Raphael Menges scite author profile

Raphael Menges

5Publications

51Citation Statements Received

40Citation Statements Given

How they've been cited

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Affiliations

Koblenz University of Applied Sciences, University of Koblenz and Landau

Publications

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A multimodal dataset for authoring and editing multimedia content: The MAMEM project

et al. 2017

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We present a dataset that combines multimodal biosignals and eye tracking information gathered under a human-computer interaction framework. The dataset was developed in the vein of the MAMEM project that aims to endow people with motor disabilities with the ability to edit and author multimedia content through mental commands and gaze activity. The dataset includes EEG, eye-tracking, and physiological (GSR and Heart rate) signals collected from 34 individuals (18 able-bodied and 16 motor-impaired). Data were collected during the interaction with specifically designed interface for web browsing and multimedia content manipulation and during imaginary movement tasks. The presented dataset will contribute towards the development and evaluation of modern human-computer interaction systems that would foster the integration of people with severe motor impairments back into society.

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Analyzing the Impact of Cognitive Load in Evaluating Gaze-Based Typing

Sengupta

Sun

Menges

et al. 2017

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Gaze-based virtual keyboards provide an effective interface for text entry by eye movements. The efficiency and usability of these keyboards have traditionally been evaluated with conventional text entry performance measures such as words per minute, keystrokes per character, backspace usage, etc. However, in comparison to the traditional text entry approaches, gaze-based typing involves natural eye movements that are highly correlated with human brain cognition. Employing eye gaze as an input could lead to excessive mental demand, and in this work we argue the need to include cognitive load as an eye typing evaluation measure. We evaluate three variations of gaze-based virtual keyboards, which implement variable designs in terms of word suggestion positioning. The conventional text entry metrics indicate no significant difference in the performance of the different keyboard designs. However, STFT (Short-time Fourier Transform) based analysis of EEG signals indicate variances in the mental workload of participants while interacting with these designs. Moreover, the EEG analysis provides insights into the user's cognition variation for different typing phases and intervals, which should be considered in order to improve eye typing usability.

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Hummer: Text Entry by Gaze and Hum

Hedeshy

Kumar

Menges

et al. 2021

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Eye-Controlled Interfaces for Multimedia Interaction

Kumar¹,

Menges²,

Staab³

2016

IEEE MultiMedia

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Hands-free web browsing

Sengupta

Menges

et al. 2018

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Raphael Menges

A multimodal dataset for authoring and editing multimedia content: The MAMEM project

Analyzing the Impact of Cognitive Load in Evaluating Gaze-Based Typing

Hummer: Text Entry by Gaze and Hum

Eye-Controlled Interfaces for Multimedia Interaction

Hands-free web browsing

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