Detecting Stress During Real-World Driving Tasks Using Physiological Sensors

Healey, Jennifer; Picard, Rosalind W.

doi:10.1109/tits.2005.848368

Cited by 1,612 publications

(1,196 citation statements)

References 20 publications

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“…The increment of the average EDA during recovery over the average EDA during baseline was labeled "EDA Change: Recovery minus Baseline," and was used as proxy marker for prolonged, sympathetic arousal following stressful stimulation. This procedure follows previous EDA studies with baseline, stress, and/or recovery conditions (Healey and Picard, 2005;El-Sheikh et al 2007;Reinhardt et al, 2012).…”

Section: Electrodermal Activity (Eda) Measurementmentioning

confidence: 99%

Rorschach Performance Assessment System (R-PAS) and vulnerability to stress: A preliminary study on electrodermal activity during stress

Giromini

Ando

Morese

et al. 2016

Psychiatry Research

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This study investigated the predictive validity of the ten Rorschach Performance Assessment System (R-PAS) variables from the Stress and Distress domain, by testing whether they predicted increased sympathetic reactivity to a mild, laboratory-induced stress, occurred one week after Rorschach administration. A relatively small student sample (N = 52) contributed to this research: During a first meeting (T1) participants were administered the Rorschach task according to R-PAS guidelines; about one week later (T2) their electrodermal activity (EDA) was recorded during exposure to a mild laboratory stress-inducing task. Based on literature indicating that exposure to stress tends to increase physiological vulnerability/reactivity to stressful situations, we anticipated that Stress and Distress R-PAS variables measured at T1 would positively correlate with increased sympathetic reactivity to stress at T2, as indicated by greater EDA changes from baseline to stress and recovery. Results partially confirmed our hypotheses: The (a) the mean of and (b) the majority of the Stress and Distress R-PAS variables were significantly correlated, in the expected direction, with medium and medium to large effect sizes.

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Section: Electrodermal Activity (Eda) Measurementmentioning

confidence: 99%

Rorschach Performance Assessment System (R-PAS) and vulnerability to stress: A preliminary study on electrodermal activity during stress

Giromini

Ando

Morese

et al. 2016

Psychiatry Research

View full text Add to dashboard Cite

show abstract

“…For instance, Healey and Picard measured drivers' stress reactions by monitoring multiple physiological signals, such as ECG, GSR, electromyogram (EMG), and respiration in a prescheduled route setting [10]. They used 5-minute intervals of data during the rest, highway, and city driving conditions to distinguish between three levels of driver stress.…”

Section: Related Workmentioning

confidence: 99%

Activity-Aware Mental Stress Detection Using Physiological Sensors

Sun

Kuo

Cheng

et al. 2012

Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering

182

152

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Abstract. Continuous stress monitoring may help users better understand their stress patterns and provide physicians with more reliable data for interventions. Previously, studies on mental stress detection were limited to a laboratory environment where participants generally rested in a sedentary position. However, it is impractical to exclude the effects of physical activity while developing a pervasive stress monitoring application for everyday use. The physiological responses caused by mental stress can be masked by variations due to physical activity. We present an activity-aware mental stress detection scheme. Electrocardiogram (ECG), galvanic skin response (GSR), and accelerometer data were gathered from 20 participants across three activities: sitting, standing, and walking. For each activity, we gathered baseline physiological measurements and measurements while users were subjected to mental stressors. The activity information derived from the accelerometer enabled us to achieve 92.4% accuracy of mental stress classification for 10-fold cross validation and 80.9% accuracy for between-subjects classification.

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“…Physiological features have been extracted from signals like electrocardiogram (ECG / EKG), electromyogram (EMG), galvanic skin response (GSR), respiration and electrocardiogram (EKG / ECG) and classified for detecting stress level or emotions of automotive drivers [5,6,7] . The mostly used physiological parameters have been (a) heart rate (HR) and heart rate variability (HRV), both derived from ECG and (b) skin conductance responses (SCR) and other related features which account for sudden stress responses, derived from GSR.…”

Section: Physiological Signals Sensors and Experimental Setupmentioning

confidence: 99%

“…The salient features of our stress level detection approach includes: (a) first work to the best of our knowledge focusing a developing country like India in terms of scenario design, subject population and road settings, (b) physiological data collected in realtime driving scenarios modeled the stress contributing factors into a multiclass problem instead of a binary class 9 , (c) an exhaustive set of physiological features (39 statistical, syntactic and spectral) were extracted representing driver's current physiological state, (d) instead of less number of subjects and a one-fold classification [6][7] , we used more subjects and performed analysis on single as well multi-turn drive data, and (e) six neural network 4-class classifiers were evaluated instead of generalizing a single classifier.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Driver Stress from Physiological Signals collected under Real-Time Semi-Urban Driving Scenarios

Singh¹,

Conjeti²,

Banerjee³

2014

IJCIS

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Designing a wearable driver assist system requires extraction of relevant features from physiological signals like galvanic skin response and photoplethysmogram collected from automotive drivers during real-time driving. In the discussed case, four stress-classes were identified using cascade forward neural network (CASFNN) which performed consistently with minimal intra-and inter-subject variability. Task-induced stress-trends were tracked using -based regression model with CASFNN configuration. The proposed framework will enable proactive initiation of rescue and relaxation procedures during accidents and emergencies.

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Detecting Stress During Real-World Driving Tasks Using Physiological Sensors

Cited by 1,612 publications

References 20 publications

Rorschach Performance Assessment System (R-PAS) and vulnerability to stress: A preliminary study on electrodermal activity during stress

Rorschach Performance Assessment System (R-PAS) and vulnerability to stress: A preliminary study on electrodermal activity during stress

Activity-Aware Mental Stress Detection Using Physiological Sensors

Assessment of Driver Stress from Physiological Signals collected under Real-Time Semi-Urban Driving Scenarios

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