Analysis and results for the orthogonality factor in WCDMA downlinks

The presence of multipaths leads to a loss of orthogonality between signals transmitted simultaneously on a wideband code-division multiple access (WCDMA) downlink. We derive general analytical expressions for the orthogonality factor (OF), which quantifies this loss of orthogonality, as a function...

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Veröffentlicht in:	IEEE transactions on wireless communications 2003-11, Vol.2 (6), p.1138-1149
Hauptverfasser:	Mehta, N.B., Greenstein, L.J., Willis, T.M., Kostic, Z.
Format:	Artikel
Sprache:	eng
Schlagworte:	Channels Downlink Fading Fingers Interference Mathematical analysis Multiaccess communication Multipath channels Multiple access Orthogonality Pulse shaping methods Shape Statistics Studies Temporal logic Wideband
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container_title	IEEE transactions on wireless communications
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creator	Mehta, N.B. Greenstein, L.J. Willis, T.M. Kostic, Z.
description	The presence of multipaths leads to a loss of orthogonality between signals transmitted simultaneously on a wideband code-division multiple access (WCDMA) downlink. We derive general analytical expressions for the orthogonality factor (OF), which quantifies this loss of orthogonality, as a function of the instantaneous multipath fade realization of the channel. We show that the OF exhibits a significant temporal variation for the three channel profiles suggested in the WCDMA standard, namely, typical urban and rural areas and hilly terrain, which span a wide range of realistic cases. Moreover, its temporal variations and statistics vary significantly from one channel profile to another. Also, while the pulse shape and the number of RAKE fingers has only a marginal impact on the OF's statistics, the granularity in setting the finger positions has a considerable impact. The results of the work can be directly used for evaluation of the system performance of WCDMA cellular systems.
doi_str_mv	10.1109/TWC.2003.816801
format	Article
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We derive general analytical expressions for the orthogonality factor (OF), which quantifies this loss of orthogonality, as a function of the instantaneous multipath fade realization of the channel. We show that the OF exhibits a significant temporal variation for the three channel profiles suggested in the WCDMA standard, namely, typical urban and rural areas and hilly terrain, which span a wide range of realistic cases. Moreover, its temporal variations and statistics vary significantly from one channel profile to another. Also, while the pulse shape and the number of RAKE fingers has only a marginal impact on the OF's statistics, the granularity in setting the finger positions has a considerable impact. 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We derive general analytical expressions for the orthogonality factor (OF), which quantifies this loss of orthogonality, as a function of the instantaneous multipath fade realization of the channel. We show that the OF exhibits a significant temporal variation for the three channel profiles suggested in the WCDMA standard, namely, typical urban and rural areas and hilly terrain, which span a wide range of realistic cases. Moreover, its temporal variations and statistics vary significantly from one channel profile to another. Also, while the pulse shape and the number of RAKE fingers has only a marginal impact on the OF's statistics, the granularity in setting the finger positions has a considerable impact. 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subjects	Channels Downlink Fading Fingers Interference Mathematical analysis Multiaccess communication Multipath channels Multiple access Orthogonality Pulse shaping methods Shape Statistics Studies Temporal logic Wideband
title	Analysis and results for the orthogonality factor in WCDMA downlinks
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