An Entropy-Based Test and Development Framework for Uncertainty Modeling in Level-Set Visualizations

Robert Sisneros, Tushar M. Athawale, David Pugmire, Kenneth Moreland
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Abstract

We present a simple comparative framework for testing and developing uncertainty modeling in uncertain marching cubes implementations. The selection of a model to represent the probability distribution of uncertain values directly influences the memory use, run time, and accuracy of an uncertainty visualization algorithm. We use an entropy calculation directly on ensemble data to establish an expected result and then compare the entropy from various probability models, including uniform, Gaussian, histogram, and quantile models. Our results verify that models matching the distribution of the ensemble indeed match the entropy. We further show that fewer bins in nonparametric histogram models are more effective whereas large numbers of bins in quantile models approach data accuracy.
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基于熵的水平集可视化不确定性建模测试与开发框架
我们提出了一个简单的比较框架,用于测试和开发不确定行进立方体实现中的不确定建模。选择何种模型来表示不确定值的概率分布直接影响不确定可视化算法的内存使用、运行时间和准确性。我们在集合数据上直接使用熵计算来确定预期结果,然后比较各种概率模型的熵,包括均匀、高斯、直方图和量子模型。我们的结果验证了与集合分布相匹配的模型确实与熵相匹配。我们进一步证明,非参数直方图模型中较少的分位数更有效,而量化模型中较多的分位数则接近数据准确性。
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