Astronomy:Commercial use of space

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Short description: Economic activities related to space
This page is about general space-related commerce. For entrepreneurial space ventures and colonization, see Private spaceflight.
Intelsat I (1965), the world's first commercial communications satellite, was used among others to relay the Our World multi-national broadcast (1967), the first multi-satellite relayed television broadcast.

Space economy refers to the set of activities, industries, technologies, services, and resources that generate economic value through the space exploration, understanding, management, and exploitation of outer space.[1]

Commercial satellite use began in 1962 with Telstar 1, transmitting TV signals across the Atlantic Ocean. Syncom 3 expanded possibilities in 1964, broadcasting the Olympics. NASA's TIROS satellites advanced meteorological research, while Intelsat I in 1965 showed commercial viability. Later, France's Arianespace and USA's Iridium Communications furthered satellite services. By 2004, global investment in all space sectors was estimated to be US$50.8 billion.[2] As of 2010, 31% of all space launches were commercial.[3] By the year 2035, the space economy is projected to have grown to $1.8 trillion.[4]

The commercial spaceflight sector primarily generates revenue by launching satellites into Earth's orbit, facilitated by providers deploying satellites into Low Earth Orbit and Geostationary Earth Orbit. The Federal Aviation Administration (FAA) licenses six U.S. spaceports and oversees commercial rocket launches, with global capacity expanding from sites in Russia, France, and China. Investment in reusable launch vehicles by companies like SpaceX and Blue Origin is driving innovation in this sector. In 2022, 74 FAA-licensed commercial space operations were conducted, and this number is expected to double in the near future.

Commercial satellite manufacturing encompasses non-military, civilian, governmental, and non-profit satellite production along with ground equipment manufacturing, supporting satellite operations, and transponder leasing providing satellite access. Satellite subscription services offer access to a variety of television channels (such as DirecTV and Dish network), radio stations (like SiriusXM), and other media content through satellite transmission. Satellite imagery provides detailed views of Earth, sold by imaging companies to governments and businesses like Apple Maps. Satellite telecommunications enable Internet services globally. Satellite navigation systems use signals from satellites for precise positioning and timing. Space tourism ventures (led by SpaceX, Virgin Galactic and Blue Origin) envision recreational human space travel. Commercial space resource recovery involves extracting materials from asteroids and other celestial bodies for use in space or on Earth.

Space commerce regulation has historically faced challenges regarding property rights in space, but legislation like the U.S. Commercial Space Launch Competitiveness Act aims to clarify ownership and encourage commercial space exploration.

History

See also: Engineering:Timeline of private spaceflight

The first commercial use of satellites may have been the Telstar 1 satellite, launched in 1962, which was the first privately sponsored space launch, funded by AT&T and Bell Telephone Laboratories. Telstar 1 was capable of relaying television signals across the Atlantic Ocean, and was the first satellite to transmit live television, telephone, fax, and other data signals.[5][6] Two years later, the Hughes Aircraft Company developed the Syncom 3 satellite, a geosynchronous communications satellite, leased to the Department of Defense. Commercial possibilities of satellites were further realized when the Syncom 3, orbiting near the International Date Line, was used to telecast the 1964 Olympic Games from Tokyo to the United States.[7][8]

Between 1960 and 1966, the U.S. National Aeronautics and Space Administration (NASA) launched a series of early weather satellites known as Television Infrared Observation Satellites (TIROS). These satellites greatly advanced meteorology worldwide, as satellite imagery was used for better forecasting, for both public and commercial interests.[9][10]

On April 6, 1965, the Hughes Aircraft Company placed the Intelsat I communications satellite in geosynchronous orbit over the Atlantic Ocean. Intelsat I was built for the Communications Satellite Corporation (COMSAT), and demonstrated that satellite-based communication was commercially feasible. Intelsat I allowed for near-instantaneous contact between Europe and North America by handling television, telephone and fax transmissions.[11][12] Two years later, the Soviet Union launched the Orbita satellite, which provided television signals across Russia, and started the first national satellite television network.[13][14] Similarly, the 1972 Anik A satellite, launched by Telesat Canada, allowed the Canadian Broadcasting Corporation to reach northern Canada for the first time.[15][16]

In 1980, Europe's Arianespace became the world's first commercial launch service provider.[17][18]

Beginning in 1997, Iridium Communications began launching a series of satellites known as the Iridium satellite constellation, which provided the first satellites for direct satellite telephone service.[19][20]

Spaceflight

See also: Engineering:Private spaceflight
Delta IV Medium launch carrying DSCS III-B6

The commercial spaceflight industry derives the bulk of its revenue from the launching of satellites into the Earth's orbit. Commercial launch providers typically place private and government satellites into low Earth orbit (LEO) and geosynchronous Earth orbit (GEO).

