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Produktbild: ICT Policy, Research, and Innovation

ICT Policy, Research, and Innovation Perspectives and Prospects for EU-US Collaboration

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

10.12.2020

Verlag

John Wiley & Sons Inc

Seitenzahl

480

Maße (L/B/H)

26/18,3/3 cm

Gewicht

453 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-119-63252-8

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

10.12.2020

Verlag

John Wiley & Sons Inc

Seitenzahl

480

Maße (L/B/H)

26/18,3/3 cm

Gewicht

453 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-119-63252-8

Herstelleradresse

Produktsicherheitsverantwortliche/r
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: ICT Policy, Research, and Innovation
  • List of Contributors xviii

    Editor

    Biographies xx

    Acknowledgments xxi

    List of Acronyms xxiv

    A Note from the Series Editor 1

    1 Collaboration in a Globally Networked Knowledge Society 3
    Svetlana Klessova, Maarten Botterman, Jonathan Cave, and Sebastian Engell

    1.1 ICT Topics in Focus 6

    1.1.1 5G 6

    1.1.2 Internet of Things 7

    1.1.3 Cyber-Physical Systems 7

    1.1.4 Big Data 8

    1.1.5 Cybersecurity 8

    1.2 The Policy Aspect 9

    1.3 International Collaborations - EU-US Partnerships 11

    1.4 About this Volume 14

    References 19

    2 Industrial Drivers, Barriers, and Societal Needs: EU and US Perspectives 21
    Haydn Thompson, Daniela Ramos-Hernandez, and Christian Sonntag

    2.1 Introduction and Overview 21

    2.2 Industrial Drivers and Societal Needs 23

    2.2.1 Smart Cities 23

    2.2.1.1 Landscape Analysis 23

    2.2.1.2 Industry Interviews 24

    2.2.2 Smart Energy and Smart Grid 26

    2.2.2.1 Landscape Analysis 26

    2.2.2.2 Industry Interviews 28

    2.2.3 Smart Transportation 31

    2.2.3.1 Automotive and Road 32

    2.2.3.2 Rail 35

    2.2.3.3 Aerospace 36

    2.2.3.4 Maritime 38

    2.2.4 Automation 40

    2.2.5 Diagnostics and Plant Monitoring 42

    2.2.6 Information Technology 43

    2.2.7 Wireless and Telecommunications 44

    2.2.8 Software Development and Tools 46

    2.2.9 Research Organizations and Networks 47

    2.2.10 Standardization 48

    2.2.11 Recruitment 49

    2.2.12 Summary of Key Recommendations 50

    2.3 Barriers 51

    2.3.1 Cross-Cutting Barriers 51

    2.3.1.1 Structural Differences in Funding Environments 51

    2.3.1.2 Administrative Overhead and Legal Barriers 52

    2.3.1.3 Lack of Clarity of the Benefits of EU-US Collaboration 53

    2.3.1.4 Restrictions due to Intellectual Property Protection 54

    2.3.1.5 Lack of Joint EU-US Funding Mechanisms and Policies 55

    2.3.1.6 Export Control and Privacy Restrictions 55

    2.3.1.7 Lack of Awareness and Knowledge 56

    2.3.1.8 Lack of Interoperability and Standards 56

    2.3.2 Barriers in Smart Cities 56

    2.3.3 Barriers in Smart Energy and the Smart Grid 57

    2.3.4 Barriers in Smart Transportation 58

    2.3.5 Barriers for Large and Small Companies 60

    2.4 Concluding Remarks 60

    References 61

    3 Research and Innovation Programs as a Mechanism to Support Collaborative Efforts 63
    Svetlana Klessova, Tariq Samad, Margot Bezzi, and Marta Calderaro

