Integration of mechanical and manufacturing engineering with IoT : (Record no. 89019)

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International Standard Book Number 9781119865001
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International Standard Book Number 9781119865391
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Standard number or code 10.1002/9781119865391
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245 00 - TITLE STATEMENT
Title Integration of mechanical and manufacturing engineering with IoT :
Remainder of title a digital transformation /
Statement of responsibility, etc edited by R. Rajasekar, C. Moganapriya, P. Sathish Kumar and M. Harikrishna Kumar.
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300 ## - PHYSICAL DESCRIPTION
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504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc Includes bibliographical references and index.
505 0# - CONTENTS
Formatted contents note Table of Contents<br/>Preface xvii<br/><br/>1 Evolution of Internet of Things (IoT): Past, Present and Future for Manufacturing Systems 1<br/>Vaishnavi Vadivelu, Moganapriya Chinnasamy, Manivannan Rajendran, Hari Chandrasekaran and Rajasekar Rathanasamy<br/><br/>1.1 Introduction 2<br/><br/>1.2 IoT Revolution 2<br/><br/>1.3 IoT 4<br/><br/>1.4 Fundamental Technologies 5<br/><br/>1.4.1 RFID and NFC 5<br/><br/>1.4.2 Wsn 6<br/><br/>1.4.3 Data Storage and Analytics (DSA) 6<br/><br/>1.5 IoT Architecture 6<br/><br/>1.6 Cloud Computing (CC) and IoT 7<br/><br/>1.6.1 Service of cc 8<br/><br/>1.6.2 Integration of IoT With cc 10<br/><br/>1.7 Edge Computing (EC) and IoT 10<br/><br/>1.7.1 EC with IoT Architecture 11<br/><br/>1.8 Applications of IoT 12<br/><br/>1.8.1 Smart Mobility 12<br/><br/>1.8.2 Smart Grid 14<br/><br/>1.8.3 Smart Home System 14<br/><br/>1.8.4 Public Safety and Environment Monitoring 15<br/><br/>1.8.5 Smart Healthcare Systems 15<br/><br/>1.8.6 Smart Agriculture System 16<br/><br/>1.9 Industry 4.0 Integrated With IoT Architecture for Incorporation of Designing and Enhanced Production Systems 17<br/><br/>1.9.1 Five-Stage Process of IoT for Design and Manufacturing System 19<br/><br/>1.9.2 IoT Architecture for Advanced Manufacturing Technologies 21<br/><br/>1.9.3 Architecture Development 22<br/><br/>1.10 Current Issues and Challenges in IoT 24<br/><br/>1.10.1 Scalability 25<br/><br/>1.10.2 Issue of Trust 25<br/><br/>1.10.3 Service Availability 26<br/><br/>1.10.4 Security Challenges 26<br/><br/>1.10.5 Mobility Issues 27<br/><br/>1.10.6 Architecture for IoT 27<br/><br/>1.11 Conclusion 28<br/><br/>References 29<br/><br/>2 Fourth Industrial Revolution: Industry 4.0 41<br/>Maheswari Rajamanickam, Elizabeth Nirmala John Gerard Royan, Gowtham Ramaswamy, Manivannan Rajendran and Vaishnavi Vadivelu<br/><br/>2.1 Introduction 42<br/><br/>2.1.1 Global Level Adaption 42<br/><br/>2.2 Evolution of Industry 44<br/><br/>2.2.1 Industry 1.0 44<br/><br/>2.2.2 Industry 2.0 44<br/><br/>2.2.3 Industry 3.0 44<br/><br/>2.2.4 Industry 4.0 (or) I4. 0 44<br/><br/>2.3 Basic IoT Concepts and the Term Glossary 45<br/><br/>2.4 Industrial Revolution 47<br/><br/>2.4.1 I4.0 Core Idea 47<br/><br/>2.4.2 Origin of I4.0 Concept 48<br/><br/>2.5 Industry 49<br/><br/>2.5.1 Manufacturing Phases 49<br/><br/>2.5.2 Existing Process Planning vs. I4. 