On-Orbit Services Market Size, Share, and COVID-19 Impact Analysis, By Orbit (GEO, MEO, and LEO), By End User (Government & Defense and Commercial), By Service (Inspection, Refuel, Repair, Upgrade, and Other), By Frequency (Short, Medium, and Long), and Regional Forecast, 2026-2034

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On-Orbit Services Market Growth Factors

Aging Satellite Population Driving On-Orbit Services Market Growth 

The aging satellite population is a major driver of the on-orbit services industry growth. Many satellites in orbit are approaching the end of their operational lives and require maintenance or replacement to continue functioning. Satellites are typically designed to operate for a fixed period, after which they may experience technical problems or degradation in performance.

The demand for on-orbit satellite services such as life extension, servicing, and repair is increasing due to the aging satellite population. These services can help extend the lifespan of existing satellites, reducing the need for costly launches of new satellites from Earth. Satellites that are reaching the end of their operational lives can be refueled or repaired in orbit rather than replaced.

On-orbit satellite servicing can also help address technical issues that arise during a satellite's operational life, such as failures or degradation due to exposure to harsh space environments. This can help ensure that satellite-based services remain operational and reliable.

Increased Number of Satellites in Orbit to Drive Market Growth

The number of active satellites in Earth's orbit has grown significantly in recent years, increasing the need for on-orbit services. As of the end of 2022, an estimated 6,718 active satellites were orbiting the planet, up from around 4,852 at the end of 2021. This rapid growth has been driven largely by the deployment of large satellite constellations such as SpaceX's Starlink, which aims to provide global broadband internet access.  As satellites age or encounter issues, on-orbit servicing can help extend their operational lifetimes and avoid the need for costly and risky deorbit and replacement. It can also help mitigate the growing problem of space debris by enabling active debris removal. Several companies and organizations are now developing on-orbit servicing technologies and business models to meet this growing need. For example, Northrop Grumman's MEV-1 and MEV-2 spacecraft have demonstrated the ability to dock with and extend the life of commercial communications satellites in geostationary orbit. As the number of satellites continues to grow, especially in low Earth orbit, where the majority of active satellites now reside, the importance of on-orbit servicing will only increase. It will be critical for ensuring the long-term sustainability of the space environment and enabling the realization of the full potential of satellite technologies.

RESTRAINING FACTORS

Technological Complexities are Anticipated to Hamper Market Growth

The technology essential for providing on-orbit satellite services is in a perpetual state of evolution, requiring companies to make substantial investments in research and development to remain competitive. This poses a formidable barrier to entry for new entrants into the market. Precisely locating and docking with a target satellite in orbit is extremely difficult, as the satellite may be tumbling or is in unexpected orientation. Advanced sensors, guidance, and control systems are required to accomplish this safely. Much of the servicing process needs to be automated, as communication latency makes real-time teleoperation from Earth impractical. Robust autonomous decision-making and fault tolerance are critical.

On-Orbit Services Market Segmentation Analysis

By End-user Analysis

Investments in the On-Orbit Servicing Is Enabling Segment Growth for Military & Government Segment

Among the end user, the market is segmented into commercial & civil and military & government.

Government agencies such as NASA, DARPA, and the European Space Agency are investing in on-orbit servicing demonstrations and helping to de-risk the technologies, which is catalyzing commercial activities in this area. Therefore, the military & government segment accounted for a substantial market share in 2023 and is anticipated to grow at the fastest CAGR during the forecast period.

Commercial & civil space accounted for the dominating market share of 53.75% in 2026 and is anticipated to grow significantly during the forecast period. The users want more flexibility to update, maintain, and reconfigure their spacecraft on-orbit rather than relying on the traditional model of launching fully integrated, single-purpose satellites. Developments in robotics, autonomy, rendezvous and proximity operations, and other critical capabilities are making on-orbit servicing more feasible and reliable. As the on-orbit servicing options expands and the technology matures, the business case for these services is becoming more compelling, especially for life extension, refueling, and payload upgrades.

