|
|
 |
 |
Collection >
Author >
Author >
NASA Center >
Publication Year >
>
Subject >
>
Availability Options >
Item/Media Type >
Item/Media Type >
>
|
|
| Note: Start a new navigation search by selecting a link above |
|
|
|
 |
|
|
|
|
|
| |
|
|
|
|
| |
|
| Title: |
Extravehicular Activity Testing in Analog Environments: Evaluating the Effects of Center of Gravity and Environment on Human Performance
|
| Author(s): |
Gernhardt, M.L.; Chappell, S.P.
|
| Abstract: |
The EVA Physiology, Systems and Performance (EPSP) Project is performing tests in different analog environments to understand human performance during Extravehicular Activity (EVA) with the aim of developing more safe and efficient systems for lunar exploration missions and the Constellation Program. The project is characterizing human EVA performance in studies using several test beds, including the underwater NASA Extreme Environment Mission Operations (NEEMO) and Neutral Buoyancy Laboratory (NBL) facilities, JSC fs Partial Gravity Simulator (POGO), and the NASA Reduced Gravity Office (RGO) parabolic flight aircraft. Using these varied testing environments, NASA can gain a more complete understanding of human performance issues related to EVA and the limitations of each testing environment. Tests are focused on identifying and understanding the EVA system factors that affect human performance such as center of gravity (CG), inertial mass, ground reaction forces (GRF), suit weight, and suit pressure. The test results will lead to the development of lunar EVA systems operations concepts and design requirements that optimize human performance and exploration capabilities. METHODS: Tests were conducted in the NBL and during NEEMO missions in the NOAA Aquarius Habitat. A reconfigurable back pack with repositionable mass was used to simulate Perfect, Low, Forward, High, Aft and NASA Baseline CG locations. Subjects performed simulated exploration tasks that included ambulation, kneel and recovery, rock pick-up, and shoveling. Testing using POGO, that simulates partial gravity via pneumatic weight offload system and a similar reconfigurable rig, is underway for a subset of the same tasks. Additionally, test trials are being performed on the RGO parabolic flight aircraft. Subject performance was assessed using a modified Cooper-Harper scale to assess operator compensation required to achieve desired performance. All CG locations are based on the assumption of a standardized 6 ft 180 lb subject. RESULTS: The modified Cooper-Harper Scale assesses desired task performance described as performance in a reduced gravity environment as compared to a 1G environment. Modified Cooper-Harper ratings of . 3 indicate no improvements are needed, ratings of 4-6 indicate improvements are desirable, and ratings . 7 indicate improvements are mandatory. DISCUSSION: Differences were noted in suited CH results based on environment at the same CG and suit pressure. Additionally, results suggest that CG location affects unsuited human performance. Subjects preferred locations near their natural CG over those that are high, aft, or a combination of high and aft. Further testing and analyses are planned to compare these unsuited results to suited performance.
|
| NASA Center: |
Johnson Space Center
|
| Publication Date: |
February 02, 2009
|
| Document Source: |
Other Sources |
| No Digital Version Available: |
|
| Available Data: |
Abstract Only |
| Document ID: |
20090007826
|
| Publication Information: |
Number of Pages = 1 |
| Report Number: |
JSC-17754
|
| Meeting Information: |
Human Research Program Investigators Workshop, 2 - 4 Feb. 2009, Texas, United States |
| Keywords: |
HUMAN PERFORMANCE; CENTER OF GRAVITY; EXTRAVEHICULAR ACTIVITY; GRAVITATIONAL EFFECTS; LUNAR EXPLORATION; MICROGRAVITY; NASA PROGRAMS; HABITATS; STANDARDIZATION; PARABOLIC FLIGHT;
|
| Accessibility: |
Unclassified; Copyright; Unlimited; Publicly available; |
| Updated/Added to NTRS: |
2009-03-03 |
|
|
|
