A novel centrality-based method for visual analytics of small-world networks

Nowadays, the network data that we need to deal with and make sense of are becoming increasingly large and complex. Small-world networks are a type of complex networks whose underling graphs have small diameter, shorter average path length between nodes, and a high degree of clustering structures an...

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Published in:Journal of visualization 2019-10, Vol.22 (5), p.973-990, Article 973
Main Authors: Lin, Chun-Cheng, Huang, Weidong, Liu, Wan-Yu, Wu, Sheng-Feng
Format: Article
Language:English
Subjects:
Algorithms
Analytics
Classical and Continuum Physics
Clustering
Computer Imaging
Engineering
Engineering Fluid Dynamics
Engineering Thermodynamics
Graph theory
Heat and Mass Transfer
Information management
Intelligence (information)
Nodes
Pattern Recognition and Graphics
Regular Paper
Social networks
Sociology
Vision
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cited_by cdi_FETCH-LOGICAL-c319t-51ce66e709fca8875714fb5d4bb81aab1d60e29d9c694d29c49fcf8e1408f3ac3
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creator Lin, Chun-Cheng
Huang, Weidong
Liu, Wan-Yu
Wu, Sheng-Feng
description Nowadays, the network data that we need to deal with and make sense of are becoming increasingly large and complex. Small-world networks are a type of complex networks whose underling graphs have small diameter, shorter average path length between nodes, and a high degree of clustering structures and can be found in a wide range of scientific fields, including social networks, sociology, computer science, business intelligence, and biology. However, conventional visualization algorithms for small-work networks lead to a uniform clump of nodes or are restricted to a tree structure, making the network structure difficult to identify and analyze. This work provides a new visual analytical method to improve the situation. Different from previous methods based on spanning trees, this method first generates a weighted planar sub-network based on the measurement of network centrality metrics. A force-directed algorithm based on node-edge repulsion is then applied to visualize this sub-network into a proper layout for better understanding of the data. Finally, the remaining links are placed back to maintain the original network’s integrity. The experimental results show that compared to previous methods, the proposed method can be more effective in differentiating clusters and revealing relationship patterns among individual nodes and clusters in the network. Furthermore, the proposed method is applied to a data of the semiconductor wafer manufacturing industry as a case study. The work shows that this new approach allows users to gain useful insights into the data. Graphic abstract
doi_str_mv 10.1007/s12650-019-00582-5
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subjects Algorithms
Analytics
Classical and Continuum Physics
Clustering
Computer Imaging
Engineering
Engineering Fluid Dynamics
Engineering Thermodynamics
Graph theory
Heat and Mass Transfer
Information management
Intelligence (information)
Nodes
Pattern Recognition and Graphics
Regular Paper
Social networks
Sociology
Vision
title A novel centrality-based method for visual analytics of small-world networks
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