3Gilbert M J, Gay LA, Evans MA, et al. Manned evaluation of candidate mine countermeasure/explosive ordnance disposal diver life support equipment for Royal Navy use. DRA report 951021, 1997.
4Davey IS, Cotes JE, Reed JW. Relationship of ventilatory capacity to hyperbaric exposure in divers. J Appl Physiol, 1984, 56 : 1655-1658.
5Stracimir G. Safe diving. Sixth ( English ) edition. USA : Best Publish Company, 1993 : 146-157.
7Bove AA. Pulmonary barotrauma in divers: can prospective pulmonary function testing identify those at risk. Chest, 1997, 112(3) : 576-578.
二级参考文献4
1Donald KW. A review of submarine escape trials from 1945 to 1970 with a particular emphasis on decompression sickness. J Roy Nav Med Serv,1991,77:171-200.
2Spencer MP, Merrill P. Decompression limits for compressed air determined by uitrasonically detected blood bubbles. J Appl Physiol, 1976, 40:229.
6Brown DC. Submarine escape and rescue in today~ Royal Navy [J]. J R Nay Med Serv,1999,85(3) :145-149.
7Summitt JK, Herron JM, Flynn ET, et al. Simulated submarine escapes from 33, I00, 240 and 495 feet of seawater [ R ]. US Navy Experimental Diving Unit Research Report,1969:4-69.
8Lillo RS, Himm JF, Weathersby PK, et al. Using animal data to improve prediction of human decompression risk following air - saturation dives [ J ]. J AppI Physiol,2002, 93 : 216- 226.
9Benton P. Submarine escape trials 1999 - 2001- provision of medical support[J]. J R Nav Med Serv,2002,88(3) :108-115.
10Thalmann ED, Parker EC, Survanshi SS, et al. Improved probabilistie decompression model risk predictions using linear- exponential kinetics [ J ]. Undersea Hyper Med, 1997,24 (4) : 255-274.
