A Comparative Study of Pointing Techniques for Eyewear Using a Simulated Pedestrian Environment

Roy, Quentin; Zakaria, Camelia; Perrault, Simon T.; Nancel, Mathieu; Kim, Wonjung; Misra, Archan; Cockburn, Andy

doi:10.1007/978-3-030-29387-1_36

Human-Computer Interaction – INTERACT 2019

2019

DOI: 10.1007/978-3-030-29387-1_36

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A Comparative Study of Pointing Techniques for Eyewear Using a Simulated Pedestrian Environment

Quentin Roy

Camelia Zakaria

Simon T. Perrault

et al.

Abstract: Eyewear displays allow users to interact with virtual content displayed over real-world vision, in active situations like standing and walking. Pointing techniques for eyewear displays have been proposed, but their social acceptability, efficiency, and situation awareness remain to be assessed. Using a novel street-walking simulator, we conducted an empirical study of target acquisition while standing and walking under different levels of street crowdedness. We evaluated three phone-based eyewear pointing tech… Show more

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Mixed reality training application to perform obstetric pulsed-wave Doppler ultrasound

Nylund,

Jain,

Tegnander

et al. 2023

Educ Inf Technol

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Pulsed-wave Doppler ultrasound is a widely used technique for monitoring pregnancies. As ultrasound equipment becomes more advanced, it becomes harder to train practitioners to be proficient in the procedure as it requires the presence of an expert, access to high-tech equipment as well as several volunteering patients. Immersive environments such as mixed reality can help trainees in this regard due to their capabilities to simulate real environments and objects. In this article, we propose a mixed reality application to facilitate training in performing pulsed-wave Doppler ultrasound when acquiring a spectrogram to measure blood velocity in the umbilical cord. The application simulates Doppler spectrograms while the trainee has the possibility of adjusting parameters such as pulse repetition frequency, sampling depth, and beam-to-flow angle. This is done using a combination of an optimized user interface, 3D-printed objects tracked using image recognition and data acquisition from a gyroscope. The application was developed for Microsoft HoloLens as the archetype of mixed reality, while a 3D-printed abdomen was used to simulate a patient. The application aims to aid in both simulated and real-life ultrasound procedures. Expert feedback and user-testing results were collected to validate the purpose and use of the designed application. Design science research was followed to propose the intended application while contributing to the literature on leveraging immersive environments for medical training and practice. Based on the results of the study, it was concluded that mixed reality can be efficiently used in ultrasound training.

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Mixed reality training application to perform obstetric pulsed-wave Doppler ultrasound

Nylund,

Jain,

Tegnander

et al. 2023

Educ Inf Technol

View full text Add to dashboard Cite

show abstract

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A Comparative Study of Pointing Techniques for Eyewear Using a Simulated Pedestrian Environment

Cited by 1 publication

References 54 publications

Mixed reality training application to perform obstetric pulsed-wave Doppler ultrasound

Mixed reality training application to perform obstetric pulsed-wave Doppler ultrasound

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