Hongjue Wang scite author profile

We focus on locating propagation source in complex networks. A novel and simple universal algorithm is proposed to accurately locate source of different heterogeneous propagation models by using only limited observed information without knowing anything about propagation models in advance. An observer nodes selecting strategy is proposed to improve the source locating accuracy of the proposed algorithm. Results simulated on model and empirical networks verify that the proposed source locating algorithm and selecting observer nodes strategy are effective and feasible.

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A novel cosine distance for detecting communities in complex networks

Wang

2015

Physica A: Statistical Mechanics and its Applications

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An universal algorithm for source location in complex networks

Wang

2019

Physica A: Statistical Mechanics and its Applications

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CD-Based Indices for Link Prediction in Complex Network

Wang

2016

PLoS ONE

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Lots of similarity-based algorithms have been designed to deal with the problem of link prediction in the past decade. In order to improve prediction accuracy, a novel cosine similarity index CD based on distance between nodes and cosine value between vectors is proposed in this paper. Firstly, node coordinate matrix can be obtained by node distances which are different from distance matrix and row vectors of the matrix are regarded as coordinates of nodes. Then, cosine value between node coordinates is used as their similarity index. A local community density index LD is also proposed. Then, a series of CD-based indices include CD-LD-k, CD*LD-k, CD-k and CDI are presented and applied in ten real networks. Experimental results demonstrate the effectiveness of CD-based indices. The effects of network clustering coefficient and assortative coefficient on prediction accuracy of indices are analyzed. CD-LD-k and CD*LD-k can improve prediction accuracy without considering the assortative coefficient of network is negative or positive. According to analysis of relative precision of each method on each network, CD-LD-k and CD*LD-k indices have excellent average performance and robustness. CD and CD-k indices perform better on positive assortative networks than on negative assortative networks. For negative assortative networks, we improve and refine CD index, referred as CDI index, combining the advantages of CD index and evolutionary mechanism of the network model BA. Experimental results reveal that CDI index can increase prediction accuracy of CD on negative assortative networks.

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Hongjue Wang

An algorithm for locating propagation source in complex networks

Locating source of heterogeneous propagation model by universal algorithm

A novel cosine distance for detecting communities in complex networks

An universal algorithm for source location in complex networks

CD-Based Indices for Link Prediction in Complex Network

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