1. The figure of 180 satellites placed along the equator was mentioned by the Colombian delegate to the Legal Sub-committee of COPUOSon 31 March, 1977. UN Doc. 105/C.2/SR.277, p. 3, 5 April, 1977.

2. This is based on the following proposition: “The circumference of the geostationary orbit is approximately 165,000 miles. A one-degree segment of this orbit is about 460 miles. If satellite station-keeping were good to about ca. 0.1 degree (actually it can be maintained more precisely), then one degree of orbit space could hold five satellites with virtually no danger of collision, and the full 360° could accommodate 1,800 satellites. Actually, since the geostationary orbit has considerable depth and width and present satellites range between ten and twenty feet in diameter, the orbit could physically accommodate a much greater number without collision. The question of orbital slot scarcity thus has little to do with purely physical limitations.” Hinchman, Walter R., “Issues in Spectrum Resource Management”, in The Future of Satellite Communications Resource Management and the Needs of Nations, The Twentieth Century Fund, p. 52 (1970).Google Scholar

3. Edelson, Burton I. and Morgan, Walter L., “Orbital Antenna Farms”, 15 Astronautics & Aeronautics, No. 9, p. 22 (09 1977).Google Scholar

4. MSFC-JSC, “Solar Power Satellite Baseline Review, (Preliminary)”, p. 16, NASA, Washington, D.C. (13 07, 1978).Google Scholar

5. Ibid., p. 28 at PD646–78C.

6. Physical Nature and Technical Attributes of the Geostationary Orbit, UN Doc. A/AC.105/203, p. 17, 29 August, 1977.

7. Bloomquist, Charles E., A Survey of Satellite Power Stations, PRC R-1844, PRC Systems Sciences Co., p. 6 (09 1976).Google Scholar

8. Ibid.

9. Glaser, Peter E., “Solar Power from Satellites”, Hearings before the Sub committee on Aerospace Technology and National Needs of the Committee on Aeronautical and Space Sciences, US Senate, 94th Cong. 2nd Sess., p. 4 (1976).Google Scholar Cited hereafter as Hearings.

10. Ibid., pp. 7, 33.

11. UN Doc. A/AC.105/203, p. 17, 29 August, 1977.

12. Hearings, , op. cit., p. 3.Google Scholar

13. Ibid., p. 17.

14. For a basic assessment of spectrum management, see The Radio Frequency Spectrum, United States Use and Management, Office of Telecommunications Policy, Executive Office of the President (1975).Google Scholar The study notes constraints on spectrum management including the fact that the spectrum is limited, it is not elastic, it is not flexible, and it does not follow national boundaries, pp. A – 4 – 6.

15. Hinchman, Walter R., “Issues in Spectrum Resource Management”, in The Future of Satellite Communications, Resource Management and the Needs of Nations, The Twentieth Century Fund, p. 34 (1970).Google Scholar

16. Ibid., p. 51.

17. Ibid., p. 52.

18. Paragraph 84BG, Annex 1, Revision of Article 1 of the Radio Regulations, 23 UST 1527, 1579, TIAS 7435.

19. Gehrig, James J., “Geostationary Orbit – Technology and Law”, Proceedings of the 19th Colloquium on the Law of Outer Space 268 (1977).Google Scholar

20. Ibid., pp. 268–269.

21. Physical Nature and Technical Attributes of the Geostationary Orbit, UN Doc. A/AC.105/203, p. 7, 29 August, 1977.

22. Ibid.

23. Ibid.

24. Hinchman, op. cit., pp. 52–55.

25. Ibid., p. 55.

26. Gehrig, , op. cit., p. 269.Google Scholar

27. Final Acts, WARC BS, Annex 7, pp. 1–2.Google Scholar Equivalent Isotropically Radiated Power (e.i.r.p.) is defined as “the product of the power of an emission as supplied to an antenna and the antenna gain in a given direction relative to an isotropic antenna”. Final Acts, WARC ST, 23 UST 1527, 1579, TIAS 7435. The 1977 WARC BS Conference agreed to Annex 8 entitled “Technical Data Used in Establishing the Provisions and Associated Plan and Which Should be Used for Their Application”. The Conference under the heading of basic technical characteristics, in paragraph 3.10 inferred to the “Plan” for orbital spacing for Regions 1 and 3. This was ‘based generally on nominal orbital positions spaced uniformly at intervals of 6°”. Reference was also made to satellite station-keeping, as follows: “Space stations in the broadcasting-satellite service must be maintained in position with an accuracy of better than appr. 0.1° in both the N-S and E-W direction. (These tolerances lead to a maximum excursion of appr. 0.14° from the nominal satellite position.).” Final Acts, WARC BS, Annex 8.

28. Smith, D.D., International Telecommunications Control 161 (1969).Google Scholar

29. Ibid.

30. Chayes, A. and others, Satellite Broadcasting 17 (1973).Google Scholar

31. Article 1, paragraph 2. See also Article 3.

32. UN Doc. A/AC. 105/62, pp. 3–4 (June 1969).

33. United States Delegation to the Second Session of the Working Group on Direct Broadcast Satellites, Statement made by Urited States representative Herbert Reis at the Working Group Meeting 31 July, 1969 (mimeo).

34. See Appendix.

35. Rankin, Clyde E., III, “Utilization of the Geostationary Orbit – A Need for Orbital Allocation?” 13 Columbia Journal of Transnational Law 101 (1974).Google Scholar Compare Glazer, J. Henry, “Domicile and Industry in Outer Space”, 17 Columbia Journal of Transnational Law 81 (1978).Google Scholar

36. Ibid., p. 81. Article three provides “States Parties to the Treaty shall carry on activities in the exploration and use of outer space, including the Moon and other celestial bodies, in accordance with international law, including the Charter of the United Nations, in the interest of maintaining international peace and security and promoting international cooperation and understanding”.