The Federal Aviation Administration (FAA) has licensed six commercial spaceports in the United States: Wallops Flight Facility, Kodiak Launch Complex, Spaceport Florida, Kennedy Space Center, Cape Canaveral Space Force Station, and the Vandenberg Air Force Base. Launch sites within Russia, France, and China have added to the global commercial launch capacity. The Delta IV, Atlas V, and Falcon family of launch vehicles are made available for commercial ventures for the United States, while Russia promotes eight families of vehicles.[citation needed]

Between 1996 and 2002, 245 launches were made for commercial ventures while government (non-classified) launches only totaled 167 for the same period.[citation needed] Commercial space flight has spurred investment into the development of an efficient reusable launch vehicle (RLV) which can place larger payloads into orbit. Several companies such as SpaceX and Blue Origin are currently developing new RLV designs.

In the United States, the Office of Commercial Space Transportation (generally referred to as FAA/AST or simply AST) is the branch of the Federal Aviation Administration (FAA) that approves any commercial rocket launch operations—that is, any launches that are not classified as model, amateur, or "by and for the government."[21] In fiscal year 2022, there were 74 FAA-licensed commercial space operations, which includes both launches and reentries.[22] In 2023, the FAA predicted that commercial launches it licenses could more than double in the next several years.[22]

Satellites and equipment

ESTCube-1, a low-cost CubeSat for education

Satellite manufacturing

Commercial satellite manufacturing is defined by the United States government as satellites manufactured for civilian, government, or non-profit use. Not included are satellites constructed for military use, nor for activities associated with any human space flight program. Between the years of 1996 and 2002, satellite manufacturing within the United States experienced an annual growth of 11%.{{citation needed|date=March 2024} higher growth levels of around 13%.[citation needed]

Ground equipment manufacturing

Satellite imagery

Main article: Astronomy:Satellite imagery

Satellite imagery (also Earth observation imagery or spaceborne photography) are images of Earth or other planets collected by imaging satellites operated by governments and businesses around the world. Satellite imaging companies sell images by licensing them to governments and businesses such as Apple Maps and Google Maps.

Satellite telecommunications

Satellite radio was pioneered by XM Satellite Radio and Sirius Satellite Radio. XM's first satellite was launched on March 18, 2001 and its second on May 8, 2001.[23] Its first broadcast occurred on September 25, 2001, nearly four months before Sirius.[24] Sirius launched the initial phase of its service in four cities on February 14, 2002,[25] expanding to the rest of the contiguous United States on July 1, 2002.[24] The two companies spent over $3 billion combined to develop satellite radio technology, build and launch the satellites, and for various other business expenses.[26]

Satellite internet is also an emerging market, as they can be used to transmit and receive Internet services from space to any place in the planet Earth.[27] This enables its use for markets such as cruise ships, long-haul buses, flights and rural areas. Starlink is a notable example of such a service offered by SpaceX.

Transponder leasing

Satellite navigation

Main article: Earth:Satellite navigation
Magellan GPS receiver in a marine application

A satellite navigation or satnav system is a system that uses satellites to provide autonomous geo-spatial positioning. It allows small electronic receivers to determine their location (longitude, latitude, and altitude/elevation) to high precision (within a few centimeters to metres) using time signals transmitted along a line of sight by radio from satellites. The system can be used for providing position, navigation or for tracking the position of something fitted with a receiver (satellite tracking). The signals also allow the electronic receiver to calculate the current local time to high precision, which allows time synchronization. These uses are collectively known as Positioning, Navigation and Timing (PNT). Satnav systems operate independently of any telephonic or internet reception, though these technologies can enhance the usefulness of the positioning information generated.

