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WIRELESS AUTOMATION AS AN ENABLER FOR THE NEXT INDUSTRIAL REVOLUTION
Título:
WIRELESS AUTOMATION AS AN ENABLER FOR THE NEXT INDUSTRIAL REVOLUTION
Subtítulo:
Autor:
IMRAN, M
Editorial:
JOHN WILEY
Año de edición:
2020
Materia
ROBOTICA - GENERAL
ISBN:
978-1-119-55261-1
Páginas:
288
125,00 €

 

Sinopsis

Presents the components, challenges, and solutions of wireless automation as enablers for industry 4.0

This timely book introduces the state of the art in industrial automation techniques, concentrating on wireless methods for a variety of applications, ranging from simple smart homes to heavy-duty complex industrial setting with robotics accessibility. It covers a wide range of topics including the industrial revolution enablers, applications, challenges, their possible solutions, and future directions.

Wireless Automation as an Enabler for the Next Industrial Revolution opens with an introduction to wireless sensor networks and their applications in various domains, emphasizing industrial wireless networks and their future uses. It then takes a look at life-span extension for sensor networks in the industry, followed by a chapter on multiple access and resource sharing for low latency critical industrial networks. Industrial automation is covered next, as is the subject of ultra reliable low latency communications. Other topics include: self healing in wireless networks; cost efficiency optimization for industrial automation; a non event-based approach for non-intrusive load monitoring; wireless networked control; and caching at the edge in low latency wireless networks. The book finishes with a chapter on the application of terahertz sensing at nano-scale for precision agriculture.

Introduces the future evolving dimension in industrial automation and discusses the enablers of the industrial revolution
Places particular emphasis on wireless communication techniques which make industrial automation reliable, efficient, and cost-effective
Covers many of the associated topics and concepts like robotics, AI, internet-of-things, telesurgery, and remote manufacturing
Of great interest to researchers from academia and industry who are looking at the industrial development from various perspectives
Wireless Automation as an Enabler for the Next Industrial Revolution is an excellent book for telecom engineers, IoT experts, and industry professionals. It would also greatly benefit researchers, professors, and doctorate and postgraduate students involved in automation and industry 4.0.



TABLE OF CONTENTS
List of Contributors xiii

Preface xvii

1 Industrial Wireless Sensor Networks Overview 1
Mohsin Raza and Huan X. Nguyen

1.1 Introduction 1

1.2 Industry 4.0 3

1.3 Industrial Wireless Sensor Networks (IWSNs) 6

1.4 Applications of IWSNs 8

1.4.1 Feedback Control Systems 8

1.4.2 Motion and Robotics 9

1.4.3 Safety Applications 9

1.4.4 Environmental Monitoring 9

1.4.5 Machine/Structural Health Monitoring 10

1.5 Communication Topologies in IWSNs 10

1.6 Research Developments and Communications Standards for Industry 11

1.6.1 IEEE 802.15.4 12

1.6.2 IEEE 802.15.4e 13

1.6.3 Zigbee 13

1.6.4 WirelessHART 14

1.6.5 ISA100.11a 14

1.6.6 6LoWPAN 14

Bibliography 15

2 Life-span Extension for Sensor Networks in the Industry 19
Metin Ozturk, Mona Jaber, and Muhammad A. Imran

2.1 Introduction 19

2.2 Wireless Sensor Networks 21

2.3 Industrial WSNs 24

2.3.1 Requirements and Challenges 25

2.3.2 Protocols and Standards 26

2.3.3 IWSN Applications 27

2.4 Life-span Extension for WSNs 28

2.4.1 Energy Harvesting 29

2.4.1.1 Solar Energy Harvesting 31

2.4.1.2 Wind Energy Harvesting 31

2.4.1.3 Radio Frequency Energy Harvesting 32

2.4.1.4 Piezoelectric Energy Harvesting 32

2.4.1.5 Thermal Energy Harvesting 33

2.4.2 Energy Conservation 33

2.4.2.1 Duty Cycling 34

2.4.2.2 Data Driven Approaches 35

2.4.2.3 Mobility Based Approaches 35

2.4.2.4 Q Learning Assisted Energy Efficient Smart Connectivity 36

2.5 Conclusion 40

Bibliography 41

3 Multiple Access and Resource Sharing for Low Latency Critical Industrial Networks 47
Mohsin Raza, Anas Amjad, and Sajjad Hussain

