Fast and Accurate Light Field Saliency Detection through Feature Extraction
Light field saliency detection—important due to utility in many vision tasks—still lack speed and can improve in accuracy. Due to the formulation of the saliency detection problem in light fields as a segmentation task or a "memorizing" tasks, existing approaches consume unnecessarily large amounts of computational resources for (training and) testing leading to execution times is several seconds. We solve this by aggressively reducing the large light-field images to a much smaller three-channel feature map appropriate for saliency detection using an RGB image saliency detector. We achieve this by introducing a novel convolutional neural network based features extraction and encoding module. Our saliency detector takes 0.4 s to process a light field of size 9×9×512×375 in a CPU and is significantly faster than existing systems, with better or comparable accuracy. Our work shows that extracting features from light fields through aggressive size reduction and the attention results in a faster and accurate light-field saliency detector.
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