System-Level Calibration for Fusion-Based Wireless Sensor Networks

Tan, Rui; Xing, Guoliang; Yuan, Zhaohui; Li, Xue; Yao, Jianguo

doi:10.1109/rtss.2010.29

Cited by 15 publications

(9 citation statements)

References 22 publications

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“…For simple calculation, it is assumed that ΔT can be divisible by Tth and the error process is a second-order moment, that is, expectation and variance functions exist in the event procedure. Sensor networks are commonly used to detect specific errors, so we can assume that the expectation function Expe(t) and the square root of variance function VarSRe(t) can be stored in the sensor memory before deployment or the Expe(t) and VarSRe(t) can be distributed to various sensors through the meeting points (sink node) by message after deployment [17][18][19][20][21][22][23].…”

Section: International Journal On Smart Sensing and Intelligent Systementioning

confidence: 99%

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An Estimation Algorithm for Missing Data in Wireless Sensor Networks

Yan

Ming-zheng

2013

International Journal on Smart Sensing and Intelligent Systems

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Section: International Journal On Smart Sensing and Intelligent Systementioning

confidence: 99%

“…Expe(t) and the square root of variance function VarSRe(t) can be stored in the sensor memory before deployment or the Expe(t) and VarSRe(t) can be distributed to various sensors through the meeting points (sink node) by message after deployment[17][18][19][20][21][22][23].INTERNATIONAL JOURNAL ON SMART SENSING AND INTELLIGENT SYSTEMS VOL. 6, NO.3, JUNE 2013 …”

mentioning

confidence: 99%

An Estimation Algorithm for Missing Data in Wireless Sensor Networks

Yan

Ming-zheng

2013

International Journal on Smart Sensing and Intelligent Systems

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“…However, this is a painstaking task, which may be impractical if the sensor network is large, and sensors may be placed in inaccessible locations. Macro calibration has thus been proposed to calibrate an entire sensor network based on observations from all sensors in the network [5], [6]. Furthermore, the calibration is done without first observing the underlying signals that the sensors are observing.…”

Section: Introductionmentioning

confidence: 99%

A Dynamic Bayesian Nonparametric Model for Blind Calibration of Sensor Networks

Yang

Zhong

Tay

2018

IEEE Internet Things J.

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We consider the problem of blind calibration of a sensor network where the sensor gains and offsets are estimated from noisy observations of unknown signals. This is in general a non-identifiable problem, unless restrictive assumptions on the signal subspace or sensor observations are imposed. We show that if each signal observed by the sensors follows a known dynamic model with additive noise, then the sensor gains and offsets are identifiable. We propose a dynamic Bayesian nonparametric model to infer the sensors' gains and offsets. Our model allows different sensor clusters to observe different unknown signals, without knowing the sensor clusters a priori. We develop an offline algorithm using block Gibbs sampling and a linearized forward filtering backward sampling method that estimates the sensor clusters, gains and offsets jointly. Furthermore, for practical implementation, we also propose an online inference algorithm based on particle filtering and local Markov chain Monte Carlo. Simulations using a synthetic dataset, and experiments on two real datasets suggest that our proposed methods perform better than several other blind calibration methods, including a sparse Bayesian learning approach, and methods that first cluster the sensor observations and then estimate the gains and offsets.

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“…Nevertheless, the untrained and uncontrollable participants will not cooperate for sensor calibration. Although several uncooperative calibration methods [4], [5] have been proposed, they need an explicit and particular calibration process, such as controlling the behaviors of the interesting sources.…”

Section: Introductionmentioning

confidence: 99%

An Iterative Method of Sensor Calibration in Participatory Sensing Network

Xiang

Yang

2013

2013 IEEE 10th International Conference on Mobile Ad-Hoc and Sensor Systems

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With widespread usages of smart phones, participatory sensing becomes mainstream, especially for applications requiring pervasive deployments with massive sensors. However, sensors on smart phones are prone to the unknown measurement errors, requiring automatical calibration among uncooperative participants. Current methods need either collaboration or explicit calibration process. However, due to the uncooperative and uncontrollable nature of the participants, these methods fail to calibrate sensor nodes effectively.We investigate sensor calibration in monitoring pollution sources, without explicit calibration process in uncooperative environment. We leverage the opportunity in sensing diversity, where a participant will sense multiple pollution sources when roaming in the area. Further, inspired by EM (Expectation Maximization) method, we propose a two-level iterative algorithm to estimate the source presences, source parameters and sensor noise iteratively. Our algorithm can converge to the optimal estimation of sensor noise, where the likelihood of observations is maximized.

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System-Level Calibration for Fusion-Based Wireless Sensor Networks

Cited by 15 publications

References 22 publications

An Estimation Algorithm for Missing Data in Wireless Sensor Networks

An Estimation Algorithm for Missing Data in Wireless Sensor Networks

A Dynamic Bayesian Nonparametric Model for Blind Calibration of Sensor Networks

An Iterative Method of Sensor Calibration in Participatory Sensing Network

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