    3.1 Introduction 63

    3.2 EU Research and Innovation FP 64

    3.2.1 Coupling Research and Innovation 64

    3.2.2 Collaborative, Interorganizational Projects 65

    3.2.3 ICT Priorities and Opportunities in H2020 67

    3.2.4 The FP 2021-2027: Horizon Europe 69

    3.3 EU-US Collaboration in H2020 70

    3.3.1 The EU-US Research and Innovation Collaboration Framework 70

    3.3.2 US Participation in the EU Research and Innovation FPs 71

    3.3.3 US Industry Participation in the EU ICT-Related Work Programme 71

    3.4 US Programs for Collaborative Research 75

    3.4.1 The Federal RDI Funding Landscape 75

    3.4.2 National Science Foundation (NSF) 76

    3.4.3 National Institutes of Health (NIH) 78

    3.4.4 Department of Defense (DoD) 79

    3.4.5 Department of Energy (DoE) 80

    3.4.6 NITRD: A Programmatic Umbrella Covering ICT 81

    3.5 Conclusion 82

    3.6 Annex 1: About the PICASSO Project 84

    References 87

    4 International Context and the Specific Value of EU-US Collaboration 89
    Jonathan Cave and Maarten Botterman

    4.1 Introduction 89

    4.2 Advantages of EU-US Collaboration 90

    4.2.1 General Aspects 90

    4.2.2 Collaboration Along Technology, Market, and Policy Life Cycles 92

    4.2.3 Specific Activities to Foster Collaboration 92

    4.3 Overview 94

    4.3.1 A Summary of Challenges and Opportunities 94

    4.3.2 EU-US Comparisons 94

    4.3.2.1 A Bit of History 94

    4.3.2.2 The Difficulty of Meaningful Comparisons 103

    4.3.3 Differences and Cooperation 103

    4.4 Collaborative Research and Innovation Priorities and Barriers 103

    4.4.1 EU and US Priorities 103

    4.4.2 Barriers to Policy-driven R&I Collaboration 104

    References 108

    5 Challenges and Potential for EU-US Collaboration at the Intersection of the Internet of Things and Cyber-physical Systems 111
    Christian Sonntag, Sebastian Engell, and Tariq Samad

    5.1 Introduction 111

    5.1.1 Internet of Things-Enabled Cyber-physical Systems 111

    5.1.2 Objectives of this Chapter 113

    5.2 R&I Priorities in the European Union and the United States 114

    5.2.1 Cross-Domain Drivers and Needs 115

    5.2.2 Enabling Technologies 115

    5.2.3 Cyber-physical Systems (CPS) 116

    5.2.3.1 R&I Priorities in the European Union 117

    5.2.3.2 R&I Priorities in the United States 119

    5.2.4 The Internet of Things (IoT) 121

    5.2.4.1 R&I Priorities in the European Union 122

    5.2.4.2 R&I Priorities in the United States 123

    5.2.5 Application Sectors: Drivers and Needs 124

    5.2.5.1 Smart Production 124

    5.2.5.2 Smart Cities 126

    5.2.5.3 Smart Energy 126

    5.2.5.4 Smart Transportation 127

    5.2.6 Synthesis of the Findings 128

    5.3 Technology Themes for EU-US Collaboration 133

    5.3.1 Autonomy and Humans in the Loop 134

    5.3.1.1 R&I Topics 134

    5.3.1.2 Why EU-US Collaboration? 134

    5.3.1.3 Relevance to Application Sectors 134

    5.3.2 Model-based Systems Engineering 135

    5.3.2.1 R&I Topics 135

    5.3.2.2 Why EU-US Collaboration? 135

    5.3.2.3 Relevance to Application Sectors 135

    5.3.3 Trust, (Cyber-)Security, Robustness, Resilience, and Safety 135

    5.3.3.1 R&I Topics 135

    5.3.3.2 Why EU-US Collaboration? 136

    5.3.3.3 Relevance to Application Sectors 136

    5.3.4 Integration, Interoperability, Flexibility, and Reconfiguration 136

    5.3.4.1 R&I Topics 136

    5.3.4.2 Why EU-US Collaboration? 136

    5.3.4.3 Relevance to Application Sectors 136

    5.3.5 Situational Awareness, Diagnostics, and Prognostics 137

    5.3.5.1 R&I Topics 137

    5.3.5.2 Why EU-US Collaboration? 137

    5.3.5.3 Relevance to Application Sectors 137

    5.3.6 Closing the Loop in IoT-enabled CPS 137

    5.3.6.1 R&I Topics 137

    5.3.6.2 Why EU-US Collaboration? 137

    5.3.6.3 Relevance to Application Sectors 137

    5.4 Key  Recommendations: Enabling EU-US Collaboration for IoT-Enabled CPS 138

    5.4.1 Joint EU-US Knowledge Exchange Initiative 139

    5.4.2 Joint NSF-EC Program on Autonomous IoT-enabled CPS in Horizon Europe 140

    5.5 Conclusions and Outlook 141

    References 142

    6 Challenges and Potential for EU-US Collaboration in 5G and Beyond Networks 145
    Yaning Zou, Gerhard Fettweis, Amitava Ghosh, Glenn Ricart, Matti Latva-Aho, and Lucas Scheuvens

