Inferring user knowledge level from eye movement patterns

Cole, Michael; Gwizdka, Jacek; Liu, Chang; Belkin, Nicholas J.; Zhang, Xiangmin

doi:10.1016/j.ipm.2012.08.004

Cited by 68 publications

(35 citation statements)

References 48 publications

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“…The work of Scherer et al [3], similarly to the approach followed in the present study, researched features more based on what a human could superficially hear in audios and interpret from drawings and found that the Peak Slope of the audio could discriminate between Experts and Non-Experts. Some studies suggest that it is possible to build models that can make predictions of the user's level of knowledge or expertise, based on real-time measurements of eye movement patterns during a task session [23]. In this line, distinguishing levels of expertise, based on features gathered from video while building solutions based on physics knowledge, was studied by Worsley and Blikstein [24]; their research concluded that two-handed interaction is positively correlated to expertise.…”

Section: Related Workmentioning

confidence: 99%

Expertise estimation based on simple multimodal features

Ochôa

Chiluiza

Méndez

et al. 2013

Proceedings of the 15th ACM on International Conference on Multimodal Interaction

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Multimodal Learning Analytics is a field that studies how to process learning data from dissimilar sources in order to automatically find useful information to give feedback to the learning process. This work processes video, audio and pen strokes information included in the Math Data Corpus, a set of multimodal resources provided to the participants of the Second International Workshop on Multimodal Learning Analytics. The result of this processing is a set of simple features that could discriminate between experts and non-experts in groups of students solving mathematical problems. The main finding is that several of those simple features, namely the percentage of time that the students use the calculator, the speed at which the student writes or draws and the percentage of time that the student mentions numbers or mathematical terms, are good discriminators between experts and non-experts students. Precision levels of 63% are obtained for individual problems and up to 80% when full sessions (aggregation of 16 problems) are analyzed. While the results are specific for the recorded settings, the methodology used to obtain and analyze the features could be used to create discriminations models for other contexts.

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Section: Related Workmentioning

confidence: 99%

Expertise estimation based on simple multimodal features

Ochôa

Chiluiza

Méndez

et al. 2013

Proceedings of the 15th ACM on International Conference on Multimodal Interaction

View full text Add to dashboard Cite

show abstract

“…Cole et al [9] show that you can recognize existing domain knowledge of a person with this method. Further they find: "Of particular importance is the fact that eyes fixate until the meaning of the word(s) is acquired."…”

Section: Methodsmentioning

confidence: 99%

“…Further they find: "Of particular importance is the fact that eyes fixate until the meaning of the word(s) is acquired." [10]. Eye tracking can visualize the different passages of a text already known.…”

Section: Methodsmentioning

confidence: 99%

A new paradigm for the scientific article

Weilenmann¹

2014

ISU

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“…A recent development is to develop computational models for predicting the domain knowledge of a user. These models consider different types of interactions such as dwell time, selected document ranks, query length, reading patterns, as well as cognitive effort measured through external sensors [7,9]. While these models are useful in customizing results according to the domain knowledge of the user, they however, do not capture situations where domain experts search information in narrower sub-fields of a familiar domain.…”

Section: User Modelingmentioning

confidence: 99%

Supporting Exploratory Search Through Interaction Modeling

Athukorala

2014

Proceedings of the 7th Workshop on Ph.D Students

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With the explosive growth of information available in the Web, locating needed and relevant information remains a difficult task, whether the information is textual or visual. Although information retrieval techniques have improved a lot in providing relevant information, exploratory information search still remains difficult due to its inherently openended and dynamic nature. Modeling the user behavior and predicting dynamically changing information needs in exploratory search is hard. Over the past decade there has been increasing attention on rich user interfaces, retrieval techniques, and studies of exploratory search. However, existing work does not yet support the dynamic aspects of exploratory search. The objective of this research is to understand how user interaction modeling can be applied to provide better support in exploratory search tasks. In this research, we focus on building user models that can predict user intent in search using only implicit interactions with search results. One outcome of this research is a personalized search tool that predicts user intent with implicit interactions and dynamically adjusts search results.

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Inferring user knowledge level from eye movement patterns

Cited by 68 publications

References 48 publications

Expertise estimation based on simple multimodal features

Expertise estimation based on simple multimodal features

A new paradigm for the scientific article

Supporting Exploratory Search Through Interaction Modeling

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