A.F. Lamme and Pieter R. Roelfsema

Slides:

Advertisements

Similar presentations

Chapter 4: The Visual Cortex and Beyond

Advertisements

Read this article for Friday next week [1]Chelazzi L, Miller EK, Duncan J, Desimone R. A neural basis for visual search in inferior temporal cortex. Nature.

Higher Visual Areas Anatomy of higher visual areas

Midterm 1 Oct. 21 in class. Read this article by Wednesday next week!

Electrophysiology of Visual Attention. Does Visual Attention Modulate Visual Evoked Potentials? The theory is that Visual Attention modulates visual information.

The Physiology of Attention. Physiology of Attention Neural systems involved in orienting Neural correlates of selection.

Neurodynamics of figure-ground organization Dražen Domijan University of Rijeka, Rijeka, Croatia 8th Alps-Adria Psychology Conference.

Human (ERP and imaging) and monkey (cell recording) data together 1. Modality specific extrastriate cortex is modulated by attention (V4, IT, MT). 2. V1.

Chapter 6: Visual Attention. Overview of Questions Why do we pay attention to some parts of a scene but not to others? Do we have to pay attention to.

Midterm 1 Oct. 6 in class Review Session after class on Monday – Location TBA.

Read this article for Friday next week [1]Chelazzi L, Miller EK, Duncan J, Desimone R. A neural basis for visual search in inferior temporal cortex. Nature.

Neural Correlates of Visual Awareness. A Hard Problem Are all organisms conscious?

Neural Correlates of Visual Awareness. A Hard Problem Are all organisms conscious?

Lesions of Retinostriate Pathway Lesions (usually due to stroke) cause a region of blindness called a scotoma Identified using perimetry note macular sparing.

Evidence from Lesions: Agnosia Lesions (especially in the left hemisphere) of the inferior temporal cortex lead to disorders of memory for people and things.

Test on Friday!. Lesions of Retinostriate Pathway Lesions (usually due to stroke) cause a region of blindness called a scotoma Identified using perimetry.

Copyright © 2006 by Allyn and Bacon Chapter 7 Mechanisms of Perception, Conscious Awareness, and Attention How You Know the World This multimedia product.

Higher Processing of Visual Information: Lecture III

Exploring the human mind: the perspective of natural sciences 7th International interdisciplinary seminar Ponte di Legno, Italy AD Manazza,

Read this article for Friday Oct 21! Trends in Neuroscience (2000) 23, Hint #1: there are at least 3 ways of getting this article Hint #2: none.

Visual Neuron Responses This conceptualization of the visual system was “static” - it did not take into account the possibility that visual cells might.

Opportunities for extra credit: Keep checking at:

Test Oct. 21 Review Session Oct 19 2pm in TH201 (that’s here)

Visual Pathways W. W. Norton Primary cortex maintains distinct pathways – functional segregation M and P pathways synapse in different layers Ascending.

Test Oct. 21 Review Session Oct 19 2pm in TH201 (that’s here)

Use a pen on the test. The distinct modes of vision offered by feedforward and recurrent processing Victor A.F. Lamme and Pieter R. Roelfsema.

You have a test next week!

Writing Workshop Find the relevant literature –Use the review journals as a first approach e.g. Nature Reviews Neuroscience Trends in Neuroscience Trends.

Read this article for Friday next week [1]Chelazzi L, Miller EK, Duncan J, Desimone R. A neural basis for visual search in inferior temporal cortex. Nature.

MENTAL REPRESENATIONS Neur 3680 Midterm I review.

Searching for the NCC We can measure all sorts of neural correlates of these processes…so we can see the neural correlates of consciousness right? So what’s.

Read Lamme (2000) TINS article for Wednesday. Visual Pathways V1 is, of course, not the only visual area (it turns out it’s not even always “primary”)

Dorsal and Ventral Pathways

Question Examples If you were a neurosurgeon and you needed to take out part of the cortex of a patient, which technique would you use to identify the.

Your Test to go over your test in See me if you have to complain about something.

Some concepts from Cognitive Psychology to review: Shadowing Visual Search Cue-target Paradigm Hint: you’ll find these in Chapter 12.

