Buch, Englisch, 608 Seiten, Gewicht: 907 g
Buch, Englisch, 608 Seiten, Gewicht: 907 g
ISBN: 978-1-394-27251-8
Verlag: Wiley
Discover how to empower your community with sustainable energy solutions with Resilient Community Microgrids, a comprehensive guide that explores the integration of innovative technologies and distributed energy resources to enhance local energy independence and resilience.
Resilient Community Microgrids emphasizes opportunities to incorporate distributed energy resources and communication networks to build a cyber-physical community microgrid system by modelling photovoltaics, energy storage units, micro-turbines, and wind energy. The microgrid proves itself as a sustainable archetype to improve the resilience and reliability of power distribution networks. High-distributed energy resources penetrate communities, unlocking the potential to build the resilience of microgrids. Neighborhoods, villages, towns, and cities can meet their local energy needs by utilizing community microgrids. Community microgrids are being considered as a possibility even in locations where a bigger grid already exists, primarily as a means of boosting local energy independence and resilience. The fundamentals of community microgrids are covered in this book, along with an outline of how to join one and the factors contributing to their rising popularity.
Novel technologies arrive with the potential to integrate with the physical microgrid to realize the next generation in cyber-physical microgrid systems, which can be used as a prototype to demonstrate and promote the development of next-generation microgrids. Resilient Community Microgrids will clarify the ways to enhance a cyber-physical system's resilience that significantly contributes to realizing innovative and sustainable development in the energy sector.
Autoren/Hrsg.
Fachgebiete
- Geowissenschaften Umweltwissenschaften Umweltmanagement, Umweltökonomie
- Technische Wissenschaften Bauingenieurwesen Gebäudemanagement, Gebäudeschäden
- Geowissenschaften Umweltwissenschaften Umweltpolitik, Umweltprotokoll
- Technische Wissenschaften Energietechnik | Elektrotechnik Energieverteilung, Stromnetze
Weitere Infos & Material
Preface xxiii
1 AI-Based Virtual Advisor for Smart Climate Farming 1
S. Ramanan, Mekala Sujan, Swati Kumari and O.V. Gnana Swathika
1.1 Introduction 1
1.2 Research on Smart Farming Technologies and AI Applications 6
1.3 AI and IoT in Smart Farming 13
1.4 Sustainable Agriculture and Climate-Smart Farming 18
1.5 Conclusion 24
References 25
2 Swappable Battery Pack System for Electric Two-Wheelers: Design, Infrastructure, and Implementation 31
Anibal Hadriano Akhiles Mezaib Boti, Arun Sanjey Krushna S. R., Eashwar M. V., Harsh Shekar, Sidhardh C. R. and O. V. Gnana Swathika
2.1 Introduction 32
2.2 Swappable Battery Technology 39
2.3 Battery Swapping Infrastructure and Optimization 44
2.4 Battery Management System 55
2.5 Business Models and Economic Implications 64
2.6 Conclusion 72
References 72
3 Implementation of High Gain Bidirectional Interleaved DC/DC Converter for Electric Vehicles with Supercapacitors 81
Akash Ramesh, Narendran G. and Kanimozhi G.
3.1 Introduction 82
3.2 Proposed Converter 83
3.3 Operating Principle of the HGBID Converter 83
3.4 Design Considerations 90
3.5 Characteristics of SC 91
3.6 Simulation Results 93
3.7 Conclusion 99
References 99
4 Fault Over-Ride and Minimization of Losses in a PV Integrated Transmission Network Using STATCOM 101
Gutha Naveen Kumar, A. Sindhuri, D. Siva Leela, T. Tejaswini, S. Lalitha Sri and G. V. N. Chandrika
4.1 Introduction 102
4.2 Problem Statement 103
4.3 Contingency Analysis and Contingency Selection 103
4.4 Test System, Software and Components Used 104
4.4.1 Test System and Software 104
4.4.2 PV Generators Integration 106
4.4.3 Static Synchronous Compensator (STATCOM) 106
4.5 Results and Analysis 107
4.5.1 Bus Network Integrated with Solar Photo-Voltaic Generators 107
4.5.2 Test Bus Network with One STATCOM Installed at Bus 6 108
4.6 IEEE 14 Bus Network with Two STATCOMs Installed at Bus 2 and Bus 6 112
4.7 Conclusion 117
4.8 Future Scope 117
References 117
5 Oscillating Water Column as Clean Energy Source for Sustainable Power Generation 119
Gutha Naveen Kumar, P. Manoj Venkat, S. Vasanth Prakash, A. Harish and V. Sai Srikanth
5.1 Introduction to Technology 119
5.2 Hardware Implementation 120
5.3 Three-Dimensional Design of Hardware Components in Solid Edge Software 122
5.4 Hardware Implementation Results and Performance Analysis of Oscillating Water Column (OWC) 124
5.5 Conclusion 127
5.6 Future Scope 128
References 128
6 Cloud-Based Big Data Architecture and Infrastructure 131
Shermy R. P. and Saranya N.
