Overview

Full Product Details

Author:   Priya Batta (Amity University, India) ,  Abhishek Kumar (University of Madras) ,  S. Oswalt Manoj (Alliance University, India) ,  Dhaya Chinnathambi (Adhiparasakthi Engineering College, India)
Publisher:   ISTE Ltd
Imprint:   ISTE Ltd
ISBN:  

9781836690467

ISBN 10:   1836690460
Pages:   384
Publication Date:   22 November 2025
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Available To Order  
We have confirmation that this item is in stock with the supplier. It will be ordered in for you and dispatched immediately.

Table of Contents

Preface xix Priya BATTA, Abhishek KUMAR, S. Oswalt MANOJ, Dhaya Cʜɪɴɴᴀᴛʜᴀᴍʙɪ and Srivel Rᴀᴠɪ Chapter 1. Blockchain for Sustainable Agriculture: Enhancing Supply Chain Transparency and Reducing Carbon Footprint 1 R. DHANALAKSHMI, Dhaya Cʜɪɴɴᴀᴛʜᴀᴍʙɪ, Sahaya Beni PRATHIBA and N. VIJAYARAGHAVAN 1.1. Introduction 1 1.2. Literature review 2 1.3. Application scenario: a blockchain-based secure supply chain for smart agriculture using smart contracts 8 1.4. Blockchain use cases in agriculture 11 1.5. Limitations and future work 13 1.6. Conclusion 14 1.7. References 15 Chapter 2. Decentralized Intelligence: How Blockchain and IoT Create Self-Regulating, Low-Emission Supply Networks 19 J. RAJESHWAR, Rakesh K.K., Abinaya K., J. SEETARAM, Dharmesh RATHOD and Venkateswara Rao CHEEKATI 2.1. Introduction 20 2.2. Literature review 23 2.3. Methodology 25 2.4. Simulation modeling of supply chain scenarios 29 2.5. Implementation tools and technologies 31 2.6. Results 32 2.7. Conclusion 37 2.8. References 38 Chapter 3. Blockchain-infused Data Mining: Extracting Actionable Insights for Sustainable Supply Chains and Carbon Neutrality 41 Hussain A., Lalitha Y., Ishwarya KOTHANDARAMAN, J. RAJESHWAR, G. SWAPNA and P. VISVANATHAN 3.1. Introduction 42 3.2. Literature review 45 3.3. Methodology 47 3.4. Results and discussion 54 3.5. Conclusion 59 3.6. References 60 Chapter 4. Understanding Blockchain Basics 63 Amandeep KAUR and Anil SHARMA 4.1. Introduction 63 4.2. Related work 66 4.3. Evolutionary game model 69 4.4. The evolutionary game model's strategy analysis and calculated rewards for PMs 75 4.5. Experimental results and analysis 77 4.6. Conclusion and policy implication 81 4.7 References. 82 Chapter 5. Fortifying Green Supply Chains: Blockchain-backed Network Security for Resilient and Sustainable Logistics 87 D. ILAKKIASELVAN, J. SUJITHRA, V. Helen DEVA PRIYA, J. RAJESHWAR, J. SEETARAM and P. VISVANATHAN 5.1. Introduction 87 5.2. Literature review 91 5.3. Methodology 93 5.4. Results and analysis 100 5.5. Conclusion 107 5.6. References 107 Chapter 6. Routing: Beyond Traditional Logistics: Blockchain-powered Smart Routing for Eco-efficient Supply Chain Navigation 111 E. BHARATH, Krunal RANDIVE, N. SARAVANA KUMAR, K. SAILAJA, Sakthitharan SUBRAMANIAN and A. Arul OLI 6.1. Introduction 111 6.2. Literature review 113 6.3. Methodology 115 6.4. Results 118 6.5. Conclusion 124 6.6. References 124 Chapter 7. Smart Grid-driven Demand Side Management Framework: Integrating IoT and Blockchain for Secure and Optimized Residential Energy Efficiency 127 P. VENKATESAN and C. GOPINATH 7.1. Introduction 127 7.2. Literature review: smart grid-driven demand side management framework: integrating IoT for optimized residential energy efficiency 131 7.3. Methodology 135 7.4. Results 141 7.5. User behavior and engagement 147 7.6. Environmental impact 148 7.7. System performance and scalability 148 7.8. Future work 150 7.9. Conclusion 153 7.10. References 154 Chapter 8. Transforming Sustainability Through Blockchain: Reducing Food Waste and Improving Food Safety 157 Madhavan SHANMUGAVEL, Vani SHANMUGADASS and S. SUDHARSAN 8.1. Introduction 157 8.2. Blockchain solutions for addressing research gaps in food supply chain traceability 161 8.3. The use of blockchain technology for food quality and safety 161 8.4. Blockchain in food supply chains: conceptual algorithm 162 8.5. Results 166 8.6. References 166 Chapter 9. Transforming Green Value Chains: The Role of Blockchain in Sustainable and Ethical Supply Chains 169 Punitha SRIDHARAN and Sangeetha ANANDAN 9.1. Introduction 170 9.2. Literature review 171 9.3. Challenges in integrating blockchain into supply chain security frameworks 172 9.4. Scalability issues in blockchain 173 9.5. Interoperability issues in blockchain 175 9.6. Data privacy concerns 176 9.7. Regulatory frameworks and standards (key