The satellite optical ground station market size is projected to reach US$ 162,540.60 million by 2031 from US$ 62,013.92 million in 2023. The rise in the construction of new airports across the globe is contributing to the increased demand for communication network solutions. The rising number of satellite launches globally is spurring the demand for optical ground stations to track and monitor the movement of satellites and simultaneously receive and transmit data. Also, advanced OGSs are garnering demand for their help in monitoring these satellites. In addition, the demand for OGSs is propelling to avoid the threat of space debris collision with functional space assets. OGSs also help in ensuring safe and sustainable space activities complying with domestic and international guidelines, standards, and other norms.
The number of satellite launches is increasing globally because of the rising need for satellites in various applications such as earth observation, communication and navigation, and scientific research. According to several space agencies, on average, ~466 SmallSats were launched per year during 2012–2021, and it is expected to increase to 1,846 SmallSats launches per year during 2022–2031. For the launch of these 4,663 SmallSats during 2012–2021, the governments of various countries and companies invested ~US$ 23.1 billion, and it is expected that they will be further investing US$ 84 billion during 2022–2031. In addition, the number of space rocket launches, primarily for deploying satellites in space, is also rising rapidly. In 2021, there were 136 successful rocket launches, whereas in 2022, the number rose to 180. In September 2022, it was seen that 16 orbital launches took place, of which 8 took place in China, 6 in the Americas, and Europe and Russia conducted one each. Furthermore, Falcon 9 launched 191 Starlink broadband satellites, and SpaceX launched 1,465 Starlink satellites in 2022. Again, in January 2023, China launched 14 satellites atop a Long March-2D carrier rocket from the Taiyuan Satellite Launch Center in northern China's Shanxi Province. The 14 satellites included Qilu-2 and Qilu-3, Luojia-3 01, and Jilin-1 Gaofen 03D34. In February 2023, the Indian Space Research Organisation (ISRO) announced the successful deployment of three satellites into their intended orbits via SSLV-D2 vehicle.
An optical ground station (OGS) is a vital part of the infrastructure that links space to the ground. The system helps in providing real-time communications for various applications at much higher data rates (up to several Gbps) than RF. The increasing need for higher-resolution data for missions that require scientists to get a detailed look at the Earth and solar system results in the high demand for OGS systems. The system also helps in providing large volumes of data to fulfill mission requirements and locate the ground assets relating to mission orbit parameters. Thus, the demand for OGSs is increasing globally for more accuracy and high-speed data transfer.
All non-functional artificial materials orbiting the Earth at different altitudes can be termed space debris. Debris includes rocket body parts, fragmentation debris, refuse created during crewed missions, exhaust products from rockets, and defunct satellites. Most of such debris orbit the Earth at an average speed above 26,000 km per hour in Low Earth Orbits (LEO), posing a severe threat of collision for functional space assets. Such threats increase with each rocket launch for LEO and deep space. Growing collision threats of space objects are a persistent problem for the safe and sustainable use of outer space. These threats restrict unhindered access to space and prompt relevant parties to take necessary steps to mitigate risk. In November 2021, the Russian military conducted an anti-satellite test (ASAT) and blew up its defunct Cosmos 1408 satellite (which was launched in 1982) with a Nudol missile. Immediately after the blast, American and Russian astronauts aboard the International Space Station had to take preventive measures to avoid being struck by debris from the satellite, as the International Space Station was supposedly reasonably close to the satellite. In June 2022, International Space Station again had to undertake a collision avoidance maneuver (CAM) to avoid the orbital debris from the destroyed satellite. An uncrewed Progress 81 cargo ship was used by Russia's space agency Roscosmos to move the space station from the path of the debris. In 2021, ISRO carried out 19 CAMs, compared to 12 and 8 CAMs in 2020 and 2019, respectively.
The growing demand for satellite optical ground stations encourages companies to develop advanced solutions for the expansion of the space industry. For this expansion, the governments of different countries and stakeholders across industry verticals are continuously investing in R&D. They prefer various strategic alliances, such as partnerships, collaborations, and contracts, a few of which are mentioned below:
• In March 2023, CONTEC announced that it had chosen Cailabs to supply an optical ground station which will be installed in 2024. This new optical ground station will incorporate the TILBA-ATMO component for reliable, high-speed communications. Also, the ground station will be CCSDS, SDA, and QKD-capable.