0 50<br/><br/>2.5.3 Software for Product Planning—A Link Between Smart Products and the Main System ERP 52<br/><br/>2.6 Industry Production System 4.0 (Smart Factory) 56<br/><br/>2.6.1 IT Support 58<br/><br/>2.7 I4.0 in Functional Field 60<br/><br/>2.7.1 I4.0 Logistics 60<br/><br/>2.7.2 Resource Planning 60<br/><br/>2.7.3 Systems for Warehouse Management 61<br/><br/>2.7.4 Transportation Management Systems 61<br/><br/>2.7.5 Transportation Systems with Intelligence 63<br/><br/>2.7.6 Information Security 64<br/><br/>2.8 Existing Technology in I4. 0 65<br/><br/>2.8.1 Applications of I4.0 in Existing Industries 65<br/><br/>2.8.2 Additive Manufacturing (AM) 66<br/><br/>2.8.3 Intelligent Machines 66<br/><br/>2.8.4 Robots that are Self-Aware 66<br/><br/>2.8.5 Materials that are Smart 67<br/><br/>2.8.6 IoT 67<br/><br/>2.8.7 The Internet of Things in Industry (IIoT) 67<br/><br/>2.8.8 Sensors that are Smart 67<br/><br/>2.8.9 System Using a Smart Programmable Logic Controller (PLC) 67<br/><br/>2.8.10 Software 68<br/><br/>2.8.11 Augmented Reality (AR)/Virtual Reality (VR) 68<br/><br/>2.8.12 Gateway for the Internet of Things 68<br/><br/>2.8.13 Cloud 68<br/><br/>2.8.14 Applications of Additive Manufacturing in I4. 0 68<br/><br/>2.8.15 Artificial Intelligence (AI) 69<br/><br/>2.9 Applications in Current Industries 69<br/><br/>2.9.1 I4.0 in Logistics 69<br/><br/>2.9.2 I4.0 in Manufacturing Operation 70<br/><br/>2.10 Future Scope of Research 73<br/><br/>2.10.1 Theoretical Framework of I4. 0 73<br/><br/>2.11 Discussion and Implications 75<br/><br/>2.11.1 Hosting: Microsoft 75<br/><br/>2.11.2 Platform for the Internet of Things (IoT): Microsoft, GE, PTC, and Siemens 76<br/><br/>2.11.3 A Systematic Computational Analysis 76<br/><br/>2.11.4 Festo Proximity Sensor 77<br/><br/>2.11.5 Connectivity Hardware: HMS 77<br/><br/>2.11.6 IT Security: Claroty 77<br/><br/>2.11.7 Accenture Is a Systems Integrator 77<br/><br/>2.11.8 Additive Manufacturing: General Electric 78<br/><br/>2.11.9 Augmented and Virtual Reality: Upskill 78<br/><br/>2.11.10 ABB Collaborative Robots 78<br/><br/>2.11.11 Connected Vision System: Cognex 78<br/><br/>2.11.12 Drones/UAVs: PINC 79<br/><br/>2.11.13 Self-Driving in Vehicles: Clear Path Robotics 79<br/><br/>2.12 Conclusion 79<br/><br/>References 80<br/><br/>3 Interaction of Internet of Things and Sensors for Machining 85<br/>Manivannan Rajendran, Kamesh Nagarajan, Vaishnavi Vadivelu, Harikrishna Kumar Mohankumar and Sathish Kumar Palaniappan<br/><br/>3.1 Introduction 86<br/><br/>3.2 Various Sensors Involved in Machining Process 88<br/><br/>3.2.1 Direct Method Sensors 89<br/><br/>3.2.2 Indirect Method Sensors 89<br/><br/>3.2.3 Dynamometer 90<br/><br/>3.2.4 Accelerometer 91<br/><br/>3.2.5 Acoustic Emission Sensor 93<br/><br/>3.2.6 Current Sensors 94<br/><br/>3.3 Other Sensors 94<br/><br/>3.3.1 Temperature Sensors 94<br/><br/>3.3.2 Optical Sensors 95<br/><br/>3.4 Interaction of Sensors During Machining Operation 96<br/><br/>3.4.1 Milling Machining 96<br/><br/>3.4.2 Turning Machining 97<br/><br/>3.4.3 Drilling Machining Operation 98<br/><br/>3.5 Sensor Fusion Technique 99<br/><br/>3.6 Interaction of Internet of Things 100<br/><br/>3.6.1 Identification 100<br/><br/>3.6.2 Sensing 101<br/><br/>3.6.3 Communication 