CCI-based link quality estimation mechanism for wireless sensor networks under non-perceived packet loss 被引量：4

CCI-based link quality estimation mechanism for wireless sensor networks under non-perceived packet loss

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摘要 This paper proposes a chip correlation indicator （CCI）-based link quality estimation mechanism for wireless sensor networks under non-perceived packet loss. On the basis of analyzing all related factors, it can be concluded that signal-to-noise rate （SNR） is the main factor causing the non-perceived packet loss. In this paper, the relationship model between CCI and non-perceived packet loss rate （NPLR） is established from related models such as SNR versus packet success rate （PSR）, CCI versus SNR and CCI-NPLR. Due to the large fluctuating range of the raw CCI, Kalman filter is introduced to do de-noising of the raw CCI. The cubic model and the least squares method are employed to fit the relationship between CCI and SNR. In the experiments, many groups of comparison have been conducted and the results show that the proposed mechanism can achieve more accurate measurement of the non-perceived packet loss than existing approaches. Moreover, it has the advantage of decreasing extra energy consumption caused by sending large number of probe packets. This paper proposes a chip correlation indicator （CCI）-based link quality estimation mechanism for wireless sensor networks under non-perceived packet loss. On the basis of analyzing all related factors, it can be concluded that signal-to-noise rate （SNR） is the main factor causing the non-perceived packet loss. In this paper, the relationship model between CCI and non-perceived packet loss rate （NPLR） is established from related models such as SNR versus packet success rate （PSR）, CCI versus SNR and CCI-NPLR. Due to the large fluctuating range of the raw CCI, Kalman filter is introduced to do de-noising of the raw CCI. The cubic model and the least squares method are employed to fit the relationship between CCI and SNR. In the experiments, many groups of comparison have been conducted and the results show that the proposed mechanism can achieve more accurate measurement of the non-perceived packet loss than existing approaches. Moreover, it has the advantage of decreasing extra energy consumption caused by sending large number of probe packets.

作者 SHU Jian TAO Juan LIU Lin-lan CHEN Ye-bin ZANG Chao

机构地区 Internet of Things Technology Institute School of Software Internet of Things Technology Institute School of Information Engineering

出处《The Journal of China Universities of Posts and Telecommunications》 EI CSCD 2013年第1期1-10,共10页 中国邮电高校学报（英文版）

基金 supported by the National Natural Science Foundation of China (61262020) Aeronautical Science Foundation of China (2010ZC56008) Nanchang Hangkong University Postgraduate Innovation Foundation (YC2011030)

关键词 wireless sensor network link quality estimation non-perceived packet loss CCI SNR Kalman filter wireless sensor network, link quality estimation, non-perceived packet loss, CCI, SNR, Kalman filter

分类号 TP212.9 [自动化与计算机技术—检测技术与自动化装置] TN929.5 [电子电信—通信与信息系统]

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