4 February 2013 Visibility-difference entropy for automatic transfer function generation
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Abstract
Direct volume rendering allows for interactive exploration of volumetric data and has become an important tool in many visualization domains. But the insight and information that can be obtained are dependent on the transfer function defining the transparency of voxels. Constructing good transfer functions is one of the most time consuming and cumbersome tasks in volume visualization. We present a novel general purpose method for automatically generating an initial set of best transfer function candidates. The generated transfer functions reveal the major structural features within the volume and allow for an efficient initial visual analysis, serving as a basis for further interactive exploration in particular of originally unknown data. The basic idea is to introduce a metric as a measure of the goodness of a transfer function which indicates the information that can be gained from rendered images by interactive visualization. In contrast to prior methods, our approach does not require a user feedback-loop, operates exclusively in image space and takes the characteristics of interactive data exploration into account. We show how our new transfer function generation method can uncover the major structures of an unknown dataset within only a few minutes.
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Philipp Schlegel, Renato Pajarola, "Visibility-difference entropy for automatic transfer function generation", Proc. SPIE 8654, Visualization and Data Analysis 2013, 865406 (4 February 2013); doi: 10.1117/12.2002971; https://doi.org/10.1117/12.2002971
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