By Orbit Analysis

Growing Number of Small Communication Satellites Propelled LEO Segment Growth

Based on orbit, the market is segmented into Low Earth Orbit (LEO), Medium Earth Orbit (MEO), and Geostationary Orbit (GEO).

The low earth orbit segment dominated the global on-orbit services market of 55.71% in 2026. There has been a significant increase in the deployment of small satellites, especially in LEO, driven by the growth of commercial space companies and the demand for communication, Earth observation, and other space-based services. The rise in small satellite deployments is contributing to the growth of the LEO segment in the on-orbit satellite servicing market, as these satellites often require servicing, maintenance, and upgrades during their operational lifetimes.

• The Medium Earth Orbit (MEO) segment is expected to hold a 28.89% share in 2023.

The geostationary orbit segment is estimated to grow significantly in the forecast period. This segment accounted a significant market share in base year 2023 and is anticipated to grow at the fastest CAGR. Many satellites in geostationary orbit are nearing the end of their design life and will require servicing to extend their operational lifetime. As these satellites age, the demand for on-orbit servicing in GEO increases.

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By Satellite Type Analysis

Growing Scientific Research Implications in Space Science is Expected To Boost Segment Growth for Earth Observation Satellite

Among the satellite type, the market is studied across telecommunication satellite, navigation satellite, Earth observation satellite, space science, and others.

The earth observation satellite segment dominated the global on-orbit services market with a share of 27.40% in 2026. The segment is anticipated to be a moderate growing segment during the forecast period. The growing deployment of satellites for communication, Earth observation, navigation, and other purposes is fueling the need for on-orbit servicing. Many of these satellites have limited or no servicing capabilities, making them prone to malfunctions over time.

Space science is estimated to be the fastest growing segment in the forecast period. Space science satellites are critical for providing continuous scientific data and observations. On-orbit servicing can help keep these satellites operational for longer, ensuring uninterrupted data collection and scientific research. Space science satellites represent significant investments and are often highly valuable assets. On-orbit servicing can help protect these investments by maintaining the satellites and avoiding the need for costly replacement launches.

By Services Analysis

Refueling of Satellites to Propel Refueling Segment Growth

Among the services, the market is segmented into on-orbit servicing, assembly and manufacturing, active debris removal & orbital adjustment, and refueling.

The refueling segment dominated the global on-orbit services market with a share of 51.97% in 2026 and is anticipated to be the fastest-growing segment during the forecast period. Refueling of satellites prepared for in-orbit refueling are designed to be refueled, reducing the complexity and cost of servicing. This enables satellites to launch with less onboard fuel, allowing more mass for revenue-generating payloads.

The on-orbit servicing, assembly and manufacturing segment accounted for a significant market share in the base year 2023. These services can provide cost savings in comparison to launching new replacement satellites, as they avoid the expense of new launch vehicles and spacecraft.

The OSAM market is seeing growing demand driven by the need to extend the life of aging satellites, mitigate space debris, enable larger and more complex space systems, provide cost savings, and leverage technological advancements in robotics and manufacturing.

By Solution Analysis

Robotic Teleoperation Being Used as a Core Technology to Propel Segment Growth

Among the solution, the market is segmented into robotic autonomous, robotic teleoperated, and manual intervention.

Robotic teleoperated dominated the global on-orbit services market in 2023 and is anticipated to grow significantly during the forecast period. Teleoperation systems can integrate autonomous control and virtual fixtures to guide the operator and increase precision, especially for tasks requiring tight tolerances. Virtual fixtures provide haptic guidance to the operator to help align the robot end-effector precisely with the target. Teleoperation with force feedback allows the human operator to feel the forces and interactions at the remote robot, enabling dexterous manipulation and precise control. The force feedback increases the transparency of the system and allows the operator to execute tasks requiring high precision.

The robotic autonomous segment accounted for a significant market share in 2023 and is anticipated to grow at the fastest CAGR in the forthcoming years. Visual Perception for Non-Cooperative Targets: Advances in visual perception technologies, such as ellipse detection and structured light vision systems, enable robots to autonomously identify and interact with non-cooperative satellite targets.

