Iterative overlap TD-QRM-ML block signal detection for single-carrier transmission without CP insertion

Hideyuki Moroga; Tetsuya Yamamoto; Fumiyuki Adachi

doi:10.1109/VTCFall.2012.6399053

Iterative overlap TD-QRM-ML block signal detection for single-carrier transmission without CP insertion

Hideyuki Moroga, Tetsuya Yamamoto, Fumiyuki Adachi

IRIDeS - Resilient EICT Research Promotion Office

Tohoku University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

8 Citations (Scopus)

Abstract

A time-domain maximum likelihood block signal detection employing QR decomposition and M-algorithm (TD-QRM-MLBD) is a computationally efficient near ML detection scheme and can significantly improve the bit error rate (BER) performance of the single-carrier (SC) transmissions in a frequency-selective fading channel, compared to the conventional minimum mean square error based frequency-domain equalization (MMSE-FDE). In TD-QRM-MLBD, the cyclic prefix (CP) is inserted in order to avoid inter-block interference (IBI). However, the CP insertion reduces the transmission efficiency. In this paper, we propose an iterative overlap TD-QRM-MLBD which requires no CP insertion. We evaluate the throughput performance of iterative overlap TD-QRM-MLBD by computer simulation to compare it with the conventional TD-QRM-MLBD with CP insertion.

Original language	English
Title of host publication	2012 IEEE Vehicular Technology Conference, VTC Fall 2012 - Proceedings
DOIs	https://doi.org/10.1109/VTCFall.2012.6399053
Publication status	Published - 2012
Event	76th IEEE Vehicular Technology Conference, VTC Fall 2012 - Quebec City, QC, Canada Duration: 2012 Sept 3 → 2012 Sept 6

Publication series

Name	IEEE Vehicular Technology Conference
ISSN (Print)	1550-2252

Conference

Conference	76th IEEE Vehicular Technology Conference, VTC Fall 2012
Country/Territory	Canada
City	Quebec City, QC
Period	12/9/3 → 12/9/6

Keywords

Component
No cyclix prefix
QRM-MLBD
Single-carrier
Timedomain signal detection

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10.1109/VTCFall.2012.6399053

Cite this

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abstract = "A time-domain maximum likelihood block signal detection employing QR decomposition and M-algorithm (TD-QRM-MLBD) is a computationally efficient near ML detection scheme and can significantly improve the bit error rate (BER) performance of the single-carrier (SC) transmissions in a frequency-selective fading channel, compared to the conventional minimum mean square error based frequency-domain equalization (MMSE-FDE). In TD-QRM-MLBD, the cyclic prefix (CP) is inserted in order to avoid inter-block interference (IBI). However, the CP insertion reduces the transmission efficiency. In this paper, we propose an iterative overlap TD-QRM-MLBD which requires no CP insertion. We evaluate the throughput performance of iterative overlap TD-QRM-MLBD by computer simulation to compare it with the conventional TD-QRM-MLBD with CP insertion.",

keywords = "Component, No cyclix prefix, QRM-MLBD, Single-carrier, Timedomain signal detection",

author = "Hideyuki Moroga and Tetsuya Yamamoto and Fumiyuki Adachi",

year = "2012",

doi = "10.1109/VTCFall.2012.6399053",

language = "English",

isbn = "9781467318815",

series = "IEEE Vehicular Technology Conference",

booktitle = "2012 IEEE Vehicular Technology Conference, VTC Fall 2012 - Proceedings",

note = "76th IEEE Vehicular Technology Conference, VTC Fall 2012 ; Conference date: 03-09-2012 Through 06-09-2012",

}

Moroga, H, Yamamoto, T & Adachi, F 2012, Iterative overlap TD-QRM-ML block signal detection for single-carrier transmission without CP insertion. in 2012 IEEE Vehicular Technology Conference, VTC Fall 2012 - Proceedings., 6399053, IEEE Vehicular Technology Conference, 76th IEEE Vehicular Technology Conference, VTC Fall 2012, Quebec City, QC, Canada, 12/9/3. https://doi.org/10.1109/VTCFall.2012.6399053

Iterative overlap TD-QRM-ML block signal detection for single-carrier transmission without CP insertion. / Moroga, Hideyuki; Yamamoto, Tetsuya; Adachi, Fumiyuki.
2012 IEEE Vehicular Technology Conference, VTC Fall 2012 - Proceedings. 2012. 6399053 (IEEE Vehicular Technology Conference).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Adachi, Fumiyuki

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N2 - A time-domain maximum likelihood block signal detection employing QR decomposition and M-algorithm (TD-QRM-MLBD) is a computationally efficient near ML detection scheme and can significantly improve the bit error rate (BER) performance of the single-carrier (SC) transmissions in a frequency-selective fading channel, compared to the conventional minimum mean square error based frequency-domain equalization (MMSE-FDE). In TD-QRM-MLBD, the cyclic prefix (CP) is inserted in order to avoid inter-block interference (IBI). However, the CP insertion reduces the transmission efficiency. In this paper, we propose an iterative overlap TD-QRM-MLBD which requires no CP insertion. We evaluate the throughput performance of iterative overlap TD-QRM-MLBD by computer simulation to compare it with the conventional TD-QRM-MLBD with CP insertion.

AB - A time-domain maximum likelihood block signal detection employing QR decomposition and M-algorithm (TD-QRM-MLBD) is a computationally efficient near ML detection scheme and can significantly improve the bit error rate (BER) performance of the single-carrier (SC) transmissions in a frequency-selective fading channel, compared to the conventional minimum mean square error based frequency-domain equalization (MMSE-FDE). In TD-QRM-MLBD, the cyclic prefix (CP) is inserted in order to avoid inter-block interference (IBI). However, the CP insertion reduces the transmission efficiency. In this paper, we propose an iterative overlap TD-QRM-MLBD which requires no CP insertion. We evaluate the throughput performance of iterative overlap TD-QRM-MLBD by computer simulation to compare it with the conventional TD-QRM-MLBD with CP insertion.

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KW - Single-carrier

KW - Timedomain signal detection

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Iterative overlap TD-QRM-ML block signal detection for single-carrier transmission without CP insertion

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Keywords

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