Holcombe: Difference between revisions
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We're curious about temporal aspects of human visual information processing - how quickly do different cortical modules and stages process information, and how are they coordinated in time? We use behavioral experiments, illustrated by the animations below, to compare speed limits for different features and the dynamics of how these features are bound into a coherent percept. One coordination problem occurs because when an object moves across the visual field, it stimulates different populations of neurons in early visual cortex, so we're testing how the signals from different areas are combined by later stages of the brain. Overall, fast processes somehow work together with others that are very sluggish in order to yield conscious perception. Recently, we've begun experiments to see how these limitations constrain our | We're curious about temporal aspects of human visual information processing - how quickly do different cortical modules and stages process information, and how are they coordinated in time? We use behavioral experiments, illustrated by the animations below, to compare speed limits for different features and the dynamics of how these features are bound into a coherent percept. One coordination problem occurs because when an object moves across the visual field, it stimulates different populations of neurons in early visual cortex, so we're testing how the signals from different areas are combined by later stages of the brain. Overall, fast processes somehow work together with others that are very sluggish in order to yield conscious perception. Recently, we've begun experiments to see how these limitations constrain our interaction with moving objects. | ||
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Revision as of 23:34, 26 July 2008
Recent members• Alex Holcombe
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We're curious about temporal aspects of human visual information processing - how quickly do different cortical modules and stages process information, and how are they coordinated in time? We use behavioral experiments, illustrated by the animations below, to compare speed limits for different features and the dynamics of how these features are bound into a coherent percept. One coordination problem occurs because when an object moves across the visual field, it stimulates different populations of neurons in early visual cortex, so we're testing how the signals from different areas are combined by later stages of the brain. Overall, fast processes somehow work together with others that are very sluggish in order to yield conscious perception. Recently, we've begun experiments to see how these limitations constrain our interaction with moving objects. |
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26 April 2024
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08:43 (cur | prev) +16,816 Xning098 talk contribs (Created page with "{{Template:CHEM-ENG590E}} ==Introduction== Microfluidics is the science and technology of systems that process or manipulate small (10 <sup> -18 </sup> to 10 <sup>−18 </sup> litres) amounts of fluids, using channels with dimensions of tens to hundreds of micrometres, as stated by George Whitesides. <sup> https://doi.org/10.1038/nature05058 1 </sup>. Microfluidic devices are microchemical systems such as labs on the chip, organs on the chip and plants on the chip....") |
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