The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Os sistemas de comunicação MIMO têm sido estudados como uma forma de aumentar a capacidade do sistema e melhorar a eficiência do espectro. Este artigo propõe um novo método de geração de métrica de ramo para decodificação Viterbi de decisão suave em sistemas OFDM codificados empregando sistemas SDM (OFDM-SDM), uma forma de comunicação MIMO, que emprega o algoritmo de decisão de máxima verossimilhança (MLD). Em sistemas OFDM codificados, a métrica de ramificação para correção direta de erros (FEC) é normalmente calculada com base no nível de potência da subportadora recebida e na probabilidade do ponto de constelação. Esta abordagem convencional falha em sistemas OFDM-SDM. No método proposto, a métrica do ramo é derivada com base na probabilidade calculada pelo algoritmo MLD, o que melhora efetivamente o desempenho do FEC. Em seguida, a disponibilidade de OFDM-SDM codificado para realizar LANs sem fio com taxas de dados acima de 100 Mbit/s em uma largura de banda de 20 MHz é avaliada em ambientes de escritório usando o CNR necessário calculado por simulação computacional. A avaliação indica que o OFDM-SDM tem a possibilidade de realizar 100 Mbit/s em ambientes de escritório.
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Satoru HORI, Masato MIZOGUCHI, Tetsu SAKATA, Masahiro MORIKURA, "A New Branch Metric Generation Method for Soft-Decision Viterbi Decoding in Coded OFDM-SDM Systems Employing MLD over Frequency Selective MIMO Channels" in IEICE TRANSACTIONS on Fundamentals,
vol. E85-A, no. 7, pp. 1675-1684, July 2002, doi: .
Abstract: MIMO communication systems have been studied as a way to increase system capacity and to improve spectrum efficiency. This paper proposes a novel branch metric generation method for soft-decision Viterbi decoding in coded OFDM systems employing SDM (OFDM-SDM) systems, one form of MIMO communication, that employ the maximum likelihood decision (MLD) algorithm. In coded OFDM systems, the branch metric for forward error correction (FEC) is normally calculated based on received sub-carrier power level and the constellation point likelihood. This conventional approach fails in OFDM-SDM systems. In the proposed method, branch metric is derived based on the likelihood calculated by MLD algorithm, which improves FEC performance effectively. Then, availability of coded OFDM-SDM to realize wireless LANs with data rate above 100 Mbit/s in a bandwidth of 20 MHz is evaluated in office environments using required CNR calculated by computer simulation. The evaluation indicates that OFDM-SDM has the possibility of realizing 100 Mbit/s in office environments.
URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/e85-a_7_1675/_p
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@ARTICLE{e85-a_7_1675,
author={Satoru HORI, Masato MIZOGUCHI, Tetsu SAKATA, Masahiro MORIKURA, },
journal={IEICE TRANSACTIONS on Fundamentals},
title={A New Branch Metric Generation Method for Soft-Decision Viterbi Decoding in Coded OFDM-SDM Systems Employing MLD over Frequency Selective MIMO Channels},
year={2002},
volume={E85-A},
number={7},
pages={1675-1684},
abstract={MIMO communication systems have been studied as a way to increase system capacity and to improve spectrum efficiency. This paper proposes a novel branch metric generation method for soft-decision Viterbi decoding in coded OFDM systems employing SDM (OFDM-SDM) systems, one form of MIMO communication, that employ the maximum likelihood decision (MLD) algorithm. In coded OFDM systems, the branch metric for forward error correction (FEC) is normally calculated based on received sub-carrier power level and the constellation point likelihood. This conventional approach fails in OFDM-SDM systems. In the proposed method, branch metric is derived based on the likelihood calculated by MLD algorithm, which improves FEC performance effectively. Then, availability of coded OFDM-SDM to realize wireless LANs with data rate above 100 Mbit/s in a bandwidth of 20 MHz is evaluated in office environments using required CNR calculated by computer simulation. The evaluation indicates that OFDM-SDM has the possibility of realizing 100 Mbit/s in office environments.},
keywords={},
doi={},
ISSN={},
month={July},}
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TY - JOUR
TI - A New Branch Metric Generation Method for Soft-Decision Viterbi Decoding in Coded OFDM-SDM Systems Employing MLD over Frequency Selective MIMO Channels
T2 - IEICE TRANSACTIONS on Fundamentals
SP - 1675
EP - 1684
AU - Satoru HORI
AU - Masato MIZOGUCHI
AU - Tetsu SAKATA
AU - Masahiro MORIKURA
PY - 2002
DO -
JO - IEICE TRANSACTIONS on Fundamentals
SN -
VL - E85-A
IS - 7
JA - IEICE TRANSACTIONS on Fundamentals
Y1 - July 2002
AB - MIMO communication systems have been studied as a way to increase system capacity and to improve spectrum efficiency. This paper proposes a novel branch metric generation method for soft-decision Viterbi decoding in coded OFDM systems employing SDM (OFDM-SDM) systems, one form of MIMO communication, that employ the maximum likelihood decision (MLD) algorithm. In coded OFDM systems, the branch metric for forward error correction (FEC) is normally calculated based on received sub-carrier power level and the constellation point likelihood. This conventional approach fails in OFDM-SDM systems. In the proposed method, branch metric is derived based on the likelihood calculated by MLD algorithm, which improves FEC performance effectively. Then, availability of coded OFDM-SDM to realize wireless LANs with data rate above 100 Mbit/s in a bandwidth of 20 MHz is evaluated in office environments using required CNR calculated by computer simulation. The evaluation indicates that OFDM-SDM has the possibility of realizing 100 Mbit/s in office environments.
ER -