REGIONAL INSIGHTS

The global market is segmented into regions such as North America, Europe, Asia Pacific, Latin America, Middle East & Africa and the Rest of the World.

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North America

North America accounted for the largest share of the on-orbit services market and was valued at USD 1.28 billion in 2025, and it is expected to maintain its dominance throughout the forecast period. The region’s leadership is supported by a well-established space ecosystem, strong government funding, and the presence of major OEMs and private operators. Programs led by agencies such as NASA and the U.S. Department of Defense continue to stimulate demand for satellite life-extension, in-orbit inspection, and debris mitigation capabilities. Regulatory oversight by the Federal Communications Commission and evolving space traffic management policies provide a structured framework for commercial servicing missions. The commercial on-orbit satellite servicing segment is rapidly evolving, offering in-orbit refueling, repairs, upgrades, and maintenance. Industry participants such as SpaceLogistics and Astroscale are advancing robotic servicing, docking technologies, and debris removal systems. Growing satellite constellations for communication and Earth observation, combined with defense modernization programs, are reinforcing sustained regional demand. The U.S. market is projected to reach USD 1.329 billion by 2026.

Europe

Europe represents a mature yet steadily expanding market, supported by collaborative space initiatives and sustainability-driven policies. Institutional backing from the European Space Agency and national space agencies has accelerated the development of autonomous rendezvous and capture technologies. The European regulatory landscape emphasizes orbital sustainability and debris mitigation, aligning with long-term environmental and space safety objectives. The European Union’s evolving space strategy and funding mechanisms encourage public–private partnerships in satellite servicing missions. Demand is primarily driven by the need to extend satellite lifespans, reduce replacement costs, and ensure compliance with stricter debris mitigation standards. Technological capabilities in robotics, propulsion, and mission control infrastructure position Europe as a key innovation hub, although overall market size remains comparatively smaller than North America. The UK market is projected to reach USD 0.192 billion by 2026, while the Germany market is projected to reach USD 0.072 billion by 2026.

Asia Pacific

Asia Pacific held a significant market share in the base year and is projected to be the fastest-growing region during the forecast period. Japan remains a key contributor, leveraging advanced robotics and satellite engineering expertise to expand in-orbit servicing capabilities. Strategic backing from the Japan Aerospace Exploration Agency strengthens domestic innovation and international collaboration. China is rapidly scaling its presence through strong government initiatives and investment in indigenous space infrastructure, supported by the China National Space Administration. Expanding satellite deployments for navigation, broadband connectivity, and remote sensing are creating substantial demand for servicing, refueling, and debris removal missions. Regional governments are also integrating space sustainability into regulatory frameworks, which is expected to further drive demand for active debris removal and life-extension services. Increasing commercialization of space activities across India, South Korea, and Australia contributes to a competitive and innovation-driven regional landscape. The Japan market is projected to reach USD 0.141 billion by 2026, the China market is projected to reach USD 0.385 billion by 2026, and the India market is projected to reach USD 0.113 billion by 2026.

Latin America

Latin America represents an emerging market with gradual adoption of on-orbit services. While the region currently accounts for a relatively smaller revenue share, growing investments in satellite-based communication and Earth observation are generating incremental opportunities. National space initiatives led by agencies such as Brazilian Space Agency are focusing on enhancing domestic satellite capabilities and fostering international partnerships. Regulatory frameworks are still evolving, with an emphasis on spectrum allocation, satellite licensing, and orbital compliance. Demand trends are primarily linked to the need for cost-effective satellite operations, particularly for communication, environmental monitoring, and disaster management applications. As satellite fleets expand, the requirement for life-extension and maintenance services is expected to increase gradually over the forecast period.

