Description
Indoor Infrared Optical Wireless Communications
Systems and Integration
Author: Wang Ke
Language: EnglishSubjects for Indoor Infrared Optical Wireless Communications:
Keywords
OWC System; BER Performance; visible light communication system; Silicon Photonic; system architectures; Optical Wireless; indoor infrared optical wireless communications; Optical Interconnects; experimental demonstrations; Beam Steering; Inter-channel Crosstalk; Multipath Dispersion; Photonic Integration Technology; Photonic Integration; Optical Bandpass Filter; Channel Impulse Response; Los Link; VLC System; Silicon Waveguide; DFB Laser; Free Space Optical Interconnects; Transmitter Diversity Schemes; WBAN; Plasma Dispersion Effect; Micro-ring Resonator; Channel Delay; Noise Variance; Orthogonal Filters; Indoor Localization
Publication date: 06-2024
· 15.6x23.4 cm · Paperback
Publication date: 01-2020
· 15.6x23.4 cm · Hardback
Description
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/li>Readership
/li>Biography
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This book aims to give an overview of recent developments in indoor near-infrared optical wireless communication technologies and systems, including basic theories, operating fundamentals, system architectures, modelling, experimental demonstrations, advanced techniques, and most recently, the research efforts towards integrations. Both line-of-sight and diffusive-signals-based options will be reviewed, to provide readers a complete picture about this rapidly developing area, which targets the provision of high-speed wireless connectivity to end- users in indoor environments, such as offices, homes and shopping centres, to satisfy the growing high-speed communication requirement.
- Provides a systematic approach for the fundamentals of indoor optical wireless communications.
- Provides an overview of recent developments in indoor infrared optical wireless communications, including theoretical fundamentals.
- Examines system architectures, modelling, experimental demonstrations, and the research efforts towards integrations.
Dr. Ke Wang is an Australian Research Council (ARC) DECRA Fellow and a senior lecturer in the School of Engineering, Royal Melbourne Institute of Technology (RMIT University), VIC, Australia. He worked with the University of Melbourne, Australia, and Stanford University, California, before joining RMIT University. He has published over 110 peer-reviewed papers in top journals and leading international conferences, including over 20 invited papers. He has been awarded several prestigious national and international awards as recognition of research contributions, such as the Victoria Fellowship, the AIPS Young Tall Poppy Science Award, and the Marconi Society Paul Baran Young Scholar Award. His major areas of interest include: silicon photonics integration, opto-electronics integrated devices and circuits, nanophotonics, optical wireless technology for short-range applications, quasi-passive reconfigurable devices and applications and optical interconnects in data -centres and high-performance computing.
1. Introduction: Optical Wireless Communications. 2. Near-Infrared Indoor Optical Wireless Communications: System Architecture, Principle and Modeling. 3. Spatial Diversity Techniques in Indoor Optical Wireless Communications (OWC) Systems. 4. Wavelength Multiplexing and Multi-User Access in Near-Infrared Indoor Optical Wireless Communications Systems. 5. Photonic Integrations of Near-Infrared Optical Wireless Communications. 6. Indoor Optical Wireless Localization Technology. 7. Conclusions and Future Directions.
Dr. Ke Wang is an Australian Research Council (ARC) DECRA Fellow and Senior Lecturer in the School of Engineering, Royal Melbourne Institute of Technology (RMIT University), VIC, Australia. He worked with The University of Melbourne, Australia, and Stanford University, USA, before joining RMIT University. He has published over 110 peer-reviewed papers in top journals and leading international conferences, including over 20 invited papers. He has been awarded several prestigious national and international awards as recognition of research contributions, such as the Victoria Fellowship, the AIPS Young Tall Poppy Science Award, and the Marconi Society Paul Baran Young Scholar Award. His major areas of interest include: silicon photonics integration, opto-electronics integrated devices and circuits, nanophotonics, optical wireless technology for short-range applications, quasi-passive reconfigurable devices and applications and optical interconnects in data-centres and high-performance computing.