Evolution of Wireless Communication EcosystemsUnderstand a world transformed by wireless communication with this groundbreaking guide
Since the advent of the internet, few technologies have proven more transformative than wireless communication. Never have we lived in a more comprehensively connected world, with the cloud and the coming sixth generation (6G) of wireless technology creating a vast and interconnected communications infrastructure. Global citizens of this newly interconnected reality are grappling like never before with its many challenges.
Evolution of Wireless Communication Ecosystems provides readers with a history of wireless communication and a thorough overview of emerging frontiers. It traces wireless communication from the first generation through to the current fifth before surveying the current state of wireless technology and the ongoing research into 6G. The result is a book that understands wireless communication for the first time as an ecosystem, endlessly interconnected, growing, and boundlessly complex, but made intelligible by this highly readable introduction.
Readers will also find:
- Detailed explanations of the journey starting from 1G to 6G
- Descriptions the infrastructure of 4G, 5G, and 6G systems, this all-connected communication ecosystem, the sub-components of this ecosystem, and the relationship among them
- Depictions of events seen in the capillaries of the communication echo system that show switching techniques, modulation, and multiplexing techniques
- Coverage of access techniques, protocols, the methods used in M2M and IoT connections at the endpoints, and security issues that show how they are an integral part of wireless communication infrastructure
Evolution of Wireless Communication Ecosystems from 1G to 6G is an essential reference for wireless and telecommunications professionals, as well as researchers interested in 6G or other emerging wireless technologies.
Author(s): Suat Secgin
Series: The ComSoc Guides to Communications Technologies
Publisher: Wiley-IEEE Press
Year: 2023
Language: English
Pages: 346
City: Piscataway
Cover
Title Page
Copyright Page
Contents
About the Author
Preface
List of Abbreviations
Chapter 1 Basc Concepts
1.1 Introduction
1.2 Main Components of Communication Systems
1.3 Circuit, Packet, and Cell Switching
1.3.1 Circuit Switching
1.3.2 Packet Switching
1.3.3 Cell Switching
1.4 Duplexing in Communication
1.5 Historical Developments of Wireless Communication Systems
Reference
Chapter 2 Modulation and Demodulation
2.1 Introduction
2.2 What Are Modulation and Demodulation?
2.3 Analog Modulation Methods
2.3.1 Amplitude Modulation
2.3.2 Frequency Modulation
2.3.3 Phase Modulation
2.4 Digital Modulation Methods
2.4.1 Amplitude Shift Keying (ASK) Modulation
2.4.2 Frequency Shift Keying (FSK) Modulation
2.4.3 Phase Shift Keying (PSK) Modulation
2.4.4 Quadrature Amplitude (QAM) Modulation
References
Chapter 3 Multiplexing Methods
3.1 Introduction
3.2 Frequency Division Multiplexing
3.3 Time Division Multiplexing
3.4 Orthogonal Frequency Division Multiplexing
3.5 Non-Orthogonal Multiple Access
3.6 Wavelength Division Multiplexing
3.7 Code Division Multiplexing
3.8 Spatial Division Multiplexing
3.9 Orbital Angular Momentum Multiplexing
3.10 Polarization Division Multiplexing
References
Chapter 4 Network Performance Metrics
4.1 Introduction
4.2 Spectral Efficiency
4.3 Important Network Performance Metrics
References
Chapter 5 Seven Layers of ISO/OSI
5.1 Introduction
5.2 Application Layer
5.3 Presentation Layer
5.4 Session Layer
5.5 Transport Layer
5.6 Network Layer
5.7 Data Link Layer
5.8 Physical Layer
References
Chapter 6 Cellular Communication and 1G Systems
6.1 Introduction
6.2 A Brief History of Wireless Communication
6.3 Cellular Communication