Space tourism

Virgin Galactic VMS Eve
Main article: Astronomy:Space tourism

Space tourism is human space travel for recreational purposes.[28] There are several different types of space tourism, including orbital, suborbital and lunar space tourism. Work also continues towards developing suborbital space tourism vehicles. This is being done by aerospace companies like Blue Origin and Virgin Galactic.

Commercial recovery of space resources

See also: Astronomy:Asteroid mining
Artist's concept of asteroid mining

Commercial recovery of space resources is the exploitation of raw materials from asteroids, comets and other space objects, including near-Earth objects.[29] Minerals and volatiles could be mined then used in space for in-situ utilization (e.g., construction materials and rocket propellant) or taken back to Earth. These include gold, iridium, silver, osmium, palladium, platinum, rhenium, rhodium, ruthenium and tungsten for transport back to Earth; iron, cobalt, manganese, molybdenum, nickel, aluminium, and titanium for construction; water and oxygen to sustain astronauts; as well as hydrogen, ammonia, and oxygen for use as rocket propellant.

There are several commercial enterprises working in this field, including ispace Inc. and Moon Express.

The first in-space transaction of resources is contracted by NASA to four companies to sell NASA collected lunar regolith on the Moon.[30]

Regulation

Beyond the many technological factors that could make space commercialization more widespread, it has been suggested that the lack of private property, the difficulty or inability of individuals in establishing property rights in space, has been an impediment to the development of space for both human habitation and commercial development.[31]

Since the advent of space technology in the latter half of the twentieth century, the ownership of property in space has been murky, with strong arguments both for and against. In particular, the making of national territorial claims in outer space and on celestial bodies has been specifically proscribed by the Outer Space Treaty, which had been, as of 2012, ratified by all spacefaring nations.[31]

On November 25, 2015, President Obama signed the U.S. Commercial Space Launch Competitiveness Act (H.R. 2262) into law. The law recognizes the right of U.S. citizens to own space resources they obtain and encourages the commercial exploration and utilization of resources from asteroids. According to the law under 51 U.S.C. § 51303:[32]

A United States citizen engaged in commercial recovery of an asteroid resource or a space resource under this chapter shall be entitled to any asteroid resource or space resource obtained, including to possess, own, transport, use, and sell the asteroid resource or space resource obtained in accordance with applicable law, including the international obligations of the United States

