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학술대회 Directional Path Loss Characteristics of Large Indoor Environments with 28 GHz Measurements
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저자
이주열, 양금위, 박재준, 김명돈
발행일
201508
출처
International Symposium on Personal, Indoor, and Mobile Radio Communication (PIMRC) 2015, pp.2204-2208
DOI
https://dx.doi.org/10.1109/PIMRC.2015.7343663
협약과제
15MR3700, (통합)모바일 빅뱅 시대의 주파수 효율 개선 핵심 기술 개발, 최형도
초록
For 5G communications, millimeter-wave frequency bands are considered strong candidates for new spectra. However, propagation studies in these bands are still in their initial stages. Using 28 GHz measurements collected in railway and airport passenger terminals, this paper investigates path loss characteristics of large indoor environments. In particular, we conducted measurement campaigns in passenger terminals at Seoul Railway Station and Incheon International Airport, which are representative of commercial areas with a dense population. By employing steerable directional antennas, we characterize path loss not only with respect to distance but also with respect to antenna orientation. Directional path loss exhibits near free space propagation characteristics for LOS conditions (path loss exponent is about 2.15-2.17) and a path loss exponent of about 2.68-3.03 for NLOS conditions. From the dependency on antenna orientation, we found the range of azimuthal orientations satisfying a certain power level from the peaks. Consequently, this information provides a tool for determination of the amount of power deviation due to beam mis-alignment.
KSP 제안 키워드
28 GHz, 5G Communication, Antenna orientation, Free Space, Indoor Environment, International airport, Path loss characteristics, Power Levels, Power deviation, Propagation characteristics, Railway station