Information furnished in conformity with the Convention on Registration of Objects Launched into Outer Space



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Transcription:

United Nations ST/SG/SER.E/510 Secretariat Distr.: General 11 April 2007 Original: English Committee on the Peaceful Uses of Outer Space Information furnished in conformity with the Convention on Registration of Objects Launched into Outer Space Note verbale dated 20 March 2007 from the Permanent Mission of Japan to the United Nations (Vienna) addressed to the Secretary-General The Permanent Mission of Japan to the United Nations (Vienna) presents its compliments to the Secretary-General of the United Nations and, in accordance with article IV of the Convention on Registration of Objects Launched into Outer Space (General Assembly resolution 3235 (XXIX), annex), has the honour to transmit information concerning the launching of the Japanese satellites Daichi, Himawari-7, Akari, Cute-1.7 + APD, JCSAT-9, JCSAT-10, Hinode, HIT-SAT and Kiku-VIII (see annex). V.07-82185 (E) *0782185*

Annex Registration data for space objects launched by Japan * A. Advanced Land Observing Satellite (ALOS) Daichi 1. Name of flight object: Advanced Land Observing Satellite (ALOS) Daichi 2. Designation: 2006-002A 4. Date and time of launch: 24 January 2006 at 0133 GMT 5. Location of launch: Tanegashima Space Center, 6. Basic orbital parameters (as at 15 May 2006): (a) Nodal period: 98 minutes (b) Inclination: 98.2 degrees (c) Apogee: 711.4 kilometres (d) Perigee: 692.9 kilometres 7. General function: Obtain data useful for topography and land use, as well as land information to produce global 1:25,000 scale maps 8. Launch vehicle: H-IIA Launch Vehicle F8 (H-IIA-F8) B. Multi-Functional Transport Satellite (MTSAT-2) Himawari-7 1. Name of flight object: Multi-Functional Transport Satellite (MTSAT-2) Himawari-7 2. Designation: 2006-004A 4. Date and time of launch: 18 February 2006 at 0627 GMT 5. Location of launch: Tanegashima Space Center, 6. Basic orbital parameters (as at 28 February 2006): (a) Nodal period: 1,436 minutes (b) Inclination: 0.021 degrees (c) Apogee: 35,797 kilometres * The registration data are reproduced in the form in which they were received. 2

(d) Perigee: 35,775 kilometres 7. General function: Aeronautical and meteorological services 8. Launch vehicle: H-IIA Launch Vehicle F9 (H-IIA-F9) C. Infrared Astronomy Satellite (ASTRO-F) Akari 1. Name of flight object: 21st Scientific Spacecraft, Infrared Astronomy Satellite (ASTRO-F) Akari 2. Designation: 2006-005A 4. Date and time of launch: 21 February 2006 at 2128 GMT 6. Basic orbital parameters (as at 22 February 2006): (a) Nodal period: 95 minutes (b) Inclination: 98.2 degrees (c) Apogee: 733 kilometres (d) Perigee: 304 kilometres 7. General function: Obtain data to study the evolution of galaxies and the formation processes of stars and planetary systems 8. Launch vehicle: M-V Launch Vehicle F8 (M-V-8) D. Cute-1.7 + APD 1. Name of flight object: Pico-Satellite Cute-1.7 + APD of the Tokyo Institute of Technology 2. Designation: 2006-005C 4. Date and time of launch: 21 February 2006 at 2128 GMT 3

6. Basic orbital parameters (as at 20 April 2006): (a) Nodal period: 94.57 minutes (b) Inclination: 98.18 degrees (c) Apogee: 696 kilometres (d) Perigee: 300 kilometres 7. General function: Verify pico-satellite bus technology and conduct amateur radio frequency transmission experiment 8. Launch vehicle: M-V Launch Vehicle F8 (M-V-8) E. JCSAT-9 1. Name of flight object: JCSAT-9 2. Designation: 2006-010A 4. Date and time of launch: 12 April 2006 at 2330 GMT 5. Location of launch: 154 degrees West longitude on equator 6. Basic orbital parameters (as at 8 June 2006): (a) Nodal period: 1,436 minutes (b) Inclination: 0.027 degrees (c) Apogee: 35,794 kilometres (d) Perigee: 35,785 kilometres 7. General function: Domestic and international telecommunications 8. Launch vehicle: Zenit-3SL 9. Launching organization: Sea Launch F. JCSAT-10 1. Name of flight object: JCSAT-10 2. Designation: 2006-033A 3. Name of launching States: Japan (France) 4. Date and time of launch: 11 August 2006 at 2215 GMT 5. Location of launch: Guiana Space Centre, Kourou, French Guiana 4

6. Basic orbital parameters (as at 25 September 2006): (a) Nodal period: 1,436 minutes (b) Inclination: 0.043 degrees (c) Apogee: 35,788 kilometres (d) Perigee: 35,785 kilometres 7. General function: Domestic and international telecommunications and domestic broadcasting 8. Launch vehicle: Ariane 5 ECA 9. Launching organization: Arianespace G. Solar Physics Satellite (SOLAR-B) Hinode 1. Name of flight object: Solar Physics Satellite (SOLAR-B) Hinode 2. Designation: 2006-041A 4. Date and time of launch: 22 September 2006 at 2136 GMT 6. Basic orbital parameters (as at 23 September 2006): (a) Nodal period: 105 minutes (b) Inclination: 98.3 degrees (c) Apogee: 686 kilometres (d) Perigee: 280 kilometres 7. General function: Obtain data for solar physics observations with three advanced telescopes operating in the visible, X-ray and extreme ultraviolet wavebands; elucidation of fundamental matters in the field of cosmic particle physics 8. Launch vehicle: M-V Launch Vehicle F7 (M-V-7) 5

H. Pico-Satellite HIT-SAT 1. Name of flight object: Hokkaido Institute of Technology Pico-Satellite HIT-SAT 2. Designation: 2006-041F 4. Date and time of launch: 22 September 2006 at 2136 GMT 6. Basic orbital parameters (as at 28 September 2006): (a) Nodal period: 94 minutes (b) Inclination: 98.3 degrees (c) Apogee: 667 kilometres (d) Perigee: 280 kilometres 7. General function: Amateur radio frequency communications and attitude control 8. Launch vehicle: M-V Launch Vehicle F7 (M-V-7) I. Engineering Test Satellite-VIII (ETS-VIII) Kiku VIII 1. Name of flight object: Engineering Test Satellite-VIII (ETS-VIII) Kiku VIII 2. Designation: 2006-059A 4. Date and time of launch: 18 December 2006 at 0632 GMT 5. Location of launch: Tanegashima Space Center, 6. Basic orbital parameters: (a) Nodal period: 23 hours, 56 minutes (b) Inclination: 0.12 degrees (c) Apogee: 35,796 kilometres (d) Perigee: 35,776 kilometres 7. General function: Development and verification of the following technologies in geostationary orbit: (a) Advanced 3-ton-class spacecraft bus technology; (b) Large-scale deployable 6

antenna technology; (c) Communications technology to link geostationary satellites with hand-held terminals; (d) Basic technology for geostationary satellite positioning using a high-precision clock system 8. Launch vehicle: H-IIA Launch Vehicle F11 (H-IIA-F11) 7

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