Extending and Simplifying Transfer Function Design in Medical Volume Rendering Using Local Histograms
Direct Volume Rendering (DVR) is known to be of diagnostic value in the analysis of medical data sets. However,
its deployment in everyday clinical use has so far been limited. Two major challenges are that the current methods
for Transfer Function (TF) construction are too complex and that the tissue separation abilities of the TF need
to be extended. In this paper we propose the use of histogram analysis in local neighborhoods to address both
these conflicting problems. To reduce TF construction difficulty, we introduce Partial Range Histograms in an
automatic tissue detection scheme, which in connection with Adaptive Trapezoids enable efficient TF design. To
separate tissues with overlapping intensity ranges, we propose a fuzzy classification based on local histograms as
a second TF dimension. This increases the power of the TF, while retaining intuitive presentation and interaction.
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BibTex references
@article{LLY05, author = {Lundstr{\"o}m, Claes and Ljung, Patric and Ynnerman, Anders}, title = {{Extending and Simplifying Transfer Function Design in Medical Volume Rendering Using Local Histograms}}, journal = {IEEE VGTC Symposium on Visualization}, pages = {263--270}, year = {2005} }