National Space Program

The National Space Program was a set of policies and organisations under the Hawke and Keating Governments created with the goals of developing a national space industry in Australia.[2] When the Howard Government came to power in 1996 the program was abolished following the advice of the Bureau of Industry Economics. The National Space Program was generally considered a failure by most media after its demise.[3][4] During its existence it was crippled by a lack of budget,[5] and multiple white elephant projects.[6][7]

National Space Program
CountryAustralia
Organization
PurposeDevelop a national space industry in Australia
StatusAbolished
Program history
CostA$106 million[1]:p. 3.16
Duration1986–1996
First flight
Last flight
Successes1
Failures0
Partial failures1 (STS-42)
Launch site(s)
  • Cape York spaceport (Proposed)
  • Woomera spaceport (Proposed)

Background

Although Australia has had space interests dating back to the Apollo program, prior to the establishment of the NSP Australia had had no unified space policy. At the time of the implementation of the program, Australia had separate space related programs under the Department of Defence, CSIRO, the Department of Transport and Communications, multiple other departments, as well as multiple private and university programs.[8]:p. 170 In response to the disorganised state of the industry, the Hawke Government commissioned the Australian Academy of Technological Sciences for a report into the state of Australia's space industry. The report, nicknamed the "Madigan Report", was completed in June 1985 and recommended the establishment of a space office, and focusing Australia's space industry towards ground-sensing capabilities.[9] The report also recommended that A$100 million be budgeted over five years for Australian space programs.[9][10]:p. 2

Structure

An Organisation Chart describing Australia's National Space Program in 1992[11]

The National Space Program was primarily made up of the Australian Space Office and the Australian Space Board/Council. The Australian Space Board (replaced with the Australian Space Council in 1994) was formed to advise the Minister for Industry, Technology, and Commerce and government on national space policy, particularly in relation to commercial space programs. The ASO was established shortly afterwards to act as secretariat and to manage the day-to-day running of the policies created by the ASB.[12] The National Space Program also encompassed to a lesser degree the CSIRO Office of Space Science and Applications, the Defence Science and Technology Office space projects, and various committees and offices dedicated to certain uses of space technology.[8]:p. 170

The ASO itself was made up of 20 people.[10]:p. 2

Funding

Distribution of NSP funds by recipient 1985–86 to 1991–92[10]:Figure 4.2

  Other (27%)
  Vipac (3%)
  CSIRO (4%)
  Auspace (28%)

The National Space Program was budgeted as part of the government's Science and Technology budget. Of the A$90 – 120 million dollars dedicated to "Industry and Space" grants each year,[1]:p. 3.6 the National Space Program received between A$3 million and A$6 million.[1]:p. 3.16 At the time of the program's demise, over A$500 million was spent annually on satellite programs, mostly internationally.[13]:p. ii

From the inception of the program to its abolition the government spent a total of A$106 million[1] on the program. The table below describes how the funding was allocated for the majority of its lifetime:

Funding approval by broad space sub-sector 1985–86 to 1991–92[10]:Table 4.2
Projects Approved Total Funds Approved ($'000) Percent of Total Funds
Remote Sensing 26 16,514 48.2
Science 10 8,547 25.0
Launch Services 15 4,558 13.3
Communications 18 3,537 10.3
General 20 1,094 3.2
Total 89 34,250 100.0

Objectives

The objectives of the National Space Program varied over the years it existed, however in 1987 the objectives were stated as:

  • [To promote] commercially viable industries, and industry activities which are export oriented and internationally competitive, based on space technologies
  • [to provide] an environment supportive of innovation through greater involvement of local industry in space research and development activities, and
  • [to provide] support for NASA and other international space programs as required under international agreements[10][14]

These objectives were updated in 1992 to the following:

  • Identification and implementation of the policies and programs required for the development of efficient internationally competitive industries based on space-related technologies;
  • development of a policy framework for access to space goods and services of a national importance, and the identification and implementation of appropriate action by the Commonwealth, States and private sectors, and
  • provision of support for NASA and other international space programs as required under international agreements.[10][15]

History

The Discovery STS-42 launch, upon which the Endeavour satellite was carried[16]

The foundations of the NSP were setup within the Department of Industry, Technology and Commerce in July 1985 in anticipation of the Madigan report.[10]:p. 1

That year the Department of Industry, Technology and Commerce gave a A$500,000 grant to the Australian National University to fund the development of an existing ultraviolet spectroscopy telescope project. The grant was the first of a total A$2.6 million invested into the project.[17]

