Fundamentals of IoT and Wearable Technology Design
(Sprache: Englisch)
Explore this indispensable guide covering the fundamentals of IOT and wearable devices from a leading voice in the field
Fundamentals of IoT and Wearable Technology Design delivers a comprehensive exploration of the foundations of the Internet of...
Fundamentals of IoT and Wearable Technology Design delivers a comprehensive exploration of the foundations of the Internet of...
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Klappentext zu „Fundamentals of IoT and Wearable Technology Design “
Explore this indispensable guide covering the fundamentals of IOT and wearable devices from a leading voice in the fieldFundamentals of IoT and Wearable Technology Design delivers a comprehensive exploration of the foundations of the Internet of Things (IoT) and wearable technology. Throughout the textbook, the focus is on IoT and wearable technology and their applications, including mobile health, environment, home automation, and smart living. Readers will learn about the most recent developments in the design and prototyping of these devices.
This interdisciplinary work combines technical concepts from electrical, mechanical, biomedical, computer, and industrial engineering, all of which are used in the design and manufacture of IoT and wearable devices. Fundamentals of IoT and Wearable Technology Design thoroughly investigates the foundational characteristics, architectural aspects, and practical considerations, while offering readers detailed and systematic design and prototyping processes of typical use cases representing IoT and wearable technology.
Later chapters discuss crucial issues, including PCB design, cloud and edge topologies, privacy and health concerns, and regulatory policies. Readers will also benefit from the inclusion of:
* A thorough introduction to the applications of IoT and wearable technology, including biomedicine and healthcare, fitness and wellbeing, sports, home automation, and more
* Discussions of wearable components and technologies, including microcontrollers and microprocessors, sensors, actuators and communication modules
* An exploration of the characteristics and basics of the communication protocols and technologies used in IoT and wearable devices
* An overview of the most important security challenges, threats, attacks and vulnerabilities faced by IoT and wearable devices along with potential solutions
Perfect for research and development scientists working in the wearable technology
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and Internet of Things spaces, Fundamentals of IoT and Wearable Technology Design will also earn a place in the libraries of undergraduate and graduate students studying wearable technology and IoT, as well as professors and practicing technologists in the area.
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Inhaltsverzeichnis zu „Fundamentals of IoT and Wearable Technology Design “
About the Author xvPreface xvii
Acknowledgment xxi
1 Introduction and Historical Background 1
1.1 Introduction 1
1.1.1 IoT and Wearables Market Size 2
1.1.2 The World of IoT and Wearables 2
1.1.2.1 What Is an IoT Device? 3
1.1.2.2 Characteristics of IoT Systems 3
1.1.2.3 What Exactly Is a Wearable Device? 4
1.1.2.4 Characteristics of Wearable Devices 7
1.1.2.5 IoT vs. M2M 7
1.1.2.6 IoT vs. Wearables 8
1.1.3 IoT: Historical Background 10
1.1.4 Wearable Technology: Historical Background 12
1.1.4.1 The Wearables We Know Today 15
1.1.5 Challenges 19
1.1.5.1 Security 19
1.1.5.2 Privacy 20
1.1.5.3 Standards and Regulations 21
1.1.5.4 Energy and Power Issues 21
1.1.5.5 Connectivity 22
1.2 Conclusion 22
Problems 22
Interview Questions 23
Further Reading 24
2 Applications 27
2.1 Introduction 27
2.2 IoT and Wearable Technology Enabled Applications 27
2.2.1 Health care 27
2.2.2 Fitness and Well-being 29
2.2.3 Sports 30
