Anxing Shan scite author profile

Anxing Shan

3Publications

42Citation Statements Received

201Citation Statements Given

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132

201

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Hangzhou Dianzi University

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Target Coverage in Wireless Sensor Networks with Probabilistic Sensors

Shan

Cheng

2016

Sensors

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Sensing coverage is a fundamental problem in wireless sensor networks (WSNs), which has attracted considerable attention. Conventional research on this topic focuses on the 0/1 coverage model, which is only a coarse approximation to the practical sensing model. In this paper, we study the target coverage problem, where the objective is to find the least number of sensor nodes in randomly-deployed WSNs based on the probabilistic sensing model. We analyze the joint detection probability of target with multiple sensors. Based on the theoretical analysis of the detection probability, we formulate the minimum ϵ-detection coverage problem. We prove that the minimum ϵ-detection coverage problem is NP-hard and present an approximation algorithm called the Probabilistic Sensor Coverage Algorithm (PSCA) with provable approximation ratios. To evaluate our design, we analyze the performance of PSCA theoretically and also perform extensive simulations to demonstrate the effectiveness of our proposed algorithm.

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A Max-Flow Based Algorithm for Connected Target Coverage with Probabilistic Sensors

Shan

Cheng

et al. 2017

Sensors

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Coverage is a fundamental issue in the research field of wireless sensor networks (WSNs). Connected target coverage discusses the sensor placement to guarantee the needs of both coverage and connectivity. Existing works largely leverage on the Boolean disk model, which is only a coarse approximation to the practical sensing model. In this paper, we focus on the connected target coverage issue based on the probabilistic sensing model, which can characterize the quality of coverage more accurately. In the probabilistic sensing model, sensors are only be able to detect a target with certain probability. We study the collaborative detection probability of target under multiple sensors. Armed with the analysis of collaborative detection probability, we further formulate the minimum ϵ-connected target coverage problem, aiming to minimize the number of sensors satisfying the requirements of both coverage and connectivity. We map it into a flow graph and present an approximation algorithm called the minimum vertices maximum flow algorithm (MVMFA) with provable time complex and approximation ratios. To evaluate our design, we analyze the performance of MVMFA theoretically and also conduct extensive simulation studies to demonstrate the effectiveness of our proposed algorithm.

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Connected Target ϵ-probability Coverage in WSNs With Directional Probabilistic Sensors

Dai

Shan

et al. 2020

IEEE Systems Journal

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Anxing Shan

Target Coverage in Wireless Sensor Networks with Probabilistic Sensors

A Max-Flow Based Algorithm for Connected Target Coverage with Probabilistic Sensors

Connected Target ϵ-probability Coverage in WSNs With Directional Probabilistic Sensors

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