research-article

Reliability of LT codes under dynamic channel conditions in wearable body area network

Authors:

Yang Li,

Kai Wang,

Shuanglong Qin,

Yongmei Sun,

Yuefeng JiAuthors Info & Claims

BodyNets '13: Proceedings of the 8th International Conference on Body Area Networks

Pages 197 - 200

https://doi.org/10.4108/icst.bodynets.2013.253653

Published: 30 September 2013 Publication History

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Abstract

Body Area Network (BAN) is considered as a promising technology for numerous applications, such as healthcare services. BAN is in high requirement for reliable information transmission especially for vital physiological signs. As the external environments and human body motions make the channel characteristics vary frequently, which results in high package error probability and low reliability, the codes with fixed code rate are not suitable. In this paper, we use LT codes to automatically adapt to the time-varying channel condition. LT codes were firstly proposed to provide reliability for erasure channel, followed by fading channel. The efficiency of LT codes in BAN had been analyzed by simulation, only considering the medical implant communications service. Hence, we conduct a large number of experiments to analyze and verify the adaptability of LT codes to dynamic channel especially in wearable BAN. In order to carry on a comprehensive analysis, the reliability of LT codes are tested under different scenarios, such as indoor and outdoor scenes. The influence of human motion and transmission distance are also taken into account. The results demonstrate that LT codes have a good performance of reliability over on-body communication channel.

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Index Terms

Reliability of LT codes under dynamic channel conditions in wearable body area network
1. Mathematics of computing
  1. Information theory
    1. Coding theory
2. Security and privacy
  1. Cryptography
    1. Mathematical foundations of cryptography

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Information & Contributors

Information

Published In

BodyNets '13: Proceedings of the 8th International Conference on Body Area Networks

September 2013

610 pages

ISBN:9781936968893

General Chair:
Junichi Suzuki
University of Massachusetts Boston
,
Program Chair:
Honggang Wang
University of Massachusetts Dartmouth

In-Cooperation

SIGCHI: ACM Special Interest Group on Computer-Human Interaction

Publisher

ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering)

Brussels, Belgium

Publication History

Published: 30 September 2013

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Index Terms

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High-rate Complex Orthogonal Space-time Block Codes for 5 and 6 Transmit Antennas