Produktbild: Digitalization and Control of Industrial Cyber-Physical Systems

Digitalization and Control of Industrial Cyber-Physical Systems Concepts, Technologies and Applications

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

28.06.2022

Verlag

Wiley

Seitenzahl

352

Maße (L/B/H)

24/16,1/2,3 cm

Gewicht

695 g

Sprache

Englisch

ISBN

978-1-78945-085-9

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

28.06.2022

Verlag

Wiley

Seitenzahl

352

Maße (L/B/H)

24/16,1/2,3 cm

Gewicht

695 g

Sprache

Englisch

ISBN

978-1-78945-085-9

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: Digitalization and Control of Industrial Cyber-Physical Systems
  • Foreword xiii
    André THOMAS

    Introduction xvii
    Olivier CARDIN, William DERIGENT and Damien TRENTESAUX

    Part 1 Conceptualizing Industrial Cyber-Physical Systems 1

    Chapter 1 General Concepts 3
    Olivier CARDIN and Damien TRENTESAUX

    1.1 Industry at the heart of society 3

    1.2 Industrial world in search of a new model 4

    1.3 Cyber-physical systems 6

    1.4 From cyber-physical systems to industrial cyber-physical systems 8

    1.5 Perspectives on the study of industrial cyber-physical systems 11

    1.6 References 15

    Chapter 2 Moving Towards a Sustainable Model: Societal, Economic and Environmental 17
    Patrick MARTIN, Maroua NOUIRI and Ali SIADAT

    2.1 Industry of the future and sustainable development 17

    2.2 Contribution of ICPS to the social dimension 18

    2.2.1 Background 18

    2.2.2 Cognitive aspects 21

    2.2.3 Health and safety aspects at work 22

    2.3 Contribution of ICPS to the environmental dimension 28

    2.3.1 Objectives and expectations 28

    2.3.2 Example of application 29

    2.4 Contribution of ICPS to the economic dimension 30

    2.5 Conclusion 32

    2.6 References 32

    Part 2 Sensing and Distributing Information Within Industrial Cyber-Physical Systems 37

    Chapter 3 Information Flow in Industrial Cyber-Physical Systems 39
    Thierry BERGER and Yves SALLEZ

    3.1 Introduction 39

    3.2 Information and decision loops when using an ICPS 39

    3.3 Decision-making processes within the loops of an ICPS 41

    3.3.1 Nature of decision-making processes 41

    3.3.2 Nature of information 42

    3.3.3 Approach to studying the informational loops of the cyber part of an ICPS 43

    3.4 Elements for the implementation of loops 45

    3.4.1 Generic architecture 45

    3.4.2 Link to decision-making processes and the nature of the information 48

    3.5 Illustrative examples 48

    3.5.1 Example from rail transport 49

    3.5.2 Example from the manufacturing sector 50

    3.6 Conclusion 52

    3.7 References 52

    Chapter 4 The Intelligent Product Concept 55
    William DERIGENT

    4.1 The intelligent product, a leading-edge concept in industrial cyber-physical systems 55

    4.2 Definitions of the intelligent product concept 56

    4.3 Developments in the concept of intelligent products 59

    4.3.1 Group 1: product-driven systems (PDS) 61

    4.3.2 Group 2: product lifecycle information management (PLIM) 63

    4.4 Conclusions and perspectives on the intelligent product 66

    4.5 References 67

    Part 3 Digitalizing at the Service of Industrial Cyber-Physical Systems 71

    Chapter 5 Virtualizing Resources, Products and the Information System 73
    Theodor BORANGIU, Silviu R¿ILEANU and Octavian MORARIU

    5.1 Virtualization - the technology for industrial cyber-physical systems 73

    5.2 Virtualization in the industrial environment 74

    5.3 Shop floor virtualization of resource and product workloads 78

    5.3.1 Resource and product virtualization through shop floor profiles 78

    5.3.2 Virtualization of collaborative product and resource workloads 83

    5.4 MES virtualization in the cloud (vMES) 89

    5.5 Perspectives offered by virtualization to industry of the future 94

    5.6 References 95

    Chapter 6 Cybersecurity of Industrial Cyber-Physical Systems 97
    Antoine GALLAIS and Youcef IMINE

