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Multiple spatial frequency channels in human visual perceptual memoryNemes, Vanda A., Whitaker, David J., Heron, James, McKeefry, Declan J. 30 May 2019 (has links)
No / Current models of short-term visual perceptual memory invoke mechanisms that are closely allied to low-level perceptual discrimination mechanisms. The purpose of this study was to investigate the extent to which human visual perceptual memory for spatial frequency is based upon multiple, spatially tuned channels similar to those found in the earliest stages of visual processing. To this end we measured how performance on a delayed spatial frequency discrimination paradigm was affected by the introduction of interfering or ‘memory masking’ stimuli of variable spatial frequency during the delay period. Masking stimuli were shown to induce shifts in the points of subjective equality (PSE) when their spatial frequencies were within a bandwidth of 1.2 octaves of the reference spatial frequency. When mask spatial frequencies differed by more than this value, there was no change in the PSE from baseline levels. This selective pattern of masking was observed for different spatial frequencies and demonstrates the existence of multiple, spatially tuned mechanisms in visual perceptual memory. Memory masking effects were also found to occur for horizontal separations of up to 6 deg between the masking and test stimuli and lacked any orientation selectivity. These findings add further support to the view that low-level sensory processing mechanisms form the basis for the retention of spatial frequency information in perceptual memory. However, the broad range of transfer of memory masking effects across spatial location and other dimensions indicates more long range, long duration interactions between spatial frequency channels that are likely to rely contributions from neural processes located in higher visual areas. / V.N. supported by a Ph.D. studentship funded by the Federation of Ophthalmic and Dispensing Opticians.
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A psychophysical investigation of human visual perceptual memory : a study of the retention of colour, spatial frequency and motion visual information by human visual short term memory mechanismsNemes, Vanda Agnes January 2011 (has links)
The aim of this thesis was to investigate how visual information is organised in perceptual short term memory, with special interest in colour, spatial frequency and velocity. Previous studies of VSTM have indicated the existence of specific memory mechanisms for visual attributes such as orientation, spatial frequency, velocity, contrast and colour. The retention of information in visual short term memory for these basic visual attributes can be disrupted by the presentation of masking stimuli during inter-stimulus intervals (ISIs), which are outside the range of traditional sensory masking. We exploited this memory masking effect in order to examine the organisation of visual information in VSTM. Four groups of experiments were conducted in which participants carried out a delayed discrimination paradigm that employed a two-alternative forced choice (2-AFC) procedure in conjunction with a method of constant stimuli. The fidelity of VSTM was measured by performance markers such as discrimination thresholds and point of subjective equalities. We have found selective memory masking effects, which serve as further evidence in favour of the modular organisation in VSTM, namely, that human visual perceptual memory is based upon multiple, tuned channels in case of colour, spatial frequency and speed, similar to those found in the earliest stages of visual processing for spatial frequency. Moreover, each of these storage mechanisms are tuned to a relatively narrow range of stimulus parameters that are closely linked to visual discrimination mechanisms. These findings add further support to the view that low-level sensory processing mechanisms form the basis for the retention of colour, spatial frequency and velocity information in perceptual memory. We also found evidence for the broad range of transfer of memory masking effects across spatial location, which indicates more long range, long duration interactions between channels that are likely to rely upon contributions from neural processes located in higher visual areas. In conclusion, the experiments presented in this thesis provide significant insight into the organization of visual information in perceptual short term memory.