    6.1 Introduction 145

    6.2 R&I Priorities of 5G Networks in the European Union and the United States 146

    6.2.1 Cross-domain Drivers and Needs 146

    6.2.2 5G and its Enabling Technologies 147

    6.2.3 R&I Priorities in the European Union 148

    6.2.4 R&I Priorities in the United States 150

    6.2.5 Vertical Sectors: Drivers and Needs 152

    6.2.5.1 Automotive and Transportation 152

    6.2.5.2 Industrial Automation 153

    6.2.5.3 Health 154

    6.2.5.4 Energy 155

    6.2.6 EU-US Research Collaboration in 5G Network 155

    6.3 5G Beyond and Technology Themes for EU-US Collaboration 157

    6.3.1 Connecting the Last Billions in Unserved Areas 159

    6.3.1.1 R&I Topics 159

    6.3.1.2 Why EU-US Collaboration? 159

    6.3.2 Wireless Premises Networks 159

    6.3.2.1 R&I Topics 159

    6.3.2.2 Why EU-US Collaboration? 159

    6.3.3 mmWave Technology Beyond 5G 160

    6.3.3.1 R&I Topics 160

    6.3.3.2 Why EU-US Collaboration? 160

    6.3.4 Spectrum Farming and Harmonization 160

    6.3.4.1 R&I Topics 160

    6.3.4.2 Why EU-US Collaboration? 161

    6.4 Fostering EU-US Collaboration for 5G Beyond: Strategies and Key Recommendations 161

    6.4.1 Collaboration Strategies in the 5G Beyond Domain 161

    6.4.2 Collaboration Opportunities in the 5G Beyond Domain 162

    6.5 Conclusions and Outlook 163

    References 164

    7 Big Data Policies and Priorities: A Comparison Between the European Union and United States and Opportunities for Collaboration 165
    Vasileios Papanikolaou, Nikos Sarris, Florence D. Hudson, Lea A. Shanley, Andrew S. Hoffman, and Christine R. Kirkpatrick

    7.1 Introduction 165

    7.2 R&I Priorities in the European States and the United States 166

    7.2.1 Big Data Technology Enablers 166

    7.2.2 EU Priorities and R&I Landscape 167

    7.2.2.1 The EU Big Data Strategy 168

    7.2.2.2 EU R&I Priorities 168

    7.2.3 US Priorities and R&I Landscape 169

    7.2.3.1 The US Big Data Strategy 171

    7.2.3.2 The American Artificial Intelligence Initiative 172

    7.2.3.3 US Research and Innovation Priorities 172

    7.2.4 Postgraduate Education on Big Data 176

    7.2.5 Application Sectors 177

    7.2.5.1 EU Key Application Sectors 177

    7.2.5.2 US Application Sectors 178

    7.2.6 Conclusions 179

    7.2.6.1 Similarities and Differences at the Design and at the Implementation Level 179

    7.2.6.2 Similarities and Differences in Big Data Technology and Application Domains between the European States and the United States 180

    7.3 Fostering EU-US Collaboration for Big Data: Opportunities and Key Recommendations 181

    7.3.1 Collaboration Opportunities 181

    7.3.1.1 Big Data Ecosystem Opportunities 182

    7.3.1.2 Standardization and Regulation 183

    7.3.1.3 Opportunities in Education and Workforce Development 183

    7.3.1.4 Big Data for Smart Cities 183

    7.3.1.5 Big Data and the Environment-Food-Energy-Water Nexus 184

    7.3.1.6 Big Data for Better Health 184

    7.3.2 Key Recommendations for Enhancing EU-US Collaboration in Big Data Technologies 185

    7.3.2.1 Big Data EU-US Task Force for Enhancing Collaboration 185

    7.3.2.2 Joint R&D Projects under the Horizon Europe Umbrella 186

    7.4 Conclusions and Outlook 186

    7.4.1 Summary of Recommendations 187

    References 188

    8 Cybersecurity and Privacy 191
    Jim Clarke, Fabio Martinelli, Artsiom Yautsiukhin, Claudio Caimi, Alberto Terzi,  Silviya Nonova, Camille E. Sailer, Jody Serrano, and Yolanda Ursa

