Abstract
Purpose Basic capturing of emotion on user experience of web applications and browsing is important in many ways. Quite often, online user experience is studied via tangible measures such as task completion time, surveys and comprehensive tests from which data attributes are generated. Prediction of users’ emotion and behaviour in some of these cases depends mostly on task completion time and number of clicks per given time interval. However, such approaches are generally subjective and rely heavily on distributional assumptions making the results prone to recording errors. This paper aims to propose a novel method – a window dynamic control system – that addresses the foregoing issues. Design/methodology/approach Primary data were obtained from laboratory experiments during which 44 volunteers had their synchronized physiological readings – skin conductance response, skin temperature, eye movement behaviour and users activity attributes taken by biosensors. The window-based dynamic control system (PHYCOB I) is integrated to the biosensor which collects secondary data attributes from these synchronized physiological readings and uses them for two purposes: for detection of both optimal emotional responses and users’ stress levels. The method’s novelty derives from its ability to integrate physiological readings and eye movement records to identify hidden correlates on a webpage. Findings The results from the analyses show that the control system detects basic emotions and outperforms other conventional models in terms of both accuracy and reliability, when subjected to model comparison – that is, the average recoverable natural structures for the three models with respect to accuracy and reliability are more consistent within the window-based control system environment than with the conventional methods. Research limitations/implications Graphical simulation and an example scenario are only provided for the control’s system design. Originality/value The novelty of the proposed model is its strained resistance to overfitting and its ability to automatically assess user emotion while dealing with specific web contents. The procedure can be used to predict which contents of webpages cause stress-induced emotions to users.
Highlights
Emotion recognition based on user experience of web applications and browsing is very useful in a lot of ways
A participant felt stressed while looking at ASL on AOI(1) and looking off screen from the Google-suggest page which appeared as blue transparent dots
This paper focuses on integration of biosensor to a window-based dynamic control system for detecting user emotional responses to web contents which were used has stimuli
Summary
Emotion recognition based on user experience of web applications and browsing is very useful in a lot of ways. Physiological readings can be captured as a form of distributional data. Such data are used by web designers and developers in enhancing navigational features of web pages. Rehabilitation therapists, mental-health specialists and other biomedical personnel often use computer simulations to monitor and control the behaviour of patients (Chen et al., 2000; Skadberg and Kimmel, 2004). Marketing and law enforcement agencies are perhaps two of the most common beneficiaries of such data – with the success of online marketing increasingly requiring a good understanding of customers’ online behaviour. Law enforcement agents have used human physiological measures to determine the likelihood of falsehood in interrogations (Isiaka, 2017; Nielsen, 1994; Zhai and Barreto, 2006; Ugur, 2013; Filipovic and Andreassi, 2001; Smith et al, 1999)
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