1. Billingham, J.: Physiological Parameters in Space Settlement Design. Third Princeton/AIAA Conference on Space Manufacturing Facilities, Princeton, NJ., Paper 77-549, May 9-12, 1977.
  2. Marton, T.; Rudek, F. P.; and Miller, R. A.: Handbook of Human Engineering Design Data for Reduced Gravity Conditions. NASA CR-1726, Oct. 197 1.
  3. Johnson, Richard D.; and Holbrow, Charles, eds.: Space Settlements, a Design Study. NASA SP-413, 1977.
  4. O'Neill, G.: The Low (Profile) Road to Space Manufacturing. Astronautics and Aeronautics, AIAA, May 1978, pp. 24-32.
  5. Vajk, J. Peter; Engel, Joseph H.; and Shettler, John: Habitat and Logistic Support Requirements for the Initiation of a Space Manufacturing Enterprise. Space Resources and Space Settlements, NASA SP-428, 1979, pp. 61-83.
  6. Haffner, James W.: Radiation and Shielding in Space. Academic Press, New York, 1967.
  7. Bevan, John S.: Radiation and Radiation Protection. Space Research and Technology, vol. 1: The Space Environment, American Elsevier Publ. Co., Inc., New York, 1969, pp. 94-142.
  8. Curtis, S. B.; and Wilkinson, M. C.: Study of Radiation Hazards to Man on Extended Missions. NASA CR-1 037, May 1968.
  9. Kline, R. L.: Space Station Habitability Issues. AIAA/MSFC Symposium on Space Industrialization, May 1976, pp. 38-53.
  10. French, Francis W.: Solar Flare Radiation Protection Requirements for Passive and Active Shields. Journal of Spacecraft and Rockets, vol. 7, no. 7, 1970, pp. 794-800.
  11. Cooper, Henry S. F.: A House in Space. Holt, Rinehart, and Winston, New York, 1976.
  12. Parker, J. F., Jr.; and West, V. R., eds.: In Bioastronautics Data Book, 2nd ed., NASA SP-3006,1973.
  13. Physiology in the Space Environment, vol. 11, Respiration. National Academy of Sciences, National Research Council, Washington, D.C., 1967.
  14. Coe, C. S.; Rousseau, J.; and Shaffer, A.: Analytical Methods for Space Vehicle Atmospheric Control Processes. Tech. Rept. ASD-TR-61-162, pt. II, 1962.
  15. Woods, F. J.; and Johnson, J. E.: Flammability in Unusual Atmospheres, Part 2 - Selected Materials in OxygenNitrogen and Oxygen-Helium Mixtures at Pressures Up to 315 psia. Naval Research Lab., Washington, D.C., 1967.
  16. Galasyn, Valentine D.: A Survey of Fire Prevention Problems in Closed Oxygen-Containing Environments. U.S. Naval Submarine Medical Center Rept. SMRL,526, May 1968.
  17. Parker, John A.; Kourtides, Demetrius A.; Fish, Richard H.; and Gilwee, William J., Jr.: Fire Dynamics of Modern Aircraft from a Materials Point of View. Journal of Fire and Flammability, vol. 6, Oct. 1975, pp. 534-553.
  18. IES Lighting Handbook, Illuminating Engineering Soc., New York, 1952. John E. Kaufman, ed., 5th ed., in 1972.
  19. Petrov, Yu A.: Habitability of Spacecraft. In Foundations of Space Biology and Medicine, vol. 3, NASA SP374,1975, pp. 157-192.
  20. O'Neill, G. K.: Maximum-Strength Minimum-Mass Structures, in Space-Based Manufacturing from Nonterrestrial Materials. Progress in Astronautics and Aeronautics, vol. 57, AIAA, New York, 1977, pp. 161-17 1; also NASA TM X73,265, Aug. 1977.
  21. O'Leary, B.: Mass Driver Retrieval of EarthApproaching Asteroids. Third Princeton/AIAA Conference on Space Manufacturing Facilities, 1977.
  22. Anon.: Final Review of Conceptual Design Study of 200 W/kg Solar Array for Space Applications. General Electric, JPL Contract 954393, Valley Forge, PA, 1977.
  23. Miller, Franklin, Jr.: College Physics. 3rd ed. Harcourt, Brace, and Jovanovich, Inc., New York, 1972.
  24. Holman, Jack P.: Heat Transfer. McGraw-Hill Book Co., New York, 1963, pp. 174-180.
  25. Handbook of Chemistry and Physics, 49th ed. The Chemical Rubber Co., Cleveland, 1968.

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