Millimeter-wave integrated technologies in the era of the fourth industrial revolution / Wynand Lambrechts, Saurabh Sinha.
Lambrechts, Wynand.; Sinha, S. (Saurabh), 1981-
2021
TK5103.4835
Available Online

Linked e-resources

Linked Resource Online Access
Concurrent users Unlimited
Authorized users Authorized users
Document Delivery Supplied Can lend chapters, not whole ebooks

Details

Title Millimeter-wave integrated technologies in the era of the fourth industrial revolution / Wynand Lambrechts, Saurabh Sinha.
Author Lambrechts, Wynand.
ISBN 9783030504724 (electronic bk.)
3030504727 (electronic bk.)
3030504719
9783030504717
Imprint Cham : Springer, ©2021.
Language English
Description 1 online resource (284 pages)
Call Number TK5103.4835
Dewey Decimal Classification 621.381/3
Summary This peer-reviewed book explores the technologies driving broadband internet connectivity in the fourth industrial revolution (Industry 4.0). It particularly focuses on potential solutions to introduce these technologies in emerging markets and rural areas, regions that typically form part of the digital divide and often have under-developed telecommunications infrastructures, a lack of skilled workers, and geographical restrictions that limit broadband connectivity. Research shows that ubiquitous internet access boosts socio-economic growth through innovations in science and technology, with the common goal of bringing positive change to the lives of individuals. Fifth-generation (5G) networks based on millimeter-wave (mm-wave) frequency information transfer have the potential to provide future-proof, affordable and sustainable broadband connectivity in areas where previous-generation mobile networks were unable to do so. This book discusses the principles of various technologies that enable electronic circuits to operate at mm-wave frequencies. It examines the importance of identifying, describing, and analyzing technology from a purely technological standpoint, but also acknowledges and investigates the challenges and limitations of introducing such technologies in emerging markets. Presenting recent research, the book spearheads participation in Industry 4.0 in these areas.
Note 4 Transceivers for the Fourth Industrial Revolution. Millimeter-Wave Low-Noise Amplifiers and Power Amplifiers
Bibliography, etc. Note Includes bibliographical references.
Access Note Access limited to authorized users.
Source of Description Description based on print version record.
Added Author Sinha, S. (Saurabh), 1981-
Series Lecture notes in electrical engineering ; v. 679.
Available in Other Form Millimeter-Wave Integrated Technologies in the Era of the Fourth Industrial Revolution.
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
All Resources
Intro
Preface
Contents
About the Authors
1 The Role of Millimeter-Wave and 5G in the Fourth Industrial Revolution
1.1 Introduction
1.2 Communication and Information Theory
1.3 The Evolution of Communication
1.3.1 Ancient Communication Evolution
1.3.2 Evolution of Modern Communication
1.4 Fixed Wireless Access Versus Mobile Broadband
1.5 mm-Wave: An Overview
1.5.1 mm-Wave Frequency Principles
1.5.2 mm-Wave Propagation
1.5.3 mm-Wave Integrated Technologies
1.5.4 5G Technical Specifications and Architecture
1.5.5 Service Layer

1.5.6 Management and Orchestration Layer
1.5.7 Control Layer
1.5.8 Multi-domain Network Operating System Facilities
1.5.9 Data Layer
1.6 5G New Radio
1.7 5G Network Slicing
1.8 Aggregation in 5G
1.8.1 Data Aggregation
1.8.2 Network Traffic Aggregation
1.9 5G Spectrum Considerations
1.9.1 mm-Wave Massive IoT Systems
1.10 5G Business Cases and Investor Appetite
1.10.1 The South African 5G Milieu
1.10.2 The North American 5G Milieu
1.10.3 The 5G Milieu in BRICS Nations (Excluding South Africa)
1.10.4 The European 5G Milieu

1.11 Costing Approaches in Unequal Markets
1.12 Conclusion
Appendix 1
Appendix 2
Appendix 3
Appendix 4
References
2 5G and Millimeter-Wave Key Technologies for Emerging Markets to Participate in the Fourth Industrial Revolution
2.1 Introduction
2.2 5G Network Slicing
2.3 5G New Radio Massive MIMO
2.4 Beamforming
2.5 Small Cell Base Stations
2.6 Other Key Enabling Technologies of 5G and mm-Wave
2.6.1 Network Ultra-densification
2.6.2 Mobile Cloud Computing
2.6.3 Scalable Internet-of-Things
2.6.4 Device-to-Device Connectivity with High Mobility

2.6.5 Green Communications (Energy Efficiency)
2.6.6 New Radio Access Techniques
2.7 Conclusion
References
3 Transceivers for the Fourth Industrial Revolution. Millimeter-Wave Frequency Mixers and Oscillators
3.1 Introduction
3.2 Traditional Transceiver Architecture Considerations
3.2.1 Traditional Receivers
3.2.2 Traditional Transmitters
3.3 Transceiver Architecture Considerations in mm-Wave
3.3.1 mm-Wave 5G Receivers
3.3.2 mm-Wave 5G Transmitters
3.4 Frequency Mixers
3.5 Transmitter-Side (Up-Conversion) Mixer Fundamentals

3.6 Receiver-Side (Down-Conversion) Mixer Fundamentals
3.7 Mixer Performance Metrics
3.7.1 Conversion Loss
3.7.2 Isolation
3.7.3 1-dB Compression
3.7.4 Multi-tone Intermodulation Distortion
3.7.5 Noise Figure
3.7.6 Additional Performance Metrics
3.8 CMOS/BiCMOS Mixers for 5G Communication
3.8.1 Down-Conversion Mixers
3.8.2 Up-Conversion Mixers
3.9 Integrated mm-Wave Oscillators
3.9.1 Oscillator Phase Noise
3.9.2 Oscillator Topologies
3.9.3 CMOS mm-Wave Oscillators for 5G Systems
3.10 Conclusion
Appendix 1
References

Browse Subjects

Show more subjects...

Statistics

from
to
Export