stage of Bird Flu with a Suitable Surveillance System Using RFID Technology 303 Sananda Pal, Anibrata Ghosh and Subir Kumar Sarkar 12.1 Introduction 304 12.2 Recent Trends 306 12.3 Methodology 307 12.4 Results and Discussions 318 12.5 Conclusions 323 13 Selection of DC-DC Converter for P&O MPPT Application and Its Analysis 327 Arkendu Mitra, Sujoy Bhowmik, Subhra Mukherjee, Pallav Dutta, Kamalika Banerjee and Sudhangshu Sarkar 13.1 Introduction 328 13.2 Characteristics of a Solar Photovoltaic (PV) Cell 329 13.3 Maximum Power Point Tracking 331 13.4 Proposed P&O MPPT Scheme 331 13.5 Selection of DC-DC Converter 333 13.6 Selection of a Buck-Boost Converter 336 13.7 Modeling and Simulation of PV Cell 340 13.8 Simulink Validation 341 13.9 Implementation of Hardware 343 13.10 Results and Discussion 348 13.11 Conclusion 350 13.12 Future Scope 351 14 EC-Assisted IoT: Threats and Solutions 355 Debosmita Chaudhuri and Jayanta Aich 14.1 Introduction 356 14.2 Elements of Edge Computing 358 14.3 Basic Architecture of Edge Computing 360 14.4 Edge Computing Applications 363 14.5 Security and Privacy 367 14.6 Security and Privacy Threats 368 14.7 Security and Privacy Countermeasures 371 14.8 Direction for Further Research 375 14.9 Conclusion 376 15 Implementation of Semi-Autonomous UAV for Remote Surveillance and Emergency Reconnaissance Using Convolutional Neural Network Model 379 Suryapratim Ray, Simantini Ghosh, Aditya Bhattacharjee, Rajat Biswas, Preetam Ghosh and Arpan Deyasi 15.1 Introduction 380 15.2 System Requirements 381 15.3 System Implementation 381 15.4 Algorithm and Workflow 384 15.5 Implementation and Result 384 15.6 Conclusion 388 16 Performance Improvement of Closed-Loop Sepic by ZVS and Its Protection 391 Sujoy Bhowmik, Arkendu Mitra, Sudhangshu Sarkar, Subhra Mukherjee, Kamalika Banerjee and Pallav Dutta 16.1 Introduction 392 16.2 Working Principle of Sepic 393 16.3 Sizing of Inductor and Capacitor 399 16.4 Transfer Function Modeling of Sepic 400 16.5 Designing a Closed-Loop Controller 402 16.6 Minimization of Losses by Soft Switching 404 16.7 Protection Schemes for Sepic 404 16.8 Simulation Results 405 16.9 Conclusion 418 16.10 Future Scope 418 References 418 About the Editors 421 Index 423
Angsuman Sarkar, PhD, is a professor and the Head of Electronics and Communication Engineering at Kalyani Government Engineering College, West Bengal. He has authored six books, 23 book chapters, 97 papers in international refereed journals, and 57 research papers in national and international conferences. He is a member of the board of editors of various journals and serves as a reviewer for various international journals. He has delivered invited expert talks and tutorial speeches at various international conferences and technical programs. Arpan Deyasi, PhD, is an associate professor in the Department of Electronics and Communication Engineering at the RCC Institute of Information Technology, Kolkata, India with more than 18 years of professional experience in academia and industry. He has published over 200 peer-reviewed research papers and edited eight books, three of which are in press. He has completed two funded projects and has two that are currently ongoing. He has also served as a technical consultant for various industrial projects.