6.1 Introduction 132
6.2 Big Data Architecture for the Cloud Fundamentals 137
6.3 Overview of Methods for Ingesting Data, Including Batch Operations and Live Streaming 140
6.4 Technologies for Big Data on the Cloud 144
6.5 Overview of Server Less Computing and Its Benefits for Cost Optimization and Scaling 146
6.6 Big Data Architectural Models for the Cloud 149
6.7 Integration of Cloud Services and Big Data 152
6.7.1 How to Combine Big Data Platforms with Cloud Services Including Analytics, Compute and Storage
152
6.8 Examining Data Integration and ETL (Extract, Transform, Load) Methods Based on the Cloud 155
6.9 Overview of Cloud-Based Big Data Environments’ Data Governance and Metadata Management 157
6.10 Analysis of Cloud-Based Big Data Architectures’ Scalability Issues 159
6.11 Examining Vertical and Horizontal Scaling Methods to Succeed in Processing Demands and Growing
Data Volumes 162
6.12 Introduction to Cloud-Based Big Data Architectures’ Performance Optimization Strategies 164
6.13 Big Data Based on the Cloud is Secure and Private 166
6.14 A Description of the Mechanisms for Data Encryption, Access Regulation and Identity
Administration 169
6.15 Examination of Privacy Issues and Data Protection Laws Compliance 171
6.16 Case Studies and Real-World Applications 173
6.17 Future Directions and Trends 178
6.18 Future Developments Prediction and Scalable and Efficient Data Processing Implications 182
6.19 Conclusion 184
6.20 Emphasis on Cloud-Based Big Data Architecture and Infrastructure’s Potential for Transformation
186
6.21 Motivating Companies to Adopt Cloud-Based Big Data Technologies 187
7 RISC-V Processor Hardware Modelling with Custom Instruction Set for SHA-3 Acceleration 189
Paulson K. Antony, Nikshith Narayan Ramesh, Pranav Suryadevara and Prathiba A.
7.1 Introduction 190
7.2 State of the Art 191
7.3 Keccak Algorithm in SHA- 3 192
7.4 RISC-V Instruction Set Architecture 193
7.5 Custom Instructions for SHA-3 Hashing 195
7.6 Proposed Processor Microarchitecture 199
7.7 Results and Discussion 201
7.8 Conclusion 209
References 211
8 SSL Vulnerability Exploitation Analysis Tool to Provide a Secure and Sustainable Network for Smart Cities 215
Smita Kapse, Sayudh Deshmukh, Aditya Mandhare, Akshay Mankar, Shivam Likhar and Vaibhav Malgewar
8.1 Introduction 216
8.2 Related Work 217
8.3 Research Methodology 218
8.4 Experimental Results 220
8.5 Conclusion 223
References 223
9 Service-Oriented Smart City Vigilant Data Hub for Social Innovation 227
Nagajayanthi.B, A. Kaushal Kanna and Shubham Singh
9.1 Introduction 228
9.2 Background and Literature Review 229
9.3 App Architecture and Technology Stack 229
9.4 User Registration and Authentication 230
9.5 Features and Functionality 233
9.6 User Experience and Interface Design 237
9.7 Data Privacy and Security 239
9.8 Real-Time Updates and Push Notifications from the App 241
9.9 Scalability and Performance Optimization 241
9.10 User Engagement Analytics 243
9.11 Impact and User Engagement 243
9.12 Citizen User Flow and Admin Access User Flow 245
9.13 Conclusion 246
9.14 Future Potential 247
References 249
10 A Survey on AI & ML for Autonomous Driving, User Behavior Monitoring, and Intelligent Navigation in EVs 251
Divij Kharche, Nilankan Pal, Febin Daya J. L. and Balamurugan Parandhaman
10.1 Introduction 252
10.2 Survey Overview 254
10.3 Objectives of this Work 255
10.4 Methodologies 256
10.5 Outcome 261
10.6 Applications of the Proposed Model 263
10.7 Demonstration of Autonomous Driving Car Using Pygame 264
10.8 Conclusion 267
References 268
11 Deep Learning in Waste Management and Recycling in Digital Smart City 271
Babu Kumar S.
11.1 Introduction 272
11.2 Related Work 274
11.3 Deep Learning Applications in Waste Management 276
11.4 Methodology and Model Specifications 277
11.5 Experimental Results and Discussions 282
11.6 Conclusion 286
References 287
12 Home Automation Using Augmented Reality 289
Shiva Sri Hari Alagu Uthaya Kumar, Charan V. and Berlin Hency V.
