This paper deals with a new anisotropic discrete dual-tree wavelet transform (ADDTWT) to characterize the anisotropy of bone texture.

This paper deals with a new Anisotropic Discrete Dual-Tree Wavelet Transform (ADDTWT) to characterize the anisotropy of bone texture.

Abstract—This paper deals with a new anisotropic dis- crete dual-tree wavelet transform (ADDTWT) to characterize the anisotropy of bone texture.

Results show that the ADDTWT outperforms most of the competing anisotropic transforms with an area under curve rate of 93% and a texture classification ...

Abstract: This paper deals with a new anisotropic discrete dual-tree wavelet transform (ADDTWT) to characterize the anisotropy of bone texture More ...

Anisotropic Discrete Dual-Tree Wavelet Transform for Improved Classification of Trabecular Bone. Oulhaj, H., Rziza, M., Amine, A., Toumi, H., Lespessailles ...

This paper deals with a new Anisotropic Discrete Dual-Tree Wavelet Transform (ADDTWT) to characterize the anisotropy of bone texture.

Anisotropic discrete dual-tree wavelet transform for improved classification of trabecular bone · Trabecular bone characterization using circular parametric ...

Apr 25, 2024 · Anisotropic Discrete Dual-Tree Wavelet Transform for Improved Classification of Trabecular Bone. IEEE Trans. Medical Imaging 36(10): 2077 ...

Anisotropic discrete dual-tree wavelet transform for improved classification of trabecular bone. H Oulhaj, M Rziza, A Amine, H Toumi, E Lespessailles, M El ...