101<br/><br/>3.6.4 Computation 101<br/><br/>3.6.5 Services 101<br/><br/>3.6.6 Semantics 101<br/><br/>3.7 IoT Technologies in Manufacturing Process 102<br/><br/>3.7.1 IoT Challenges 102<br/><br/>3.7.2 IoT-Based Energy Monitoring System 102<br/><br/>3.8 Industrial Application 104<br/><br/>3.8.1 Integrated Structure 104<br/><br/>3.8.2 Monitoring the System Related to Service Based on Internet of Things 106<br/><br/>3.9 Decision Making Methods 107<br/><br/>3.9.1 Artificial Neural Network 107<br/><br/>3.9.2 Fuzzy Inference System 108<br/><br/>3.9.3 Support Vector Mechanism 108<br/><br/>3.9.4 Decision Trees and Random Forest 109<br/><br/>3.9.5 Convolutional Neural Network 109<br/><br/>3.10 Conclusion 111<br/><br/>References 111<br/><br/>4 Application of Internet of Things (IoT) in the Automotive Industry 115<br/>Solomon Jenoris Muthiya, Shridhar Anaimuthu, Joshuva Arockia Dhanraj, Nandakumar Selvaraju, Gutha Manikanta and C. Dineshkumar<br/><br/>4.1 Introduction 116<br/><br/>4.2 Need For IoT in Automobile Field 118<br/><br/>4.3 Fault Diagnosis in Automobile 119<br/><br/>4.4 Automobile Security and Surveillance System in IoT-Based 123<br/><br/>4.5 A Vehicle Communications 125<br/><br/>4.6 The Smart Vehicle 126<br/><br/>4.7 Connected Vehicles 128<br/><br/>4.7.1 Vehicle-to-Vehicle (V2V) Communications 130<br/><br/>4.7.2 Vehicle-to-Infrastructure (V2I) Communications 131<br/><br/>4.7.3 Vehicle-to-Pedestrian (V2P) Communications 132<br/><br/>4.7.4 Vehicle to Network (V2N) Communication 133<br/><br/>4.7.5 Vehicle to Cloud (V2C) Communication 134<br/><br/>4.7.6 Vehicle to Device (V2D) Communication 134<br/><br/>4.7.7 Vehicle to Grid (V2G) Communications 135<br/><br/>4.8 Conclusion 135<br/><br/>References 136<br/><br/>5 IoT for Food and Beverage Manufacturing 141<br/>Manju Sri Anbupalani, Gobinath Velu Kaliyannan and Santhosh Sivaraj<br/><br/>5.1 Introduction 142<br/><br/>5.2 The Influence of IoT in a Food Industry 143<br/><br/>5.2.1 Management 143<br/><br/>5.2.2 Workers 143<br/><br/>5.2.3 Data 143<br/><br/>5.2.4 It 143<br/><br/>5.3 A Brief Review of IoT’s Involvement in the Food Industry 144<br/><br/>5.4 Challenges to the Food Industry and Role of IoT 144<br/><br/>5.4.1 Handling and Sorting Complex Data 144<br/><br/>5.4.2 A Retiring Skilled Workforce 145<br/><br/>5.4.3 Alternatives for Supply Chain Management 145<br/><br/>5.4.4 Implementation of IoT in Food and Beverage Manufacturing 145<br/><br/>5.4.5 Pilot 145<br/><br/>5.4.6 Plan 146<br/><br/>5.4.7 Proliferate 146<br/><br/>5.5 Applications of IoT in a Food Industry 146<br/><br/>5.5.1 IoT for Handling of Raw Material and Inventory Control 146<br/><br/>5.5.2 Factory Operations and Machine Conditions Using IoT 146<br/><br/>5.5.3 Quality Control With the IoT 147<br/><br/>5.5.4 IoT for Safety 147<br/><br/>5.5.5 The Internet of Things and Sustainability 147<br/><br/>5.5.6 IoT for Product Delivery and Packaging 147<br/><br/>5.5.7 IoT for Vehicle Optimization 147<br/><br/>5.5.8 IoT-Based Water Monitoring Architecture in the Food and Beverage Industry 148<br/><br/>5.6 A FW Tracking System Methodology Based on IoT 150<br/><br/>5.7 Designing an IoT-Based Digital FW Monitoring and Tracking System 150<br/><br/>5.8 The Internet of Things (IoT) Architecture for a Digitized Food Waste System 152<br/><br/>5.9 Hardware Design: Intelligent Scale 152<br/><br/>5.10 Software Design 153<br/><br/>References 157<br/><br/>6 Opportunities: Machine Learning for Industrial IoT Applications 159<br/>Poongodi C., Sayeekumar M., Meenakshi C. and Hari Prasath K.