Self-supervised multi-scale pyramid fusion networks for realistic bokeh effect rendering

Images with visual pleasing bokeh effect are often unattainable for mobile cameras with compact optics and tiny sensors. To balance the aesthetic requirements on photo quality and expensive high-end SLR cameras, synthetic bokeh effect rendering has emerged as an attractive machine learning topic for engineering applications on imaging systems. However, most of bokeh rendering models either heavily relied on prior knowledge such as scene depth or were topic-irrelevant data-driven networks without task-specific knowledge, which restricted models’ training efficiency and testing accuracy. Since bokeh is closely related to a phenomenon called ”circle of confusion”, therefore, in this paper, following the principle of bokeh generation, a novel self-supervised multi-scale pyramid fusion network has been proposed for bokeh rendering. During the pyramid fusion process, structure consistencies are employed to emphasize the importance of respective bokeh components. Task-specific knowledge which mimics the ”circle of confusion” phenomenon through disk blur convolutions is utilized as self-supervised information for network training. The proposed network has been evaluated and compared with several state-of-the-art methods on a public large-scale bokeh dataset- the ”EBB!” Dataset. The experiment performance demonstrates that the proposed network has much better processing efficiency and can achieve better realistic bokeh effect with much less parameters size and running time. Related source codes and pre-trained models of the proposed model will be available soon on .