Segmentation-based multiframe blind deconvolution of solar images

Noriaki Miura; Naoshi Baba

doi:10.1364/JOSAA.12.001858

Journal of the Optical Society of America A
Vol. 12,
Issue 9,
pp. 1858-1866
(1995)
•https://doi.org/10.1364/JOSAA.12.001858

Segmentation-based multiframe blind deconvolution of solar images

Noriaki Miura and Naoshi Baba

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Noriaki Miura and Naoshi Baba, "Segmentation-based multiframe blind deconvolution of solar images," J. Opt. Soc. Am. A 12, 1858-1866 (1995)

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Abstract

A blind deconvolution method is applied to the recovery of atmospherically degraded solar images. The method consists of an iterative deconvolution algorithm that uses several partial images segmented from each of multiple frames. It is shown that the algorithm decreases a specified error metric, allows a unique solution, and reduces contamination originally existing in solar images observed with a limited field of view. Artificial contamination introduced into the partial images by segmentation is calibrated with the use of estimates of an object and a point-spread function at the previous iteration. Computer simulation demonstrates successful reconstruction for a low-contrast degraded image and the expected behavior of an error metric. High-resolution images are reconstructed from observed solar images.

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			MSE

Parameters N, M	Limit Frequency C_l	Error Metric (×10⁻²)	PSF	Object (×10⁻¹)
Bias ratio 0.0
3, 3	36	0.194	0.301	0.426
3, 5	36	0.164	0.232	0.844
10, 3	36	0.229	0.144	0.339
10, 5	36	0.196	0.154	0.340
20, 5	36	0.159	0.119	0.306
Bias ratio 0.8
3, 3	31	0.278	0.306	0.546
3, 5	31	0.244	0.257	0.592
10, 3	32	0.302	0.181	0.404
10, 5	33	0.257	0.171	0.379
20, 5	33	0.218	0.142	0.375

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Journal of the Optical Society of America A