超图可视化的结构感知简化

arXiv - CS - Graphics Pub Date : 2024-07-29 DOI:arxiv-2407.19621

Peter Oliver, Eugene Zhang, Yue Zhang

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引用次数: 0

摘要

超图为表示网络数据中的多向关系提供了一种自然的方法。对于大型超图，通常很难直观地发现数据中的结构。最近，开发出了一种基于多边形的可扩展可视化方法，可以简化具有数千个超节点的超图，并以不同的详细程度对其进行检查。然而，这种方法并不能保证消除不可避免的重叠造成的所有视觉混乱。此外，有意义的结构可能会在简化的尺度上丢失，从而使其解释变得不可靠。在本文中，我们使用二方图表示法定义了超图结构，从而可以将超图分解为包括拓扑块、桥和分支在内的结构联盟，并准确识别不可避免的重叠必须出现在哪里。我们还引入了一组拓扑保留和拓扑改变原子操作，从而在保留重要结构的同时减少不可避免的重叠，提高视觉清晰度和简化尺度下的可解释性。我们在几个实际应用中演示了我们的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Structure-Aware Simplification for Hypergraph Visualization

Hypergraphs provide a natural way to represent polyadic relationships in network data. For large hypergraphs, it is often difficult to visually detect structures within the data. Recently, a scalable polygon-based visualization approach was developed allowing hypergraphs with thousands of hyperedges to be simplified and examined at different levels of detail. However, this approach is not guaranteed to eliminate all of the visual clutter caused by unavoidable overlaps. Furthermore, meaningful structures can be lost at simplified scales, making their interpretation unreliable. In this paper, we define hypergraph structures using the bipartite graph representation, allowing us to decompose the hypergraph into a union of structures including topological blocks, bridges, and branches, and to identify exactly where unavoidable overlaps must occur. We also introduce a set of topology preserving and topology altering atomic operations, enabling the preservation of important structures while reducing unavoidable overlaps to improve visual clarity and interpretability in simplified scales. We demonstrate our approach in several real-world applications.

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arXiv - CS - Graphics

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