Read this article for Friday [1]Chelazzi L, Miller EK, Duncan J, Desimone R. A neural basis for visual search in inferior temporal cortex. Nature 1993;

Read this article for Friday Oct 21! Trends in Neuroscience (2000) 23, Hint #1: there are at least 3 ways of getting this article Hint #2: none.

We are on track for an exam on NOVEMBER 2 nd To cover everything since last exam up to Friday the 28th.

Post-test review session Tuesday Nov in TH241.

Final Review Session Neural Correlates of Visual Awareness Mirror Neurons

Attention as Information Selection. Early Selection Early Selection model postulated that attention acted as a strict gate at the lowest levels of sensory.

Exam 1 week from today in class assortment of question types including written answers.

How does the visual system represent visual information? How does the visual system represent features of scenes? Vision is analytical - the system breaks.

Read this article for Friday [1]Chelazzi L, Miller EK, Duncan J, Desimone R. A neural basis for visual search in inferior temporal cortex. Nature 1993;

Disorders of Orienting Lesions to parietal cortex can produce some strange behavioural consequences –patients fail to notice events on the contralesional.

December 1, 2009Introduction to Cognitive Science Lecture 22: Neural Models of Mental Processes 1 Some YouTube movies: The Neocognitron Part I:

Visual Pathways visual hemifields project contralaterally –exception: bilateral representation of fovea! Optic nerve splits at optic chiasm about 90 %

Towards a true neural stance on consciousness by Victor A.F. Lamme (2006) Group 10: Chi-Hang Lau, Anita Leung, Clarisse Miguel, Elisa Tsan, Alistair Wong.

Color vision Different cone photo- receptors have opsin molecules which are differentially sensitive to certain wavelengths of light – these are the physical.

PY202 Overview. Meta issue How do we internalise the world to enable recognition judgements to be made, visual thinking, and actions to be executed.

Dorsal and Ventral Pathways and What They Do. Dorsal and Ventral Pathways visual information arrives at V1 via the retinostriate pathway it is already.

Consequences of Attentional Selection Single unit recordings.

University Studies 15A: Consciousness I The Neurobiology of Vision.

Attention Modulates Responses in the Human Lateral Geniculate Nucleus Nature Neuroscience, 2002, 5(11): Presented by Juan Mo.

THE VISUAL SYSTEM: EYE TO CORTEX Outline 1. The Eyes a. Structure b. Accommodation c. Binocular Disparity 2. The Retina a. Structure b. Completion c. Cone.

The primate visual systemHelmuth Radrich, The primate visual system 1.Structure of the eye 2.Neural responses to light 3.Brightness perception.

Chapter 8: Perceiving Motion

Chapter 3: Neural Processing and Perception. Neural Processing and Perception Neural processing is the interaction of signals in many neurons.

Binding problems and feature integration theory. Feature detectors Neurons that fire to specific features of a stimulus Pathway away from retina shows.

Higher Visual Areas 1.Anatomy of higher visual areas 2.Two processing pathways - “ Where ” pathway for motion and depth - “ What ” pathway for form and.

Visual Computation I. Physiological Foundations

Week 4 Motion, Depth, Form: Cormack Wolfe Ch 6, 8 Kandell Ch 27, 28 Advanced readings: Werner and Chalupa Chs 49, 54, 57.

Midterm 1 Oct. 6 in class Review Session after class on Monday.

Ahissar, Hochstein (1997) Nature Task difficulty and specificity of perceptual learning 1 st third 2nd third Final session Task difficulty Stimulus-to-mask.

Neural Correlates of Visual Awareness. A Hard Problem Are all organisms conscious?

Psychology 304: Brain and Behaviour Lecture 28

CORTICAL MECHANISMS OF VISION

Mind, Brain & Behavior Wednesday February 12, 2003.

Volume 75, Issue 1, Pages (July 2012)

Presentation transcript:

A.F. Lamme and Pieter R. Roelfsema The distinct modes of vision offered by feedforward and recurrent processing Victor A.F. Lamme and Pieter R. Roelfsema

Dichotomies in the Visual System? What are three dichotomies that Lamme identifies in the visual system?

