Oleg Ryumin scite author profile

Oleg Ryumin

5Publications

29Citation Statements Received

78Citation Statements Given

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Affiliations

Institute of Biomedical Problems, Gagarin Research and Test Cosmonaut Training Center

Publications

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Predicting Fatigue and Psychophysiological Test Performance from Speech for Safety-Critical Environments

Baykaner

Huckvale

Whiteley

et al. 2015

Front. Bioeng. Biotechnol.

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Automatic systems for estimating operator fatigue have application in safety-critical environments. A system which could estimate level of fatigue from speech would have application in domains where operators engage in regular verbal communication as part of their duties. Previous studies on the prediction of fatigue from speech have been limited because of their reliance on subjective ratings and because they lack comparison to other methods for assessing fatigue. In this paper, we present an analysis of voice recordings and psychophysiological test scores collected from seven aerospace personnel during a training task in which they remained awake for 60 h. We show that voice features and test scores are affected by both the total time spent awake and the time position within each subject’s circadian cycle. However, we show that time spent awake and time-of-day information are poor predictors of the test results, while voice features can give good predictions of the psychophysiological test scores and sleep latency. Mean absolute errors of prediction are possible within about 17.5% for sleep latency and 5–12% for test scores. We discuss the implications for the use of voice as a means to monitor the effects of fatigue on cognitive performance in practical applications.

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Prospects for Psychological Support in Interplanetary Expeditions

et al. 2021

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Psychological Support Using Virtual Reality in a Study With Three-Day Dry Immersion

Rozanov¹,

Kuznetsova²,

Savinkina³

et al. 2022

AEM

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The Prediction of Fatigue Using Speech as a Biosignal

Baykaner¹,

Huckvale²,

Whiteley³

et al. 2015

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Abstract. Automatic systems for estimating operator fatigue have application in safety-critical environments. We develop and evaluate a system to detect fatigue from speech recordings collected from speakers kept awake over a 60-hour period. A binary classification system (fatigued/not-fatigued) based on time spent awake showed good discrimination, with 80% unweighted accuracy using raw features, and 90% with speaker-normalised features. We describe the data collection, feature analysis, machine learning and cross-validation used in the study. Results are promising for real-world applications in domains such as aerospace, transportation and mining where operators are in regular verbal communication as part of their normal working activities.

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Interplanetary Mission: Crew Commander Assignment and Psychological Training

Ryumin¹,

Voitenko²

2019

AEM

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Oleg Ryumin

Predicting Fatigue and Psychophysiological Test Performance from Speech for Safety-Critical Environments

Prospects for Psychological Support in Interplanetary Expeditions

Psychological Support Using Virtual Reality in a Study With Three-Day Dry Immersion

The Prediction of Fatigue Using Speech as a Biosignal

Interplanetary Mission: Crew Commander Assignment and Psychological Training

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