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Transcript
Computational Vision --- a window to our brain Li Zhaoping, University College London At CUSPEA conference on “Physics in twenty first century” June 2002, Beijing From eye to primary visual cortex Vision: solving for 3D scene from 2D image A difficult problems, many possible solutions, one (or a few) perceptions Two of the most difficult problems (1) Object invariance, (2) visual segmentation, still unsolved. The segmentation problem Dilemma: segmentation requires recognition, recognition requires segmentation. Human Eye and Retina Human Cone Lattice Retina sampling (From B. Olshausen) Receptive fields of a retinal ganglion cell (on center cell ) Two cells in primary visual cortex Neurons in Human Cortex Visual areas in the brain Visual Area wiring diagram Some numbers: Retinal size: 5 cm x 5 cm; 0.4 mm thick One degree of visual angle = 0.3 mm on the retina Number of cones in each retina: 5x106 Number of rods in each retina: 108 Peak cone density: 1.6 x 105 cones/mm Total number of cortical neurons: 1010; 4 x 103 synapses/neuron; Number of macaque (monkey) visual areas: 30 Size of each area V1: 3 cm by 8 cm Half of area V1 represents the central 10 deg (2% of the visual field) Binocular Rivalry Color Phenomena Hering Illusion Hermann Grid Illusion A variaton Subjective Contours (Kaniza triangle) Color Afterimage Neon Disk Adelson Illusion Color Illusion Reversible ripple Focus on segmentation problem in vision --- region segmentation A region can be characterized by its average luminance, regularity, smoothness, and many other measures. Biological experimental background In early visual stages (retina or primary visual cortex), output from a neuron can be well or poorly approximated as images passed through a linear filter (kernel). These filters are called receptive fields. These filters (kernels K) are all very small, compared to the sizes of visual objects (e.g., apple) Local interactions between cortical neurons As manifested in experiments showing contextual influences of neural responses. From local to global !!! V1 model My Theory: V1 produces a saliency map from images Input to model Highlighting important image locations that signal the breaking of translation invariance Details of this theory is published in Trends in Cognitive Sciences, Vol. 6. No. 1, Jan, 2002, p. 9-16. Examples of pre-attentive segmentation explained by the model The theory: •explains many experimental data; •linking physiological and psychological data (two research communities do not talk to each other as much without such theories); •provides experimental testable predictions; motivating new experiments, and promoting theoretical approach in the traditionally experimental field. •calls for new explorations of interesting mathematics of dynamical systems not yet encounted in traditional physics.
