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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
111

On the Reflexive Prioritisation of Locations in Visual Space

Al-Aidroos, Naseem 14 January 2011 (has links)
The efficiency of human visual information processing is supported by numerous attentional resources. These resources ensure that behaviourally relevant information within visual scenes is selected for detailed processing, while behaviourally irrelevant information is ignored. One of these attentional resources—reflexive visuospatial attention—operates by prioritising locations in visual space in response to the appearance of salient stimuli. The purpose of the present dissertation was to examine how this type of attention contributes to the efficiency of visual processing by asking: How is processing altered for information presented at the location of attention? To develop some initial evidence of the stage of processing affected by reflexive visuospatial attention, Chapters 1 to 6 assessed whether this attentional resource is related to four other stimulus-driven effects that are each associated with a specific stage of visual processing: identity processing, object filtering, visual working memory (VWM), and response generation. Based on the observation that only the stimulus-driven effects on VWM are related to reflexive visuospatial attention (i.e., only those effects were contingent on attentional control settings), a VWM model of reflexive visuospatial attention was proposed in Chapter 7, and tested in Chapters 8 to 11. According to this model, reflexive visuospatial attention alters visual processing by triggering VWM to update. Thus, the effect of reflexive visuospatial attention is to speed the encoding of attended information into VWM. As a result, this information is more likely than unattended information to bias our behaviour, in particular those behaviours that depend on VWM. Further, by biasing VWM, reflexive visuospatial attention can interact with other attentional resources that have also been associated with VWM. In this way, these attentional resources can coordinate in optimising the process of selection, thus, contributing to the efficiency of the human visual system.
112

On the Reflexive Prioritisation of Locations in Visual Space

Al-Aidroos, Naseem 14 January 2011 (has links)
The efficiency of human visual information processing is supported by numerous attentional resources. These resources ensure that behaviourally relevant information within visual scenes is selected for detailed processing, while behaviourally irrelevant information is ignored. One of these attentional resources—reflexive visuospatial attention—operates by prioritising locations in visual space in response to the appearance of salient stimuli. The purpose of the present dissertation was to examine how this type of attention contributes to the efficiency of visual processing by asking: How is processing altered for information presented at the location of attention? To develop some initial evidence of the stage of processing affected by reflexive visuospatial attention, Chapters 1 to 6 assessed whether this attentional resource is related to four other stimulus-driven effects that are each associated with a specific stage of visual processing: identity processing, object filtering, visual working memory (VWM), and response generation. Based on the observation that only the stimulus-driven effects on VWM are related to reflexive visuospatial attention (i.e., only those effects were contingent on attentional control settings), a VWM model of reflexive visuospatial attention was proposed in Chapter 7, and tested in Chapters 8 to 11. According to this model, reflexive visuospatial attention alters visual processing by triggering VWM to update. Thus, the effect of reflexive visuospatial attention is to speed the encoding of attended information into VWM. As a result, this information is more likely than unattended information to bias our behaviour, in particular those behaviours that depend on VWM. Further, by biasing VWM, reflexive visuospatial attention can interact with other attentional resources that have also been associated with VWM. In this way, these attentional resources can coordinate in optimising the process of selection, thus, contributing to the efficiency of the human visual system.
113

Arbetsminnesträning i grundsärskolan : En undersökning om metoder och material för arbetsminnesträning / Working memory training in education for pupils with intellectual impairment : A study on methods and material for working memory training

Olsson, Karin January 2015 (has links)
The aim of my thesis was to investigate in what grade teachers who work within special education make use any methods to train the working memory of their students to improve learning ability. I also wanted to examine the material used to train working memory and if any results were noticed. My choice of method was qualitative semi-structured interviews that were recorded during the interviews I conducted these in five different school with education for children with intellectual impairment. The result shows that the schools that are aware of recent research on working memory training had methods for training with their students. They could also see a result that shows that working memory can be improved with training. In those schools that not were aware of the research was working memory training something they didn`t do consciously. But with other forms of memory training, working memory training sometimes occurred as a result of the memory training.  The survey I did also show that current research has difficulties reaching out to the teachers without the active participation of teachers themselves.
114