    6.1 What are the risks involved? 98

    6.1.1 Unavailability of systems 98

    6.1.2 Loss of confidentiality or integrity 101

    6.1.3 Bypassing access and authentication controls 104

    6.2 What means of protection? 105

    6.2.1 Ensuring availability 105

    6.2.2 Ensuring confidentiality 107

    6.2.3 Implementing authentication mechanisms 108

    6.2.4 Controlling access, permissions and logging 109

    6.3 Conclusion 112

    6.4 References 114

    Part 4 Controlling Industrial Cyber-Physical Systems 117

    Chapter 7 Industrial Agents: From the Holonic Paradigm to Industrial Cyber-Physical Systems 119
    Paulo LEITÃO, Stamatis KARNOUSKOS and Armando Walter COLOMBO

    7.1 Overview of multi-agent systems and holonics 120

    7.1.1 Multi-agent systems 120

    7.1.2 Holonic paradigm 122

    7.2 Industrial agents 124

    7.2.1 Definition and characteristics 124

    7.2.2 Interfacing with physical assets 126

    7.3 Industrial agents for realizing industrial cyber-physical systems 127

    7.3.1 Supporting the development of intelligent products, machines and systems within cyber-physical systems 127

    7.3.2 Implementing an industrial multi-agent system as ICPS 129

    7.4 Discussion and future directions 130

    7.5 References 131

    Chapter 8 Holonic Control Architectures 135
    Olivier CARDIN, William DERIGENT and Damien TRENTESAUX

    8.1 Introduction 135

    8.2 HCA fundamentals 136

    8.3 HCAs in the physical part of ICPS 137

    8.4 Dynamic architectures, towards a reconfiguration of the physical part from the cyber part of ICPS 140

    8.5 HCAs and Big Data 143

    8.6 HCAs and digital twin: towards the digitization of architectures 144

    8.7 References 145

    Part 5 Learning and Interacting with Industrial Cyber-Physical Systems 149

    Chapter 9 Big Data Analytics and Machine Learning for Industrial Cyber-Physical Systems 151
    Yasamin ESLAMI, Mario LEZOCHE and Philippe THOMAS

    9.1 Introduction 151

    9.2 Data massification in industrial cyber-physical systems 153

    9.3 Big Data and multi-relational data mining (MRDM) 154

    9.3.1 Formal concept analysis (FCA) 154

    9.3.2 Relational concept analysis (RCA) 157

    9.4 Machine learning 160

    9.4.1 Basics of machine learning 160

    9.4.2 Multilayer perceptron (MLP) 160

    9.5 Illustrative example 165

    9.6 Conclusion 167

    9.7 References 167

    Chapter 10 Human-Industrial Cyber-Physical System Integration: Design and Evaluation Methods 171
    Marie-Pierre PACAUX-LEMOINE and Frank FLEMISCH

    10.1 Introduction 171

    10.2 Design methods 175

    10.3 Method of integrating HICPS 176

    10.3.1 Descending phase 177

    10.3.2 Ascending phase 180

    10.4 Summary and conclusion 185

    10.5 References 186

    Part 6 Transforming Industries with Industrial Cyber-Physical Systems 189

    Chapter 11 Impact of Industrial Cyber-Physical Systems on Reconfigurable Manufacturing Systems 191
    Catherine DA CUNHA and Nathalie KLEMENT

    11.1 Context 191

    11.1.1 Developments 192

    11.1.2 Issues 193

    11.1.3 Resources 193

    11.2 Reconfiguration 194

    11.2.1 Implementation and decision levels 194

    11.2.2 Information systems 195

    11.2.3 Adaptation in the context of CPPS/RMS 196

    11.2.4 Where and when to reconfigure? 197

    11.3 Modeling 197

    11.3.1 Data collection 198

    11.3.2 Simulation platforms 199

    11.4 Ergonomics/cognitive aspects 200

    11.5 Operation of the information system 201

    11.5.1 Operational level: procurement 201

    11.5.2 Responding to disruptions 202

    11.5.3 Decision support 203

    11.6 Illustrative example 203

    11.7 References 205

    Chapter 12 Impact of Industrial Cyber-Physical Systems on Global and Interconnected Logistics 207
    Shenle PAN, Mariam LAFKIHI and Eric BALLOT

