Optimal in-place compaction of sliding cubes
Publication date
2025
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Abstract
The sliding cubes model is a well-established theoretical framework that supports the analysis of reconfiguration algorithms for modular robots consisting of face-connected cubes. As is common in the literature, we focus on reconfiguration via an intermediate canonical shape. Specifically, we present an in-place algorithm that reconfigures any n-cube configuration into a compact canonical shape using a number of moves proportional to the sum of coordinates of the input cubes. This result is asymptotically optimal and strictly improves on all prior work. Furthermore, our algorithm directly extends to dimensions higher than three.
Keywords
Geometry and Topology, Computer Science Applications, Computational Theory and Mathematics
Citation
Kostitsyna, I, Ophelders, T, Parada, I, Peters, T, Sonke, W & Speckmann, B 2025, 'Optimal in-place compaction of sliding cubes', Journal of Computational Geometry, vol. 16, no. 1, pp. 800-820. https://doi.org/10.20382/jocgv16i1a22