<br/><br/>6.1 Introduction 160<br/><br/>6.2 I-IoT Applications 163<br/><br/>6.3 Machine Learning Algorithms for Industrial IoT 170<br/><br/>6.3.1 Supervised Learning 171<br/><br/>6.3.2 Semisupervised Learning 173<br/><br/>6.3.3 Unsupervised Learning 173<br/><br/>6.3.4 Reinforcement Learning 175<br/><br/>6.3.5 The Most Common and Popular Machine Learning Algorithms 176<br/><br/>6.4 I-IoT Data Analytics 177<br/><br/>6.4.1 Tools for IoT Analytics 177<br/><br/>6.4.2 Choosing the Right IoT Data Analytics Platforms 184<br/><br/>6.5 Conclusion 185<br/><br/>References 186<br/><br/>7 Role of IoT in Industry Predictive Maintenance 191<br/>Gobinath Velu Kaliyannan, Manju Sri Anbupalani, Suganeswaran Kandasamy, Santhosh Sivaraj and Raja Gunasekaran<br/><br/>7.1 Introduction 192<br/><br/>7.2 Predictive Maintenance 194<br/><br/>7.3 IPdM Systems Framework and Few Key Methodologies 196<br/><br/>7.3.1 Detection and Collection of Data 196<br/><br/>7.3.2 Initial Processing of Collected Data 196<br/><br/>7.3.3 Modeling as Per Requirement 197<br/><br/>7.3.4 Influential Parameters 198<br/><br/>7.3.5 Identification of Best Working Path 198<br/><br/>7.3.6 Modifying Output with Respect Sensed Input 198<br/><br/>7.4 Economics of PdM 198<br/><br/>7.5 PdM for Production and Product 200<br/><br/>7.6 Implementation of IPdM 202<br/><br/>7.6.1 Manufacturing with Zero Defects 202<br/><br/>7.6.2 Sense of the Windsene INDSENSE 202<br/><br/>7.7 Case Studies 202<br/><br/>7.7.1 Area 1—Heavy Ash Evacuation 203<br/><br/>7.7.2 Area 2—Seawater Pumps 203<br/><br/>7.7.3 Evaporators 204<br/><br/>7.7.4 System Deployment Considerations in General 205<br/><br/>7.8 Automotive Industry—Integrated IoT 205<br/><br/>7.8.1 Navigation Aspect 205<br/><br/>7.8.2 Continual Working of Toll Booth 206<br/><br/>7.8.3 Theft Security System 206<br/><br/>7.8.4 Black Box–Enabled IoT 206<br/><br/>7.8.5 Regularizing Motion of Emergency Vehicle 207<br/><br/>7.8.6 Pollution Monitoring System 207<br/><br/>7.8.7 Timely Assessment of Driver’s Condition 207<br/><br/>7.8.8 Vehicle Performance Monitoring 207<br/><br/>7.9 Conclusion 208<br/><br/>References 208<br/><br/>8 Role of IoT in Product Development 215<br/>Bhuvanesh Kumar M., Balaji N. S., Senthil S. M. and Sathiya P.<br/><br/>8.1 Introduction 216<br/><br/>8.1.1 Industry 4.0 217<br/><br/>8.2 Need to Understand the Product Architecture 220<br/><br/>8.3 Product Development Process 222<br/><br/>8.3.1 Criteria to Classify the New Products 223<br/><br/>8.3.2 Product Configuration 224<br/><br/>8.3.3 Challenges in Product Development while Developing IoT Products (Data-Driven Product Development) 225<br/><br/>8.3.4 Role of IoT in Product Development for Industrial Applications 226<br/><br/>8.3.5 Impacts and Future Perspectives of IoT in Product Development 229<br/><br/>8.4 Conclusion 231<br/><br/>References 232<br/><br/>9 Benefits of IoT in Automated Systems 235<br/>Adithya K. and Girimurugan R.