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Wireless AI

Wireless AI
Wireless Sensing, Positioning, IoT, and Communications

$125.00 (P)

  • Publication planned for: November 2019
  • availability: Not yet published - available from November 2019
  • format: Hardback
  • isbn: 9781108497862

$ 125.00 (P)
Hardback

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  • With this groundbreaking text, discover how wireless artificial intelligence (AI) can be used to determine position at centimeter level, sense motion and vital signs, and identify events and people. Using a highly innovative approach that employs existing wireless equipment and signal processing techniques to turn multipaths into virtual antennas, combined with the physical principle of time reversal and machine learning, it covers fundamental theory, extensive experimental results, and real practical use cases developed for products and applications. Topics explored include indoor positioning and tracking, wireless sensing and analytics, wireless power transfer and energy efficiency, 5G and next-generation communications, and the connection of large numbers of heterogeneous IoT devices of various bandwidths and capabilities. Demo videos accompanying the book online enhance understanding of these topics. Providing a unified framework for wireless AI, this is an excellent text for graduate students, researchers, and professionals working in wireless sensing, positioning, IoT, machine learning, signal processing and wireless communications.

    • The first book to explain how wireless artificial intelligence (AI) techniques can be used to determine the position, motion, and identity of objects and people
    • Provides a unified framework for wireless AI
    • Covers theory, experimental results, and applications
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    Product details

    • Publication planned for: November 2019
    • format: Hardback
    • isbn: 9781108497862
    • dimensions: 247 x 174 mm
    • availability: Not yet published - available from November 2019
  • Table of Contents

    1. Principles of time reversal and effective bandwidth
    Part I. Indoor Locationing and Tracking:
    2. Centimeter-accuracy indoor positioning
    3. Multi-antenna approach
    4. Frequency hopping approach
    5. Decimeter-accuracy indoor tracking
    Part II. Wireless Sensing and Analytics:
    6. Wireless events detection
    7. Statistical learning for indoor monitoring
    8. Radio biometrics for human recognition
    9. Vital signs estimation and detection
    10. Wireless motion detection
    11. Device-free Speed estimation
    Part III. Wireless Power Transfer and Energy Efficiency:
    12. Time-reversal for energy efficiency
    13. Power waveforming
    14. Joint power waveforming and beamforming
    Part IV. 5G Communications and Beyond:
    15. Time-reversal division multiple access
    16. Combating strong-weak resonances in TRDMA
    17. Time-reversal massive multipath effect
    18. Waveforming
    19. Spatial focusing effect for networking
    20. Tunnelling effect for cloud radio access network
    Part V. IoT Connections:
    21. Time-reversal for IoT
    22. Heterogeneous connections for IoT.

  • Authors

    K. J. Ray Liu, University of Maryland, College Park
    K. J. Ray Liu is Christine Kim Eminent Professor of Information Technology in the Department of Electrical and Computer Engineering at the University of Maryland, College Park. A Highly Cited Researcher, he is a Fellow of the Institute of Electrical and Electronics Engineers (IEEE) and the American Association for the Advancement of Science (AAAS), IEEE Vice President, Technical Activities, and a former President of the IEEE Signal Processing Society. He is a recipient of the 2016 IEEE Leon K. Kirchmayer Award, the IEEE Signal Processing Society 2014 Society Award, and the IEEE Signal Processing Society 2009 Technical Achievement Award. He has also co-authored several books, including Cooperative Communications and Networking (Cambridge, 2008).

    Beibei Wang, Origin Wireless, Inc., Maryland
    Beibei Wang is Chief Scientist in Wireless at Origin Wireless, Inc., and is also affiliated with the University of Maryland. She has been a recipient of the Outstanding Graduate School Fellowship, the Future Faculty Fellowship, the Dean's Doctoral Research Award from the University of Maryland, and the Overview Paper Award from the IEEE Signal Processing Society in 2015. She has co-authored Cognitive Radio Networking and Security: A Game-Theoretic View with K. J. Ray Liu (Cambridge, 2010).

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