Middle East & Africa

The Middle East & Africa region is witnessing steady growth, supported by rising government investments in space programs and satellite infrastructure. Countries such as the United Arab Emirates and Saudi Arabia are advancing national space ambitions, with institutional oversight from entities including the United Arab Emirates Space Agency. Regulatory frameworks are progressively aligning with international space governance standards, encouraging private sector participation and foreign collaboration. Demand for on-orbit services in this region is driven by expanding communication satellite networks, Earth observation programs, and strategic defense applications. Although the market remains at a nascent stage compared to North America and Asia Pacific, increasing satellite launches and a focus on sustainable space operations are expected to create long-term opportunities for servicing, refueling, and debris mitigation solutions.

Overall, regional growth dynamics in the on-orbit services market are shaped by varying degrees of technological maturity, regulatory evolution, and satellite deployment intensity. North America maintains leadership through advanced capabilities and strong institutional backing, Europe emphasizes sustainability and collaborative innovation, Asia Pacific drives high-growth momentum through rapid infrastructure expansion, while Latin America and the Middle East & Africa present emerging opportunities supported by expanding satellite programs and regulatory development.

KEY INDUSTRY PLAYERS

Key Market Players Adapt Strategies to Ensure Market Survival by Expanding Service Portfolio

The on-orbit services market is relatively fragmented with key players operating in this industry. It is observed that key players are focusing on offering different services and solutions.

The top five players in the industry are Airbus S.A.S, Thales Alenia, Lockheed Martin Corporation, Orbit Fab, and Astroscale. As the market grows, competition is expected to intensify among players such as Maxar, Astroscale, Airbus, and Thales Alenia Space.

List of Top On-Orbit Services Companies:

• Airbus S.A.S (Netherlands)
• Thales Alenia Space (Thales) (France)
• Lockheed Martin Corporation (U.S.)
• Orbit Fab (U.S.)
• Astroscales (Japan)
• Clear Space SA (Switzerland)
• Obruta Space Solutions Corp. (Canada)
• D-Orbit SpA (Italy)
• Maxar Technologies (U.S.)
• Eta Space (U.S.)

KEY INDUSTRY DEVELOPMENTS:

• December 2024 - Thales Alenia Space, a joint venture between Thales and Leonardo, signed a first-phase contract worth €25m (USD 26.09 Million) with the European Space Agency (ESA) to demonstrate a complete cargo delivery service to and from space stations in low-Earth orbit by 2028. Thales Alenia Space will co-found the development of this LEO Cargo Return Service.
• December 2023 - Rogue Space Systems Corporation, a provider of space situational awareness and satellite servicing solutions, will locate a satellite after its deployment from Spacex Transporter 9. The mission will involve establishing communication and undertaking operations for the customer’s satellite.
• August 2022 - Orion Space Solutions announced that it was selected by the U.S. Space Force to develop three small satellites for a demonstration of on-orbit services in geostationary Earth orbit. The USD 44.5 million contract is for the Tetra-5 mission, a project intended to help the Space Force figure out how to take advantage of commercial technologies to inspect objects in space and to service geostationary satellites 22,000 miles above Earth that perform critical missions and are expensive to replace.
• June 2022 - Isar Aerospace announced that it entered into a firm launch services agreement with space infrastructure pioneer D-Orbit. The company’s launch vehicle, Spectrum, which is developed for small and medium satellites and satellite constellations, will launch D-Orbit’s ION Satellite Carrier as a primary customer to a Sun-synchronous orbit from its launch site in Andøya, Norway, with a launch term starting in 2023.
• November 2020 – MDA announced that it signed multiple contracts with Maxar Technologies to provide advanced space robotics technologies for the Space Infrastructure Dexterous Robot (SPIDER), a technology demonstration on NASA’s On‑orbit Servicing, Assembly, and Manufacturing 1 (OSAM-1) mission.

REPORT COVERAGE

The report provides detailed information on the competitive market landscape and focuses on leading companies, product types, and leading product applications. Besides this, the report offers insights into the market trends and highlights key industry developments. In addition to the above factors, it contains several factors that have contributed to the sizing of the global market in recent years.

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