Dichotomies in the Visual System? What are three dichotomies that Lamme identifies in the visual system? Dorsal vs. Ventral stream

Dichotomies in the Visual System? What are three dichotomies that Lamme identifies in the visual system? Dorsal vs. Ventral stream Pre-attentive vs. Attentive

Dichotomies in the Visual System? What are three dichotomies that Lamme identifies in the visual system? Dorsal vs. Ventral stream Pre-attentive vs. Attentive Conscious vs. Unconscious

The Feed-Forward Sweep What is the feed-forward sweep?

The Feed-Forward Sweep The feed-forward sweep is the initial response of each visual area “in turn” as information is passed to it from a “lower” area a single spike per synapse no time for lateral connections no time for feedback connections

The Feed-Forward Sweep The feed-forward sweep is the initial response of each visual area “in turn” as information is passed to it from a “lower” area Consider the latencies of the first responses in various areas

The Feed-Forward Sweep Thus the “hierarchy” of visual areas differs depending on temporal or anatomical features Three aspects of the visual system account for this fact: Some neurons in an area don’t receive direct connections from the next “lower” area multiple feed-forward sweeps progressing at different rates (I.e. magno and parvo pathways) in parallel signals arrive at cortex via routes other than the Geniculo-striate pathway (LGN to V1)

The Feed-Forward Sweep The feed-forward sweep gives rise to the “classical” receptive field properties tuning properties exhibited in very first spikes think of cortical neurons as “detectors” only during feed-forward sweep

After the Forward Sweep By 150 ms, virtually every visual brain area has responded to the onset of a visual stimulus But visual cortex neurons continue to fire for hundreds of milliseconds!

After the Forward Sweep By 150 ms, virtually every visual brain area has responded to the onset of a visual stimulus But visual cortex neurons continue to fire for hundreds of milliseconds! What are they doing?

After the Forward Sweep By 150 ms, virtually every visual brain area has responded to the onset of a visual stimulus But visual cortex neurons continue to fire for hundreds of milliseconds! What are they doing? with sufficient time (a few tens of ms) neurons begin to reflect aspects of cognition other than “detection”

Extra-RF Influences One thing they seem to be doing is helping each other figure out what aspects of the entire scene each RF contains That is, the responses of visual neurons begin to change to reflect global rather than local features of the scene recurrent signals sent via feedback projections are thought to mediate these later properties

Extra-RF Influences consider texture-defined boundaries classical RF tuning properties do not allow neuron to know if RF contains figure or background At progressively later latencies, the neuron response differently depending on whether it is encoding boundaries, surfaces, the background, etc.

Recurrent Signals in Object Perception Can a neuron represent whether or not its receptive field is on part of an attended object? What if attention is initially directed to a different part of the object?

Recurrent Signals in Object Perception Can a neuron represent whether or not its receptive field is on part of an attended object? What if attention is initially directed to a different part of the object? Yes, but not during the feed-forward sweep

Recurrent Signals in Object Perception curve tracing monkey indicates whether a particular segment is on a particular curve requires attention to scan the curve and “select” all segments that belong together that is: make a representation of the entire curve takes time

Recurrent Signals in Object Perception curve tracing neuron begins to respond differently at about 200 ms enhanced firing rate if neuron is on the attended curve

Feedback Signals and the binding problem What is the binding problem?

Feedback Signals and the binding problem What is the binding problem? curve tracing and the binding problem: if all neurons with RFs over the attended curve spike faster/at a specific frequency/in synchrony, this might be the binding signal

Feedback Signals and the binding problem What is the binding problem? curve tracing and the binding problem: if all neurons with RFs over the attended curve spike faster/at a specific frequency/in synchrony, this might be the binding signal But attention is supposed to solve the binding problem, right?

Feedback Signals and the binding problem So what’s the connection between Attention and Recurrent Signals?

Feedback Signals and Attention One theory is that attention (attentive processing) entails the establishing of recurrent “loops” This explains why attentive processing takes time - feed-forward sweep is insufficient

Feedback Signals and Attention Instruction cues (for exaple in the Posner Cue-Target paradigm) may cause feedback signal prior to stimulus onset (thus prior to feed-forward sweep) think of this as pre-setting the system for the upcoming stimulus

Feedback Signals and Attention We’ll consider the role of feedback signals in attention in more detail as we discuss the neuroscience of attention