Abstract
Future space missions require the integration of enhanced physical and physiological monitoring systems for supporting missions of both short and long duration. This human biosensing and monitoring suite will specify and implement a proof of concept of a non-invasive sensor system for crew monitoring in space missions, by integrating cost-cutting equipment. HuBAM is composed of: (1) astronaut wearable suit(s) (AWS), combined with (2) an Automated Equipping station (AES) that can be deployed as needed within space habitats and/or space transportation vehicles. The design and evaluation methods employed will be systematically mapped onto each Design Thinking stage for this first iteration. Based on results and findings, the paper will deliver recommendations and tasks for further developments, and future iterations using the Design Thinking process.
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Acknowledgements
This project was supported by the National Aeronautics and Space Administration, through the University of Central Florida’s NASA Florida Space Grant Consortium, and SPACE FLORIDA. The authors wish to acknowledge and thank in particularly Captain Winston E. Scott, USN (ret.) for his astronautics expertise as a NASA astronaut.
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Cuffie, B., Stephane, L. (2020). System Architecture of a Human Biosensing and Monitoring Suite with Adaptive Task Allocation. In: Ahram, T., Karwowski, W., Vergnano, A., Leali, F., Taiar, R. (eds) Intelligent Human Systems Integration 2020. IHSI 2020. Advances in Intelligent Systems and Computing, vol 1131. Springer, Cham. https://doi.org/10.1007/978-3-030-39512-4_26
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DOI: https://doi.org/10.1007/978-3-030-39512-4_26
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