Award details

Segmentation in 4D visual search

ReferenceBB/G010919/1
Principal Investigator / Supervisor Dr Jason Braithwaite
Co-Investigators /
Co-Supervisors
Dr Harriet Allen, Professor Glyn Humphreys
Institution University of Birmingham
DepartmentSchool of Psychology
Funding typeResearch
Value (£) 521,356
StatusCompleted
TypeResearch Grant
Start date 01/07/2009
End date 31/12/2012
Duration42 months

Abstract

Human attention operates efficiently in time and space to select targets that are relevant to our behavioural goals. Currently we have sparse knowledge about how some critical properties of scenes are used to guide selection (notably how depth information is used) and we also know little about how different cues combine to optimise behaviour. We will provide detailed information about how depth, motion and temporal cues are used to segment displays and to select visual targets. Behavioural experiments will assess evidence for the roles of excitatory processes that guide search to targets and inhibitory processes that suppress distractors, when depth, motion and temporal cues are present in isolation or combination. The nature of these different processes, and how they interact, will then be characterised. The behavioural studies will be complemented by brain imaging experiments that assess the neural basis of spatial and temporal segmentation in search. We will isolate brain regions that respond in a cue-specific manner from areas that are cue-invariant. We will also test the necessary role of these regions by altering activity through trans-cranial magnetic stimulation (TMS). The TMS procedures will be used alongside explicit modelling of neural connectivity (through Dynamic Causal Modelling) to provide novel information on how different brain regions interact to guide search through space and time.

Summary

The ability to select objects that are relevant to our behavioural goals is critical for guiding action in complex environments - as when we want to find a friend in a crowd or reach to an object across a cluttered table. This ability depends on processes that can segment visual scenes rapidly into appropriate figure and ground regions, defined in 4D space and time. Prior work has used visual search to explore this issue, with the efficiency of search used as a measure of the ease with which segmentation takes place. This work has shown that segmentation operates efficiently using depth, motion and temporal cues, but we still know little about (i) how some of these forms of segmentation operate, and (ii) how these different cues interact to guide attention to relevant stimuli. This project will combine behavioural and functional imaging methods to provide detailed information on how the different forms of segmentation operate and interact. A first set of behavioural studies will evaluate the evidence for excitatory processes, that guide search to targets, and inhibitory processes that suppress distractors, when displays segment by depth, motion and time. Subsequently we will detail the relations between these process, varying the expectations that participants have about the depth and motion properties of targets. These behavioural experiments will be complemented by functional imaging studies which examine the neural basis of the different forms of segmentation and whether there are common neural mechanisms that are invariant to cue-type. Finally, the necessary role of the neural regions in processing will be assessed by altering activity in targeted areas using trans-cranial magnetic stimulation (TMS). Through the TMS work, and by constructing explicit models of the interactions between neural regions, we will gain new information about how networks of brain regions co-operate to facilitate the selection of visual targets. The work provides the first detailed analysis of the relations between the different forms of segmentation, and their neural basis, using visual search.
Committee Closed Committee - Animal Sciences (AS)
Research TopicsNeuroscience and Behaviour
Research PriorityX – Research Priority information not available
Research Initiative X - not in an Initiative
Funding SchemeX – not Funded via a specific Funding Scheme
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