37. Ibid., p. 82.

38. Rankin, , op. cit., p. 101.Google Scholar

39. Political and Legal Implications of Developing and Operating a Satellite Power System, Final Report, Econ, Inc. Princeton, N.J., 77–195–1 (15 08, 1977).Google Scholar

40. Ibid., p. 54.

41. Article four imposes restrictions on the use of nuclear weapons and weapons of mass destruction.

42. Ibid., p. 54.

43. Ibid., pp. 55–56.

44. Ibid. p. 59.

45. Sztucki, Jerzy, “International Consultations and Space Treaties”, Proceedings of the 17th Colloquium on the Law of Outer Space 147 (1975).Google Scholar

46. Rankin, , op. cit., p. 102, n. 25.Google Scholar

47. Rankin, Ibid., p. 104. Citing, United States Department of State, Office of Telecommunications, Position Paper on the Allocation of Orbit Positions and Specific Radio Frequency Channels, WARC ST (06 1971).Google Scholar

48. Ibid.

49. Ibid., p. 105.

50. Ibid., p. 103.

51. Article 10, paragraph 3, 1973 Telecommunication Convention and Final Protocol, TIAS 8572.

52. Rankin, , op. cit., p. 169.Google Scholar The tools used by the IFRB allow for the verification of coverage areas of the satellite transmitting antenna beams, verification of link parameters for individual assignments, and for the completion of incompatibility analysis for the WARC BS “Plan”. International Telecommunication Union. Seventeenth Report by the International Telecommunication Union on Telecommunication and the Peaceful Uses of Outer Space. UN Doc. A/AC.105/213, p. 20, 22 12, 1977.Google Scholar

53. Annex 6 to Final Acts of the WARC BS, 1977.

54. Ibid., paragraph 4.

55. International Telecommunication Union. Report on Types of Assistance Extended by the United Nations System to Developing Countries in the Field of Practical Applications of Space Technology. UN Doc. A/AC. 105/124/Add. 1, p. 13, 3 04, 1974.Google Scholar

56. International Telecommunication Union. Seventeenth Report by the International Telecommunication Union on Telecommunication and the Peaceful Uses of Outer Space, UN Doc. A/AC.105/213, p. 5, 22 12, 1977.Google Scholar

57. UN Doc. A/C.1/PV.2049, pp. 4346, 13 October 1975.

58. Treaties in Force, US Department of State Publication 8934 (1978).Google Scholar

59. UN Doc 105/C.1/SR.199, p. 2, 28 February, 1978.

60. Ibid., p. 4.

61. UN Doc. A/AC.105/203, p. 5, 29 August, 1977.

62. A notable illustration is General Assembly Resolution 1803 (XVII) of 14 December, 1962. Actually, General Assembly Resolutions dating from 1952 advance this claim. The Bogotá Declaration made reference to General Assembly Resolution 2692 (XXV) of 11 12, 1970Google Scholar, entitled “Permanent Sovereignty over Natural Resources of Developing Countries and Expansion of Domestic Sources of Accumulation for Economic Development”. This Resolution spoke of land and marine resources but not air or space resources. Also motivating the Bogota States was a general feeling that proposals emanating from the ITU relating to orbits and frequencies were impracticable and unfair.

63. Glazer, J Henry, op. cit., pp. 81, 114.Google Scholar

64. “First Meeting of Equatorial Countries”, p. 2, mimeo.Google Scholar

65. Ibid.

66. Ibid., p. 5.

67. Ibid., pp. 5–6.

68. UN Doc. A/AC.105/C.1/SR.199, p. 7, 28 February, 1978. Christol, Carl Q., “The Legal Common Heritage of Mankind: Capturing an Illusive Concept and Applying it to World Needs”, Proceedings of the 18th Colloquium on the Law of Outer Space 42 (1976).Google Scholar

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70. Ibid., p. 6.

71. Ibid., p. 7.

72. Ibid.

73. Ibid., p. 8.

74. Ibid., p. 8.

75. Butler, Richard E., “World Administrative Radio Conference for Planning Broadcasting Satellite Service”, 5 Journal of Space Law 97 (1977)Google Scholar; UN Doc. A/AC.105/C2/SR 273, p. 4, 28 March, 1977.

76. UN Doc. A/AC.105/L.94, 21 June, 1977; UN Doc. A/32/20, Annex VI, p. 29, 1977.

77. Physical Nature and Technical Attributes of the Geostationary Orbit, UN Doc. A/AC. 105/203, 29 August, 1977.

78. UN Doc. A/AC/105/C.1/SR.199, p. 9, 28 February, 1978.

79. Ibid.

80. UN Doc. A/AC. 105/PV. 176, p. 21, 27 July, 1977.

81. UN Doc. A/AC.105/C.2/SR.277, p. 2, 5 April, 1977.

82. Ibid., p. 4.

83. UN Doc. 105/C.2/SR.280, p. 2, 7 April, 1977.

84. UN Doc. A/AC.105/C.1/SR.199, p. 6, 28 February, 1978.

85. Ibid., pp. 7–8.

86. Ibid., p. 8.

87. UN Doc. A/AC.105/C.1/SR. 200, p. 3, 1 March, 1978.

88. UN Doc. A/AC.105/216, p. 26, 6 March, 1978.

89. UN Doc. A/AC.105/218, pp. 9–10, 13 April, 1978. Compare the Report of the Scientific and Technical Sub-committee on the Work of its Fifteenth Session, UN Doc. 105/216, pp. 26–27, 6 March, 1978.

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