3.1 Introduction 47

3.2 Research Developments 51

3.2.1 CSMA/CA Based MAC Schemes 53

3.2.2 TDMA Based MAC Schemes 53

3.2.3 Multichannel MAC Schemes 54

3.2.4 Priority Based MAC Schemes 55

3.3 Priority Based Information Scheduling and Transmission 56

3.4 Summary 61

Bibliography 61

4 Narrowband Internet of Things (NB-IoT) for Industrial Automation 65
Hassan Malik, Muhammad Mahtab Alam, Alar Kuusik, Yannick Le Moullec, and Sven Pärand

4.1 Introduction 65

4.2 Overview of NB-IoT 65

4.3 NB-IoT Design Characteristics 68

4.3.1 Low Device Complexity and Low Cost 68

4.3.2 Coverage Enhancement (CE) 70

4.3.3 Long Device Battery Lifetime 70

4.3.4 Massive Device Support 71

4.3.5 Deployment Flexibility 72

4.3.6 Small Data Packet Transmission Support 74

4.3.6.1 Control Plane CIoT EPS Optimization (CP) 74

4.3.6.2 User Plane CIoT EPS Optimization (UP) 76

4.3.7 Multicast Transmission Support 76

4.3.8 Mobility Support 76

4.4 NB-IoT Frame Structure 77

4.4.1 Downlink Transmission Scheme 78

4.4.1.1 Narrowband Reference Signal (NRS) 78

4.4.1.2 Narrowband Primary and Secondary Synchronization Signals (NPSS and NSSS) 78

4.4.1.3 Narrowband Physical Broadcast Channel (NPBCH) 79

4.4.1.4 Narrowband Physical Downlink Control Channel (NPDCCH) 79

4.4.1.5 Narrowband Physical Downlink Shared Channel (NPDSCH) 80

4.4.2 Uplink Transmission Scheme 80

4.4.2.1 Demodulation Reference Signal (DMRS) 80

4.4.2.2 Narrowband Physical Random Access Channel (NPRACH) 81

4.4.2.3 Narrowband Uplink Shared Channel (NPUSCH) 81

4.4.3 NB-IoT Design Modification in Relation to LTE 81

4.5 NB-IoT as an Enabler for Industry 4.0 81

4.5.1 Process Automation 83

4.5.2 Human-Machine Interfaces 84

4.5.3 Logistics and Warehousing 84

4.5.4 Maintenance and Monitoring 85

4.6 Summary 85

Bibliography 86

5 Ultra Reliable Low Latency Communications as an Enabler For Industry Automation 89
João Pedro Battistella Nadas, Guodong Zhao, Richard Demo Souza, and Muhammad A. Imran

5.1 Introduction 89

5.2 Opportunities for URLLC in Industry Automation 91

5.2.1 URLLC Industrial Applications 91

5.2.2 New Business Models 93

5.3 Existing Solutions 94

5.3.1 LTE 94

5.3.2 WirelessHART and ISA100.11a 95

5.4 Enabling Technologies 96

5.4.1 Faster Channel Coding 96

5.4.2 Latency Aware HARQ 97

5.4.3 Joint Design 98

5.4.3.1 Communication Model 100

5.4.3.2 Proposed Solution 100

5.4.3.3 Numerical Results and Conclusion 103

5.5 Conclusion 104

Bibliography 104

6 Anomaly Detection and Self-healing in Industrial Wireless Networks 109
Ahmed Zoha, Qammer H. Abbasi, and Muhammad A. Imran

6.1 Introduction 109

6.2 System Design 113

6.2.1 COD Stage 113

6.2.2 COC Stage 115

6.3 Cell Outage Detection Framework 115

6.3.1 Profiling Phase 115

6.3.1.1 Local Outlier Factor Based Detector (LOFD) 119

6.3.1.2 One-Class Support Vector Machine based Detector (OCSVMD) 120

6.3.2 Detection and Localization Phase 122

6.4 Cell Outag