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1. Assessing Workers’ Mental Stress in Hand-over Activities during Human-robot Collaboration

   https://doi.org/10.1177/1071181322661194  

   Lu, Lu; Xie, Ziyang; Wang, Hanwen; Su, Bingyi; Edward P. Fitts, Xu Xu (September 2022, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Human-robot collaboration (HRC) is an emerging research area that has gained tremendous attention from both academia and industry. Since some robot-related factors can elicit mental stress or have negative psychological effects on human workers, it is essential to understand these factors and maintain workers’ mental stress at a low level. Galvanic Skin Response (GSR) measures skin conductance and is known to be a physiological measurement that reflects short-term mental stress. Typically, skin conductance increases in response to greater mental stress. In this study, the mental stress caused by the hand-over activities of a collaborative robot was investigated using both GSR as an objective measurement and NASA-Task Load Index (TLX) as a subjective assessment. Several robot-related factors that may lead to mental stress were experimentally examined. GSR outcomes indicated that end effector approaching within workers’ view, low end effector speed, and constrained end effector trajectory led to a significantly lower skin conductance. Some aspects of the NASA-TLX also indicated that speed and trajectory significantly affected the scores. Yet, no significant differences were found between approaching directions regarding NASA-TLX scores. 

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2. The effects of human-robot interaction modality on workers’ mental stress

   https://doi.org/10.1177/21695067231192561  

   Su, Bingyi; Jung, SeHee; Lu, Lu; Wang, Hanwen; Qing, Liwei; Xie, Ziyang; Xu, Xu (October 2023, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Advances in robotics have contributed to the prevalence of human-robot collaboration (HRC). Working and interacting with collaborative robots in close proximity can be psychologically stressful. Therefore, it is important to understand the impacts of human-robot interaction (HRI) on mental stress to promote psychological well-being at the workplace. To this end, this study investigated how the HRI presence, complexity, and modality affect psychological stress in humans and discussed possible HRI design criteria during HRC. An experimental setup was implemented in which human operators worked with a collaborative robot on a Lego assembly task, using different interaction paradigms involving pressing buttons, showing hand gestures, and giving verbal commands. The NASA-Task Load Index, as a subjective measure, and the physiological galvanic skin conductance response, as an objective measure, were used to assess the levels of mental stress. The results revealed that the introduction of interactions during HRC helped reduce mental stress and that complex interactions resulted in higher mental stress than simple interactions. Meanwhile, the use of certain interaction modalities, such as verbal commands or hand gestures, led to significantly higher mental stress than pressing buttons, while no significant difference on mental stress was found between showing hand gestures and giving verbal commands. 

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3. Engineering Doctoral Students' Interpretations of Stress and Mental Health Experiences in Graduate Education

   https://doi.org/10.1109/FIE58773.2023.10342891  

   Parker, Mackenzie C.; Stienhorst, Kiara L.; Feil-Seifer, David; Kirn, Adam (October 2023, IEEE)

   The research paper examines how engineering doctoral students describe their awareness and experiences with stress and mental health during their graduate studies. Despite the known bidirectional relationship between stress and mental health, there is limited research on how engineering doctoral students rationalize the disparity between the health consequences of chronic stress and the veneration of academic endurance in the face of these challenges. Given the dangers of chronic stress to physical and mental health, it is important to understand how students perceive the purpose and impact of stress and mental health within overlapping cultures of normalized stress. We conducted semi-structured interviews to understand participants' awareness, conceptualizations, and interpretations of stress and mental health. The research team analyzed interview transcripts using content analysis with inductive coding. Overall, we found that our participants recognized behavioral changes as an early sign of chronic stress while physical changes were a sign of sustained chronic stress; these cues signaled that participants needed additional support, including social support and campus mental health services. These findings support the need for greater mental health awareness and education within engineering doctoral programs to help students identify and manage chronic stress. 

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4. Combined Effects of Social and Behavioral Factors on Stress and Depression

   https://doi.org/10.3390/diseases13020046  

   Obeng-Gyasi, Emmanuel; Parker, Sonya (February 2025, Diseases)

   Background: Chronic stress, driven by the persistent activation of the body’s stress response system—including the sympathetic nervous system and hypothalamic–pituitary–adrenal (HPA) axis—has far-reaching effects on both physical and mental health. This study examines the combined effects of social and behavioral factors on a latent variable consisting of stress and depressive symptoms, using a comprehensive framework to explore the complex interactions of these factors. Methods: Leveraging data from the United States Centers for Disease Control and Prevention’s (CDC’s) National Health and Nutrition Examination Survey (NHANES), we operationalized allostatic load—a measure of cumulative physiological stress—through 10 biomarkers spanning cardiovascular, inflammatory, and metabolic systems. Depressive symptoms were measured via the Patient Health Questionnaire-9 (PHQ-9), and a latent variable capturing the shared variance between stress and depressive symptoms was derived using factor analysis. To assess the influence of social (income and education) and behavioral (alcohol consumption and smoking) factors on this latent variable, we employed Bayesian Kernel Machine Regression (BKMR), allowing us to examine potential non-linear and interactive effects among these predictors. Results: Our results revealed a significant positive association between allostatic load and depressive symptoms across the sample, regardless of ethnic background. Alcohol consumption emerged as a key behavioral factor, with significant positive associations with stress. Conversely, education showed a protective effect, with higher education levels associated with decreased stress and depressive symptoms. Conclusions: These findings underscore the importance of addressing both social determinants and behavioral risk factors in mitigating the cumulative impacts of stress and depressive symptoms. By highlighting the roles of alcohol consumption and education, this study provides insights that can inform public health strategies aimed at promoting resilience and reducing stress-related health disparities. 

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5. A Snapshot of Mental Health and Wellness of Engineering Students Across the Western United States

   https://doi.org/10.1109/FIE44824.2020.9273885  

   Danowitz, Andrew; Beddoes, Kacey (October 2020, 2020 IEEE Frontiers in Education Conference (FIE))

   null (Ed.)

   This work in progress research paper characterizes mental wellness in engineering at five institutions across the Western United States to better understand what mental health issues most affect the broader engineering student community. Anecdotal evidence has long suggested that stress and certain mental wellness issues are particularly acute in the field of Engineering, and some recent research has shown elevated rates of mental wellness issues at different institutions around the country. This paper presents the results of a previously validated mental health survey conducted with first- and second-year students at several universities. The results of this work include screening rates for major mental health issues (e.g. DSM diagnosable) and moderate mental health issues as captured by the Kessler 6 screening instrument; screening rates for depressive, anxiety, and eating disorders as measured by the Patient Health Questionnaire (PHQ); and screening rates for post-traumatic stress disorder (PTSD) as measured by the Primary-Care Post Traumatic Stress Disorder (PC-PTSD) instrument. This work also includes a preliminary analysis of screen rates by demographic groups so that educators and academic facilitators may be better aware of the types of challenges that face a diverse engineering student populace. Overall, we find that 28.4% percent of respondents potentially suffer from a diagnosable mental health condition as measured by Kessler 6. We also find that an additional 55.2% of students screen positive for moderate psychological distress. Breaking measurements down by demographic groups, we find that female respondents, particularly those from historically excluded ethnic groups and races, show elevated rates of Panic and PTSD disorders when compared to the male population. 

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