[SIT26-P01] Dissimilarity classes of reduced stress tensors
Keywords:stress inversion, reduced stress tensor, statistics
Orife and Lisle (2003) regarded the Euclidean distance between points on the hypersphere as the dissimilarity of the tensors corresponding to the points; and used the mean (μ) and standard deviation (s) of the dissimilarities of randomly chosen tensors to define the dissimilarity classes. That is, reduced stress tensors are called ‘very similar’ if their dissimilarity is smaller than μ – 2s. Likewise, the ‘similar,’ ‘different’ and ‘very different’ classes were divided by the dissimilarity values μ – s, μ and μ + s. However, their definition of the classes depends on the choice of a dissimilarity measure of reduced stress tensors. If angular distance between points on the hypersphere is chosen as the dissimilarity measure, the mean and standard deviation of this distance are different from those of Orife and Lisle (2003).
Accordingly, we propose to use the probability for arbitrarily chosen reduced stress tensors to fall into a dissimilarity class. That is, the class boundaries are defined with the 5, 15 and 95 percentiles of the probability density function of the angular distance of the tensors. As a result, reduced stress tensors are called ‘very similar’ if the angular distance between the points corresponding to the tensors is smaller than 43.17°. When ‘very similar’ stresses are obtained through the inversion from two areas, it is highly probable that the areas are affected by the same stress condition, because the probability for the stresses to fall into the ‘very similar’ class by chance is only 5%. The boundaries of the ‘similar,’ ‘different’ and ‘very different’ classes are the angular distances of 59.26° and 136.83°. Arbitrarily chosen stress tensors usually falls into the ‘different’ class at the probability of 80%. Stresses of the ‘very different’ class has the angular distance between 136.83 and 180°.