Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems

Overlapped frequency division multiplexing (OVFDM) systems can obtain high spectral efficiency (SE), which is proportional to the constraint length. However, high decoding complexity imposes the main challenge on OVFDM systems. This paper proposes a low-complexity sliding window (SW) block decoding...

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Main Authors: Hongtao Zhang, Ying Chen, Daoben Li, Yafeng Wang
Format: Article
Language:English
Published: IEEE 2017-01-01
Series:IEEE Access
Subjects:
Online Access:https://ieeexplore.ieee.org/document/8093599/
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spelling doaj-326d3dd9713445b1a6fb61ecb76f998f2021-03-29T20:18:21ZengIEEEIEEE Access2169-35362017-01-015251712518010.1109/ACCESS.2017.27688018093599Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM SystemsHongtao Zhang0https://orcid.org/0000-0003-2031-5985Ying Chen1Daoben Li2Yafeng Wang3School of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing, ChinaSchool of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing, ChinaSchool of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing, ChinaSchool of Information and Communication Engineering, Beijing University of Posts and Telecommunications, Beijing, ChinaOverlapped frequency division multiplexing (OVFDM) systems can obtain high spectral efficiency (SE), which is proportional to the constraint length. However, high decoding complexity imposes the main challenge on OVFDM systems. This paper proposes a low-complexity sliding window (SW) block decoding algorithm for OVFDM systems, where data symbols are estimated based on the reception of a SW instead of a date frame. Specifically, block code of each SW is decoded by bit-flipping algorithm where the bits to be flipped are selected according to the largest absolute value criterion. Using this criterion, the complexity to obtain the near optimal bit-flipping vector grows only linearly with the SW length. In addition, the study of the decoding algorithm is based on the design of OVFDM encoding structure, where symbols can occupy orthogonal in-phase and quadrature channels simultaneously to further improve SE by a factor of two. Simulation results show that OVFDM SW decoding with bit-flipping algorithm can be used when constraint length is relatively high (constraint length ≥ 20) because the complexity goes roughly linearly with the increase of constraint length.https://ieeexplore.ieee.org/document/8093599/OVFDMsliding window decodingbit-flipping algorithmblock codespectral efficiency
collection DOAJ
language English
format Article
sources DOAJ
author Hongtao Zhang
Ying Chen
Daoben Li
Yafeng Wang
spellingShingle Hongtao Zhang
Ying Chen
Daoben Li
Yafeng Wang
Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems
IEEE Access
OVFDM
sliding window decoding
bit-flipping algorithm
block code
spectral efficiency
author_facet Hongtao Zhang
Ying Chen
Daoben Li
Yafeng Wang
author_sort Hongtao Zhang
title Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems
title_short Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems
title_full Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems
title_fullStr Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems
title_full_unstemmed Low-Complexity Sliding Window Block Decoding Using Bit-Flipping for OVFDM Systems
title_sort low-complexity sliding window block decoding using bit-flipping for ovfdm systems
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2017-01-01
description Overlapped frequency division multiplexing (OVFDM) systems can obtain high spectral efficiency (SE), which is proportional to the constraint length. However, high decoding complexity imposes the main challenge on OVFDM systems. This paper proposes a low-complexity sliding window (SW) block decoding algorithm for OVFDM systems, where data symbols are estimated based on the reception of a SW instead of a date frame. Specifically, block code of each SW is decoded by bit-flipping algorithm where the bits to be flipped are selected according to the largest absolute value criterion. Using this criterion, the complexity to obtain the near optimal bit-flipping vector grows only linearly with the SW length. In addition, the study of the decoding algorithm is based on the design of OVFDM encoding structure, where symbols can occupy orthogonal in-phase and quadrature channels simultaneously to further improve SE by a factor of two. Simulation results show that OVFDM SW decoding with bit-flipping algorithm can be used when constraint length is relatively high (constraint length ≥ 20) because the complexity goes roughly linearly with the increase of constraint length.
topic OVFDM
sliding window decoding
bit-flipping algorithm
block code
spectral efficiency
url https://ieeexplore.ieee.org/document/8093599/
work_keys_str_mv AT hongtaozhang lowcomplexityslidingwindowblockdecodingusingbitflippingforovfdmsystems
AT yingchen lowcomplexityslidingwindowblockdecodingusingbitflippingforovfdmsystems
AT daobenli lowcomplexityslidingwindowblockdecodingusingbitflippingforovfdmsystems
AT yafengwang lowcomplexityslidingwindowblockdecodingusingbitflippingforovfdmsystems
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