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NASA NTRS · Contractor Report (CR)

Ergonomic Evaluations of Microgravity Workstations

Published 2019-07-09 From Johnson Space Center 3 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Johnson Space Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

Various gloveboxes (GBXs) have been used aboard the Shuttle and ISS. Though the overall technical specifications are similar, each GBX's crew interface is unique. JSC conducted a series of ergonomic evaluations of the various glovebox designs to identify human factors requirements for new designs to provide operator commonality across different designs. We conducted 2 0g evaluations aboard the Shuttle to evaluate the material sciences GBX and the General Purpose Workstation (GPWS), and a KC-135 evaluation to compare combinations of arm hole interfaces and foot restraints (flexible arm holes were better than rigid ports for repetitive fine manipulation tasks). Posture analysis revealed that the smallest and tallest subjects assumed similar postures at all four configurations, suggesting that problematic postures are not necessarily a function of the operator s height but a function of the task characteristics. There was concern that the subjects were using the restrictive nature of the GBX s cuffs as an upper-body restraint to achieve such high forces, which might lead to neck/shoulder discomfort. EMG data revealed more consistent muscle performance at the GBX; the variability in the EMG profiles observed at the GPWS was attributed to the subjects attempts to provide more stabilization for themselves in the loose, flexible gauntlets. Tests revealed that the GBX should be designed for a 95 percentile American male to accommodate a neutral working posture. In addition, the foot restraint with knee support appeared beneficial for GBX operations. Crew comments were to provide 2 foot restraint mechanical modes, loose and lock-down, to accommodate a wide range of tasks without egressing the restraint system. Thus far, we have developed preliminary design guidelines for GBXs and foot.

Authors

  • Whitmore, Mihriban Lockheed Martin Engineering and Sciences Co.
  • Berman, Andrea H. Lockheed Martin Engineering and Sciences Co.
  • Byerly, Diane NASA Johnson Space Center

Citation: Whitmore, Mihriban, Berman, Andrea H., Byerly, Diane (2019). Ergonomic Evaluations of Microgravity Workstations. Johnson Space Center. NASA NTRS ID 20040200955. https://ntrs.nasa.gov/citations/20040200955 ↗