Course curriculum

    1. Visual decoding: Introduction and definitions (3:56 minutes)

    2. Visual decoding: some remarkable observations about visual recognition in humans (6:29 minutes)

    3. Visual decoding: "where" and "what" visual tasks (2:43 minutes)

    4. Visual decoding: object invariance (4:33 minutes)

    5. visual decoding: neural basis (5:58 minutes)

    6. quiz at end of this chapter "visual decoding: introduction and properties"

    1. Visual decoding: maximum-likelihood decoding from the response of a single neuron (6:31 minutes)

    2. quiz after lesson "Visual decoding: maximum-likelihood decoding from the response of a single neuron"

    3. Visual decoding: from a population response (6:37 minutes)

    4. quiz after lesson "Visual decoding: from a population response"

    5. visual decoding: contrast detection and discrimination (6:09 minutes)

    6. quiz after lesson "visual decoding: contrast detection and discrimination "

    7. visual decoding: discriminating the wavelength of monochromatic light (6:58 minutes)

    8. quiz after lesson "visual decoding: discriminating the wavelength of monochromatic light"

    9. visual decoding: decoding a single feature value from responses of an array of feature tuned neurons (5:06 minutes)

    10. quiz after lesson "visual decoding: decoding a single feature value from responses of an array of feature tuned neurons"

    11. Visual decoding: Fisher Information (5:23 minutes)

    12. Quiz after "Visual decoding: Fisher Information"

    13. visual decoding: severe bottleneck in the central brain (5:10 minutes)

    1. Bayesian decoding (6:52 minutes)

    2. Decoding for high dimensional features (2:13 minutes)

    3. quiz for Bayesian decoding

    1. Central-Peripheral Dichotomy, a quick introduction (4:04 minutes)

    2. quiz after lesson "Central-peripheral dichotomy, a quick introduction"

    3. Flip tilt illusion in the peripheral visual field (6:28 minutes)

    4. Reversed phi motion illusion, and analogy of the flip tilt illusion (3:47 minutes)

    5. Reversed depth illusion in peripheral vision by anti-correlated random dot stereograms (5:34 minutes)

    6. quiz after "flip tilt illusion, reversed phi illusion, and reversed depth illusion"

    7. Top-down biases in ambiguous perception are stronger in central vision (6:45 minutes).

    8. quiz after lesson "Top-down biases in ambiguous perception are stronger in central vision"

    9. Top-down feedback in central vision: in depth perception using random-dot stereograms (4:52 minutes)

    10. quiz after lesson "Top-down feedback in central vision: in depth perception using random-dot stereograms"

About this course

  • Free
  • 32 lessons
  • 2 hours of video content

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