ISPRS International Journal of Geo-Information (Apr 2022)

An Efficient Plane-Segmentation Method for Indoor Point Clouds Based on Countability of Saliency Directions

  • Xuming Ge,
  • Jingyuan Zhang,
  • Bo Xu,
  • Hao Shu,
  • Min Chen

DOI
https://doi.org/10.3390/ijgi11040247
Journal volume & issue
Vol. 11, no. 4
p. 247

Abstract

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This paper proposes an efficient approach for the plane segmentation of indoor and corridor scenes. Specifically, the proposed method first uses voxels to pre-segment the scene and establishes the topological relationship between neighboring voxels. The voxel normal vectors are projected onto the surface of a Gaussian sphere based on the corresponding directions to achieve fast plane grouping using a variant of the K-means approach. To improve the segmentation integration, we propose releasing the points from the specified voxels and establishing second-order relationships between different primitives. We then introduce a global energy-optimization strategy that considers the unity and pairwise potentials while including high-order sequences to improve the over-segmentation problem. Three benchmark methods are introduced to evaluate the properties of the proposed approach by using the ISPRS benchmark datasets and self-collected in-house. The results of our experiments and the comparisons indicate that the proposed method can return reliable segmentation with precision over 72% even with the low-cost sensor, and provide the best performances in terms of the precision and recall rate compared to the benchmark methods.

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