The next year the NSP began in earnest with the creation of the Australian Space Board, which reported to the Minister for Industry, Technology and Commerce on matters to do with space program funding, particularly pertaining to commercial and private industry space interests. Although the Madigan report had recommended the establishment of a dedicated space agency, this would not happen until the next year with the creation of the Australian Space Office. That year the government also announced the formation of the NSP, specifying the major goal was "To encourage greater involvement by Australian industry in space research and development activities to promote development of commercially viable industries based on space technologies".[18] Additionally funding for the program was increased from A$3.2 million to A$5.4 million,[19] of which A$4 million went to the ASO. For the rest of the life of the program funding remained around A$6 million annually.[10]

In 1992, the telescope developed under the program, Endeavour, was launched.[16]

In 1994, the ASB was replaced with the Australian Space Council (ASC) and a new five year plan was introduced.[20] Additionally a Remote Sensing Board was established to provide a broader perspective on remote sensing policy matters. In its year of existence it published a study detailing an Australian Earth Observation Network.[1]:p. 2.15

From the years 1994 to 1996 a total of A$750,000 was contributed towards a collaborative program with Japan to develop hypersonic technologies.[1]:p. 2.92

In 1996 the ASC, ASO, and all funding for the program was abolished by the incumbent Howard Government following a review by the Bureau of Industry Economics,[20][21] with only a few satellite programs remaining.[21]

Projects

AUSSAT

In the mid eighties the Hughes Aircraft Company was awarded a contract to build a new generation of AUSSAT communications satellites.[22] Although this was not a program funded by the NSP, the ASO signed an offsets agreement with Hughes to provide a program of work for Australian industry in the development of AUSSAT's satellites.[23] ASO hoped the offset obligations would help develop the space manufacturing industry in Australia.[10]:p. 51

As part of the project Australian companies were given contracts by Hughes to supply A$22 million of equipment, of which A$7.85 million was invested into new facilities and increasing their workforce.[10]:p. 52

Satellite Communications Working Party (SCWP)

In 1988, the ASB created the SCWP to provide specialist advice on the future development of a commercial satellite communications industry. The aim of the SCWP was to formulate a national strategy for the satellite communications industry.[24]

L-Band Mobile Satellite Systems (LMSS) Office

The LMSS Office was formed by recommendation of the SCWP to assist Australian industry to better understand the nature of commercial opportunities with L-Band mobile satellite systems.[24] The office was established in November 1989,[10]:p. 55 and with the entry of Telecom Australia as a partner of AUSSAT it was seen as a guarantee that LMSS would be commercially viable. However, shortly after a review, Telecom Australia withdrew from the partnership, delaying efforts.[10]:p. 55 The LMSS Office was shut down afterwards.[11]

Space Industry Development Centres

In 1991, the program started a Space Industry Development Centres (SIDCs) initiative directed at the development of an Australian commercial space industry. The program aimed to convince private industry to divert R&D resources into space related ventures in collaboration with University research centres.[25] The SIDCs program was especially interested in increasing the space communications industry.[10]:p. 57 The government hoped the initiative would create Australian products and services capable of competing in international markets.[25] By 1996, SIDCs had been established in Griffith University, Queensland University of Technology, and the University of South Australia.[1]:p. 5.65

Cape York spaceport

The Cape York spaceport project was by far the most famous of the NSP's initiatives. Both spaceport projects were primarily considered because of the geographic advantages of launching space craft inside Australia, however commercial viability was uncertain.[10]:p. 17:p. 62 By 1992, the Cape York project was scrapped.[26] By the end of the program the NSP had allocated over A$2 million of funds towards the project with uncertainty that the project would ever proceed.[10]:Table 4.2

Woomera spaceport

The Woomera spaceport was the second spaceport proposal, designed to take advantage of the emerging market for placing lightsats (<1000 kg satellites) into Low Earth orbit. The location of a lightsat in Australia was attractive due to its geographical location and general stability. The Woomera program never got out of planning before the downfall of the program.[10]:p. 17

Remote sensing

The remote sensing projects of the NSP were the most successful of the NSP initiatives, with many of the programs living on today under different departments or its decedents.[10]:p. 66 It also received the most funding of all the areas, totaling 48.2% of awarded funds.[10]:Table 4.2

The remote sensing developments funded under the program were vital to a range of public goods and services including meteorology, resource management, mapping, and research conducted by the CSIRO. The mining industry was the largest user of remote sensing techniques, making up half of the entire market capital.[10]:Footnote 80

Endeavour satellite

The Endeavour project was the first and largest of the successful NSP programs. Receiving over A$10 million in funding over the lifetime of the program,[13]:p. 10 the satellite telescope was built primarily to test the Australian developed low light detector array. The satellite was developed by the CSIRO and built by Canberra based company, Auspace Ltd.[27]

On 23 January 1992, the telescope was launched on the Discovery shuttle as part of flight STS-42, however the test failed due to various technical difficulties experienced in the third stage of flight.[27]

By the end of the satellite program the Endeavour had flown twice.[13]:p. 10

Along Track Scanning Radiometer

The Along Track Scanning Radiometer (ATSR) was a joint venture between Auspace and British Aerospace Australia to build and use remote sensing equipment for use on the European ERS-2 spacecraft in 1995. The project evolved into the Advanced ATSR (AATSR) program in 1999,[13]:p. 10 which was in use until 2012.[28]

See also

References

 This article incorporates public domain material from websites or documents of the National Aeronautics and Space Administration.