<br/><br/>9.1 Introduction 235<br/><br/>9.2 Benefits of Automation 236<br/><br/>9.2.1 Improved Productivity 236<br/><br/>9.2.2 Efficient Operation Management 236<br/><br/>9.2.3 Better Use of Resources 237<br/><br/>9.2.4 Cost-Effective Operation 237<br/><br/>9.2.5 Improved Work Safety 237<br/><br/>9.2.6 Software Bots 237<br/><br/>9.2.7 Enhanced Public Sector Operations 237<br/><br/>9.2.8 Healthcare Benefits 238<br/><br/>9.3 Smart City Automation 238<br/><br/>9.3.1 Smart Agriculture 240<br/><br/>9.3.2 Smart City Services 240<br/><br/>9.3.3 Smart Energy 240<br/><br/>9.3.4 Smart Health 241<br/><br/>9.3.5 Smart Home 241<br/><br/>9.3.6 Smart Industry 242<br/><br/>9.3.7 Smart Infrastructure 242<br/><br/>9.3.8 Smart Transport 242<br/><br/>9.4 Smart Home Automation 243<br/><br/>9.5 Automation in Manufacturing 247<br/><br/>9.5.1 IoT Manufacturing Use Cases 249<br/><br/>9.5.2 Foundation for IoT in Manufacturing 251<br/><br/>9.6 Healthcare Automation 253<br/><br/>9.6.1 IoT in Healthcare Applications 254<br/><br/>9.6.2 Architecture for IoT-Healthcare Applications 257<br/><br/>9.6.3 Challenges and Solutions 258<br/><br/>9.7 Industrial Automation 259<br/><br/>9.7.1 IoT in Industrial Automation 260<br/><br/>9.7.2 The Essentials of an Industrial IoT Solution 260<br/><br/>9.7.3 Practical Industrial IoT Examples for Daily Use 261<br/><br/>9.8 Automation in Air Pollution Monitoring 265<br/><br/>9.8.1 Methodology 266<br/><br/>9.8.2 Working Principle 267<br/><br/>9.8.3 Results 267<br/><br/>9.9 Irrigation Automation 268<br/><br/>References 269<br/><br/>10 Integration of IoT in Energy Management 271<br/>Ganesh Angappan, Santhosh Sivaraj, Premkumar Bhuvaneshwaran, Mugilan Thanigachalam, Sarath Sekar and Rajasekar Rathanasamy<br/><br/>10.1 Introduction 272<br/><br/>10.2 Energy Management Integration with IoT in Industry 4.0 274<br/><br/>10.3 IoT in Energy Sector 276<br/><br/>10.3.1 Energy Generation 276<br/><br/>10.3.2 Smart Cities 277<br/><br/>10.3.3 Smart Grid 277<br/><br/>10.3.4 Smart Buildings 278<br/><br/>10.3.5 IoT in the Energy Industry 279<br/><br/>10.3.6 Intelligent Transportation 280<br/><br/>10.4 Provocations in the IoT Applications 281<br/><br/>10.4.1 Energy Consumption 281<br/><br/>10.4.2 Subsystems and IoT Integration 282<br/><br/>10.5 Energy Generation 284<br/><br/>10.5.1 Conversion of Mechanical Energy 285<br/><br/>10.5.2 Aeroelastic Energy Harvesting 290<br/><br/>10.5.3 Solar Energy Harvesting 292<br/><br/>10.5.4 Sound Energy Harvesting 292<br/><br/>10.5.5 Wind Energy Harvesting 292<br/><br/>10.5.6 Radiofrequency Energy Harvesting 293<br/><br/>10.5.7 Thermal Energy 293<br/><br/>10.6 Conclusion 294<br/><br/>References 294<br/><br/>11 Role of IoT in the Renewable Energy Sector 305<br/>Veerakumar Chinnasamy and Honghyun Cho<br/><br/>11.1 Introduction 305<br/><br/>11.2 Internet of Things (IoT) 306<br/><br/>11.3 IoT in the Renewable Energy Sector 307<br/><br/>11.3.1 Automation of Energy Generation 307<br/><br/>11.3.2 Smart Grids 309<br/><br/>11.3.3 IoT Increases the Renewable Energy Use 312<br/><br/>11.3.4 Consumer Contribution 312<br/><br/>11.3.5 Balancing Supply and Demand 313<br/><br/>11.3.6 Smart Buildings 313<br/><br/>11.3.7 Smart Cities 314<br/><br/>11.3.8 Cost-Effectiveness 314<br/><br/>11.4 Data Analytics 314<br/><br/>11.4.1 Data Forecasting 314<br/><br/>11.4.2 Safety and Reliability 315<br/><br/>11.5 Conclusion 315<br/><br/>References 315<br/><br/>Index 317
520 ## - SUMMARY, ETC.
