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학술지 Effect of LED Emission Cross-Section in Indoor Visible Light Communication Systems
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저자
Huy Quang Nguyen, 최준호, 강태규, 임상규, 김대호, 강문수, 이충규
발행일
201209
출처
EURASIP Journal on Wireless Communications and Networking, v.2012, pp.1-11
ISSN
1687-1499
출판사
Hindawi Publishing, Springer
DOI
https://dx.doi.org/10.1186/1687-1499-2012-286
협약과제
12VC1200, 조명 디밍(dimming) 및 무선통신이 동시에 가능한 가시광통신(VLC) 기술 및 550mA급 130나노 스위칭 기술 융합형 VLC-LED 조명 모듈 개발, 강태규
초록
Visible light communication (VLC) is an optical wireless communication technology that uses visible light emitting diodes (LEDs) as a communication source. Since the LEDs are also used for illumination, the cross-section emission effects of the LEDs need to be analyzed as they apply to indoor VLC channels. In order to evaluate the illumination and communication performance according to the emission cross-section pattern a simple LED model with a quasi-elliptic emission cross-section is proposed and compared to a circular LED model. The spatial distributions of the received optical power and root mean square delay spread are analyzed through calculation and comparison. The LEDs with a quasi-elliptic emission cross-section provide less fluctuation in the illumination and optical power distribution at the receiving plane. However, the RMS delay spread increases and subsequently the maximum data rate decreases for the quasi-elliptic emission cross-section LEDs. The single transmitter VLC system is found to support at least 17 and 24 Mb/s for circular and quasi-elliptic emission cross-section LEDs for the entire receiving plane, respectively. The four-transmitter VLC system is found to support at least at 30 and 33 Mb/s for circular and quasi-elliptic emission cross-section LEDs for the entire receiving plane, respectively. © 2012 Nguyen et al.; licensee Springer licensee InTech.
키워드
Light-emitting diodes; Illuminations, Optical communication, Optical wireless, Visible light communication
KSP 제안 키워드
Communication performance, Communication system, Emission cross-section, LED model, Maximum data rate, Optical Wireless Communications(OWC), Optical power distribution, Rms delay spread, Root mean square(RMS), Root-mean-square delay spread, Spatial distribution