Factor-graph-based iterative channel estimation and decoding algorithm

Hong Jie Zhao; Nan Wu; Hua Wang; Jing Ming Kuang

Factor-graph-based iterative channel estimation and decoding algorithm

Hong Jie Zhao, Nan Wu^*, Hua Wang, Jing Ming Kuang

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Presented an iterative receiver for joint channel estimation, data detection and decoding over a time-varying frequency-flat Rayleigh fading channel. First, a factor graph (FG) that represents a joint posteriori probability mass function of the information bits and channel coefficients given the channel output was established. Then the sum product algorithm (SPA) was implemented on the FG in the proposed algorithm. Gaussian parameterization was employed to approximate the exact probability density function in message passing to yield a forward-backward recursion for the purpose of channel estimation. Compared with the traditional channel estimation and decoding methods, the effectiveness of the proposed iterative message passing algorithm is demonstrated through computer simulations.

Original language	English
Pages (from-to)	427-432
Number of pages	6
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	34
Issue number	4
Publication status	Published - Apr 2014

Keywords

Factor graph
Flat Rayleigh fading channel
Gaussian parameterization
Iterative receiver
Message passing

Cite this

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AU - Wu, Nan

AU - Wang, Hua

AU - Kuang, Jing Ming

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N2 - Presented an iterative receiver for joint channel estimation, data detection and decoding over a time-varying frequency-flat Rayleigh fading channel. First, a factor graph (FG) that represents a joint posteriori probability mass function of the information bits and channel coefficients given the channel output was established. Then the sum product algorithm (SPA) was implemented on the FG in the proposed algorithm. Gaussian parameterization was employed to approximate the exact probability density function in message passing to yield a forward-backward recursion for the purpose of channel estimation. Compared with the traditional channel estimation and decoding methods, the effectiveness of the proposed iterative message passing algorithm is demonstrated through computer simulations.

AB - Presented an iterative receiver for joint channel estimation, data detection and decoding over a time-varying frequency-flat Rayleigh fading channel. First, a factor graph (FG) that represents a joint posteriori probability mass function of the information bits and channel coefficients given the channel output was established. Then the sum product algorithm (SPA) was implemented on the FG in the proposed algorithm. Gaussian parameterization was employed to approximate the exact probability density function in message passing to yield a forward-backward recursion for the purpose of channel estimation. Compared with the traditional channel estimation and decoding methods, the effectiveness of the proposed iterative message passing algorithm is demonstrated through computer simulations.

KW - Factor graph

KW - Flat Rayleigh fading channel

KW - Gaussian parameterization

KW - Iterative receiver

KW - Message passing

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JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

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ER -

Factor-graph-based iterative channel estimation and decoding algorithm

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Keywords

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