Relevance of EEG input signals in the augmented human reader

Oliveira, Inês; Grigore, Ovidiu; Guimarães, Nuno; Duarte, Luís

doi:10.1145/1785455.1785460

Cited by 5 publications

(7 citation statements)

References 11 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Another study [9] used EEG to determine change in brain activity during reading and non-reading states. A series of presentation slides, with some having text and some blank, were presented to participants for 30 seconds in the case of text slides and 20 seconds in the case of blank slides.…”

Section: Related Workmentioning

confidence: 99%

User experience evaluation through the brain's electrical activity

Aggarwal

Niezen

Thimbleby

2014

Proceedings of the 8th Nordic Conference on Human-Computer Interaction: Fun, Fast, Foundational

View full text Add to dashboard Cite

A novel system for measuring the user experience of any user interface by measuring the feedback directly from the brain through Electroencephalography (EEG) is described. We developed an application that records data for different emotions of the user while using any interface and visualises the data for any interval during the task, as well as presenting various statistics and insight about the data. The application also provides the points of mouse movement on any interface as different coloured dots, where the colour represents the mental load at those points. This makes it easier to identify the user experience based on emotions at exact points on the user interface.In experiments, the brain activity of participants was recorded while they performed tasks on both a well-designed and poorly designed user interface. Screen and mouse cursor position were recorded, along with the values of several facial expressions and emotions extracted from the EEG. Users were interviewed after the study to share their experiences. For each study session analysis was done by comparing EEG, screen recording and interview data. Results showed that frustration, furrow and excitement values reflect user experience.

show abstract

Section: Related Workmentioning

confidence: 99%

User experience evaluation through the brain's electrical activity

Aggarwal

Niezen

Thimbleby

2014

Proceedings of the 8th Nordic Conference on Human-Computer Interaction: Fun, Fast, Foundational

View full text Add to dashboard Cite

show abstract

“…The selected and used computational techniques are also briefly enumerated, as a more detailed explanation and discussion of the processing techniques can be found elsewhere [20,21].…”

Section: Brain Signalsmentioning

confidence: 99%

“…The feature selection can also be based on relevance analysis. This analysis ranks features according to their contribution to the discrimination of the classes under observation [21].…”

Section: Signal Processing Chainmentioning

confidence: 99%

“…PSD measures the energy of the signal in a certain frequency [21]. It is a frequency feature, so to get its variation over time, the PSD is determined in one second length rectangular windows, overlapped in 0.5 seconds.…”

Section: Signal Processing Chainmentioning

confidence: 99%

“…The feature selection can also be based on relevance analysis. This analysis ranks features according to their contribution to the discrimination of the classes under observation [21].All the results presented and discussed in this paper were obtained using PSD (Power Spectrum Density) feature extraction and an SVM (Support Vector Machines) classifier. PSD measures the energy of the signal in a certain frequency [21].…”

mentioning

confidence: 99%

See 2 more Smart Citations

Practical Neurophysiological Analysis of Readability as a Usability Dimension

Oliveira

Guimarães

2013

Lecture Notes in Computer Science

View full text Add to dashboard Cite

Abstract. This paper discusses opportunities and feasibility of integrating neurophysiologic analysis methods, based on electroencephalography (EEG), in the current landscape of usability evaluation methods. The rapid evolution and growing availability of low-cost, easier to use devices and the accumulated knowledge in feature extraction and processing algorithms allow us to foresee the practicality of this integration. The work presented in this paper is focused on reading and readability, identified as a key element of usability heuristics, and observable in the neurophysiologic signals' space. The experiments are primarily designed to address the discrimination of the reading activity (silent, attentive and continuous) and the verification of decreasing readability, associated with the user's mental workload analysis. The results obtained in the series of experiments demonstrate the validity of the approach for each individual user, and raise the problem of intersubject variability and the need for designing appropriate calibration procedures for different users. Keywords. Usability analysis, neurophysiologic signals, EEG IntroductionThe current usability evaluation methods range from interpretative to predictive, the former based on the observation and study of the actual use of an artifact during its development cycle, and the latter exploring external analyses performed by experts equipped with standards, heuristics and modeling techniques [1]. The methods capture either the behavior and perceptions of users or the interactive attributes of the artifact, and converge to evaluation conclusions based on the qualitative or quantitative analysis of empirically collected data. Alternative, or complementary, methods based in the measurement of physical and physiological signals of the human user (e.g. eye-movements, heart rate (HR) and heart rate variation (HRV), skin conductance (SC), or electroencephalography (EEG)) have been used more frequently in contexts with critical requirements for human performance [2], and tested in dedicated labs, as opposed to the use of the former empirical methods, typically adopted by usability labs participating in the design and development of interactive artifacts for the general user or consumer.The evolution of the technological landscape leads us reassess the opportunities for expanding and improving the set of tools for usability evaluation. First, capture devices are cheaper, more reliable, less intrusive, and usable with increasing autonomy. Examples of this evolution are HR or SC measurement devices, which have become portable and wireless and even EEG systems have left the controlled conditions of clinical settings (see for example, the design of dry electrode devices [3]. Second, the capacity to process these signals evolved dramatically, both in computing power and in the understanding of the algorithms that extract meaning from the human data.As a result of this evolution, we can envision a feasible integration of human physical and physiological information in comm...

show abstract

Statistical approaches for personal feature extraction from pressure array sensors

Iso¹,

Horikoshi²

2013

2013 5th IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing (CAMSAP)

View full text Add to dashboard Cite

Relevance of EEG input signals in the augmented human reader

Cited by 5 publications

References 11 publications

User experience evaluation through the brain's electrical activity

User experience evaluation through the brain's electrical activity

Practical Neurophysiological Analysis of Readability as a Usability Dimension

Statistical approaches for personal feature extraction from pressure array sensors

Contact Info

Product

Resources

About