    8.1 Introduction 191

    8.2 Landscape of Cybersecurity in Europe and the United States 192

    8.2.1 EU Cybersecurity and Privacy Strategy 192

    8.2.1.1 NIS Public-Private Platform (NIS Platform) 192

    8.2.1.2 Contractual Public-Private Partnership (cPPP) 192

    8.2.1.3 EU Global Strategy for Foreign and Security Policy 193

    8.2.1.4 European Agenda on Security 193

    8.2.1.5 Digital Single Market Strategy 193

    8.2.2 US Cybersecurity and Privacy Strategy 193

    8.2.2.1 Federal Cybersecurity Research and Development Strategic Plan 194

    8.2.2.2 National Privacy Research Strategy (NPRS) 195

    8.2.2.3 International Strategy for Cyberspace 195

    8.3 Priority Areas for EU-US Collaboration in R&I in CSP 195

    8.3.1 Cybersecurity Research Domains 197

    8.3.2 Applications and Technologies 198

    8.3.3 Sectors 198

    8.3.4 Expert Analysis of Our Ranking 199

    8.3.4.1 Cybersecurity Research Domains 199

    8.3.4.2 Applications and Technologies 199

    8.3.4.3 Sectors 200

    8.3.5 Recommended Focus Sectors for Transatlantic Cooperation 200

    8.3.5.1 Finance 200

    8.3.5.2 Health Care 200

    8.3.5.3 Maritime 200

    8.3.6 Summary of the Analysis of the Three Focus Sectors 201

    8.4 Innovation Partnerships in CSP 203

    8.4.1 Strategy 203

    8.4.2 Multidisciplinary Approach 206

    8.4.3 Resilience 206

    8.4.4 Governance 206

    8.4.5 Cooperation and Sharing 206

    8.4.6 Reputation 206

    8.4.7 Innovation 207

    8.5 Cybersecurity

    Policies Enabling EU-US Collaboration 207

    8.5.1 Standards and Certification 207

    8.5.1.1 EU Policies 207

    8.5.1.2 US Policies 208

    8.5.2 Public-Private Information Sharing 209

    8.5.2.1 EU Policies 209

    8.5.2.2 US Policies 210

    8.6 Recommendations for EU-US Collaboration 210

    8.7 Conclusions 212

    References 214

    9 The Next Generation Internet Initiative 217
    Glenn Ricart, Jose Gonzalez, Vasilis Papanikolaou, Hubert Santer, Fabrice Clari, Nikos Sarris, Peter Van Daele, and Wouter Tavernier

