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Millimeter wave communication systems are poised to play key roles in modern gigabit wireless communication; millimeter wave industrial standards from IEEE, Wireless Gigabit Alliance, European Computer Manufacturers Association, and Wireless High Definition Group are about to emerge. This is the first book to address complete and modern millimeter wave communication systems, covering their key components and explaining the critical issues that influence their performance. The authors, experts in the field of ...
Millimeter wave communication systems are poised to play key roles in modern gigabit wireless communication; millimeter wave industrial standards from IEEE, Wireless Gigabit Alliance, European Computer Manufacturers Association, and Wireless High Definition Group are about to emerge. This is the first book to address complete and modern millimeter wave communication systems, covering their key components and explaining the critical issues that influence their performance. The authors, experts in the field of millimeter wave communications, provide powerful techniques for analyzing real millimeter wave systems, with an emphasis on new transceivers, new antennas, multiple-input multiple-output (MIMO), modulations, beam steering, beam forming, and frequency domain equalization.
Covering the whole system from millimeter wave front-end to digital signal processing, the book reviews up-to-date research results and numerous design methods and analysis for an entire high-speed wireless system. Major topics addressed are:
Millimeter wave characteristics
Modulations for millimeter wave communications
Millimeter wave transceivers
Millimeter wave antennas
Millimeter wave MIMO
Advanced diversity over MIMO channels
Beam steering and beam forming
Single-carrier frequency domain equalization
The authors emphasize the importance and the requirements of high-gain antennas, low-power transceivers, MIMO, modulation, frequency domain equalization, beam steering, and beam forming for gigabit wireless communications. In addition, they discuss new research and patents in transceivers, antennas, MIMO, channel capacity, equalizers, modems, beam steering, and beam forming. The application of these systems is explained in light of different forthcoming wireless standards for V-band and E-band use. Example designs are presented and the analysis of their performance is detailed.
Linking academic research with commercial applications, this practical resource gives wireless communication system professionals, millimeter wave professionals, and project managers the insights they need to reduce design and production costs when integrating these systems. This book is also written for graduate students who are interested in becoming familiar with the modern communication system concept at millimeter wave range.
List of Abbreviations.
1 MILLIMETER WAVE CHARACTERISTICS.
1.1 Millimeter Wave Characteristics.
1.2 Channel Performance at 60 GHz.
1.3 Gigabit Wireless Communications.
1.4 Development of Millimeter Wave Standards.
1.5 Coexistence with Wireless Backhaul.
2 REVIEW OF MODULATIONS FOR MILLIMETER WAVE COMMUNICATIONS.
2.1 On/Off Keying (OOK).
2.2 Phase Shift Keying (PSK).
2.3 Frequency Shift Keying (FSK).
2.4 Quadrature Amplitude Modulation (QAM).
2.5 Orthogonal Frequency Division Multiplexing (OFDM).
3 MILLIMETER WAVE TRANSCEIVERS.
3.1 Millimeter Wave Link Budget.
3.2 Transceiver Architecture.
3.3 Transceiver Without Mixer.
3.4 Receiver Without Local Oscillator.
3.5 Millimeter Wave Calibration.
3.6 Research Trend: Transceiver Siliconization.
4 MILLIMETER WAVE ANTENNAS.
4.1 Path Loss and Antenna Directivity.
4.2 Antenna Beamwidth.
4.3 Maximum Possible Gain-to-Q.
4.5 Beam Steering Antenna.
4.6 Millimeter Wave Design Consideration.
4.7 Production and Manufacture.
5 MILLIMETER WAVE MIMO.
5.1 Spatial Diversity of Antenna Arrays.
5.2 Multiple Antennas.
5.3 Multiple Transceivers.
5.4 Noise Coupling in a MIMO System.
6 ADVANCED DIVERSITY OVER MIMO CHANNELS.
6.1 Potential Benefits for Millimeter Wave Systems.
6.2 Spatial and Temporal Diversity.
6.3 Spatial and Frequency Diversity.
6.4 Dynamic Spatial, Frequency, and Modulation Allocation.
7 ADVANCED BEAM STEERING AND BEAM FORMING.
7.1 The Need for Beam-Steering/Beam-Forming.
7.2 Adaptive Frame Structure.
7.3 Advanced Beam Steering Technology.
7.4 Advanced Antenna ID Technology.
7.5 Advanced Beam Forming Technology.
8 SINGLE-CARRIER FREQUENCY DOMAIN EQUALIZATION.
8.1 Advantages of SC-FDE over OFDM for Millimeter Wave Systems.
8.2 Preamble Design.
8.3 Adaptive Channel Estimation.
8.4 Frequency Domain Equalization.
8.5 Decision Feedback Equalization.
Appendix: Simulation Tools.