Detecting task demand via an eye tracking machine learning system

作者:

Highlights:

• Task demand can be detected automatically, reliably, and unobtrusively via eye movements

• Automatic Task demand detection via eye movements is not only possible but also computationally practical

• Eye movements carry distinct information about task demand

• Pupil data was the most important predictor factor in identifying task demand operationalized as time pressure

• Saccade-to-fixation pupil dilation ratio was the most important pupil data identifying time pressure

摘要

Computerized systems play a significant role in today's fast-paced digital economy. Because task demand is a major factor that influences how computerized systems are used to make decisions, identifying task demand automatically provides an opportunity for designing advanced decision support systems that can respond to user needs at a personalized level. A first step for designing such advanced decision tools is to investigate possibilities for developing automatic task load detectors. Grounded in decision making, eye tracking, and machine learning literature, we argue that task demand can be detected automatically, reliably, and unobtrusively using eye movements only. To investigate this possibility, we developed an eye tracking task load detection system and tested its effectiveness. Our results revealed that our task load detection system reliably predicted increased task demand from users' eye movement data. These results and their implications for research and practice are discussed.

论文关键词:Human computer interaction,Eye tracking,Task demand,Adaptive decision making,Cognitive effort,Machine learning

论文评审过程:Received 1 June 2018, Revised 21 October 2018, Accepted 22 October 2018, Available online 31 October 2018, Version of Record 17 November 2018.

论文官网地址:https://doi.org/10.1016/j.dss.2018.10.012