regulatory frameworks for sustainability) 179 9.8. Carbon emissions accounting and disclosure standards 180 9.9. Data privacy and protection requirements 180 9.10. Blockchain standards and best practices 182 9.11. Legal impacts of carbon credit trading on blockchain 184 9.12. Best practices for compliance and implementation 185 9.13. Conclusion 186 9.14. References 187 Chapter 10. Tracking the Journey of a Sustainable Product: A Case Study 189 Surekha RANI, Rohini BAWA and Pooja SEHGAL 10.1. Introduction 189 10.2. Materials for sustainable circuit fabrication 192 10.3. Energy efficiency 193 10.4. Modeling for upgradability, recycling and repairing 193 10.5. Evaluation of life cycle 193 10.6. Collaboration 193 10.7. Wearable energy harvesters 194 10.8. Techno-economical aspects on environmental bioresource recovery 202 10.9. References 203 Chapter 11. Blockchain in Action Across the Supply Chain: Ethical Sourcing and Blockchain Verification 207 Kousika N., Latha Maheswari T., Ramya V., Parvathy K., Nirmala R., and Majidha Fathima K.M 11.1. Introduction 207 11.2. Historical conceptualization 211 11.3. Understanding vulnerabilities in conventional supply chains before blockchain integration 215 11.4. Security vulnerabilities and attack mechanisms in blockchain-based supply chains 216 11.5. Conclusions 218 11.6. References 219 Chapter 12. Securing Sustainable Supply Chains Through Blockchain and AI Integration 221 Dhaya Cʜɪɴɴᴀᴛʜᴀᴍʙɪ, Deva DINESH, Madhavan SHANMUGAVEL and Vani SHANMUGADASS 12.1. Introduction 222 12.2. Literature review 223 12.3. Methodology 226 12.4. Results and inference 232 12.5. Conclusion 234 12.6. References 235 Chapter 13. Machine Learning: AI Meets Blockchain: Machine Learning-driven Carbon Footprint Analysis for Next-Gen Sustainable Supply Chains 237 S. Sakthi RAADHA, Pavithra J., Kaviyaraj R., Ravi AAVULA, Sakthitharan SUBRAMANIAN and S. VENKATESWARAN 13.1. Introduction 238 13.2. Literature review 240 13.3. Methodology 241 13.4. Result 246 13.5. Conclusion 251 13.6. References 252 Chapter 14. GreenSync Solutions: Unifying Blockchain and IoT for Efficient, Low-Carbon Global Supply Chains 255 B. GANESH, R. JOTHIRANI, Saraswathi S., Murugan PERUMAL, K. Praveen KUMAR and R. KANCHANA 14.1. Introduction 256 14.2. Literature review 258 14.3. Methodology 260 14.4. Results 266 14.5. Conclusion 270 14.6. References 271 Chapter 15. Carbon-conscious Supply Networks: Harnessing Blockchain and IoT for Enhanced Efficiency and Sustainability in Global Logistics 273 Satheeshkumar N., S. SENTHILKUMAR, Varalakshmi P., Sakthitharan SUBRAMANIAN, Devi D. and S. VENKATESWARAN 15.1. Introduction 274 15.2. Literature review 275 15.3. Methodology 277 15.4. Results 282 15.5. Conclusion 289 15.6. References 289 Chapter 16. Decentralized IoT-driven Smart Water Management System Using Blockchain Technology 293 Madhavan SHANMUGAVEL and Vani SHANMUGADASS 16.1. Introduction 293 16.2. Methodology 296 16.3. Mathematical model 299 16.4. IoT devices 300 16.5. Blockchain layer 301 16.6. User interface 301 16.7. Communication layer 301 16.8. Data analytical layer 302 16.9. Other related components used in the water management system 302 16.10. Discussion and conclusion 302 16.11. References 304 Chapter 17. Vision for a Greener Tomorrow 305 Shivani SHARMA and Jasneet CHAWLA 17.1. Introduction 306 17.2. Literature review 309 17.3. Methodology 314 17.4. Results and discussion on vision for a greener tomorrow and case studies 317 17.5. Conclusion and future direction 324 17.6. References 328 List of Authors 331 Index 337

Reviews

Author Information

Priya Batta is Associate Professor at Amity School of Engineering and Technology, Amity University Punjab, Mohali, India. Her expertise includes AI, blockchain and IoT. Abhishek Kumar is Senior IEEE Member and Professor at Chandigarh University, India. His research interests include AI, renewable energy and image processing. S. Oswalt Manoj is Professor at Alliance University, India. His research interests include AI, big data and cloud computing. Dhaya Chinnathambi is Professor and Head at Adhiparasakthi Engineering College, India. Her research interests include machine learning, data science and software architecture. Srivel Ravi is Assistant Professor at Adhiparasakthi Engineering College, India. His research interests include AI-powered drones, healthcare applications and embedded systems.

Tab Content 6

Author Website:  

Countries Available

All regions