Open AccessUsing Context to Create Semantic 3D Models of Indoor Environments
Author(s) -
Xuehan Xiong,
Daniel Huber
Publication year - 2010
Language(s) - English
Resource type - Conference proceedings
DOI - 10.5244/c.24.45
Subject(s) - conditional random field , computer science , exploit , point cloud , encode , process (computing) , context (archaeology) , artificial intelligence , key (lock) , field (mathematics) , data modeling , context model , cloud computing , identity (music) , data mining , machine learning , mathematics , database , paleontology , object (grammar) , biochemistry , chemistry , physics , computer security , biology , acoustics , pure mathematics , gene , operating system
Semantic 3D models of buildings encode the geometry as well as the identity of key components of a facility, such as walls, floors, and ceilings. Manually constructing such a model is a time-consuming and error-prone process. Our goal is to automate this process using 3D point data from a laser scanner. Our hypothesis is that contextual information is important to reliable performance in unmodified environments, which are often highly cluttered. We use a Conditional Random Field (CRF) model to discover and exploit contextual information, classifying planar patches extracted from the point cloud data. We compare the results of our context-based CRF algorithm with a context-free method based on L2 norm regularized Logistic Regression (RLR). We find that using certain contextual information along with local features leads to better classification results.
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