三维克劳楚克矩的平移、缩放和旋转不变量

2018 International Conference on Intelligent Systems and Computer Vision (ISCV) Pub Date : 2018-04-01 DOI:10.1109/ISACV.2018.8354059

H. Amakdouf, A. Zouhri, M. El Mallahi, A. Tahiri, H. Qjidaa

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引用次数: 2

摘要

三维克劳tchouk矩等离散正交矩是三维目标识别的有效方法。三维克劳楚克矩的平移、缩放和旋转不变量可以通过对三维物体进行归一化或使用相应的三维几何矩不变量的组合来获得。然而，这些矩的提取并不是建立在这些多项式上的。在这项工作中，我们提出了一种新的方法，直接从这些多项式中提取三维克劳tchouk矩的平移缩放和旋转不变量。用三维物体测试了该方法的性能。数值模拟结果表明，三维克劳tchouk矩在三维平移缩放和旋转下是不变的。此外，该方法的速度比传统方法快。

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Translation Scaling and rotation invariants of 3D Krawtchouk moments

The discrete orthogonal moments such as 3D Krawtchouk moments are effective for 3D object recognition. The translation scaling and rotation invariants of 3D Krawtchouk moments are attained either by normalizing the 3D object or with using a combination of the corresponding invariants of 3D geometric moments. However, the extraction of these moments is not founded on these polynomial. In this work, we suggest a new approach to extract the translation scaling and rotation invariants of 3D Krawtchouk moments directly from these polynomials. The performance of the suggested approach is tested using 3D object. Numerical simulations show that the 3D Krawtchouk moments are invariant under 3D translation scaling and rotation. Moreover, the rapidity of the suggested approach is faster than traditional methods.

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来源期刊

2018 International Conference on Intelligent Systems and Computer Vision (ISCV)

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