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학술지 Superresolution TOA Estimation With Computational Load Reduction
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저자
전남열, 이한별, 박찬국, 조성윤, 김성철
발행일
201010
출처
IEEE Transactions on Vehicular Technology, v.59 no.8, pp.4139-4144
ISSN
0018-9545
출판사
IEEE
DOI
https://dx.doi.org/10.1109/TVT.2010.2063044
협약과제
11DC1100, UWB 기반 휴대용 피아식별/병사통신 시스템 개발, 조성윤
초록
Although the superresolution multipath delay profile (MDP) estimation technique enhances the time resolution of a low-resolution MDP by using matrix computations, the computational load for the matrix computations is a problem, because it drastically increases with the length of the MDP. Because positioning systems require the time of arrival (TOA) of the first path only, it is possible to reduce the computational load by applying the matrix computations only to the part of the MDP that is narrowed but still includes the TOA of the first path. This paper proposes a scheme for determining the observation window of MDP from the low-resolution TOA estimates, which are obtained from the MDPs produced by the pseudonoise correlation method. The proposed scheme makes use of the random nature of the low-resolution TOA estimates to further reduce the observation window. The computational efficiency and estimation accuracy of the proposed scheme are examined by channel simulations based on the Saleh-Valenzuela indoor channel model and are also compared with the computational efficiency and estimation accuracy of the conventional superresolution technique without the observation window reduction. © 2006 IEEE.
키워드
Computational efficiency, indoor positioning, superresolution time-of-arrival (TOA) estimation
KSP 제안 키워드
Computational Efficiency, Correlation Method, Estimation Technique, Estimation accuracy, Indoor Positioning, Load Reduction, Observation Window, Time resolution, ToA estimation, computational load, indoor channel model