Helen E. Payne scite author profile

Observers can use spatial scale information flexibly depending on categorisation task and on their prior sensitisation. Here, we explore whether attentional modulation of spatial frequency processing at early stages of visual analysis may be responsible. In three experiments, we find that observers' perception of spatial frequency (SF) band-limited scene stimuli is determined by the SF content of images previously experienced at that location during a sensitisation phase. We conclude that these findings are consistent with the involvement of relatively early, retinotopically mapped, stages of visual analysis, supporting the attentional modulation of spatial frequency channels account of sensitisation effects.

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Active Ignoring in Early Visual Cortex

Payne¹,

Allen²

2011

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Abstract■ Selective attention is critical for controlling the input to mental processes. Attentional mechanisms act not only to select relevant stimuli but also to exclude irrelevant stimuli. There is evidence that we can actively ignore irrelevant information. We measured neural activity relating to successfully ignoring distracters (using preview search) and found increases in both the precuneus and primary visual cortex during preparation to ignore distracters. We also found reductions in activity in fronto-parietal regions while previewing distracters and a reduction in activity in early visual cortex during search when a subset of items was successfully excluded from search, both associated with precuneus activity. These results are consistent with the proposal that actively excluding distractions has two components: an initial stage where distracters are encoded, and a subsequent stage where further processing of these items is inhibited. Our findings suggest that it is the precuneus that controls this process and can modulate activity in visual cortex as early as V1. ■

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Similar behaviour, different brain patterns: Age-related changes in neural signatures of ignoring

Allen

Payne

2012

NeuroImage

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We measured behavioural performance and fMRI activity whilst old and young adults performed a temporal segmentation task ('preview search'). Being able to select parts of the visual world to be attended or ignored is a critical visual skill. Both old and young adults were able to improve their performance on a difficult search task when some of the distracter items were presented earlier than the remainder. Comparisons of brain activity and functional connectivity, however, suggested that the underlying mechanisms are quite different for the two age groups. Older adults' activation patterns do not correspond to those predicted by simple increased involvement of frontal regions reflecting higher demand with age but seem to suggest that changes in brain activation patterns propagate throughout the cortex.

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Active ignoring in early visual cortex

Payne

Allen

2010

Journal of Vision

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Neural mechanisms underlying active ignoring in the ageing brain

Payne

Allen

2010

Journal of Vision

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Helen E. Payne

Retinotopic sensitisation to spatial scale: Evidence for flexible spatial frequency processing in scene perception

Active Ignoring in Early Visual Cortex

Similar behaviour, different brain patterns: Age-related changes in neural signatures of ignoring

Active ignoring in early visual cortex

Neural mechanisms underlying active ignoring in the ageing brain

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