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ICCV
2007
IEEE
2007
IEEE
Spherical-Homoscedastic Shapes
Shape analysis requires invariance under translation, scale and rotation. Translation and scale invariance can be realized by normalizing shape vectors with respect to their mean and norm. This maps the shape feature vectors onto the surface of a hypersphere. After normalization, the shape vectors can be made rotational invariant by modelling the resulting data using complex scalar rotation invariant distributions defined on the complex hypersphere, e.g., using the complex Bingham distribution. However, the use of these distributions is hampered by the difficulty in estimating their parameters, which is shown to be very costly or impossible in most cases. The purpose of this paper is twofold. First, we show under which conditions the classification results obtained with complex Binghams are identical to those obtained with the easy-to-estimate complex Normal distribution. Second, we derive a kernel function which (intrinsically) maps the data into a space where the above conditions ar...
Real-time TrafficComplex Bingham Distribution | Complex Normal Distribution | Complex Scalar Rotation | Computer Vision | ICCV 2007 | Shape Feature Vectors | Shape Vectors |
| Added | 14 Oct 2009 |
| Updated | 14 Oct 2009 |
| Type | Conference |
| Year | 2007 |
| Where | ICCV |
| Authors | Onur C. Hamsici, Aleix M. Martínez |
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