Abstract
Natural vision systems still outperform artificial vision systems in terms of generalization. Therefore, many researchers turned to investigate biological vision systems in order to reverse engineer them and implement their principles into artificial vision systems. An important approach for developing a theory of vision is to characterize the visual environment in statistical terms, because this may provide objective yard sticks for evaluating natural vision systems using measures such as, for example, the information transmission rates achieved by natural vision systems. Most such studies focused on characterizing natural luminance images. Here we propose to investigate natural luminance images together with corresponding depth images using information-theoretical measures. We do this using a database of natural images and depth images and find that certain oriented filter responses convey more information about relevant depth features than other oriented filters. More specifically, we find that vertical filter responses are much more informative about gap and orientation discontinuities in the depth images than other filters. We show that this is an inherent property of the investigated visual scenes, and it may serve to explain parts of the oblique effects.
Published Version
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