Honglu Ma scite author profile

Honglu Ma

3Publications

26Citation Statements Received

56Citation Statements Given

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China University of Mining and Technology

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SSL: Signal Similarity-Based Localization for Ocean Sensor Networks

Chen

Gao

et al. 2015

Sensors

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Nowadays, wireless sensor networks are often deployed on the sea surface for ocean scientific monitoring. One of the important challenges is to localize the nodes’ positions. Existing localization schemes can be roughly divided into two types: range-based and range-free. The range-based localization approaches heavily depend on extra hardware capabilities, while range-free ones often suffer from poor accuracy and low scalability, far from the practical ocean monitoring applications. In response to the above limitations, this paper proposes a novel signal similarity-based localization (SSL) technology, which localizes the nodes’ positions by fully utilizing the similarity of received signal strength and the open-air characteristics of the sea surface. In the localization process, we first estimate the relative distance between neighboring nodes through comparing the similarity of received signal strength and then calculate the relative distance for non-neighboring nodes with the shortest path algorithm. After that, the nodes’ relative relation map of the whole network can be obtained. Given at least three anchors, the physical locations of nodes can be finally determined based on the multi-dimensional scaling (MDS) technology. The design is evaluated by two types of ocean experiments: a zonal network and a non-regular network using 28 nodes. Results show that the proposed design improves the localization accuracy compared to typical connectivity-based approaches and also confirm its effectiveness for large-scale ocean sensor networks.

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Modified Extended Kalman Filtering for Tracking with Insufficient and Intermittent Observations

Chen

Gao

et al. 2015

Mathematical Problems in Engineering

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This paper is concerned with the Kalman filtering problem for tracking a single target on the fixed-topology wireless sensor networks (WSNs). Both the insufficient anchor coverage and the packet dropouts have been taken into consideration in the filter design. The resulting tracking system is modeled as a multichannel nonlinear system with multiplicative noise. Noting that the channels may be correlated with each other, we use a general matrix to express the multiplicative noise. Then, a modified extended Kalman filtering algorithm is presented based on the obtained model to achieve high tracking accuracy. In particular, we evaluate the effect of various parameters on the tracking performance through simulation studies.

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Improved teaching–learning-based optimization algorithm with group learning

Ming

2016

IFS

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Honglu Ma

SSL: Signal Similarity-Based Localization for Ocean Sensor Networks

Modified Extended Kalman Filtering for Tracking with Insufficient and Intermittent Observations

Improved teaching–learning-based optimization algorithm with group learning

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