3D shape reconstruction from multifocus image fusion using a multidirectional modified Laplacian operator
Authors: Tao Yan, Zhiguo Hu, Yuhua Qian, Zhiwei Qiao, Linyuan Zhang,
Abstract:
Multifocus image fusion techniques primarily emphasize human vision and machine perception to eval- uate an image, which often ignore depth information contained in the focus regions. In this paper, a novel 3D shape reconstruction algorithm based on nonsubsampled shearlet transform (NSST) microscopic multifocus image fusion method is proposed to mine 3D depth information from the fusion process. The shift-invariant property of NSST guarantees the spatial corresponding relationship between the image se- quence and its high-frequency subbands. Since the high-frequency components of an image represent the focus level of the image, a new multidirectional modified Laplacian (MDML) as the focus measure maps the high-frequency subbands to images of various levels of depth. Next, the initial 3D reconstruction re- sult is obtained by using an optimal level selection strategy based on the summation of the multiscale Laplace responses to exploit these depth maps. Finally, an iterative edge repair method is implemented to refine the reconstruction result. The experimental results show that the proposed method has better performance, especially when the source images have low-contrast regions.
Keywords: 3D shape reconstruction; Image fusion; Shape-from-focus; Microscopic imaging; Nonsubsampled shearlet transform
3D shape reconstruction from multifocus image fusion using a multidirectional modified Laplacian operator.pdf
Wed Nov 25 16:20:00 CST 2020