3D-Welten selbstgemacht - Raytracing mit POVRAY

Anders, Jörg

10 September 1998

Vortrag UNIX-Stammtisch 01/97

POVRAY

ddc:004

3D-Welten selbstgemacht - Raytracing mit POVRAY

Anders, Jörg

10 September 1998

Vortrag UNIX-Stammtisch 01/97

info:eu-repo/classification/ddc/004

ddc:004

POVRAY

Reconstruction of trees from 3D point clouds

Stålberg, Martin

January 2017

The geometrical structure of a tree can consist of thousands, even millions, of branches, twigs and leaves in complex arrangements. The structure contains a lot of useful information and can be used for example to assess a tree's health or calculate parameters such as total wood volume or branch size distribution. Because of the complexity, capturing the structure of an entire tree used to be nearly impossible, but the increased availability and quality of particularly digital cameras and Light Detection and Ranging (LIDAR) instruments is making it increasingly possible. A set of digital images of a tree, or a point cloud of a tree from a LIDAR scan, contains a lot of data, but the information about the tree structure has to be extracted from this data through analysis. This work presents a method of reconstructing 3D models of trees from point clouds. The model is constructed from cylindrical segments which are added one by one. Bayesian inference is used to determine how to optimize the parameters of model segment candidates and whether or not to accept them as part of the model. A Hough transform for finding cylinders in point clouds is presented, and used as a heuristic to guide the proposals of model segment candidates. Previous related works have mainly focused on high density point clouds of sparse trees, whereas the objective of this work was to analyze low resolution point clouds of dense almond trees. The method is evaluated on artificial and real datasets and works rather well on high quality data, but performs poorly on low resolution data with gaps and occlusions.

Bayes

Bayesian inference

point cloud

pointcloud

3D

tree

trees

reconstruction

Matlab

Povray

Arbaro

model

LIDAR

Hough transform

cylinder

geometry

heuristic

Australia

Australian Centre for Field Robotics

spherical grid

icosahedron

likelihood

intersection

artificial data

color encoded

depth map

coordinate map

ray tracing

Information Systems