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Acceleration in other axes affects +Gz tolerance: dynamic centrifuge simulation of agile flight.
Aviat Space Environ Med. 2004 Jan; 75(1):1-6.AS

Abstract

BACKGROUND

Modern, thrust-vectored jet aircraft have the capability of developing multi-axis accelerations, especially during the performance of "supermaneuvers." These "agile" aircraft are capable of unconventional flight. The human consequences of this agile flight environment are unknown.

METHODS

This multi-axis acceleration environment was studied on the Dynamic Environment Simulator gimbaled centrifuge. There were nine relaxed, unprotected subjects who were exposed to either lateral (+/- 1, +/- 2 Gy), transverse chest-to-back (+1, 2.5, or 4 Gx), or back-to-chest (-1 Gx) sustained acceleration. Positive C (+Gz) acceleration was then added beginning at 1.0 Gz by gradual onset (0.1 Gz x s(-1)) until the subjects lost nearly all of their vision. Baseline +Gz-only relaxed tolerances were measured before and after all combined Gy/Gz and Gx/Gz exposures. Heart rate, percent cerebral oxygen saturation, and cerebral blood volumes were collected during each exposure.

RESULTS

Adding moderate transverse (+Gx) acceleration significantly reduced +Gz tolerance. Relaxed, unprotected +Gz tolerance was reduced approximately 0.25 G when 1.0 or 2.5 Gx was added to the increasing +Gz exposure. Adding moderate lateral Gy significantly increased +Gz tolerance. Relaxed, unprotected +Gz tolerance was increased approximately 0.5 G when +2 Gy or -2 Gy was added to the -Gz exposure. The decrease in cerebral blood volume was significantly less when +Gz was added to -1 Gx compared with the addition of +Gz to +Gx.

CONCLUSIONS

Multi-axis sustained accelerations, such as those experienced during thrust-vectored aircraft maneuvers, can either enhance or reduce the +Gz tolerance of the pilot depending on the direction of the net gravitoinertial force. Gy acceleration in conjunction with Gz acceleration can enhance G tolerance. Gx acceleration in addition to Gz acceleration can reduce G tolerance.

Authors+Show Affiliations

Albery WB
Biodynamics and Acceleration Branch, Air Force Research Laboratory, Wright-Patterson AFB, OH 45433, USA. William.albery@wpafb.af.mil

MeSH

AccelerationAdaptation, PhysiologicalAdultAerospace MedicineAviationBlood VolumeCentrifugationFemaleHumansHypergravityHypogravityMaleMonitoring, PhysiologicSpace SimulationVision, OcularWorkforce

Pub Type(s)

Journal Article
Research Support, U.S. Gov't, Non-P.H.S.

Language

eng

PubMed ID

14736126

Citation

Albery, William B.. "Acceleration in Other Axes Affects +Gz Tolerance: Dynamic Centrifuge Simulation of Agile Flight." Aviation, Space, and Environmental Medicine, vol. 75, no. 1, 2004, pp. 1-6.
Albery WB. Acceleration in other axes affects +Gz tolerance: dynamic centrifuge simulation of agile flight. Aviat Space Environ Med. 2004;75(1):1-6.
Albery, W. B. (2004). Acceleration in other axes affects +Gz tolerance: dynamic centrifuge simulation of agile flight. Aviation, Space, and Environmental Medicine, 75(1), 1-6.
Albery WB. Acceleration in Other Axes Affects +Gz Tolerance: Dynamic Centrifuge Simulation of Agile Flight. Aviat Space Environ Med. 2004;75(1):1-6. PubMed PMID: 14736126.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Acceleration in other axes affects +Gz tolerance: dynamic centrifuge simulation of agile flight. A1 - Albery,William B, PY - 2004/1/23/pubmed PY - 2004/5/21/medline PY - 2004/1/23/entrez SP - 1 EP - 6 JF - Aviation, space, and environmental medicine JO - Aviat Space Environ Med VL - 75 IS - 1 N2 - BACKGROUND: Modern, thrust-vectored jet aircraft have the capability of developing multi-axis accelerations, especially during the performance of "supermaneuvers." These "agile" aircraft are capable of unconventional flight. The human consequences of this agile flight environment are unknown. METHODS: This multi-axis acceleration environment was studied on the Dynamic Environment Simulator gimbaled centrifuge. There were nine relaxed, unprotected subjects who were exposed to either lateral (+/- 1, +/- 2 Gy), transverse chest-to-back (+1, 2.5, or 4 Gx), or back-to-chest (-1 Gx) sustained acceleration. Positive C (+Gz) acceleration was then added beginning at 1.0 Gz by gradual onset (0.1 Gz x s(-1)) until the subjects lost nearly all of their vision. Baseline +Gz-only relaxed tolerances were measured before and after all combined Gy/Gz and Gx/Gz exposures. Heart rate, percent cerebral oxygen saturation, and cerebral blood volumes were collected during each exposure. RESULTS: Adding moderate transverse (+Gx) acceleration significantly reduced +Gz tolerance. Relaxed, unprotected +Gz tolerance was reduced approximately 0.25 G when 1.0 or 2.5 Gx was added to the increasing +Gz exposure. Adding moderate lateral Gy significantly increased +Gz tolerance. Relaxed, unprotected +Gz tolerance was increased approximately 0.5 G when +2 Gy or -2 Gy was added to the -Gz exposure. The decrease in cerebral blood volume was significantly less when +Gz was added to -1 Gx compared with the addition of +Gz to +Gx. CONCLUSIONS: Multi-axis sustained accelerations, such as those experienced during thrust-vectored aircraft maneuvers, can either enhance or reduce the +Gz tolerance of the pilot depending on the direction of the net gravitoinertial force. Gy acceleration in conjunction with Gz acceleration can enhance G tolerance. Gx acceleration in addition to Gz acceleration can reduce G tolerance. SN - 0095-6562 UR - https://www.unboundmedicine.com/medline/citation/14736126/Acceleration_in_other_axes_affects_+Gz_tolerance:_dynamic_centrifuge_simulation_of_agile_flight_ DB - PRIME DP - Unbound Medicine ER -