12.1 Introduction 290
12.2 Literature Review 290
12.3 Hardware Analysis 293
12.4 Methodology 294
12.5 Results and Discussion 297
12.6 Conclusion 300
References 301
13 Detection and Mitigation Techniques for Defending DDoS Attacks in Cloud Environment 303
Archana S. Pimpalkar, S. Akshansh, Annlip Gour, Mayank Junankar and Ankita Ghule
13.1 Introduction 303
13.2 Related Literature Survey 305
13.3 Related Work 311
13.4 Conclusion 312
References 312
14 Design and Implementation of Secure MQTT Protocol for Embedded IoT Device 315
Shweta N. Jain
14.1 Introduction 315
14.2 Need for Security in IoT Device 316
14.3 Comparison Between Messaging Protocols Used in IoT Environment 316
14.4 MQTT Architecture 317
14.5 Proposed System Objective 319
14.6 Related Work 319
14.7 Conclusion and Future Scope 324
References 324
15 Internet of Things in Smart Building Management System 327
Sanjeevikumar Padmanaban, Mostafa Azimi Nasab, Mohsen Hatami, Mohammad Zand, Mohammad Ali Dashtaki and Morteza Azimi Nasab
15.1 Introduction 328
15.2 Components of Intelligent Building Management System 331
15.3 Choosing the Right Building Management System 334
15.4 Choosing a System 336
15.5 Conclusion 343
References 343
16 Comparative Study of Solid Waste Management in Rural Homestays and Urban Hotels in Sikkim, India 347
Rajani Chhetri
16.1 Introduction 348
16.2 Literature Review 351
16.3 Methodology 353
16.4 Result 355
16.5 Discussion 363
16.6 Conclusion 364
References 366
17 Load Response in the Smart Home Energy Management System 369
Muhammad Reza Ghahri, Hamid Reza Hanif, Hashmatollah Nourizadeh, Sanjeevikumar Padmanaban, Mostafa Azimi Nasab, Mohammad Zand and Morteza Azimi Nasab
17.1 Introduction 370
17.2 Active Demand Response 376
17.3 Modeling the Effects of Reimbursement of Load Response Resources 382
17.4 Conclusion 383
References 383
18 Sustainable Agriculture Using IoT Based Smart Irrigation and Intelligent Watering System 387
V. Surya Teja, R. Charitha and Sritama Roy
18.1 Introduction 388
18.2 Methods and Material 390
18.3 Problem Statement 391
18.4 Proposed Methodology 391
18.5 Simulation Results and Analysis 397
18.6 Conclusion 402
References 403
19 Assessing the Impact of Green Spaces on Climate, Air Quality and Temperature in Urbanized Areas: A Case Study of Colombo 405
Chameera Udawattha and Upuli Perera
19.1 Introduction 406
19.2 Literature Review 408
19.3 Data and Methods 417
19.4 Findings of the Study 420
19.5 Discussion and Conclusion 431
References 432
20 Weed Rate Analysis and Crop Quality Assessment Using Deep Learning 439
Vishwanadha Bhanuprakash and Sivabalakrishnan M.
20.1 Introduction 440
20.2 Overview of Deep Learning-Based Architecture 445
20.3 Deep Learning Models 452
20.4 Transfer Learning and Domain Adaption 461
20.5 Precision Agriculture System 467
20.6 Continual Research and Innovation 470
20.7 Conclusion 473
Bibliography 474
21 Synergizing Semantic Technology and Deep Learning for Transformative Advances in Digital Agricultural Systems 475
Shridevi S., Dhivya M. and Ratan Pyla
21.1 Introduction 475
21.2 Semantic Web Technology in Agriculture 477
21.3 Deep Learning in Agriculture 483
21.4 Semantic Deep Learning in Agriculture 489
21.5 Conclusion 492
References 492
22 Smart Agriculture Systems 497
S. Aravind, P. Vineesha, K. Revathi and Yeligeti Raju
22.1 Introduction 498
22.2 Methodology 498
22.3 User Interface 500
22.4 Implementation 502
22.5 Benefits 504
22.6 Resource Efficiency 505
22.7 Environmental Impact 505
22.8 Cost-Benefit Analysis 506
22.9 Conclusion 507
Bibliography 508
23 Berklekamp-Massey Algorithm in Reed Solomon Error Detection Technique for Smart Grid
Applications 509
Cladien P., Rayapudi Chandrika, PriyaDharshini R., V. Berlin Hency and O.V. Gnana Swathika
23.1 Introduction 510
23.2 Methodology 511
23.3 Proposed Method 516
23.4 Results and Discussion 517
23.5 Conclusion 518
References 519
24 Economically Viable Solar–Wind Hybrid Power Generation System for Small- and Medium-Scale
Applications 523
Gutha Naveen Kumar and Narsipuram Maharshi
24.1 Introduction 524
24.2 Proposed Model 525
24.3 Implementation of Hybrid Scheme 528
24.4 Working 529
References 539
25 Modified Booth Multiplier with Hybrid Adder 541
Cladien P., Rayapudi Chandrika, V. Berlin Hency and O.V. Gnana Swathika
25.1 Introduction 541
25.2 Methodology 543
25.3 Proposed Architecture 546
25.4 Results and Discussion 549
25.5 Conclusion 550
References 551
26 Novel Bidirectional Converter Topology for Electric Vehicle Onboard Battery Charger 553
Kanimozhi G. and Mirasree P.
26.1 Introduction 554
26.2 Bidirectional Charger Topology with Interleaved Boost Converter 556
26.3 Circuit Operation of the Charger 557
26.4 Modes of Operation 558
26.5 Design Approach 560
26.6 Simulation Result 560
26.7 Comparative Analysis 564
26.8 Conclusion 565
References 566
Index 569