The effect of retrospective attention on memory systems

Reaves, Sarah Anderson 08 June 2015 (has links)
Prior research has shown that visual working memory (VWM) performance can be improved via retrospective cues (“retro-cues”) that spatially indicate which item currently being held in working memory will be probed at test. These studies have utilized electroencephalography (EEG) methods to monitor contralateral delay activity (CDA) event related potentials (ERPs) and assert that retro-cues benefit memory by reducing effective memory load. Here, we investigated the potential relationship between CDA amplitude and future long-term memory (LTM) performance. Emerging evidence from ERP and fMRI studies suggest that working memory maintenance can contribute to LTM formation, which suggests that memory systems are not as discrete as some models suggest. We investigated the hypotheses that A) the benefits afforded by the retro-cue in VWM will carry over into LTM, and B) CDA amplitude will be modulated by subsequent LTM performance. Results revealed that retro-cuing improved item accuracy at both VWM and LTM delays, suggesting that the two memory systems are interactive. Due to an insufficient amount of subsequent LTM misses, we were unfortunately too underpowered to detect a CDA depending on long-term memory performance. However, we found that posterior slow-wave potentials during the maintenance period did differ by subsequent LTM performance, which further suggests an interactive systems account of memory. We also sought to investigate what exactly the retro-cue cues. Prior research has focused on memory for items, but no study has questioned if the retro-cue also enhances memory for item location. To this end, the present study investigated the effect of retro-cueing on both item identity and item location. LTM Behavioral results revealed a retro-cue benefit for item accuracy but no benefit for item location, suggesting that the retro-cue selectively cues item identity.
115

Working Memory Training in Post-secondary Students with Attention-deficiti/Hyperactivity Disorder-pilot Study of the Differential Effects of Training Session Length

Mawjee, Karizma 20 November 2013 (has links)
This thesis evaluates the effectiveness of study components in order to aid in design refinements for a larger randomized controlled trial (RCT). A total of 38 post-secondary students with Attention-Deficit/Hyperactivity Disorder (ADHD) were randomized into a waitlist control group, or standard-length (45 minute) or shortened-length (15 minute) WM training group. Criterion measures included the WAIS-IV Digit Span (auditory-verbal WM), CANTAB Spatial Span (visual-spatial WM) and WRAML Finger Windows (visual-spatial WM). Transfer-of-training effects were assessed using indices of everyday cognitive functioning. Participants in the standard- and shortened-length groups showed greater improvements at post-test on auditory-verbal WM and reported fewer cognitive failures in everyday life than waitlist controls. Participants in the standard-length group showed greater improvements in visual-spatial WM at post-test than participants in the other two groups. Preliminary findings suggest that shorter training may have similar beneficial outcomes as documented for the standard-length training, indicating that a larger-scale RCT is warranted.
116

Working Memory Training in Post-secondary Students with Attention-deficiti/Hyperactivity Disorder-pilot Study of the Differential Effects of Training Session Length

Mawjee, Karizma 20 November 2013 (has links)
This thesis evaluates the effectiveness of study components in order to aid in design refinements for a larger randomized controlled trial (RCT). A total of 38 post-secondary students with Attention-Deficit/Hyperactivity Disorder (ADHD) were randomized into a waitlist control group, or standard-length (45 minute) or shortened-length (15 minute) WM training group. Criterion measures included the WAIS-IV Digit Span (auditory-verbal WM), CANTAB Spatial Span (visual-spatial WM) and WRAML Finger Windows (visual-spatial WM). Transfer-of-training effects were assessed using indices of everyday cognitive functioning. Participants in the standard- and shortened-length groups showed greater improvements at post-test on auditory-verbal WM and reported fewer cognitive failures in everyday life than waitlist controls. Participants in the standard-length group showed greater improvements in visual-spatial WM at post-test than participants in the other two groups. Preliminary findings suggest that shorter training may have similar beneficial outcomes as documented for the standard-length training, indicating that a larger-scale RCT is warranted.
117

Increasing children's capacity to learn : the development and evaluation of a whole class working memory training programme

