@article{43c31c333a2b42a693717abe7d86ad98,
title = "Applications of extended reality in spaceflight for human health and performance",
abstract = "Virtual reality (VR) and augmented reality (AR) are rapidly developing technologies that may have important healthcare-related applications, including the possible evaluation of the health and performance of astronauts. Advances in the fields of VR/AR and space exploration have independently progressed; however, over the last decade synergies and overlapping applications have emerged between spaceflight and extended reality. This paper is intended to be a resource to update the medical community on the current and future integration of VR and AR into space exploration, particularly as this integration relates to astronaut health. We highlight how these technologies are used in terrestrial healthcare with specific attention to visual function. Furthermore, we elaborate on emerging VR applications being developed for future spaceflight. The paper discusses the current state of the art, such as the Apple Vision Pro headset, and outlines key challenges like mass and volume constraints, power limitations, and the heightened cognitive and physical demands of space travel. It also addresses the potential of VR/AR technologies to mitigate these issues through efficiency, stress reduction, and exercise motivation. Finally, we emphasize the benefits that these technologies provide to overcome possible barriers to long duration spaceflight and manned exploration missions, including spaceflight associated neuro-ocular syndrome (SANS).",
author = "{Brent Woodland}, M. and Joshua Ong and Nasif Zaman and Mohammad Hirzallah and Ethan Waisberg and Mouayad Masalkhi and Kamran, {Sharif Amit} and Lee, {Andrew G.} and Alireza Tavakkoli",
note = "Funding Information: The Human Research Program (HRP) created at the Johnson Space Center (JSC) exerts great efforts and investment on analyzing and minimizing the greatest risks to astronaut health and function in support of planetary exploration. As such, the Health Research Roadmap page outlines the different health obstacles and risks facing astronauts during spaceflight. Furthermore, this roadmap represents a significant reference and starting point for inspiring novel tools and devices that aid astronauts and minimize the risk of adverse health effects.Healthcare Delivery (3/2022–9/2022): MedChecker utilizes computer vision and AR to recognize and identify medications whose images have been captured through the device's camera [68]. This technology will allow even non-medically trained astronauts to identify and administer medications during spaceflight. Additionally, the technology can assist crew members with inventory management by identifying medications, recording the supplies, and reducing errors with medication administration. A separate project, the Autonomous Medical Officer Support Software Demonstration (AMOS Demonstration), showed how software was effective in guiding astronauts in performing medical testing with no prior training in the task [69]; notably, there was no extended reality in this project. However, using this type of technology in conjunction with AR could potentially open an entire virtual library of medical techniques and tests available to guide crew members through administering medical care without the need for ground communication.NASA Grant [80NSSC20K183]: A Non-intrusive Ocular Monitoring Framework to Model Ocular Structure and Functional Changes due to Long-term Spaceflight. Publisher Copyright: {\textcopyright} 2023 The Authors",
year = "2024",
month = jan,
doi = "10.1016/j.actaastro.2023.11.025",
language = "English (US)",
volume = "214",
pages = "748--756",
journal = "Acta Astronautica",
issn = "0094-5765",
publisher = "Elsevier Limited",
}