Multisampling decision-feedback linear prediction receivers for differential space-time modulation over Rayleigh fast-fading channels

Novel decision-feedback (DF) linear prediction (LP) receivers, which process multiple samples per symbol interval in conjunction with optimal sample combining, are proposed for differential space-time modulation (DSTM) over Rayleigh fast-fading channels. Performance analysis demonstrates that multis...

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Veröffentlicht in:	IEEE transactions on communications 2003-07, Vol.51 (7), p.1214-1223
Hauptverfasser:	Cong Ling, Kwok Hung Li, Kot, A.C., Zhang, Q.T.
Format:	Artikel
Sprache:	eng
Schlagworte:	Bit error rate Channels Differential quadrature phase shift keying Diversity reception Fading Linear prediction Modulation Performance analysis Phase modulation Rayleigh channels Receivers Samples Sampling methods Signal to noise ratio Statistical analysis Statistical methods Statistics
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container_title	IEEE transactions on communications
container_volume	51
creator	Cong Ling Kwok Hung Li Kot, A.C. Zhang, Q.T.
description	Novel decision-feedback (DF) linear prediction (LP) receivers, which process multiple samples per symbol interval in conjunction with optimal sample combining, are proposed for differential space-time modulation (DSTM) over Rayleigh fast-fading channels. Performance analysis demonstrates that multisampling DF-LP receivers outperform their symbol-rate sampling counterpart in fast fading substantially. In addition, an asymptotically tight upper bound on the pairwise error probability is derived. In view of this bound, the design criterion of DSTM for fast fading is the same as that for block-wise static fading. To avoid the estimation of the second-order statistics of the channel, a polynomial-model-based DF-LP receiver is proposed. It can approach the performance of the optimum DF-LP receiver at high signal-to noise ratios, provided fading is moderate.
doi_str_mv	10.1109/TCOMM.2003.814213
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Performance analysis demonstrates that multisampling DF-LP receivers outperform their symbol-rate sampling counterpart in fast fading substantially. In addition, an asymptotically tight upper bound on the pairwise error probability is derived. In view of this bound, the design criterion of DSTM for fast fading is the same as that for block-wise static fading. To avoid the estimation of the second-order statistics of the channel, a polynomial-model-based DF-LP receiver is proposed. 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Performance analysis demonstrates that multisampling DF-LP receivers outperform their symbol-rate sampling counterpart in fast fading substantially. In addition, an asymptotically tight upper bound on the pairwise error probability is derived. In view of this bound, the design criterion of DSTM for fast fading is the same as that for block-wise static fading. To avoid the estimation of the second-order statistics of the channel, a polynomial-model-based DF-LP receiver is proposed. It can approach the performance of the optimum DF-LP receiver at high signal-to noise ratios, provided fading is moderate.</description><subject>Bit error rate</subject><subject>Channels</subject><subject>Differential quadrature phase shift keying</subject><subject>Diversity reception</subject><subject>Fading</subject><subject>Linear prediction</subject><subject>Modulation</subject><subject>Performance analysis</subject><subject>Phase modulation</subject><subject>Rayleigh channels</subject><subject>Receivers</subject><subject>Samples</subject><subject>Sampling methods</subject><subject>Signal to noise ratio</subject><subject>Statistical analysis</subject><subject>Statistical methods</subject><subject>Statistics</subject><issn>0090-6778</issn><issn>1558-0857</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2003</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNp9kctqHDEQRUWIIRMnHxCyEVnEq56UpO6WehmGvMCDwThrUaMu2XLUj0jdAX9A_tsaTyCQRVYFVedW3eIy9kbAVgjoPtzsrvb7rQRQWyNqKdQzthFNYyowjX7ONgAdVK3W5gV7mfM9ANSg1Ib93q9xCRmHOYbxlvfkQg7TWHmi_oDuBy9twsTnRH1wSxnxRI7CL0qZ-ynxPnhPicYlYOR5RkfVEgbiw9SvEZ8EU4H5NT5ECrd33GNeKo_98Zy7w3GkmF-xM48x0-s_9Zx9__zpZve1urz68m338bJyqlFFBai7pqk7qVrSCK0-1EKrnqjTDXWq0-CgPsheaNBGawG-ldQ4MBpbNKDO2cVp75ymnyvlxQ4hO4oRR5rWbDsQrZFKykK-_y8pjSpOZFvAd_-A99OaxvKFNaZWdTF-hMQJcmnKOZG3cwoDpgcrwB7zs0_52WN-9pRf0bw9aQIR_eWlqMta9Qjj_Jgf</recordid><startdate>20030701</startdate><enddate>20030701</enddate><creator>Cong Ling</creator><creator>Kwok Hung Li</creator><creator>Kot, A.C.</creator><creator>Zhang, Q.T.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Performance analysis demonstrates that multisampling DF-LP receivers outperform their symbol-rate sampling counterpart in fast fading substantially. In addition, an asymptotically tight upper bound on the pairwise error probability is derived. In view of this bound, the design criterion of DSTM for fast fading is the same as that for block-wise static fading. To avoid the estimation of the second-order statistics of the channel, a polynomial-model-based DF-LP receiver is proposed. It can approach the performance of the optimum DF-LP receiver at high signal-to noise ratios, provided fading is moderate.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TCOMM.2003.814213</doi><tpages>10</tpages></addata></record>
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subjects	Bit error rate Channels Differential quadrature phase shift keying Diversity reception Fading Linear prediction Modulation Performance analysis Phase modulation Rayleigh channels Receivers Samples Sampling methods Signal to noise ratio Statistical analysis Statistical methods Statistics
title	Multisampling decision-feedback linear prediction receivers for differential space-time modulation over Rayleigh fast-fading channels
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