Your search keyword '"Horia A. Maior"' showing total 5 results

1. Exploring Machine Learning Approaches for Classifying Mental Workload using fNIRS Data from HCI Tasks

Author

Johann Benerradi, Jeremie Clos, Adrian Marinescu, Horia A. Maior, and Max L. Wilson

Subjects

Data processing, Computer science, business.industry, Deep learning, Workload, Interaction systems, Machine learning, computer.software_genre, Task (project management), Support vector machine, Artificial intelligence, business, computer, Advice (complexity)

Abstract

Functional Near-Infrared Spectroscopy (fNIRS) has shown promise for being potentially more suitable (than e.g. EEG) for brain-based Human Computer Interaction (HCI). While some machine learning approaches have been used in prior HCI work, this paper explores different approaches and configurations for classifying Mental Workload (MWL) from a continuous HCI task, to identify and understand potential limitations and data processing decisions. In particular, we investigate three overall approaches: a logistic regression method, a supervised shallow method (SVM), and a supervised deep learning method (CNN). We examine personalised and generalised models, as well as consider different features and ways of labelling the data. Our initial explorations show that generalised models can perform as well as personalised ones and that deep learning can be a suitable approach for medium size datasets. To provide additional practical advice for future brain-computer interaction systems, we conclude by discussing the limitations and data-preparation needs of different machine learning approaches. We also make recommendations for avenues of future work that are most promising for the machine learning of fNIRS data.

Published

2019

2. A Self-Governing and Decentralized Network of Smart Objects to Share Electrical Power Autonomously

Author

Shrisha Rao, Amrutha Muralidharan, and Horia A. Maior

Subjects

Smart power, Correctness, Smart objects, Control theory, Computer science, Problem domain, Distributed computing, Real-time computing, Context (language use), Electric power, Object (computer science)

Abstract

An extensible, decentralized network of self-governing objects connected to a shared but variable power supply is a realistic problem domain for certain demand-management problems arising in the context of futuristic systems connected to smart power grids. An algorithmic framework of such a network is presented and discussed in this paper. Each object of the network has a power demand and a priority, and it is interconnected and able to exchange information with all other objects in the system. As each object shares information (its power demand and priority) with the other objects, the system as a whole exhibits self-governance, and is able to be managed without a centralized controller. Our model, which we term as decentralized power distribution (DPD) for such a network, also allows us to formulate algorithms for distributing available power among objects, along with analyses of correctness and performance.

Published

2017

3. Using fNIRS in usability testing: understanding the effect of web form layout on mental workload

Author

Kristiyan Lukanov, Horia A. Maior, and Max L. Wilson

Subjects

business.industry, Computer science, Process (engineering), 05 social sciences, 020207 software engineering, Usability, Workload, 02 engineering and technology, Summative assessment, Human–computer interaction, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, User interface, business, Web usability, 050107 human factors

Abstract

Amongst the many tasks in our lives, we encounter web forms on a regular basis, whether they are mundane like registering for a website, or complex and important like tax returns. There are many aspects of Usability, but one concern for user interfaces is to reduce mental workload and error rates. Whilst most assessment of mental workload is subjective and retrospective reporting by users, we examine the potential of functional Near Infrared Spectroscopy (fNIRS) as a tool for objectively and concurrently measuring mental workload during usability testing. We use this technology to evaluate the design of three different form layouts for a car insurance claim process, and show that a form divided into subforms increases mental workload, contrary to our expectations. We conclude that fNIRS is highly suitable for objectively examining mental workload during usability testing, and will therefore be able to provide more detailed insight than summative retrospective assessments. Further, for the fNIRS community, we show that the technology can easily move beyond typical psychology tasks, and be used for more natural study tasks.

Published

2016

4. Examining the reliability of using fNIRS in realistic HCI settings for spatial and verbal tasks

Author

Matthew Pike, Horia A. Maior, Max L. Wilson, and Sarah Sharples

Subjects

User studies, Computer science, Human–computer interaction, Functional near-infrared spectroscopy, Cognition, User interface, Affect (psychology), Spatial memory, Reliability (statistics), Brain–computer interface

Abstract

Recent efforts have shown that functional near-infrared spectroscopy (fNIRS) has potential value for brain sensing in HCI user studies. Research has shown that, although large head movement significantly affects fNIRS data, typical keyboard use, mouse movement, and non-task-related verbalisations do not affect measurements during Verbal tasks. This work aims to examine the Reliability of fNIRS, by 1) confirming these prior findings, and 2) significantly extending our understanding of how artefacts affect recordings during Spatial tasks, since much of user interfaces and interaction is inherently spatial. Our results show that artefacts have a significantly different impact during Verbal and Spatial tasks. We contribute clearer insights into using fNIRS as a tool within HCI user studies.

Published

2015

5. Measuring the effect of think aloud protocols on workload using fNIRS

Author

Sarah Sharples, Martin Porcheron, Matthew Pike, Max L. Wilson, and Horia A. Maior

Subjects

User experience design, Brain activity and meditation, Human–computer interaction, Computer science, business.industry, Partial concurrent thinking aloud, Workload, Cognition, Think aloud protocol, business, Task (project management)

Abstract

The Think Aloud Protocol (TAP) is a verbalisation technique widely employed in HCI user studies to give insight into user experience, yet little work has explored the impact that TAPs have on participants during user studies. This paper utilises a brain sensing technique, fNIRS, to observe the effect that TAPs have on participants. Functional Near-Infrared Spectroscopy (fNIRS) is a brain sensing technology that offers the potential to provide continuous, detailed insight into brain activity, enabling an objective view of cognitive processes during complex tasks. Participants were asked to perform a mathematical task under 4 conditions: nonsense verbalisations, passive concurrent think aloud protocol, invasive concurrent think aloud protocol, and a baseline of silence. Subjective ratings and performance measures were collected during the study. Our results provide a novel view into the effect that different forms of verbalisation have on workload during tasks. Further, the results provide a means for estimating the effect of spoken artefacts when measuring workload, which is another step towards our goal of proactively involving fNIRS analysis in ecologically valid user studies.

Published

2014