1. Attention Wolfe et al Ch 7, Werner & Chalupa Ch 75, 78

6. Attention: Idea of Resource Limitations. In the example it feels like a limitation. Is this right way to think about it? Attention is not “brain juice” – Resource limitations not really a problem or “limitation”, but an inevitable aspect of coordinated goal directed behavior. Ie it wouldn’t help if we were able to process more information – however, learning allows more compact codes. Potential “bottleneck” role of basal ganglia in action selection: Nice Chapter by Allport – Foundations of Cog Sci 1989

7. Attention: a hypothetical internal variable Central idea: selection This can operate at many levels eg: - Goal selection: I want a sandwich - Sub-goal selection: find the peanut butter -Selection of visual properties associated with PB -Execution of saccade -Selection of information at current location of fovea eg location, size etc for programming grasp Spatial attention, object based attention, auditory attention, etc etc Question: How does this selection occur? Given the multiplicity of levels at which attention operates, there is a multiplicity of answers.

8. Spatial Neglect: lesions of parietal lobe, the frontal lobe, anterior cingulate cortex -profound inability to attend to certain spatial regions Subcortical level - lesions of the basal ganglia or of the pulvinar thalamic nucleus, which is heavily connected with the parietal cortex Not sensory or motor: failure to select – therefore thought of as attentional deficit. Neglect may be object centered (above), eye centered, gaze centered, or body centered Affects imagined images. Extinction: image on good side suppresses image on bad side Note other disorders of attention: schizophrenia (disordered eye movements), ADD

9. Fronto-parietal network: FEF (frontal eye fields), SEF (supplementary eye fields, and SPL (superior parietal lobule) Note similarity of areas involved in eye movements and attention. Note also, not just spatial attention but attention to objects and features. From Squires et al Fundamental Neuroscience

10. Fronto-parietal attentional control system (LIP/FEF) Cells in LIP do not respond to steady stimuli Cells respond to behaviorally relevant stimuli

11. LIP cell responses modulated by rewardtowards away LIP cell responds when relevant cue is in receptive field and when left hand is used. Ie modulated by task and hand Different reward probabilities

13. Summary: multiple influences on goal (attentional) selection in LIP

15. LGN receives input from multiple sources including striate cortex, the thalamic reticular nucleus (TRN), and the brain stem. (plus retina) The LGN therefore represents the first stage in the visual pathway at which cortical top-down feedback signals could affect information processing. fMRI expts show attentional modulation of LGN (even stronger than attentional effects in early visual areas.

16. Visual Search How is attention directed to locations in scenes? Process by which a region of the peripheral retina is selected as the target for a saccade. Called “overt attention” cf “covert attention”

17. How do we locate objects in visual search? Easy searches unaffected by increasing numbers of distractors. Typical experimental paradigm: Easy search – use features eg color to locate the object.

18. More difficult searches affected by increasing numbers of distractors.

19. Pop-out search “in parallel” across the visual field. Versus item-by-item or “serial” search What is the nature of the limitation in serial search??? Perhaps it is a signaldetection problem. Think of “pop-out” or “pre-attentive” effects in search as “easy” or high signal/noise ratio. “Serial” or “attentive” search as low signal/noise. Harder to create a suitable filter.

20. Posner Paradigm XXX P=0.8 P=0.2 Detection performance improved at the cued location, as if attention had shifted to that location prior to stimulus presentation. (shorter RT or lower threshold) Cue can be endogenous (arrow) or exogenous (flash at location of target)

21. Bayesian Approach: Cueing effect in Posner paradigm without enhanced processing at attended location. Eckstein et al, 2002.

22. Greater prior liklihood of stimulus at cues location leads to better performance (detectability).

24. Classification Image Technique: Subject detects a signal in noise Sort out the False Alarm trials Add all the images that resulted in false alarms Reveals the information that led to a false alarm. (Cf reverse correlation technique) Search Templates

25. Classification images from subjects in Posner experiment. The shape of the filter is the same – simply weighted by location probability. Supports Bayesian interpretation of performance, not use of different filters in cued and uncued locations.

26. Simulation results using classification images

27. Conclusion: Think of “pop-out” or “pre-attentive” effects in search as “easy” or high signal/noise ratio. “Serial” or “attentive” search as low signal/noise. Harder to create a suitable filter.

28. Idea of attention as biased competition (Reynolds)

30. What is attention? -Capacity to select information from the environment and select actions to perform Substantial overlap between circuitry for eye movements and circuitry for spatial attention. Parietal – frontal network influences visual cortical areas including V1. LGN may gate incoming visual signals. Attention appears to act in a way that biases competition between stimuli within a receptive field. Attention is limited - why? Limitations may derive from multiple levels of processing in the brain eg sensory, motor, and sub-cortical circuitry such as basal ganglia.

32. A more natural situation. How is search guided here?