See also

References

  1. OECD (2022-07-12) (in en). OECD Handbook on Measuring the Space Economy, 2nd Edition. OECD. doi:10.1787/8bfef437-en. ISBN 978-92-64-39938-9. https://www.oecd-ilibrary.org/science-and-technology/oecd-handbook-on-measuring-the-space-economy-2nd-edition_8bfef437-en. 
  2. Romano, Anthony F. (2005). "SPACE A Report on the Industry". Defense Technical Information Center. https://apps.dtic.mil/sti/pdfs/ADA449454.pdf. 
  3. "Frequently Asked Questions". https://www.faa.gov/about/office_org/headquarters_offices/ast/faq/. 
  4. "Space: The $1.8 Trillion Opportunity for Global Economic Growth". https://www3.weforum.org/docs/WEF_Space_2024.pdf. 
  5. National Geographic (May 1962). "Telephone a Star". http://www.porticus.org/bell/pdf/nat_geo_telstar_ocr.pdf. 
  6. NASA (26 April 2011). "Telstar 1". NASA. https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1962-029A. 
  7. "Significant Achievements in Space Communications and Navigation, 1958–1964". NASA-SP-93. NASA. 1966. pp. 30–32. https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19660009169_1966009169.pdf. 
  8. "Syncom 3". NASA. 26 April 2011. https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1964-047A. 
  9. "TIROS". NASA. https://science.nasa.gov/missions/tiros/. 
  10. Hastings, David A.; William J. Emery (1992). "The Advanced Very High Resolution Radiometer (AVHRR): A Brief Reference Guide". National Oceanic and Atmospheric Administration. http://www.ngdc.noaa.gov/ecosys/cdroms/AVHRR97_d1/avhrr2.htm. 
  11. Whalen, David J. (30 November 2010). "Communications Satellites: Making the Global Village Possible". NASA. https://history.nasa.gov/satcomhistory.html. 
  12. "Intelsat's Satellite Communication Highlights from the 60's". Intelsat. http://www.intelsat.com/about-us/history/intelsat-1960s.asp. 
  13. Martin, Donald H. (2000). Communication satellites. AIAA. p. 220. ISBN 978-1-884989-09-4. 
  14. Putkov, Vladimir (April 2007). "Sputnik and Russia's Outer Space Activities". United Nations Institute for Disarmament Research. http://www.unidir.org/pdf/articles/pdf-art2661.pdf. 
  15. "The World's First National Synchronous Communications Satellite". Boeing Company. 2011. http://www.boeing.com/defense-space/space/bss/factsheets/376/anik_a/anik_a.html. 
  16. "ANIK The World's First Domestic Synchronous Communication Satellite". Institute of Electrical and Electronics Engineers. http://www.ieee.ca/millennium/anik/anik_about.html. 
  17. Jaeger, Ralph-W.; Claudon, Jean-Louis (May 1986). "Ariane — The first commercial space transportation system". Proceedings of the 15th International Symposium on Space Technology and Science. 2. Tokyo, Japan: AGNE Publishing, Inc. (published 1986). A87-32276 13–12. Bibcode1986spte.conf.1431J. 
  18. "Arianespace was founded in 1980 as the world's first launch services company". arianespace.com. http://www.arianespace.com/site/about/arianespace_today_sub_index.html. 
  19. "Iridium – the satellite phone always rings twice". Wired. 7 March 1999. http://www.wiredreread.com/2010/03/iridium-satellite-phone-always-rings.html. Retrieved 13 June 2011. 
  20. "Commercial Space Transportation QUARTERLY LAUNCH REPORT". Federal Aviation Administration. 1997. https://www.faa.gov/about/office_org/headquarters_offices/ast/media/quarter9702.pdf. 
  21. "FAA – Office of Commercial Space Transportation". FAA. https://www.faa.gov/about/office_org/headquarters_offices/ast/. 
  22. 22.0 22.1 Foust, Jeff (2023-02-21). "FAA forecasts surging commercial launch activity" (in en-US). https://spacenews.com/faa-forecasts-surging-commercial-launch-activity/. 
  23. Kevin Bonsor, "How Satellite Radio Works," HowStuffWorks. Accessed May 1, 2013.
  24. 24.0 24.1 Steve Parker, "XM plus Sirius = Satellite Radio Monopoly," Huffington Post, July 24, 2008.
  25. "Sirius Begins Satellite Service," Radio, February 14, 2002.
  26. "Satellite Radio Technology," spacefoundation.org, 2002. Accessed May 1, 2013.
  27. Lieutenant General Steve Kwast. China is building a Space Fleet (Not Clickbait) – China space program. YouTube. Hillsdale College: Elite One. Archived from the original on July 15, 2021. (at minute 3:00)
  28. Von der Dunk, F. G. (2011). "Space tourism, private spaceflight and the law: Key aspects". Space Policy 27 (3): 146–152. doi:10.1016/j.spacepol.2011.04.015. ISSN 0265-9646. Bibcode2011SpPol..27..146V. http://digitalcommons.unl.edu/cgi/viewcontent.cgi?article=1059&context=spacelaw. Retrieved 2020-04-25. 
  29. "Plans for asteroid mining emerge". BBC News. 24 April 2012. https://www.bbc.co.uk/news/science-environment-17827347. 
  30. "Behind the Scenes - Building Sustainable Stewardship of Lunar Resources Through a Trust". 25 May 2021. https://breakingground.space/library/18xn9gt8y5p5rf1gzf5knzbhf99brf. 
  31. 31.0 31.1 Simberg, Rand (Fall 2012). "Property Rights in Space". The New Atlantis (37): 20–31. http://www.thenewatlantis.com/publications/property-rights-in-space. Retrieved 2012-12-14. 
  32. "President Obama Signs Bill Recognizing Asteroid Resource Property Rights into Law | Planetary Resources". http://www.planetaryresources.com/2015/11/president-obama-signs-bill-recognizing-asteroid-resource-property-rights-into-law/. 



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