A statistical processing approach to interference cancellation in W-CDMA systems

M R Shikh-Bahaei; A H Aghvami; A Ghorashi; N Ali-Akbarian

A statistical processing approach to interference cancellation in W-CDMA systems

M R Shikh-Bahaei, A H Aghvami, A Ghorashi, N Ali-Akbarian

Centre for Telecommunications Research

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

In this paper the application of a linear-quadratic processor is proposed for detection of each user's signal in a direct sequence code division multiple access scheme and, in particular, for W-CDMA systems. In this method, the knowledge of the user of interest, and some statistical knowledge of interfering transmitters' signals are used to detect the desired user's signal without needing exact "a priori" knowledge of the interfering signal parameters such as spreading sequences and signal powers. Parameters of the proposed processor, which are derived so as to maximise the signal-to-interferene-plus-noise ratio (SINR), can generally be obtained by solving a system of linear equations for which many effective techniques exist. A model for this detection procedure is developed and shown-through analytical and numerical results-to offer a good compromise between complexity and quality of performance.

Original language	English
Pages (from-to)	1619 - 1630
Number of pages	12
Journal	IEICE TRANSACTIONS ON COMMUNICATIONS E SERIES B
Volume	E83B
Issue number	8
Publication status	Published - 2000

Cite this

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abstract = "In this paper the application of a linear-quadratic processor is proposed for detection of each user's signal in a direct sequence code division multiple access scheme and, in particular, for W-CDMA systems. In this method, the knowledge of the user of interest, and some statistical knowledge of interfering transmitters' signals are used to detect the desired user's signal without needing exact {"}a priori{"} knowledge of the interfering signal parameters such as spreading sequences and signal powers. Parameters of the proposed processor, which are derived so as to maximise the signal-to-interferene-plus-noise ratio (SINR), can generally be obtained by solving a system of linear equations for which many effective techniques exist. A model for this detection procedure is developed and shown-through analytical and numerical results-to offer a good compromise between complexity and quality of performance.",

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AU - Ghorashi, A

AU - Ali-Akbarian, N

PY - 2000

Y1 - 2000

N2 - In this paper the application of a linear-quadratic processor is proposed for detection of each user's signal in a direct sequence code division multiple access scheme and, in particular, for W-CDMA systems. In this method, the knowledge of the user of interest, and some statistical knowledge of interfering transmitters' signals are used to detect the desired user's signal without needing exact "a priori" knowledge of the interfering signal parameters such as spreading sequences and signal powers. Parameters of the proposed processor, which are derived so as to maximise the signal-to-interferene-plus-noise ratio (SINR), can generally be obtained by solving a system of linear equations for which many effective techniques exist. A model for this detection procedure is developed and shown-through analytical and numerical results-to offer a good compromise between complexity and quality of performance.

AB - In this paper the application of a linear-quadratic processor is proposed for detection of each user's signal in a direct sequence code division multiple access scheme and, in particular, for W-CDMA systems. In this method, the knowledge of the user of interest, and some statistical knowledge of interfering transmitters' signals are used to detect the desired user's signal without needing exact "a priori" knowledge of the interfering signal parameters such as spreading sequences and signal powers. Parameters of the proposed processor, which are derived so as to maximise the signal-to-interferene-plus-noise ratio (SINR), can generally be obtained by solving a system of linear equations for which many effective techniques exist. A model for this detection procedure is developed and shown-through analytical and numerical results-to offer a good compromise between complexity and quality of performance.

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M3 - Article

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JO - IEICE TRANSACTIONS ON COMMUNICATIONS E SERIES B

JF - IEICE TRANSACTIONS ON COMMUNICATIONS E SERIES B

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ER -

A statistical processing approach to interference cancellation in W-CDMA systems

Abstract

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