    12.1 Logistics and its challenges 207

    12.2 Contemporary logistics systems and organizations 208

    12.2.1 Intra-site logistics 209

    12.2.2 Intra-urban logistics 210

    12.2.3 Inter-site inter-city logistics 211

    12.3 The Physical Internet as a modern and promising logistics organization 212

    12.3.1 Concept and definition 212

    12.3.2 Topologies of networks of networks 213

    12.4 Perspectives of ICPS applications in interconnected logistics: the example of the Physical Internet 215

    12.4.1 Modeling the Physical Internet by ICPS: the example of routing 216

    12.4.2 Exploiting ICPS: the data-driven approach and the digital twin-driven approach 219

    12.5 Conclusion 221

    12.6 References 222

    Chapter 13 Impact of Industrial Cyber-Physical Systems on Transportation 225
    John MBULI and Damien TRENTESAUX

    13.1 Introduction 225

    13.1.1 Pull forces 226

    13.1.2 Complexity factors of the transportation sector 227

    13.1.3 Push forces 228

    13.2 The impact of ICPS on transportation 229

    13.3 Rail transportation service: an illustrative example 231

    13.3.1 The physical space of SUPERFLO 233

    13.3.2 The human fleet supervisor 235

    13.3.3 The cyber space of SUPERFLO 236

    13.3.4 Evaluation of the proposed model and industrial expectations 236

    13.4 Concluding remarks 238

    13.5 Acknowledgments 239

    13.6 References 239

    Chapter 14 Impacts of Industrial Cyber-Physical Systems on the Building Trades 243
    William DERIGENT and Laurent JOBLOT

    14.1 General introduction 243

    14.2 The place of BIM in Construction 4.0 245

    14.3 Examples of transformations in the construction sector 247

    14.3.1 Control: real-time site management 248

    14.3.2 Learning and interacting: virtual reality and machine learning 249

    14.3.3 Capturing and distributing: use of wireless technologies (RFID and WSN) 251

    14.3.4 Digitalizing: digitalizing technologies for BIM 252

    14.4 Example of ICPS in construction 254

    14.5 Achieving the digital transformation of businesses 255

    14.6 References 257

    Chapter 15 Impact of Industrial Cyber-Physical Systems on the Health System 261
    Franck FONTANILI and Maria DI MASCOLO

    15.1 Introduction 261

    15.1.1 The health system and its specificities 261

    15.1.2 The digital evolution of healthcare production and health 263

    15.2 HCPS in the literature 263

    15.2.1 HCPS for medical monitoring 266

    15.2.2 HCPS for well-being and prevention 266

    15.2.3 HCPS for organizational monitoring of patient pathways 267

    15.2.4 Sensors for monitoring patients and resources 268

    15.3 The contribution of a digital twin in an HCPS 270

    15.3.1 General principle of digital twins in health 270

    15.3.2 A proposal for an HCPS based on a digital twin of patient pathways in the hospital 271

    15.4 Conclusion 274

    15.5 References 275

    Part 7 Envisioning the Industrial Cyber-Physical Systems of the Future 279

    Chapter 16 Ethics and Responsibility of Industrial Cyber-Physical Systems 281
    Sylvie JONAS and Françoise LAMNABHI-LAGARRIGUE

    16.1 Introduction 281

    16.2 Ethics and ICPS 283

    16.2.1 Data management and protection 284

    16.2.2 Control in the design of algorithms 285

    16.3 Liability and ICPS 288

    16.3.1 Existing liability regimes applied to ICPS 289

    16.3.2 Proposals for changes in liability regimes 291

    16.4 References 294

    Chapter 17 Teaching and Learning ICPS: Lessons Learned and Best Practices 297
    Bilal AHMAD, Freeha AZMAT, Armando Walter COLOMBO and Gerrit JAN VELTINK

    17.1 Introduction 297

    17.2 University of Warwick - Bachelor-level curriculum 299

    17.2.1 ICPS education: Fusion of computer science and engineering 300

    17.2.2 Key enabling technologies in the ICPS curriculum 301

    17.2.3 Pedagogical principles: teaching ICPS modules 301

    17.3 University of Applied Sciences Emden/Leer - master's-level curriculum 302

    17.3.1 ICPS education: fusion of computer science, electrical and mechatronics engineering 303

    17.3.2 Key enabling technologies in the ICPS curriculum 305

    17.3.3 Pedagogical principles: teaching ICPS modules 307

    17.4 Conclusion 308

    17.5 References 309

    Conclusion 313
    William DERIGENT, Olivier CARDIN and Damien TRENTESAUX

    List of Authors 317

    Index 321