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학술대회 Pulsed Modulation PHY for Power Efficient Optical Wireless Communication
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저자
Malte Hinrichs, Jonas Hilt, Volker Jungnickel, 임상규, 장일순, 정진두, Mohammad Noshad
발행일
201905
출처
International Conference on Communications (ICC) 2019, pp.1-7
DOI
https://dx.doi.org/10.1109/ICC.2019.8761150
협약과제
17PH3100, (세부2) 빌딩?복합건물용 에너지 절감을 위한 실증 기반 LED 시스템조명 상용화 기술 개발, 강태규
초록
Most literature on the physical layer (PHY) for optical wireless communication (OWC) considers the down-link from lighting infrastructure to mobile devices, and focuses on achieving high data rates by combining large bandwidth and high spectral efficiency. However, some applications, such as the corresponding up-link, device-to-device (D2D) communication, and Internet of Things (IoT), rely on energy-efficient transmission due to limited battery power. According to Shannon's theorem, this can be achieved through using a large bandwidth with power-efficient modulation. The IEEE P802.15.13 task group recently defined the pulsed modulation (PM) PHY with these objectives in mind. The key is to enable robust synchronization and header detection by means of binary modulation. Block-based transmission with a cyclic prefix (CP) and frequency domain equalization (FDE) are used to enable a large bandwidth. In this paper, we present a thorough performance evaluation of the PM PHY. It is demonstrated that, by using an advanced synchronization scheme and FDE, packets can reliably be transmitted at clock rates up to 200 MHz over line-of-sight (LOS) and strong multi-path OWC channels considered typical for industrial wireless scenarios.
KSP 제안 키워드
Cyclic prefix(CP), Energy-Efficient Transmission, Frequency domain equalization(FDE), Header detection, High data rate, High spectral efficiency, Industrial wireless, Internet of thing(IoT), Large bandwidth, Line-Of-Sight(LOS), Mobile devices