HyperSteiner: Computing Heuristic Hyperbolic Steiner Minimal Trees

Alejandro García-Castellanos, Aniss Aiman Medbouhi, Giovanni Luca Marchetti, Erik J. Bekkers, Danica Kragic
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Abstract

We propose HyperSteiner -- an efficient heuristic algorithm for computing Steiner minimal trees in the hyperbolic space. HyperSteiner extends the Euclidean Smith-Lee-Liebman algorithm, which is grounded in a divide-and-conquer approach involving the Delaunay triangulation. The central idea is rephrasing Steiner tree problems with three terminals as a system of equations in the Klein-Beltrami model. Motivated by the fact that hyperbolic geometry is well-suited for representing hierarchies, we explore applications to hierarchy discovery in data. Results show that HyperSteiner infers more realistic hierarchies than the Minimum Spanning Tree and is more scalable to large datasets than Neighbor Joining.
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HyperSteiner:计算启发式双曲斯坦纳最小树
我们提出了HyperSteiner--一种计算双曲空间中Steiner最小树的高效启发式算法。HyperSteiner扩展了Euclidean Smith-Lee-Liebman算法,该算法以涉及Delaunay三角剖分的分而治之法为基础。其核心思想是将具有三个终端的斯坦纳树问题重新表述为克莱因-贝尔特拉米模型中的方程系统。受双曲几何非常适合表示层次结构这一事实的启发,我们探索了在数据中发现层次结构的应用。结果表明,与最小生成树相比,HyperSteiner 能推导出现实的层次结构,与邻接法相比,HyperSteiner 对大型数据集的扩展性更强。
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