2.2.4 Entertainment and Gaming 31
2.2.5 Pets 32
2.2.6 Military and Public Safety 33
2.2.7 Travel and Tourism 34
2.2.8 Aerospace 34
2.2.9 Education 35
2.2.10 Fashion 36
2.2.11 Business, Retail, and Logistics 36
2.2.12 Industry 37
2.2.12.1 The Industrial Internet of Things (IIoT) 37
2.2.13 Home Automation and Smart Living 38
2.2.14 Smart Grids 39
2.2.15 Environment and Agriculture 40
2.2.16 Novel and Unusual Applications 41
2.3 Smart Cities 42
2.4 Internet of Vehicles (IoV) 44
2.5 Conclusion 44
Problems 45
Interview Questions 46
Further Reading 46
3 Architectures 53
3.1 Introduction
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53
3.2 IoT and Wearable Technology Architectures 54
3.2.1 Introduction 54
3.2.1.1 The Motivations Behind New Architectures 54
3.2.1.2 Edge Computing 56
3.2.1.3 Cloud, Fog, and Mist 57
3.2.2 IoT Architectures 59
3.2.2.1 The OSI Model 60
3.2.2.2 Why Does the OSI Model Matter? 60
3.2.2.3 Data Flow Across the OSI Model 62
3.2.2.4 Common IoT Architectures 62
3.2.2.5 Layer 1: Perception and Actuation (Sensors and Actuators) 67
3.2.2.6 Layer 2: Data Conditioning and Linking (Aggregation, Digitization, and Forwarding) 67
3.2.2.7 Layer 3: Network Transport (Preprocessing, Preliminary Analytics, and Routing) 68
3.2.2.8 Layer 4: Application (Analytics, Control, and Archiving) 69
3.2.3 Wearable Device Architecture 69
3.3 Conclusion 70
Problems 71
Technical Interview Questions 72
Further Reading 72
4 Hardware 77
4.1 Introduction 77
4.2 Hardware Components Inside IoT and Wearable Devices 77
4.2.1 Sensors 78
4.2.1.1 Sensor Properties 79
4.2.1.2 MEMS Sensors 80
4.2.1.3 Commonly Used Sensors in IoT and Wearable Devices 81
4.2.1.4 Wireless Sensors 83
4.2.1.5 Multisensor Modules 84
4.2.1.6 Signal Conditioning for Sensors 85
4.2.2 Actuators 85
4.2.3 Microcontrollers, Microprocessors, SoC, and Development Boards 86
4.2.3.1 Selecting the Right Processing Unit for Your IoT or Wearable Device 89
4.2.4 Wireless Connectivity Unit 90
4.2.5 Battery Technology 91
3.2 IoT and Wearable Technology Architectures 54
3.2.1 Introduction 54
3.2.1.1 The Motivations Behind New Architectures 54
3.2.1.2 Edge Computing 56
3.2.1.3 Cloud, Fog, and Mist 57
3.2.2 IoT Architectures 59
3.2.2.1 The OSI Model 60
3.2.2.2 Why Does the OSI Model Matter? 60
3.2.2.3 Data Flow Across the OSI Model 62
3.2.2.4 Common IoT Architectures 62
3.2.2.5 Layer 1: Perception and Actuation (Sensors and Actuators) 67
3.2.2.6 Layer 2: Data Conditioning and Linking (Aggregation, Digitization, and Forwarding) 67
3.2.2.7 Layer 3: Network Transport (Preprocessing, Preliminary Analytics, and Routing) 68
3.2.2.8 Layer 4: Application (Analytics, Control, and Archiving) 69
3.2.3 Wearable Device Architecture 69
3.3 Conclusion 70
Problems 71
Technical Interview Questions 72
Further Reading 72
4 Hardware 77
4.1 Introduction 77
4.2 Hardware Components Inside IoT and Wearable Devices 77
4.2.1 Sensors 78
4.2.1.1 Sensor Properties 79
4.2.1.2 MEMS Sensors 80
4.2.1.3 Commonly Used Sensors in IoT and Wearable Devices 81
4.2.1.4 Wireless Sensors 83
4.2.1.5 Multisensor Modules 84
4.2.1.6 Signal Conditioning for Sensors 85
4.2.2 Actuators 85
4.2.3 Microcontrollers, Microprocessors, SoC, and Development Boards 86
4.2.3.1 Selecting the Right Processing Unit for Your IoT or Wearable Device 89
4.2.4 Wireless Connectivity Unit 90
4.2.5 Battery Technology 91
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Autoren-Porträt von Haider Raad
HAIDER RAAD, PhD, is Associate Professor of Engineering Physics and the Director of the Engineering Physics Program in the Department of Physics at Xavier University. He is the Director of Xavier Wearable Electronics Research Center.
Bibliographische Angaben
- Autor: Haider Raad
- 2021, 1. Auflage, 304 Seiten, Maße: 15,5 x 23,8 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1119617537
- ISBN-13: 9781119617532
Sprache:
Englisch
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