Efficient FFT-based Circulant Embedding Method and Subspace Algorithms for Wideband Single-carrier Equalization

Guan, R; Strohmer, T

Efficient FFT-based Circulant Embedding Method and Subspace Algorithms for Wideband Single-carrier Equalization

Guan, R Strohmer, T

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Publication Type:: Conference
Issue Date:: 2007-03-12T22:05:26Z

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Field	Value	Language
dc.contributor.author	Guan, R	en_AU
dc.contributor.author	Strohmer, T	en_AU
dc.date.accessioned	2007-03-12T22:05:26Z
dc.date.accessioned	2012-12-15T02:29:43Z
dc.date.available	2007-03-12T22:05:26Z
dc.date.available	2012-12-15T02:29:43Z
dc.date.issued	2007-03-12T22:05:26Z
dc.identifier.uri	http://hdl.handle.net/10453/19666
dc.description.abstract	In single-carrier transmission systems, wider bandwidth allows higher data rate by transmitting narrower pulses. For wireless applications, however, this means that the effective channel response is longer and the number of significant taps increases. This results in higher computational burden at the receiver. In this paper, we first review some well-known equalization methods and their shortcomings. Then we will propose the use of the circulant embedding method and the CG algorithm as efficient equalizers that are specifically well suited in dealing with long delay spread channels. These methods take advantage of the low computational complexity of the FFT algorithm, resulting in the same overall computational complexity of N log(N). Furthermore, when the CG algorithm is used correctly, it may perform better than the MMSE equalizer at a much lower cost	en_AU
dc.format.extent	198319 bytes
dc.format.mimetype	application/pdf
dc.language.iso	en_AU
dc.relation.replaces	http://hdl.handle.net/2100/62
dc.title	Efficient FFT-based Circulant Embedding Method and Subspace Algorithms for Wideband Single-carrier Equalization	en_AU
dc.type	Conference
utslib.copyright.status	open_access

Abstract:

In single-carrier transmission systems, wider bandwidth allows higher data rate by transmitting narrower pulses. For wireless applications, however, this means that the effective channel response is longer and the number of significant taps increases. This results in higher computational burden at the receiver. In this paper, we first review some well-known equalization methods and their shortcomings. Then we will propose the use of the circulant embedding method and the CG algorithm as efficient equalizers that are specifically well suited in dealing with long delay spread channels. These methods take advantage of the low computational complexity of the FFT algorithm, resulting in the same overall computational complexity of N log(N). Furthermore, when the CG algorithm is used correctly, it may perform better than the MMSE equalizer at a much lower cost

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http://hdl.handle.net/10453/19666