Yunhai Wang scite author profile

In this paper, we propose the t-FDP model, a force-directed placement method based on a novel bounded short-range force (t-force) defined by Student's t-distribution. Our formulation is flexible, exerts limited repulsive forces for nearby nodes and can be adapted separately in its short-and long-range effects. Using such forces in force-directed graph layouts yields better neighborhood preservation than current methods, while maintaining low stress errors. Our efficient implementation using a Fast Fourier Transform is one order of magnitude faster than state-of-the-art methods and two orders faster on the GPU, enabling us to perform parameter tuning by globally and locally adjusting the t-force in real-time for complex graphs. We demonstrate the quality of our approach by numerical evaluation against state-of-the-art approaches and extensions for interactive exploration.

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Review of: "A step in the right direction: Billboard-style posters preferred overall at two conferences, but should include more methods and limitations"

Wang¹

2022

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Perspectives on cross-domain visual analysis of cyber-physical-social big data

Chen

Zhang

Zhu

et al. 2021

Front Inform Technol Electron Eng

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OM3: An Ordered Multi-level Min-Max Representation for Interactive Progressive Visualization of Time Series

Wang

Chen

et al. 2023

Proc. ACM Manag. Data

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We present a novel multi-level representation of time series called OM3 that facilitates efficient interactive progressive visualization of large data stored in a database and supports various interactions such as resizing, panning, zooming, and visual query. Based on our proposed line-segment aggregation, this representation can produce error-free line visualizations that preserve the shape of a time series in windows of arbitrary sizes. To reduce the interaction latency, we develop an incremental tree-based query strategy to support progressive visualizations, allowing a finer control on the accuracy-time tradeoff. We quantitatively compare OM3 with state-of-the-art methods, including a method implemented on a leading time-series database InfluxDB, in two settings with databases residing either in the local area network or on the cloud. Results show that OM^3 maintains a low latency within 300~ms on the web browser and a high data reduction ratio regardless of the data size (ranging from millions to billions of records), achieving around 1,000 times faster than the state-of-the-art methods on the largest dataset experimented with.

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Yunhai Wang

Optimally Ordered Orthogonal Neighbor Joining Trees for Hierarchical Cluster Analysis

Force-Directed Graph Layouts Revisited: A New Force Based on the T-Distribution

Review of: "A step in the right direction: Billboard-style posters preferred overall at two conferences, but should include more methods and limitations"

Perspectives on cross-domain visual analysis of cyber-physical-social big data

OM3: An Ordered Multi-level Min-Max Representation for Interactive Progressive Visualization of Time Series

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