  1. Cook, Peter (1996). Science and Technology Budget Statement 1995–96 (Annual Report) (Report). Canberra, Australia: Australian Government Publishing Service. Retrieved 22 July 2019.
  2. "Nation's space-age needs well defined in report: CSIRO". Canberra Times (ACT: 1926–1995). 25 June 1985. p. 8. Retrieved 19 July 2019.
  3. "Space-age ghost town finds a new life". Canberra Times (ACT: 1926–1995). 9 January 1995. p. 4. Retrieved 19 July 2019.
  4. Dougherty, Kerrie. "Lost in space: Australia dwindled from space leader to also-ran in 50 years". The Conversation. Retrieved 14 August 2019.
  5. "Australian government seeds a space agency, but will it take off?". Cosmos Magazine. Retrieved 19 July 2019.
  6. "Whatever happened to the Cape York Spaceport? | John Oxley Library". Retrieved 19 July 2019.
  7. "High-tech saviours or white elephants?". Canberra Times (ACT: 1926–1995). 13 April 1992. p. 9. Retrieved 19 July 2019.
  8. Dougherty, Kerrie Anne (2017). Australia in space : a history of a nation's involvement. Hindmarsh, S. Aust. ISBN 9781925309645. OCLC 999399923.
  9. Australian Academy of Technological Services (1 June 1985). A Space Policy for Australia (Madigan Report) (PDF) (Report). Retrieved 8 August 2019.
  10. "Research Report 43; An Economic Evaluation of the National Space Program". Bureau of Industry Economics RPTS. 41–46. Australian Government Publishing Service. 1992.
  11. Department of Industry, Technology, and Commerce (1992). An integrated national space program : report / by the Expert Panel, [Australian Space Board, Department of Industry, Technology and Commerce] (Report). Canberra, Australia: Australian Government Publishing Service. Retrieved 9 August 2019.CS1 maint: multiple names: authors list (link)
  12. Warwick Leslie Smith, Member for Bass (17 August 1989). "National Space Program". Parliamentary Debates (Hansard). Commonwealth of Australia: House of Representatives. col. 0079.
  13. James, Matthew (1998). Australia in orbit: space policy and programs (PDF) (Report). Canberra, Australia: Australian Government Publishing Service. Retrieved 24 July 2019.
  14. Button, John (1987). Department of Industry, Technology and Commerce – Report for – 1986–87 (Annual Report) (Report). Canberra, Australia: Australian Government Publishing Service. Retrieved 10 August 2019.
  15. Button, John (1991). Science and Technology Budget Statement 1990–91 (Annual Report) (Report). Canberra, Australia: Australian Government Publishing Service. Retrieved 10 August 2019.
  16. "Endeavour". Sworld. Retrieved 22 July 2019.
  17. "National Space Program Underway" (PDF) (Press release). Canberra, Australia. Department of Industry, Technology and Commerce. 16 October 1985. Retrieved 22 July 2019.
  18. ASB, Annual Report 1986-87
  19. "CSIRO gets boost from three-year funding". Canberra Times (ACT: 1926–1995). 24 August 1988. p. 16. Retrieved 19 July 2019.
  20. "Australian Space Office". www.globalsecurity.org. Retrieved 19 July 2019.
  21. "Future Direction of Australian Space Effort" (PDF) (Press release). Canberra, Australia: Australian Government Publishing Service. Department of Industry, Science and Technology. 20 August 1996. Retrieved 12 August 2019.
  22. "Aussat will not go astray, space expert pledges". Canberra Times (ACT: 1926–1995). 13 March 1984. p. 11. Retrieved 10 August 2019.
  23. "Australia Means Business in Space". Canberra Times (ACT: 1926–1995). 16 July 1988. p. 18. Retrieved 10 August 2019.
  24. Australian Space office (1989). Industry development: the report of the Satellite Communications Working Party (Volume). Canberra, Australia: Australian Government Publishing Service.CS1 maint: uses authors parameter (link)
  25. "More Space Industry Development Centres" (PDF) (Press release). Canberra, Australia. Department of Industry, Technology and Commerce. 6 August 1991. Retrieved 22 July 2019.
  26. "Spaceport support may end". Canberra Times (ACT: 1926–1995). 5 July 1992. p. 3. Retrieved 19 July 2019.
  27. CSIRO Space Industry News, No. 44, p. 2, Feb. 1992
  28. "ATSR | What is ATSR? | AATSR". www.atsrsensors.org. Retrieved 12 August 2019.
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