    9.1 Introduction 217

    9.1.1 Technologies and Applications for an Internet of Humans 219

    9.1.1.1 Key Application Areas 221

    9.1.2 Drivers and Impediments for a Global DSM 221

    9.2 Transatlantic Cooperation on NGI 224

    9.2.1 State of Collaboration 224

    9.2.2 NGI in the United States 226

    9.2.2.1 Digital Policies in the United States 227

    9.2.3 Funding Mechanisms and Opportunities 229

    9.2.3.1 Europe 229

    9.2.3.2 United States 230

    9.2.4 Initiatives Supporting EU-US Collaboration on NGI 232

    9.2.4.1 Transatlantic NGI Projects 232

    9.2.4.2 US Clusters and Innovation Hubs 236

    9.2.4.3 Initiatives Developing NGI Technologies 238

    9.3 Think NEXUS to Support the Transatlantic NGI Alliance 239

    9.3.1 Think NEXUS US Workshop 2019 241

    9.3.1.1 Science and Technology Expert Group 241

    9.3.1.2 Innovation and Entrepreneurship Expert Group 243

    9.3.1.3 Policy Expert Group 247

    9.4 Conclusions 249

    References 251

    10 Privacy and Data Protection Issues 255
    Maarten Botterman and Jonathan Cave

    10.1 Introduction 255

    10.2 EU and US Policy Frameworks 256

    10.3 Differences in Legal Status of Privacy 257

    10.3.1 Europe: GDPR 258

    10.3.2 The United States: Case Law Based on the Constitution 259

    10.3.3 The EU/US Agreement Privacy Shield 261

    10.4 ICT Development Impacts 261

    10.4.1 5G Networks 262

    10.4.2 Big Data 263

    10.4.3 Internet of Things/Cyber-Physical Systems 265

    10.5 Conclusions 266

    References 270

    11 Information and Communication Technology Security Issues 273
    Jonathan Cave, Maarten Botterman, and Dave Farber

    11.1 Introduction 273

    11.2 The Technical Situation 274

    11.3 The Policy Situation 276

    11.3.1 Cybersecurity Risk Cannot be "Minimized" 276

    11.3.2 Trust Cannot be "Maximized" 277

    11.3.3 Trust and Security are Both Real and Imagined 277

    11.3.4 The International Dimension 278

    11.3.5 Simplistic Approaches to a Complex Problem 280

    11.3.5.1 Data and Its Uses and Abuses 280

    11.3.5.2 Definitional Issues 282

    11.3.5.3 Identification and Authentication 282

    11.3.5.4 Data and Processing Integrity and Quality 285

    11.3.5.5 Cybercrime and Cyber-enhanced Crime 287

    11.3.5.6 Encryption 288

    11.3.5.7 A Dialogue Between Technology and Policy 290

    11.4 New ICT Developments Impacts 292

    11.4.1 5G Networks 292

    11.4.2 Big Data 294

    11.4.2.1 The Scope of the Issue 294

    11.4.2.2 The Accessibility of Big Data 295

    11.4.2.3 Data Analytics and AI as Cybersecurity Tools 295

    11.4.3 Internet of Things/Cyber-Physical Systems 296

    11.5 Possible Ways Forward 297

    11.6 Conclusions 299

    11.6.1 5G Networks 299

    11.6.2 Big Data 300

    11.6.3 IoT and Cyber-Physical Systems 300

    11.6.4 Operational Conclusions 301

    References 305

    12 Standardization Issues 309
    Maarten Botterman, Jonathan Cave, and Avri Doria

    12.1 Introduction 309

    12.1.1 How ICT Dynamics Affect Standards 310

    12.1.2 Implications of Convergence 310

    12.1.3 Convergence Is Not Inevitable 311

    12.2 Standardization as a Collaborative and Competitive Activity 311

    12.2.1 Why Address Standards Setting Now? 312

    12.3 Drivers of ICT Standardization 313

    12.3.1 Social Drivers 314

    12.3.2 Technology Drivers 315

    12.3.3 Economic Drivers 316

    12.4 Standards Development in Practice 316

    12.4.1 Permissionless Innovation 317

    12.4.2 Open Standards 317

    12.4.3 The Role of Standards Organizations 318

    12.4.4 The Role of Governments 318

    12.4.4.1 EU Perspective 319

    12.4.4.2 US Perspective 320

    12.5 Standardization: Focus on Technology Domains 320

    12.5.1 5G Networks 320

    12.5.2 Big Data 323

    12.5.3 Internet of Things/Cyber-Physical Systems 324

    12.6 Perspectives Towards the Future 325

    12.7 Conclusions 327

    References 328

    13 Spectrum Issues 331
    Jonathan Cave

    13.1 Introduction 331

    13.1.1 Challenges to Existing Spectrum Policies 333

    13.1.2 Implications for Research into Wireless Technologies and Services 333

    13.1.2.1 Example: 2.6 GHz Spectrum Auction 334

    13.1.3 Availability of Spectrum for Research Purposes 334

    13.2 Technology-specific Spectrum Issues 334

    13.2.1 5G Networks 334

    13.2.1.1 Specific Issues (Tentative) 335

    13.2.2 Internet of Things/Cyber-Physical Systems 337

    13.2.3 Big Data 339

    13.2.3.1 Big Data Traffic Flows over the Electromagnetic Spectrum 339

    13.2.3.2 Use of Data Analytics to Allocate Rights and Manage Spectrum Use 340

    13.3 Perspectives Towards the Future 340

    13.4 Conclusions 341

    13.5 Annex A: Some Comments on IoT and CPS from the Spectrum Perspective 342

    13.5.1 Internet of Things 342

    13.5.2 Cyber-physical Systems 343

    13.5.3 Link to Spectrum 343

    13.6 Annex B: TV White Space (TVWS) 344

    References 346

    14 Digital Communities and EU-US ICT Development Collaboration 349
    Glenn Ricart, Maarten Botterman, and Jonathan Cave

