A joint adaptive MMSE downlink receiver

Iain Stirling, Daniel Garcia-Alis, Stephan Weiss, Garrey Rice, Robert Stewart

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

Abstract

We present three joint adaptive mean squared error receiver structures for a time division duplex down-link scenario in which a single mobile station is allocated several code-multiplexed channels. The first structure is a bank of single channel MMSE receivers. The second is composed of an equaliser common to all the received channels and a bank of matched filters for despreading. The equaliser can be updated using a multiple-error filtered-X LMS algorithm. The final proposed structure features both an equaliser and a bank of MMSE receivers. The performance of the three architectures is tested and compared under multipath fading channel propagation conditions and BER values are provided.
LanguageEnglish
Title of host publicationConference record of the 34th Asilomar Conference on Signals and Computers 2000
Place of PublicationNew York
PublisherIEEE
Pages1436-1440
Number of pages5
ISBN (Print)0780365143
DOIs
Publication statusPublished - 2000
EventThirty-Fourth Asilomar Conference on Signals, Systems and Computers - Pacific Grove, CA, United States
Duration: 29 Oct 20001 Nov 2000

Conference

ConferenceThirty-Fourth Asilomar Conference on Signals, Systems and Computers
CountryUnited States
CityPacific Grove, CA
Period29/10/001/11/00

Fingerprint

Equalizers
Multipath fading
Matched filters
Fading channels

Keywords

  • bit error rate
  • decoding
  • Rayleigh channels
  • mobile computing

Cite this

Stirling, I., Garcia-Alis, D., Weiss, S., Rice, G., & Stewart, R. (2000). A joint adaptive MMSE downlink receiver. In Conference record of the 34th Asilomar Conference on Signals and Computers 2000 (pp. 1436-1440). New York: IEEE. https://doi.org/10.1109/ACSSC.2000.911228
Stirling, Iain ; Garcia-Alis, Daniel ; Weiss, Stephan ; Rice, Garrey ; Stewart, Robert. / A joint adaptive MMSE downlink receiver. Conference record of the 34th Asilomar Conference on Signals and Computers 2000. New York : IEEE, 2000. pp. 1436-1440
@inproceedings{0e8f6a50eab841b9a1b3680d3536a056,
title = "A joint adaptive MMSE downlink receiver",
abstract = "We present three joint adaptive mean squared error receiver structures for a time division duplex down-link scenario in which a single mobile station is allocated several code-multiplexed channels. The first structure is a bank of single channel MMSE receivers. The second is composed of an equaliser common to all the received channels and a bank of matched filters for despreading. The equaliser can be updated using a multiple-error filtered-X LMS algorithm. The final proposed structure features both an equaliser and a bank of MMSE receivers. The performance of the three architectures is tested and compared under multipath fading channel propagation conditions and BER values are provided.",
keywords = "bit error rate, decoding , Rayleigh channels, mobile computing",
author = "Iain Stirling and Daniel Garcia-Alis and Stephan Weiss and Garrey Rice and Robert Stewart",
year = "2000",
doi = "10.1109/ACSSC.2000.911228",
language = "English",
isbn = "0780365143",
pages = "1436--1440",
booktitle = "Conference record of the 34th Asilomar Conference on Signals and Computers 2000",
publisher = "IEEE",

}

Stirling, I, Garcia-Alis, D, Weiss, S, Rice, G & Stewart, R 2000, A joint adaptive MMSE downlink receiver. in Conference record of the 34th Asilomar Conference on Signals and Computers 2000. IEEE, New York, pp. 1436-1440, Thirty-Fourth Asilomar Conference on Signals, Systems and Computers, Pacific Grove, CA, United States, 29/10/00. https://doi.org/10.1109/ACSSC.2000.911228

A joint adaptive MMSE downlink receiver. / Stirling, Iain; Garcia-Alis, Daniel; Weiss, Stephan; Rice, Garrey; Stewart, Robert.

Conference record of the 34th Asilomar Conference on Signals and Computers 2000. New York : IEEE, 2000. p. 1436-1440.

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

TY - GEN

T1 - A joint adaptive MMSE downlink receiver

AU - Stirling, Iain

AU - Garcia-Alis, Daniel

AU - Weiss, Stephan

AU - Rice, Garrey

AU - Stewart, Robert

PY - 2000

Y1 - 2000

N2 - We present three joint adaptive mean squared error receiver structures for a time division duplex down-link scenario in which a single mobile station is allocated several code-multiplexed channels. The first structure is a bank of single channel MMSE receivers. The second is composed of an equaliser common to all the received channels and a bank of matched filters for despreading. The equaliser can be updated using a multiple-error filtered-X LMS algorithm. The final proposed structure features both an equaliser and a bank of MMSE receivers. The performance of the three architectures is tested and compared under multipath fading channel propagation conditions and BER values are provided.

AB - We present three joint adaptive mean squared error receiver structures for a time division duplex down-link scenario in which a single mobile station is allocated several code-multiplexed channels. The first structure is a bank of single channel MMSE receivers. The second is composed of an equaliser common to all the received channels and a bank of matched filters for despreading. The equaliser can be updated using a multiple-error filtered-X LMS algorithm. The final proposed structure features both an equaliser and a bank of MMSE receivers. The performance of the three architectures is tested and compared under multipath fading channel propagation conditions and BER values are provided.

KW - bit error rate

KW - decoding

KW - Rayleigh channels

KW - mobile computing

U2 - 10.1109/ACSSC.2000.911228

DO - 10.1109/ACSSC.2000.911228

M3 - Conference contribution book

SN - 0780365143

SP - 1436

EP - 1440

BT - Conference record of the 34th Asilomar Conference on Signals and Computers 2000

PB - IEEE

CY - New York

ER -

Stirling I, Garcia-Alis D, Weiss S, Rice G, Stewart R. A joint adaptive MMSE downlink receiver. In Conference record of the 34th Asilomar Conference on Signals and Computers 2000. New York: IEEE. 2000. p. 1436-1440 https://doi.org/10.1109/ACSSC.2000.911228