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Velocity memoryMakin, Alexis David James January 2011 (has links)
It is known that primates are sensitive to the velocity of moving objects. We can also remember velocity information after moving objects disappear. This cognitive faculty has been investigated before, however, the literature on velocity memory to date has been fragmented. For example, velocity memory has been disparately described as a system that controls eye movements and delayed discrimination. Furthermore, velocity memory may have a role in motion extrapolation, i.e. the ability to judge the position of a moving target after it becomes occluded. This thesis provides a unifying account of velocity memory, and uses electroencephalography (EEG) to explore its neural basis. In Chapter 2, the relationship between oculomotor control and motion extrapolation was investigated. Two forms of motion extrapolation task were presented. In the first, participants observed a moving target disappear then reappear further along its path. Reappearance could be at the correct time, too early or too late. Participants discriminated reappearance error with a two-alternative forced choice button press. In the second task, participants saw identical targets travel behind a visible occluder, and they attempted to press a button at the exact time that it reached the other side. Tasks were completed under fixation and free viewing conditions. The accuracy of participant's judgments was reduced by fixation in both tasks. In addition, eye movements were systematically related to behavioural responses, and small eye movements during fixation were affected by occluded motion. These three results imply that common velocity memory and pre-motor systems mediate eye movements and motion extrapolation. In Chapter 3, different types of velocity representation were explored. Another motion extrapolation task was presented, and targets of a particular colour were associated with fast or slow motion. On identical-velocity probe trials, colour still influenced response times. This indicates that long-term colour-velocity associations influence motion extrapolation. In Chapter 4, interference between subsequently encoded velocities was explored. There was robust interference between motion extrapolation and delayed discrimination tasks, suggesting that common processes are involved in both. In Chapter 5, EEG was used to investigate when memory-guided tracking begins during motion extrapolation. This study compared conditions where participants covertly tracked visible and occluded targets. It was found that a specific event related potential (ERP) appeared around 200 ms post occlusion, irrespective of target location or velocity. This component could delineate the onset of memory guided tracking during occlusion. Finally, Chapter 6 presents evidence that a change in alpha band activity is associated with information processing during motion extrapolation tasks. In light of these results, it is concluded that a common velocity memory system is involved a variety of tasks. In the general discussion (Chapter 7), a new account of velocity memory is proposed. It is suggested that a velocity memory reflects persistent synchronization across several velocity sensitive neural populations after stimulus offset. This distributed network is involved in sensory-motor integration, and can remain active without visual input. Theoretical work on eye movements, delayed discrimination and motion extrapolation could benefit from this account of velocity memory.
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A psychophysical investigation of human visual perceptual memory. A study of the retention of colour, spatial frequency and motion visual information by human visual short term memory mechanisms.Nemes, Vanda A. January 2011 (has links)
The aim of this thesis was to investigate how visual information is organised in
perceptual short term memory, with special interest in colour, spatial frequency
and velocity. Previous studies of VSTM have indicated the existence of specific
memory mechanisms for visual attributes such as orientation, spatial frequency,
velocity, contrast and colour. The retention of information in visual short term
memory for these basic visual attributes can be disrupted by the presentation of
masking stimuli during inter-stimulus intervals (ISIs), which are outside the
range of traditional sensory masking. We exploited this memory masking effect
in order to examine the organisation of visual information in VSTM. Four groups
of experiments were conducted in which participants carried out a delayed
discrimination paradigm that employed a two-alternative forced choice (2-AFC)
procedure in conjunction with a method of constant stimuli. The fidelity of VSTM
was measured by performance markers such as discrimination thresholds and
point of subjective equalities. We have found selective memory masking effects,
which serve as further evidence in favour of the modular organisation in VSTM,
namely, that human visual perceptual memory is based upon multiple, tuned
channels in case of colour, spatial frequency and speed, similar to those found
in the earliest stages of visual processing for spatial frequency. Moreover, each
of these storage mechanisms are tuned to a relatively narrow range of stimulus
parameters that are closely linked to visual discrimination mechanisms. These
findings add further support to the view that low-level sensory processing
mechanisms form the basis for the retention of colour, spatial frequency and
velocity information in perceptual memory. We also found evidence for the
broad range of transfer of memory masking effects across spatial location,
which indicates more long range, long duration interactions between channels
that are likely to rely upon contributions from neural processes located in higher
visual areas. In conclusion, the experiments presented in this thesis provide
significant insight into the organization of visual information in perceptual short
term memory. / Federation of Ophthalmic and Dispensing Opticians
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Working Memory Updating using Meaningful TrigraphsGamsby, Christopher William 03 May 2016 (has links)
No description available.
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Über die Wirkung modalitätsspezifischer Hinweisreize im ikonischen Gedächtnis / The influence of cue modality on iconic memoryYan, Song 29 January 2002 (has links)
No description available.
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