New Visualization of Surfaces in Parallel Coordinates - Eliminating Ambiguity and Some "Over-Plotting"
摘要
point is represented in Parallel Coordinates by a polygonal line (see \cite{Insel99a} for a recent survey). Earlier \cite{inselberg85plane}, a surface was represented as the {\em envelope} of the polygonal lines representing it's points. This is ambiguous in the sense that {\em different} surfaces can provide the {\em same} envelopes. Here the ambiguity is eliminated by considering the surface as the envelope of it's {\em tangent planes} and in turn, representing each of these planes by -1 points \cite{Insel99a}. This, with some future extension, can yield a new and unambiguous representation, , of the surface consisting of -1 planar regions whose properties correspond lead to the {\em recognition} of the surfaces' properties i.e. developable, ruled etc. \cite{hung92smooth}) and {\em classification} criteria. It is further shown that the image (i.e. representation) of an algebraic surface of degree 2 in is a region whose boundary is also an algebraic curve of degree 2. This includes some {\em non-convex} surfaces which with the previous ambiguous representation could not be treated. An efficient construction algorithm for the representation of the quadratic surfaces (given either by {\em explicit} or {\em implicit} equation) is provided. The results obtained are suitable for applications, to be presented in a future paper, and in particular for the approximation of complex surfaces based on their {\em planar} images. An additional benefit is the elimination of the ``over-plotting'' problem i.e. the ``bunching'' of polygonal lines which often obscure part of the parallel-coordinate display.
引用
@article{arxiv.cs/0403004,
title = {New Visualization of Surfaces in Parallel Coordinates - Eliminating Ambiguity and Some "Over-Plotting"},
author = {Zur Izhakian},
journal= {arXiv preprint arXiv:cs/0403004},
year = {2007}
}
备注
13 pages 8 figures