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MF3 - LiFi and Optical Wireless Applications Session Presider: Dominic O'Brien
1:30-2:45 Salon VIII
MF3.1 -
Optical Wireless Communications in Industrial Production Environments Invited
01:30-02:00
2017-10-02 01:30 2017-10-02 02:00 America/Denver Optical Wireless Communications in Industrial Production Environments We present 6x8 MIMO broadband channel measurements in an industrial manufacturing environment. Motivated by the observation of sudden fades with 10-20 dB due to slight rotations/translational movements and thus line-of-sight blockage, multiple antenna diversity schemes are evaluated in transmission experiments for increased robustness. Hilton Santa Fe Historic Plaza Salon VIII

    P. Wilke Berenguer , Fraunhofer HHI, Berlin, Germany, D. Schulz , Fraunhofer HHI J. Fischer , Fraunhofer HHI V. Jungnickel , Fraunhofer HHI, Berlin, Germany

    We present 6x8 MIMO broadband channel measurements in an industrial manufacturing environment. Motivated by the observation of sudden fades with 10-20 dB due to slight rotations/translational movements and thus line-of-sight blockage, multiple antenna diversity schemes are evaluated in transmission experiments for increased robustness.
MF3.2 -
MEMS-Based Reconfigurable Optical Wireless Networking in Data Centers Invited
02:00-02:30
2017-10-02 02:00 2017-10-02 02:30 America/Denver MEMS-Based Reconfigurable Optical Wireless Networking in Data Centers A flexible wireless Data Center (DC) network based on precise steerable Free Space Optical (FSO) links is described as a promising solution to meet future DC demands of high-throughput, with robustness to dynamic traffic patterns, reducing cabling complexity and increased energy efficiency. Hilton Santa Fe Historic Plaza Salon VIII

    M. KAVEHRAD , EE Professor, STATE COLLEGE, PA, United States

    A flexible wireless Data Center (DC) network based on precise steerable Free Space Optical (FSO) links is described as a promising solution to meet future DC demands of high-throughput, with robustness to dynamic traffic patterns, reducing cabling complexity and increased energy efficiency.
MF3.3 -
An Integrated Indoor Visible Light Communication and Positioning System Based on FBMC-SCM
02:30-02:45
2017-10-02 02:30 2017-10-02 02:45 America/Denver An Integrated Indoor Visible Light Communication and Positioning System Based on FBMC-SCM This paper presents an integrated visible light communication and positioning (VLCP) system using filter bank multicarrier-based subcarrier multiplexing (FBMC-SCM). The proposed VLCP system achieves higher positioning accuracy and better BER performance than the VLCP system employing conventional orthogonal frequency division multiplexing-based subcarrier multiplexing (OFDM-SCM). Hilton Santa Fe Historic Plaza Salon VIII

    W. Zhong , Nanyang Technol. University, Singapore, Singapore, H. Yang , Nanyang Technol. University, Singapore, Singapore C. Chen , Nanyang Technol. University, Singapore, Singapore S. Zhang , Nanyang Technol. University, Singapore, Singapore P. Du , Nanyang Technol. University, Singapore, Singapore

    This paper presents an integrated visible light communication and positioning (VLCP) system using filter bank multicarrier-based subcarrier multiplexing (FBMC-SCM). The proposed VLCP system achieves higher positioning accuracy and better BER performance than the VLCP system employing conventional orthogonal frequency division multiplexing-based subcarrier multiplexing (OFDM-SCM).