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Cover image for Human systems integration of an extravehicular activity space suit augmented reality display system  [electronic book] / by Paromita Mitra .
Human systems integration of an extravehicular activity space suit augmented reality display system [electronic book] / by Paromita Mitra .
First Title value, for Searching:
Human systems integration of an extravehicular activity space suit augmented reality display system [electronic book] / by Paromita Mitra .
Publication:
Mississippi State : Mississippi State University, 2018.
Publication Date:
2018
Bibliography Note:
Includes bibliographical references.
Dissertation:
Thesis (M.S.) Mississippi State University. Department of Aerospace Engineering 2018.
Abstract:
During an extravehicular activity (EVA), the role of an astronaut involves a multitude of complex tasks. Whether that task is a science experiment aboard the International Space Station, or traversing extraterrestrial terrain - attention, communication, and instruction are essential. As an aid, augmented reality (AR) can portray suit informatics and procedures within line-of-sight while minimizing attentional loss. Currently, there exists little research highlighting the human systems considerations to qualify AR systems for space suit applications. This study quantifies user interface (UI) and human performance measures for an AR prototype on the Mark III space suit. For user testing, 21 military pilots and personnel (11 men, 10 women) evaluated UI search tasks and completed a series of AR-instructed EVA dexterity tasks in an elevated luminosity, background clutter, and workload scenario. UI results suggest correlations for readability and usability; whereas, human performance results provide situational awareness, workload, and task performance data.
Content Type:
text
Carrier Type:
online resource
Local Note:
Thesis advisor: Keith Koenig.
Language:
English
No. of Holds: