Sparsity-inspired nonparametric probability characterization for radio propagation in body area networks

Xiaodong Yang; Shuyuan Yang; Qammer Hussain Abbasi; Zhiya Zhang; Aifeng Ren; Wei Zhao; Akram Alomainy

doi:10.1109/JBHI.2014.2334714

Sparsity-inspired nonparametric probability characterization for radio propagation in body area networks

Xiaodong Yang
, Shuyuan Yang
, Qammer Hussain Abbasi
, Zhiya Zhang
, Aifeng Ren
, Wei Zhao
, Akram Alomainy

Xidian University
Texas A and M University at Qatar Education City
University of Engineering and Technology Lahore
Queen Mary University of London

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

4 Scopus citations

Abstract

Parametric probability models are common references for channel characterization. However, the limited number of samples and uncertainty of the propagation scenario affect the characterization accuracy of parametric models for body area networks. In this paper, we propose a sparse nonparametric probability model for body area wireless channel characterization. The path loss and root-mean-square delay, which are significant wireless channel parameters, can be learned from this nonparametric model. A comparison with available parametric models shows that the proposed model is very feasible for the body area propagation environment and can be seen as a significant supplement to parametric approaches.

Original language	English
Article number	6847666
Pages (from-to)	858-865
Number of pages	8
Journal	IEEE Journal of Biomedical and Health Informatics
Volume	19
Issue number	3
DOIs	https://doi.org/10.1109/JBHI.2014.2334714
State	Published - 1 May 2015
Externally published	Yes

Keywords

Body area networks
nonparametric model
radio propagation
sparsity
support vector

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10.1109/JBHI.2014.2334714

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title = "Sparsity-inspired nonparametric probability characterization for radio propagation in body area networks",

abstract = "Parametric probability models are common references for channel characterization. However, the limited number of samples and uncertainty of the propagation scenario affect the characterization accuracy of parametric models for body area networks. In this paper, we propose a sparse nonparametric probability model for body area wireless channel characterization. The path loss and root-mean-square delay, which are significant wireless channel parameters, can be learned from this nonparametric model. A comparison with available parametric models shows that the proposed model is very feasible for the body area propagation environment and can be seen as a significant supplement to parametric approaches.",

keywords = "Body area networks, nonparametric model, radio propagation, sparsity, support vector",

author = "Xiaodong Yang and Shuyuan Yang and Abbasi, \{Qammer Hussain\} and Zhiya Zhang and Aifeng Ren and Wei Zhao and Akram Alomainy",

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AU - Yang, Xiaodong

AU - Yang, Shuyuan

AU - Abbasi, Qammer Hussain

AU - Zhang, Zhiya

AU - Ren, Aifeng

AU - Zhao, Wei

AU - Alomainy, Akram

PY - 2015/5/1

Y1 - 2015/5/1

N2 - Parametric probability models are common references for channel characterization. However, the limited number of samples and uncertainty of the propagation scenario affect the characterization accuracy of parametric models for body area networks. In this paper, we propose a sparse nonparametric probability model for body area wireless channel characterization. The path loss and root-mean-square delay, which are significant wireless channel parameters, can be learned from this nonparametric model. A comparison with available parametric models shows that the proposed model is very feasible for the body area propagation environment and can be seen as a significant supplement to parametric approaches.

AB - Parametric probability models are common references for channel characterization. However, the limited number of samples and uncertainty of the propagation scenario affect the characterization accuracy of parametric models for body area networks. In this paper, we propose a sparse nonparametric probability model for body area wireless channel characterization. The path loss and root-mean-square delay, which are significant wireless channel parameters, can be learned from this nonparametric model. A comparison with available parametric models shows that the proposed model is very feasible for the body area propagation environment and can be seen as a significant supplement to parametric approaches.

KW - Body area networks

KW - nonparametric model

KW - radio propagation

KW - sparsity

KW - support vector

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DO - 10.1109/JBHI.2014.2334714

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JO - IEEE Journal of Biomedical and Health Informatics

JF - IEEE Journal of Biomedical and Health Informatics

IS - 3

M1 - 6847666

ER -

Sparsity-inspired nonparametric probability characterization for radio propagation in body area networks

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Keywords

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