A joint power allocation and bit loading algorithm for M-QAM-OFDM underwater acoustic communication system

Zhe Jiang; Haiyan Wang; Ruiqin Zhao; Xiaohong Shen

A joint power allocation and bit loading algorithm for M-QAM-OFDM underwater acoustic communication system

Zhe Jiang, Haiyan Wang, Ruiqin Zhao, Xiaohong Shen

School of Marine Science and Technology

Northwestern Polytechnical University Xian

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

Abstract

In this paper, we have proposed a joint power allocation and bit loading algorithm for underwater acoustic (UWA) OFDM system. We first derive the UWA OFDM model, which integrates both the large-scale and small-scale effects of UWA channel. Due to the poor quality of the UWA channel, most practical systems admit input signals from small finite discrete constellations. We then investigate the optimal power allocation to maximize the mutual information based on our model. Furthermore, a two-step joint power allocation and bit loading algorithm was proposed to maximize the transmission rate. Specifically, we resort to mercury/waterfilling algorithm to initially allocate the transmission power and bits among all subcarriers. Then all allocated power is rescaled to meet the power and discrete constellation constraints.

Original language	English
Pages (from-to)	753-757
Number of pages	5
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	31
Issue number	5
State	Published - Oct 2013

Keywords

Algorithms
Carrier communication
Computer simulation
Constrained optimization
Mathematical models
Orthogonal frequency division multiplexing
Underwater acoustics

Cite this

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abstract = "In this paper, we have proposed a joint power allocation and bit loading algorithm for underwater acoustic (UWA) OFDM system. We first derive the UWA OFDM model, which integrates both the large-scale and small-scale effects of UWA channel. Due to the poor quality of the UWA channel, most practical systems admit input signals from small finite discrete constellations. We then investigate the optimal power allocation to maximize the mutual information based on our model. Furthermore, a two-step joint power allocation and bit loading algorithm was proposed to maximize the transmission rate. Specifically, we resort to mercury/waterfilling algorithm to initially allocate the transmission power and bits among all subcarriers. Then all allocated power is rescaled to meet the power and discrete constellation constraints.",

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N2 - In this paper, we have proposed a joint power allocation and bit loading algorithm for underwater acoustic (UWA) OFDM system. We first derive the UWA OFDM model, which integrates both the large-scale and small-scale effects of UWA channel. Due to the poor quality of the UWA channel, most practical systems admit input signals from small finite discrete constellations. We then investigate the optimal power allocation to maximize the mutual information based on our model. Furthermore, a two-step joint power allocation and bit loading algorithm was proposed to maximize the transmission rate. Specifically, we resort to mercury/waterfilling algorithm to initially allocate the transmission power and bits among all subcarriers. Then all allocated power is rescaled to meet the power and discrete constellation constraints.

AB - In this paper, we have proposed a joint power allocation and bit loading algorithm for underwater acoustic (UWA) OFDM system. We first derive the UWA OFDM model, which integrates both the large-scale and small-scale effects of UWA channel. Due to the poor quality of the UWA channel, most practical systems admit input signals from small finite discrete constellations. We then investigate the optimal power allocation to maximize the mutual information based on our model. Furthermore, a two-step joint power allocation and bit loading algorithm was proposed to maximize the transmission rate. Specifically, we resort to mercury/waterfilling algorithm to initially allocate the transmission power and bits among all subcarriers. Then all allocated power is rescaled to meet the power and discrete constellation constraints.

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A joint power allocation and bit loading algorithm for M-QAM-OFDM underwater acoustic communication system

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