Remote Sensing (Aug 2022)

Multisensor Data Fusion by Means of Voxelization: Application to a Construction Element of Historic Heritage

  • Javier Raimundo,
  • Serafin Lopez-Cuervo Medina,
  • Julian Aguirre de Mata,
  • Juan F. Prieto

DOI
https://doi.org/10.3390/rs14174172
Journal volume & issue
Vol. 14, no. 17
p. 4172

Abstract

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Point clouds are very common tools used in the work of documenting historic heritage buildings. These clouds usually comprise millions of unrelated points and are not presented in an efficient data structure, making them complicated to use. Furthermore, point clouds do not contain topological or semantic information on the elements they represent. Added to these difficulties is the fact that a variety of different kinds of sensors and measurement methods are used in study and documentation work: photogrammetry, LIDAR, etc. Each point cloud must be fused and integrated so that decisions can be taken based on the total information supplied by all the sensors used. A system must be devised to represent the discrete set of points in order to organise, structure and fuse the point clouds. In this work we propose the concept of multispectral voxels to fuse the point clouds, thus integrating multisensor information in an efficient data structure, and applied it to the real case of a building element in an archaeological context. The use of multispectral voxels for the fusion of point clouds integrates all the multisensor information in their structure. This allows the use of very powerful algorithms such as automatic learning and machine learning to interpret the elements studied.

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