Textureless Layers

Qifa Ke, Simon Baker, and Takeo Kanade
tech. report CMU-RI-TR-04-17, Robotics Institute, Carnegie Mellon University, March, 2004


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Abstract
Layers are one of the most well studied ways of representing a 3D scene. Although man-made scenes often contain constant intensity planar regions (textureless layers), it is almost always assumed that there is enough texture in each layer to compute the motion of the layer using image alignment and to base layer assignment on pixel-wise differencing. Since (the interior of) any textureless region is consistent with the motion of any layer, most existing algorithms assign constant intensity regions to the dominant layer, or to a random nearby layer. The one source of information that could be used to resolve the inherent ambiguity, namely the lines separating the constant intensity regions, is instead often treated as an outlier. In this paper we study the question of what can and cannot be computed in a 3D world consisting of a set of constant intensity planar regions (textureless layers). We derive an algorithm to determine when the shape of the scene is unique, when it is inherently ambiguous, and if so, what the set of possible scene shapes is.

Keywords
Layers, constant intensity regions, inherent

Notes
Associated Center(s) / Consortia: Vision and Autonomous Systems Center
Associated Project(s): Textureless Layers

Text Reference
Qifa Ke, Simon Baker, and Takeo Kanade, "Textureless Layers," tech. report CMU-RI-TR-04-17, Robotics Institute, Carnegie Mellon University, March, 2004

BibTeX Reference
@techreport{Ke_2004_4623,
   author = "Qifa Ke and Simon Baker and Takeo Kanade",
   title = "Textureless Layers",
   booktitle = "",
   institution = "Robotics Institute",
   month = "March",
   year = "2004",
   number= "CMU-RI-TR-04-17",
   address= "Pittsburgh, PA",
}