End-to-end learning for simultaneously generating decision map and multi-focus image fusion result
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DOI number:10.1016/j.neucom.2021.10.115 Journal:Neurocomputing Abstract:The general aim of multi-focus image fusion is to gather focused regions of different images to generate a unique all-in-focus fused image. Deep learning based methods become the mainstream of image fusion by virtue of its powerful feature representation ability. However, most of the existing deep learning struc�tures failed to balance fusion quality and end-to-end implementation convenience. End-to-end decoder design often leads to unrealistic result because of its non-linear mapping mechanism. On the other hand, generating an intermediate decision map achieves better quality for the fused image, but relies on the rectification with empirical post-processing parameter choices. In this work, to handle the requirements of both output image quality and comprehensive simplicity of structure implementation, we propose a cascade network to simultaneously generate decision map and fused result with an end-to-end training procedure. It avoids the dependence on empirical post-processing methods in the inference stag. To improve the fusion quality, we introduce a gradient aware loss function to preserve gradient information in output fused image. In addition, we design a decision calibration strategy to decrease the time con�sumption in the application of multiple images fusion. Extensive experiments are conducted to compare with 19 different state-of-the-art multi-focus image fusion structures with 6 assessment metrics. The results prove that our designed structure can generally ameliorate the output fused image quality, while implementation efficiency increases over 30% for multiple images fusion. Co-author:Xiang Yin,Di Wu,Haokai Shen,Xiaojuan Ban,Yu Wang First Author:Boyuan Ma Indexed by:Journal paper Discipline:Engineering Document Type:J Volume:470 Issue:1 Page Number:204-216. (TOP期刊) Translation or Not:no Date of Publication:2022-01-01 Included Journals:SCI -
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