1 |
Balldin, U.I., Werchan, P.M., French, J. and Self, B., Endurance and performance during multiple intense high +Gz exposures with effective anti-G protection. Aviation Space Environmental Medicine, 74(4), 303-308, 2003.
|
2 |
Burton, R.R., Leverett, S.D. and Michaelson, E.D., Man at high sustained +Gz acceleration. Aviation Space Environment Medicine, 45(10), 1115-1136, 1974.
|
3 |
Burton, R.R., Human Physiological Limitations to G in High-Performance Aircraft. In Physiological Function in Special Environments (pp. 123-137), Springer New York, 1989.
|
4 |
Epperson, W.L., Burton, R.R. and Bernauer, E.M., The influence of differential physical conditioning regimens on simulated aerial combat maneuvering tolerance. Aviation Space Environment Medicine, 53(11), 1091-1097, 1982.
|
5 |
Epperson, W.L., Burton, R.R. and Bernauer, E.M., The effectiveness of specific weight training regimens on simulated aerial combat maneuvering tolerance. Aviation Space Environment Medicine, 56(6), 534-539, 1985.
|
6 |
Forster, E.M., Shender, B.S. and Forster, E.C., The effect of aircrew age on +gz tolerance as measured in a human-use centrifuge. Naval Air Warfare Center Aircraft Div Patuxent River MD Crew Systems Technology Dept, 2000.
|
7 |
Gillingham, K.K. and Fosdick, J.P., High-g training for fighter aircrew. Aviation Space Environment Medicine, 59(1), 12-19, 1988.
|
8 |
Hrebien, L. and Hendler, E., Factors affecting human tolerance to sustained acceleration (No. NADC-84021-60). Naval Air Development Center WARMINSTERPA Aircraft and Crew Systems Technology Directorate, 1983.
|
9 |
Miller, H., Riley, M.B., Bondurant, S. and Hiatt, E.P., The duration of tolerance to positive acceleration. Aerospace and Medicine, 30, 360-366, 1959.
|
10 |
Ling, C.H., Craen, A.J., Slagboom, P.E., Gunn, D.A., Stokkel, M.P., Westendorp, R.G. and Maier, A.B., Accuracy of direct segmental multi-frequency bioimpedance analysis in the assessment of total body and segmental body composition in middle-aged adult population. Clinical Nutrition, 30(5), 610-615, 2011.
DOI
|
11 |
Burton, R.R., A conceptual model for predicting pilot group G tolerance for tactical fighter aircraft. Aviation Space Environment Medicine, 57, 733-744, 1986.
|
12 |
Tesch, P.A., Hjort, H. and Balldin, U.I., Effects of strength training on g tolerance. Aviation Space Environment Medicine, 54(8), 691-695, 1983.
|
13 |
Park, M., Yoo, S., Seol, H., Kim, C. and Hong, Y., Unpredictability of fighter pilots' G duration tolerance by anthropometric and physiological characteristic. Aerospace Medicine and Human Performance, 86(4), 397-401, 2015.
DOI
|
14 |
Stoll, A.M., Human tolerance to positive G as determined by the physiological end point. Aerospace and Medicine, 27, 356-67, 1956.
|
15 |
Swetleena. A study of the relationship between physical fitness and +gz tolerance among young healthy Indian women. MD thesis. Rajiv Gandhi University of Health Sciences, Bangalore, India, 2009.
|
16 |
Tong, A., Balldin, U.I., Hill, R.C. and Dooley, J.W., Improved Anti-G protection boosts sortie generation ability. Aviation Space Environment Medicine, 69(2), 117-120, 1998.
|
17 |
Webb, J.T., Oakley, C.J. and Meeker, L.J., Unpredictability of fighter pilot g tolerance using anthropometric and physiologic variables. Aviation Space Environment Medicine, 62(2), 128-135, 1991.
|