• In February 2023, The Rwanda Space Agency (RSA) announced partnering with ATLAS Space Operations Inc. to build satellite ground infrastructure in Rwanda. Under this agreement, RSA is building a teleport capable of hosting multiple ground stations to service satellites in different orbits.
• In September 2022, Safran Data Systems announced that it had signed a contract with CONTEC to deliver an optical ground station that is to be installed in Western Australia. Safran will deliver a turnkey Optical Ground Station (OGS), which will consist of a mount offering optimal coverage; a 50-cm telescope; a complete pointing, acquisition, and tracking system; and a rotating dome.
• In September 2022, SSC announced that the European Space Agency (ESA) had awarded them a US$ 1.09 million (EUR 1.1 million) contract to support the development of the optical communication project Network of Optical Stations for Data Transfer to Earth from Space (NODES). Under this contract, SSC placed an order with Cailabs to deliver a ground station in Western Australia, scheduled to begin trials in early 2024.
Thus, through contracts and partnerships, various companies are working on providing advanced optical ground stations, which are anticipated to offer potential growth opportunities for the satellite optical ground station market during the forecast period.
Key segments that contributed to the derivation of the satellite optical ground station market analysis are operation, application, end user, and equipment.
The North American satellite optical ground station market is segmented into the US and Canada. Advanced satellite optical ground station technologies are being widely adopted in the US and Canada to improve defense capabilities. In August 2020, the US Space Center announced that the United Launch Alliance (ULA) was awarded to launch its critical national security space missions for the US Space Force. The missions are planned to be deployed from Cape Canaveral Air Force Station in Florida in FY2027. These types of satellite launches help in the adoption of ground station technologies.
Moreover, the launch of new satellite ground stations across the region and the expansion of existing ground stations are other major factors driving the growth of satellite optical ground stations across the North American region. For instance:
• In 2022, BlueHalo won a contract worth US$ 1.4 billion from the US Space Force for the upgrade of 12 military ground stations across the country wherein BlueHalo will replace the old parabolic satellite dishes with electronic phased array antennas across the military ground stations.
• In February 2023, Satellite operator KSAT announced that it is expanding its network with the installation of new ground station antennas across Antarctica and expanding its capacity in the US through multiple antennas in Hawaii, Alaska, and the Southeast US.
• In January 2023, SpaceX’s Starlink announced the launch of its fleet of second-generation satellites and expansion of its ground station infrastructure across the US.
• In May 2019, GigaSat, part of Ultra Electronics Communications & Integrated Systems (CIS), in partnership with Inmarsat, delivered 16 satellite multiband earth ground station terminals to Canada’s Department of National Defence (DND).
Such developments are likely to catalyze the growth of satellite ground stations across the region. Further, the growth in the number of satellite launches is another major factor likely to generate new opportunities for market vendors during the forecast period as well.
The regional trends and factors influencing the Satellite Optical Ground Station Market throughout the forecast period have been thoroughly explained by the analysts at Insight Partners. This section also discusses Satellite Optical Ground Station Market segments and geography across North America, Europe, Asia Pacific, Middle East and Africa, and South and Central America.
| Report Attribute | Details |
|---|---|
| Market size in 2023 | US$ 62,013.92 Million |
| Market Size by 2031 | US$ 162,540.60 Million |
| Global CAGR (2023 - 2031) | 12.8% |
| Historical Data | 2021-2022 |
| Forecast period | 2023-2031 |
| Segments Covered |
By Operation
|
| Regions and Countries Covered | North America
|
| Market leaders and key company profiles |
The Satellite Optical Ground Station Market market is growing rapidly, driven by increasing end-user demand due to factors such as evolving consumer preferences, technological advancements, and greater awareness of the product's benefits. As demand rises, businesses are expanding their offerings, innovating to meet consumer needs, and capitalizing on emerging trends, which further fuels market growth.
Market players density refers to the distribution of firms or companies operating within a particular market or industry. It indicates how many competitors (market players) are present in a given market space relative to its size or total market value.
Major Companies operating in the Satellite Optical Ground Station Market are:
Disclaimer: The companies listed above are not ranked in any particular order.
The satellite optical ground station market is evaluated by gathering qualitative and quantitative data post primary and secondary research, which includes important corporate publications, association data, and databases. The following is a list of developments in the market for innovations, business expansion, and strategies:
The “Satellite Optical Ground Station Market Size and Forecast (2021–2031)” report provides a detailed analysis of the market covering the following areas: