Saliency Preservation in Low-Resolution Grayscale Images
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Visual salience detection originated over 500 million years ago and is one of the most efficient mechanisms in nature. In contrast, state-of-the-art computational saliency models are often complex and inefficient, primarily because they process high-resolution color (HC) images. Insights into the evolutionary origins of visual salience detection suggest that achromatic low-resolution vision is essential to its speed and efficiency. Previous studies have shown that low-resolution color and high-resolution grayscale images preserve saliency information and are significantly more computationally attractive than HC images. However, to our knowledge, no one has investigated whether saliency is preserved in low-resolution grayscale (LG) images. In this study, we explain the biological and computational motivation for LG, and show, through eye-tracking experiments, that saliency information is preserved in LG images. We found high similarity between LG fixations from a group of observers and HC fixations from a benchmark group. We also found no significant difference in inter-observer congruency between LG and HC groups, and conclude by proposing LG images for fast and efficient salience detection.
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