Skelton, Richard January 2012 (has links)
Working memory provides us with the capacity to both store and process information. It is a fundamental ability that we use throughout our daily lives to interpret, make sense of and understand the world around us. In particular, verbal working memory capacity has long been recognised as foundational to children’s ability to learn, and is especially implicated in language development, reading, comprehension and mathematics abilities. Recognising the fundamental importance of working memory, seminal research has recently demonstrated that repeated practice on computerised training programmes can lead to increases in children’s working memory capacity. However, while these programmes are promising, there are some inherent difficulties which are likely to restrict their application and uptake within the school context, both for the individual child or whole class. To overcome these limitations, the present research aimed to develop and evaluate a practical, whole-class working memory training programme. Achieving this could potentially offer every teacher and child a viable, effective way to improve their working memory capacity and, in doing so, increase their fundamental learning ability. The first phase of the research aimed to create a theoretically effective and practical programme which was grounded in the needs and preferences of teachers and children. This was achieved by first developing prototype materials based on the theoretical literature of what would make an effective programme, before drawing upon the experiences and expertise of teachers within a focus group, and children within a playtest exploration. A wide range of proposals were made which had implications for the final design and implementation procedures. The final working memory training programme involved pairs of children engaging in a series of five different card-based working memory activities, each with three levels of difficulty. The second phase of the research involved the implementation and evaluation of the programme within a mainstream primary school classroom for fifteen minutes a day for six weeks. Measures of children’s working memory demonstrated that they made significant gains in their working memory, and verbal short-term memory. These improvements were significant both immediately following the programme and at a two month follow up. Children’s responses on a questionnaire, as well as interviews with the children and class teacher demonstrated that the programme proved easy to use in the classroom to the extent that it was run almost autonomously by the children. Reports also indicated that children found the programme to be an engaging and enjoyable experience. The demonstration of a practical and effective whole class working memory training programme holds considerable potential to increase children’s capacity to learn and achieve. The wide range of factors which potentially enable a WM training programme to be effective, enjoyable and practical are discussed, and the future implications of this research are explored.
118

Maintaining the feelings of others in working memory is associated with activation of the left anterior insula and left frontal-parietal control network

Smith, Ryan, Lane, Richard D., Alkozei, Anna, Bao, Jennifer, Smith, Courtney, Sanova, Anna, Nettles, Matthew, Killgore, William D. S. 05 1900 (has links)
The maintenance of social/emotional information in working memory (SWM/EWM) has recently been the topic of multiple neuroimaging studies. However, some studies find that SWM/EWM involves a medial frontal-parietal network while others instead find lateral frontal-parietal activations similar to studies of verbal and visuospatial WM. In this study, we asked 26 healthy volunteers to complete an EWM task designed to examine whether different cognitive strategies- maintaining emotional images, words, or feelings- might account for these discrepant results. We also examined whether differences in EWM performance were related to general intelligence (IQ), emotional intelligence (EI), and emotional awareness (EA). We found that maintaining emotional feelings, even when accounting for neural activation attributable to maintaining emotional images/words, still activated a left lateral frontal-parietal network (including the anterior insula and posterior dorsomedial frontal cortex). We also found that individual differences in the ability to maintain feelings were positively associated with IQ and EA, but not with EI. These results suggest that maintaining the feelings of others (at least when perceived exteroceptively) involves similar frontal-parietal control networks to exteroceptive WM, and that it is similarly linked to IQ, but that it also may be an important component of EA.
119

Sequential Encoding in Visual Working Memory: In the Absence of Structure, Recency Determines Performance

Durbin, Jeffery 29 October 2019 (has links)
Most prior investigations of visual working memory (VWM) presented the to-be-remembered items simultaneously in a static configuration (e.g., Luck & Vogel, 1997). However, in everyday situations, such as driving on a busy multilane highway, items (e.g., cars) are presented sequentially and must be retained to support later actions (e.g., knowing if it’s safe to change lanes). In a simultaneous presentation, the relative positions of items are apparent but for sequential presentation, relative positions must be inferred in relation to the background structure (e.g., highway lane markings). To examine sequential encoding in VWM, we developed a novel task in which dots were presented slowly, one at a time, with each dot appearing in one of six boxes (Experiment 1), or in invisible boxes within a visible encompassing outer frame (Experiment 2). Experiment 1 found strong recency effects for judgments of color at the end of the sequence but not for the location of dots. In contrast, without dividing lines, Experiment 2 found strong recency effects for both color and location judgments. These results held true for accuracy, reaction time, and an integrated measure of speed and accuracy. We hypothesize that background structure allows the updating of VWM, slotting each new item into that structure to provide a new configuration that retains both old and new items, whereas in the absence of structure, VWM suffers from severe retroactive interference.
120

The Fractionation of Working Memory

Katz, David P. 28 August 2019 (has links)
No description available.

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