6.4 1G Systems
References
Chapter 7 2G Systems
7.1 Introduction
7.2 1G and 2G Comparisons
7.3 2G Architecture
7.4 Detailed Infrastructure and 2.5G
References
Chapter 8 3G Systems
8.1 Introduction
8.2 2G and 3G Comparison
8.3 3G Architecture
References
Chapter 9 4G Systems
9.1 Introduction
9.2 Toward 4G
9.3 Services and Servers
9.4 Architectural Structure and Novel Concepts
9.4.1 Architectural Structure
9.4.2 IP Multimedia Subsystem (IMS)
9.5 Voice over LTE (VoLTE)
9.6 Mobile IP
9.7 Multiple Access Techniques
9.7.1 OFDM Access
9.7.2 Single Carrier-FDMA
9.8 Multiple Input-Multiple Output (MIMO) Antenna Systems and SDM Access
9.9 Voice over WiFi (VoWiFi)
References
Chapter 10 5G Systems
10.1 Introduction
10.2 5G Cell Structure
10.3 Topology
10.4 Millimeter Wave
10.5 Network Slicing
10.6 Massive MIMO and Beamforming
10.7 Carrier Aggregation (CA) and Dual Connectivity (DC)
References
Chapter 11 6G Systems
11.1 Introduction
11.2 Network
11.3 Terahertz Communication
11.4 Visible Light Communication
11.5 Satellite Integration
11.6 Cloud Radio Access Network
11.7 Holographic MIMO Surfaces
11.8 Massive Cell-Free MIMO
11.9 Mobile Cloud Computing (MCC)–Mobile Edge Computing (MEC)
11.10 ML, AI, and Blockchain Usage in 6G
11.10.1 Machine Learning
11.10.2 Blockchain
11.11 Quantum Computing in Future Wireless Networks
11.12 5G Concepts in 6G (eMBB, uRLLC, and mMTC)
11.13 6G Use Cases
11.13.1 Virtual, Augmented, and Mixed Reality
11.13.2 Rural Areas/Depopulated Areas
11.13.3 Nonterrestrial Communication
11.13.4 Underwater Wireless Communications Systems
11.13.5 Super Smart Society
11.13.6 Holographic Telepresence
11.14 Comparison of 5G and 6G Network Architectures
References
Chapter 12 Internet of Things (IoT)
12.1 Introduction
12.2 IoT Vision
12.3 Architecture and Communication Model
References
Chapter 13 Non-IP-Based WPAN Technologies
13.1 Introduction
13.2 802.15 Standards
13.3 Radio Frequency Identification
13.4 Near-Field Communication
13.5 Infrared Data Association
13.6 Bluetooth
13.7 Zigbee
13.8 Z-Wave
13.9 Power Line Communication
References
Chapter 14 IP-Based WPAN and WLAN
14.1 Introduction
14.2 HaLow WiFi (Low-Power WiFi)
14.3 ISA 100.11a Wireless
14.4 Wireless Highway Addressable Remote Transducer Protocol (HART)
14.5 Wireless Networks for Industrial Automation-Process Automation (WIA-PA)
14.6 6LoWPAN
14.7 WPAN with IP Thread
References
Chapter 15 Low-Power Wide-Area Networks
15.1 Introduction
15.2 General Architecture
15.3 EC-GSM-IoT
15.4 Random Phase Multiple Access
15.5 DASH7
15.6 Long-Term Evolution for Machines
15.7 Narrowband IoT
15.8 Massive IoT
15.9 IoTivity
15.10 LoRa and LoRaWAN
15.11 Sigfox
References
Chapter 16 IoT Edge to Cloud Protocols
16.1 Introduction
16.2 Message Queue Telemetry Transport Protocol
16.3 MQTT over WebSockets
16.4 MQTT for Sensor Networks
16.5 Constrained Application Protocol
16.6 Embedded Binary HTTP
16.7 Lean Transport Protocol
16.8 Advanced Message Queuing Protocol
16.9 Data Distribution Service
16.10 Simple Text-Oriented Messaging Protocol
16.11 Extensible Messaging and Presence Protocol
16.12 Lightweight M2M
16.13 Health Device Profile Protocol (Continua HDP)
16.14 Devices Profile for Web Services
16.15 Protocol Comparisons
References
Chapter 17 Popular Operating Systems of IoT
17.1 Introduction
17.2 OpenWSN
17.3 TinyOS
17.4 FreeRTOS
17.5 TI-RTOS
17.6 RIOT
17.7 Contiki OS
References
Chapter 18 IoT Security
18.1 Introduction
18.2 Limitations in IoT End Devices
18.3 Security Requirements
18.4 Attack Types and Points
References
Chapter 19 IoT Applications
19.1 Introduction
19.2 Tactile Internet
19.3 Waste Management
19.4 Healthcare
19.5 Smart Agriculture and Smart Water Supply
19.6 Web of Things (WoT)
References
Index
The ComSoc Guides to Communications Technologies
EULA