Summary, etc This book broadly explores the latest developments of IoT and its integration into mechanical and manufacturing engineering. It details the fundamental concepts and recent developments in IoT & Industry 4.0 with special emphasis on the mechanical engineering platform for such issues as product development and manufacturing, environmental monitoring, automotive applications, energy management, and renewable energy sectors. Topics and related concepts are portrayed comprehensively so that readers can develop expertise and knowledge in the field of IoT. It is packed with reference tables and schematic diagrams for the most commonly used processes and techniques, thereby providing a resource on the basic principles and application of IoT in manufacturing sectors.
545 0# - BIOGRAPHICAL OR HISTORICAL DATA
Biographical or historical note About the Author<br/>R. Rajasekar, PhD, Professor and Head of the Department of Mechanical Engineering, Kongu Engineering College (An Autonomous Institution under Anna University), Tamilnadu, India. He obtained his PhD from the Indian Institute of Technology, Kharagpur, and specializes in materials science and engineering, renewable energy, surface coating on solar cells, and tribological performance of carbide inserts. He has published more than 100 research articles in reputed international journals as well as more than 30 book chapters.<br/><br/>C. Moganapriya, PhD, is an associate professor in the Department of Mechanical Engineering, Kongu Engineering College (An Autonomous Institution under Anna University), Tamilnadu, India. She completed her PhD in 2019 and her current research area includes surface engineering of solar cells for performance enhancement of power conversion efficiency and tribological performance of cutting tool inserts by adopting several hard coating materials. She has published 13 research articles and 15 book chapters with international publishers.<br/><br/>P. Sathish Kumar, PhD, is an assistant professor in the Department of Manufacturing, Institute of Mechanical Engineering, Saveetha School of Engineering, SIMATS University, Chennai, Tamilnadu, India. He has published more than 60 research articles and 35 book chapters with international journals and publishers. His main research areas are in tribological studies of mining bits, thin film coating, natural fiber composites and renewable energy.<br/><br/>M. Harikrishna Kumar, PhD, is a lecturer at Sri Krishna Polytechnic College, Coimbatore, India. He has 12 years of teaching and 2 years of industry experience. He served as an assistant professor at Kongu Engineering College, Perundurai, India for 9 years.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Internet of things.
Authority record control number https://id.loc.gov/authorities/subjects/sh2013000266.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Engineering
General subdivision Data processing.
Authority record control number https://id.loc.gov/authorities/subjects/sh85043180.
655 #4 - INDEX TERM--GENRE/FORM
Genre/form data or focus term Electronic books.
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Rajasekar, R.,
Relator term editor.
776 08 - ADDITIONAL PHYSICAL FORM ENTRY
Qualifying information Original
International Standard Book Number 111986500X
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Record control number (OCoLC)1337855515.
856 40 - ELECTRONIC LOCATION AND ACCESS
Uniform Resource Identifier https://onlinelibrary.wiley.com/doi/book/10.1002/9781119865391
Link text Full text available at Wiley Online Library Click here to view
942 ## - ADDED ENTRY ELEMENTS
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