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Lookup NU author(s): Dr Shidong WangORCiD
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Multi-focus image fusion (MFIF) addresses the challenge of partial focus by integrating multiple source images taken at different focal depths. Unlike most existing methods that rely on complex loss functions or large-scale synthetic datasets, this study approaches MFIF from a novel perspective: optimizing the input space. The core idea is to construct a high-quality MFIF input space in a cost-effective manner by using intermediate features from well-trained, non-MFIF networks. To this end, we propose a cascaded framework comprising two feature extractors, a Feature Distillation and Fusion Module (FDFM), and a focus segmentation network YUNet. Based on our observation that discrepancy and edge features are essential for MFIF, we select a image deblurring network and a salient object detection network as feature extractors. To transform these extracted features into an MFIF-suitable input space, we propose FDFM as a training-free feature adapter. To make FDFM compatible with high-dimensional feature maps, we extend the manifold theory from the edge-preserving field and design a novel isometric domain transformation. Extensive experiments on six benchmark datasets show that (i) our model consistently outperforms 13 state-of-the-art methods in both qualitative and quantitative evaluations, and (ii) the constructed input space can directly enhance the performance of many MFIF models without additional requirements.
Author(s): Wang Z, Yu S, Duan H, Wang S, Long Y, Shao L
Publication type: Article
Publication status: Published
Journal: IEEE Transactions on Image Processing
Year: 2026
Volume: 35
Pages: 1321-1336
Online publication date: 23/01/2026
Acceptance date: 09/01/2026
ISSN (print): 1057-7149
ISSN (electronic): 1941-0042
Publisher: IEEE
URL: https://doi.org/10.1109/TIP.2026.3654370
DOI: 10.1109/TIP.2026.3654370
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