    14.1 Why Focus on Digital Communities? 349

    14.1.1 What are Communities? 350

    14.1.2 The Effect of "Digitization" 350

    14.2 Relation to Other Key Policy Issues 353

    14.2.1 Privacy and Data Protection 354

    14.2.2 ICT Security 354

    14.2.3 ICT Standards 355

    14.2.4 Spectrum 355

    14.3 Digital Communities, Impacted 356

    14.3.1 5G Networks 356

    14.3.2 Big Data 357

    14.3.3 Internet of Things/Cyber-Physical Systems 357

    14.4 Perspectives Towards the Future 358

    14.5 Conclusions 360

    References 362

    15 Opening Towards a New Reality, Together 365
    Maarten Botterman and Jonathan Cave

    15.1 Introduction 365

    15.1.1 Case for Collaboration 366

    15.1.2 Most-relevant Issues 367

    15.2 Policy Challenges for ICT R&I Collaboration 368

    15.3 Privacy and Data Protection 368

    15.3.1 Context 368

    15.3.1.1 Differences in Legal Status of Privacy 369

    15.3.2 ICT Development Impacts 370

    15.3.2.1 5G Networks 370

    15.3.2.2 Big Data 371

    15.3.2.3 The Internet of Things and Cyber-physical Systems 372

    15.3.3 Privacy and Data Protection Conclusions 372

    15.4 Security 372

    15.4.1 Context 373

    15.4.1.1 The Technical Situation 373

    15.4.1.2 The Policy Situation 374

    15.4.2 ICT Development Impacts 377

    15.4.2.1 5G Networks 377

    15.4.2.2 Big Data 378

    15.4.2.3 The Internet of Things and Cyber-Physical Systems 379

    15.4.3 Security Conclusions 379

    15.5 Standards 380

    15.5.1 Context 380

    15.5.1.1 How ICT Dynamics Affect Standards 380

    15.5.1.2 Implications of Convergence 381

    15.5.1.3 Convergence is Not Inevitable 381

    15.5.1.4 Standardization as a Collaborative and Competitive Activity 382

    15.5.2 Standards Development in Practice 383

    15.5.2.1 Permissionless Innovation 384

    15.5.2.2 Open Standards 384

    15.5.3 ICT Development Impacts 384

    15.5.3.1 5G Networks 384

    15.5.3.2 Big Data 385

    15.5.3.3 Internet of Things/Cyber-Physical Systems 387

    15.5.4 Standards Conclusions 387

    15.6 Spectrum 389

    15.6.1 Context 389

    15.6.1.1 Challenges to Existing Spectrum Policies 390

    15.6.1.2 Implications for Radio Technology and Service R&I 391

    15.6.1.3 Spectrum Availability for Research Purposes 391

    15.6.2 ICT Development Impacts 392

    15.6.2.1 5G Networks 392

    15.6.2.2 Big Data 394

    15.6.2.3 Internet of Things/Cyber-Physical Systems 395

    15.6.3 Spectrum Conclusions 396

    15.7 Future Outlook 397

    15.7.1 General Trends 397

    15.7.1.1 Overarching Developments 397

    15.7.1.2 The Evolving Security Landscape 398

    15.7.2 The Role of Communities 399

    15.7.2.1 The Future of Digital is Driven by Communities, and Vice Versa 401

    15.8 Conclusions and Recommendations 403

    15.8.1 General Aspects 403

    15.8.1.1 Competition Between Domains 404

    15.8.1.2 Coordination Models 404

    15.8.2 Key Policy Domains 406

    15.8.2.1 Privacy and Data Protection 406

    15.8.2.2 ICT Security 408

    15.8.2.3 Standardization 409

    15.8.2.4 Spectrum 410

    15.8.3 Lessons Learned from Digital Communities 411

    15.8.4 Strategic Proposals for the Way Forward 412

    15.9 Annexes 413

    15.9.1 Annex A: Security Considerations 413

    15.9.1.1 Data and Its Uses and Abuses 413

    15.9.1.2 Definitional Issues 414

    15.9.1.3 Identification and Authentication 414

    15.9.1.4 Cybercrime and Cyber-Enhanced Crime 414

    15.9.1.5 Encryption 415

    15.9.1.6 A Dialogue Between Technology and Policy 416

    15.9.2 Annex 2: Standards 418

    15.9.2.1 Drivers 418

    15.9.2.2 Organizational Roles 420

    15.9.3 Annex C Spectrum 422

    15.9.3.1 IoT and CPS from the Spectrum Perspective 422

    15.9.3.2 TV White Space (TVWS) 424

    15.9.4 Annex DFuture Developments 425

    15.9.4.1 Trends 425

    15.9.4.2 Digital Communities Perspectives on Policy and Technology Areas 427

    15.9.4.3 How Do Communities Relate to the Three Technical Domains? 429

    References 437

    Index 439