Pupil Dilation as an Index of Learning

Sibley, Ciara; Coyne, Joseph T.; Baldwin, Carryl L.

doi:10.1177/1071181311551049

Cited by 25 publications

(22 citation statements)

References 8 publications

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“…The approach direction of the subsequent test trial did not affect average pupil size during presentation of the mask, and no interactions were observed (all p > .05). The decrease in pupil size across experimental blocks during test trials and presentation of the mask is consistent with effects attributed to learning (Mueller et al, 2008;Sibley, Coyne & Baldwin, 2011). Furthermore, larger pupil size during different-direction trials as compared to same-direction trials may reflect the additional cognitive effort required by users of the configuration strategy to perform spatial transformations when the approach directions during training and test are not identical.…”

Section: Response Timesupporting

confidence: 68%

“…First, average pupil size decreased over the course of the experiment, which can be explained by learning effects and/or the transfer of task relevant information from working memory to long-term memory (Mueller et al, 2008;Sibley et al, 2011). Second, average pupil size was larger during different-direction trials compared to same-direction trials, which is thought to reflect the additional cognitive effort required by users of the configuration strategy to transform viewpoints when the approach directions during training and test did not match.…”

Section: Discussionmentioning

confidence: 98%

See 1 more Smart Citation

Human place and response learning: navigation strategy selection, pupil size and gaze behavior

Condappa

Wiener

2014

Psychological Research

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In this study, we examined the cognitive processes and ocular behavior associated with on-going navigation strategy choice using a route learning paradigm that distinguishes between three different wayfinding strategies: an allocentric place strategy, and the egocentric associative cue and beacon response strategies. Participants approached intersections of a known route from a variety of directions, and were asked to indicate the direction in which the original route continued. Their responses in a subset of these test trials allowed the assessment of strategy choice over the course of six experimental blocks. The behavioral data revealed an initial maladaptive bias for a beacon response strategy, with shifts in favour of the optimal configuration place strategy occurring over the course of the experiment. Response time analysis suggests that the configuration strategy relied on spatial transformations applied to a viewpoint-dependent spatial representation, rather than direct access to an allocentric representation. Furthermore, pupillary measures reflected the employment of place and response strategies throughout the experiment, with increasing use of the more cognitively demanding configuration strategy associated with increases in pupil dilation. During test trials in which known intersections were approached from different directions, visual attention was directed to the landmark encoded during learning as well as the intended movement direction. Interestingly, the encoded landmark did not differ between the three navigation strategies, which is discussed in the context of initial strategy choice and the parallel acquisition of place and response knowledge.

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Section: Response Timesupporting

confidence: 68%

Section: Discussionmentioning

confidence: 98%

Human place and response learning: navigation strategy selection, pupil size and gaze behavior

Condappa

Wiener

2014

Psychological Research

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“…Physiological sensor data can provide information about a user's state in near-real time. For example, previous research has shown that an individual's mental effort correlates with pupil size [48,49] and heart rate variability [50]. Furthermore, eye gaze analysis can be used to assess where an individual is allocating attention (or failing to attend to), and therefore be employed to provide alerts and prevent errors in real time [51,52].…”

Section: A-tasc Predictive Modelmentioning

confidence: 98%

Modeling User Behaviors to Enable Context-Aware Proactive Decision Support

Newsom

Mittu

Livingston

et al. 2016

Context-Enhanced Information Fusion

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The problem of automatically recognizing a user's operational context, the implications of its shifting properties, and reacting in a dynamic manner are at the core of mission intelligence and decision making. Environments such as the OZONE Widget Framework (http://www.owfgoss.org) (OWF) provide the foundation for capturing the objectives, actions, and activities of both the mission analyst and the decision maker. By utilizing a "context container" that envelops an OZONE Application, we hypothesize that both user action and intent can be used to characterize user context with respect to operational modality (strategic, tactical, opportunistic, or random). As the analyst moves from one operational modality to another, we propose that information visualization techniques should adapt and present data and analysis pertinent to the new modality and to the trend of the shift. As a system captures the analyst's actions and decisions in response to the new visualizations, the context container has the opportunity to assess the analyst's perception of the information value, risk, uncertainty, prioritization, projection, and insight with respect to the current context stage. This paper will describe a conceptual architecture for an adaptive work environment for inferring user behavior and interaction within the OZONE framework, in order to provide the decision B. Newsom

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“…Then, the link between 155 attention and capacity was promoted [42]; where higher load on the working memory 156 showed a larger change in pupil dilation. Additionally, pupillary response has been 157 found to be an indicator of learning [34], where pupil diameter decreased with more 158 experience in a task. This understanding of pupil diameter changes has further been 159 employed as a robust cognitive load classifier [39].…”

mentioning

confidence: 99%

Pupil diameter differentiates expertise in dental radiography visual search

Castner

Appel

Eder

et al. 2019

Preprint

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Expert behavior is characterized by rapid information processing abilities, dependent on more structured schemata in long-term memory designated for their domain-specific tasks. From this understanding, expertise can effectively reduce cognitive load on a domain-specific task. However, certain tasks could still evoke different gradations of load even for an expert, e.g., when having to detect subtle anomalies in dental radiographs. Our aim was to measure pupil diameter response to anomalies of varying levels of difficulty in expert and student dentists' visual examination of panoramic radiographs. We found that students' pupil diameter dilated significantly from baseline compared to experts, but anomaly difficulty had no effect on pupillary response. In contrast, experts' pupil diameter responded to varying levels of anomaly difficulty, where more difficult anomalies evoked greater pupil dilation from baseline. Experts thus showed proportional pupillary response indicative of increasing cognitive load with increasingly difficult anomalies, whereas students showed pupillary response indicative of higher cognitive load for all anomalies when compared to experts.

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Pupil Dilation as an Index of Learning

Cited by 25 publications

References 8 publications

Human place and response learning: navigation strategy selection, pupil size and gaze behavior

Human place and response learning: navigation strategy selection, pupil size and gaze behavior

Modeling User Behaviors to Enable Context-Aware Proactive Decision Support

Pupil diameter differentiates expertise in dental radiography visual search

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