论文信息 - Inferring Visual Behaviour from User Interaction Data on a Medical Dashboard

Inferring Visual Behaviour from User Interaction Data on a Medical Dashboard

(its size and complexity) and its context of use. This results in user interfaces with a high-density of data that do not support optimal decision-making by clinicians. Anecdotal evidence indicates that clinicians demand the right amount of information to carry out their tasks. This suggests that adaptive user interfaces could be employed in order to cater for the information needs of the users and tackle information overload. Yet, since these information needs may vary, it is necessary first to identify and prioritise them, before implementing adaptations to the user interface. As gaze has long been known to be an indicator of interest, eye tracking allows us to unobtrusively observe where the users are looking, but it is not practical to use in a deployed system. Here, we address the question of whether we can infer visual behaviour on a medication safety dashboard through user interaction data. Our findings suggest that, there is indeed a relationship between the use of the mouse (in terms of clickstreams and mouse hovers) and visual behaviour in terms of cognitive load. We discuss the implications of this finding for the design of adaptive medical dashboards.

[1] Niels Peek,et al. Developing a stakeholder-centred electronic prescribing safety indicator dashboard. , 2014 .

[2] Anil K. Jain,et al. Algorithms for Clustering Data , 1988 .

[3] Ryen W. White,et al. User see, user point: gaze and cursor alignment in web search , 2012, CHI.

[4] A. Sheikh,et al. A pharmacist-led information technology intervention for medication errors (PINCER): a multicentre, cluster randomised, controlled trial and cost-effectiveness analysis , 2012, The Lancet.

[5] John R. Anderson,et al. What can a mouse cursor tell us more?: correlation of eye/mouse movements on web browsing , 2001, CHI Extended Abstracts.

[6] N. Saitou,et al. The neighbor-joining method: a new method for reconstructing phylogenetic trees. , 1987, Molecular biology and evolution.

[7] Eugene Agichtein,et al. Towards predicting web searcher gaze position from mouse movements , 2010, CHI Extended Abstracts.

[8] Stephanie Wilson,et al. Identifying web usability problems from eye-tracking data , 2007, BCS HCI.

[9] Olatz Arbelaitz,et al. An extensive comparative study of cluster validity indices , 2013, Pattern Recognit..

[10] Charles Perin,et al. Investigating the Direct Manipulation of Ranking Tables for Time Navigation , 2015, CHI.

[11] Charles Perin,et al. A table!: improving temporal navigation in soccer ranking tables , 2014, CHI.