Abstract
D imaging LiDAR systems have the potential to acquire multi-layered 3D image data; that is rather than store a single depth value at e ach pixel, it is pos- sible to store the range to more than one surface within the pixel view direction. Multiple returns are possible at a single pixel when imaging through transparent surfaces, for example when acquiring depth images of cars or buildings that have windows, in which case it is possible to record both external and internal struc- ture. Multiple returns are also possible when the pixel field of view encompasses more than one opaque surface. However, to build such multi-layered 3D images, we need to think of new ways of processing the LiDAR data. In this paper, we present a unified theory of pixel processing for such data. This is based on a reversible jump Markov chain Monte Carlo (RJMCMC) me- thodology extended to include spatial constraints by a Markov Random Field with a Potts prior model. We consider two distinct proposal distributions, based on spatial mode jumping and spatial birth/death processes respectively. We also include a delayed-rejection step in the RJMCMC algorithm to improve the esti- mates of the range and reflectance of each surface element. Ou r methodology is demonstrated on both photon count and burst illumination LiDAR data.
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