Wearable Biosensor Monitor to Support Autonomous Crew Health and Readiness to PerformFor future human exploration missions, NASA needs a health monitoring system composed of hardware that is compact, fully interoperable with an integrated data management system, and requires minimal consumables. Such a system will be achieved through the integration of small, easy to use biomedical sensors that will have the ability to measure, store and transmit physiological parameters during operational and ambulatory activity. Since 2012, the Canadian Space Agency (CSA) has been active in funding the development of wearable biomonitoring sensors. The Astroskin is the first prototype and consists of a shirt-based garment and headband with embedded sensors, and associated software and technology that measure vital signs, sleep quality and activity level of the wearer. NASA and CSA have been collaborating since 2014 to test and validate this system in a lab environment at Ames Research Center and more recently in the Human Exploration Research Analog (HERA) located at Johnson Spaceflight Center. Specific objectives of the HERA study were: 1) to assess the performance of the Astroskin biosensor system for long-term health monitoring (24-hours) capabilities and during exercise as a measure of crew fitness; 2) to obtain crew feedback on comfort and usability of the Astroskin system; 3) to demonstrate performance of Bluetooth communication during real-time transmission and for verification of data in this environment; and 4) to obtain baseline data for further development of algorithms and tools that facilitate decision support for diagnosing and monitoring of a sick or injured crewmember. HERA Campaign 3 included four missions (each 30-days in duration) with four crewmembers assigned to each mission. A total of 9 men and 7 women participated in the Astroskin evaluation that included continuous physiological monitoring (24-hours) on mission days MD-11, MD1 (high workload), MD15 (low workload), MD19, MD29, and MD+7. Mission days 19 and 29 also included 30 minutes of sub-maximal exercise on a cycle ergometer. Following each 24-hour monitoring session crew physiological data were downloaded to laptops and each crewmember completed a 28 question survey on their experiences with the Astroskin hardware and software. This presentation will focus on lessons learned from the HERA missions. Specifically it will address Astroskin system performance in terms of data loss and data quality (no comparison to lab standard devices), wireless communication with the onboard mobile device, crew usability and comfort, and future development of a next generation biomonitoring system.
Document ID
20190001996
Acquisition Source
Ames Research Center
Document Type
Presentation
Authors
Toscano, W. (NASA Ames Research Center Moffett Field, CA, United States)
Cowings, P. (NASA Ames Research Center Moffett Field, CA, United States)
Sullivan, P. (Canadian Space Agency Montreal, Quebec, Canada)
Martin, A. (Canadian Space Agency Montreal, Quebec, Canada)
Roy, J. (Carré Technologies Inc. Montreal, Quebec, Canada)
Krihak, M. (Universities Space Research Association (USRA) Moffett Field, CA, United States)
Winther, S. (Wyle Labs., Inc. Moffett Field, CA, United States)
Hanson, A. (NASA Johnson Space Center Houston, TX, United States)
Shaw, T. (NASA Ames Research Center Moffett Field, CA, United States)
Date Acquired
March 29, 2019
Publication Date
January 23, 2017
Subject Category
Aerospace Medicine
Report/Patent Number
ARC-E-DAA-TN38722Report Number: ARC-E-DAA-TN38722
Meeting Information
Meeting: 2017 Human Research Program Investigators'' Workshop