In-Orbit Servicing Robotics Global Market Report 2025
상품코드:1872946
리서치사:The Business Research Company
발행일:On Demand Report
페이지 정보:영문 250 Pages
라이선스 & 가격 (부가세 별도)
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한글목차
세계의 궤도상 서비스 로봇 시장 규모는 최근 급속히 확대되고 있습니다. 2024년 19억 달러에서 2025년에는 21억 6,000만 달러에 달하고, CAGR 13.5%로 성장이 전망되고 있습니다. 지금까지의 성장은 위성 수명 연장에 대한 수요 증가, 우주 지속가능성에 대한 정부 자금 증가, 위성 발사 수 증가, 관민 우주 기관간 협력 확대, 궤도상 파편 대책의 필요성 증가에 의해 견인되어 왔습니다.
궤도상 서비스 로봇 시장 규모는 향후 수년간 급속한 성장이 예상됩니다. 2029년까지 35억 4,000만 달러에 달하고, CAGR은 13.2%가 될 전망입니다. 예측 기간의 성장은 위성 메가 컨스텔레이션의 전개, 지속 가능한 우주 운영에 대한 관심 증가, 상업 우주 탐사 임무 증가, 우주 파편 제거에 대한 규제적 중요성 강화, 궤도 자산의 유지 보수 수요 증가로 인한 것입니다. 예측기간의 주요 동향에는 자율형 서비스 시스템의 기술적 진보, 모듈식 위성 설계의 혁신, 첨단 센서 및 촬영 기술의 개발, 궤도상 조립 및 제조 능력에 대한 투자, 서비스 미션용 콤팩트 추진 시스템의 진전이 포함됩니다.
우주 파편 제거 서비스 수요 증가는 궤도 서비스 로봇 시장의 성장을 이끌 것으로 예측됩니다. 파편 제거 서비스는 사용된 위성, 로켓 소모 단계 및 기타 궤도 파편을 추적하고 캡처하고 안전하게 제거 또는 재배치하는 우주 기반 운영 기술 및 기술을 의미합니다. 우주 활동의 급속한 확대에 따라 궤도 혼잡이 증가하고 충돌 위험이 증가하고 있다는 것이 파편 제거의 필요성 증가의 배경에 있습니다. 궤도상 서비스 로봇 기술은 효율적이고 비용 효율적인 파편 제거 및 재배치를 가능하게 함으로써 이 과제의 해결에 공헌하여 보다 안전하고 지속 가능한 우주 운용을 확보합니다. 예를 들어, 2024년 7월, 미국 상무부 산하 우주 상업국은 미국 방총성이 현재 4만 5,200개 이상의 우주 물체를 모니터링하고 있다고 보고했습니다. 여기에는 약 1만 200개의 가동 위성과 1만 8,800개의 파편이 포함됩니다. 전문가에 의하면, 현행 기술에서는 추적 불가능한 100만개 이상의 미소 파편이 존재한다고 추정됩니다. 이러한 상황에서 우주 파편 제거 서비스에 대한 수요 증가가 궤도상 서비스 로봇 시장의 성장을 견인하고 있습니다.
궤도상 서비스 로봇 시장의 기업은 위성의 수명 연장, 기능 유지, 지속가능성을 향상시키는 로봇 서비스 능력의 실증 및 검증을 목적으로 자율형 궤도상 서비스 차량 등의 첨단 솔루션 개발에 주력하고 있습니다. 자율형 궤도상 서비스 차량이란, 우주 공간에서 다른 위성의 보수, 연료 보급, 업그레이드, 이동, 궤도 이탈을 자율적으로 실시 가능한 로봇 시스템을 탑재한 우주기입니다. 예를 들어, 2023년 5월에는 프랑스 우주 시스템 기업인 Thales와 Leonardo의 합작회사인 Thales Alenia Space가 이탈리아 우주 기관으로부터 2억 7,300만 달러(2억 3,500만 유로)의 계약을 획득했습니다. 이것은 궤도상 서비스 실증 미션을 위한 자율형 로봇 차량의 설계, 개발, 인정을 목적으로 한 것입니다. 이 차량은 첨단 우주 플랫폼과 손쉬운 로봇 암을 통합하여 위성 연료 보급, 부품 수리 및 교환, 궤도 이동, 제어된 재진입 등의 작업을 수행합니다. 이 프로젝트는 유럽의 자율적인 우주 로봇 기술 능력을 발전시키는 중요한 단계이며, 보다 지속 가능하고 유연하며 비용 효율적인 위성 운영을 가능하게합니다.
목차
제1장 주요 요약
제2장 시장 특징
제3장 시장 동향과 전략
제4장 시장 : 금리, 인플레이션, 지정학, 무역전쟁과 관세, 그리고 코로나 및 회복이 시장에 미치는 영향을 포함한 거시경제 시나리오
제5장 세계의 성장 분석과 전략 분석 프레임워크
세계의 궤도상 서비스 로봇 시장 : PESTEL 분석(정치, 사회, 기술, 환경, 법적 요인, 촉진요인과 억제요인)
최종 이용 산업의 분석
세계의 궤도상 서비스 로봇 시장 : 성장률 분석
세계의 궤도상 서비스 로봇 시장 실적 : 규모와 성장, 2019-2024년
세계의 궤도상 서비스 로봇 시장 예측 : 규모와 성장, 2024-2029년, 2034F
세계의 궤도상 서비스 로봇 : 총 시장 규모(TAM)
제6장 시장 세분화
세계의 궤도상 서비스 로봇 시장 : 서비스 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
수명 연장
연료 보급
수리 및 보수
조립
우주 파편 제거
기타 서비스
세계의 궤도상 서비스 로봇 시장 : 로봇 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
원격 조작
자율형
세계의 궤도상 서비스 로봇 시장 : 용도별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
상업
방위
과학 조사
기타 용도
세계의 궤도상 서비스 로봇 시장 : 최종 사용자별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
위성 사업자
우주 기관
방위기관
기타 최종 사용자
세계의 궤도상 서비스 로봇 시장 : 수명 연장 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
위치 유지
궤도 상승
자세 제어 조정
부품 교환
위성 업그레이드
세계의 궤도상 서비스 로봇 시장 : 연료 보급 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
연료 운손
가압제 운송
연료 탱크 증강
극저온 추진제 운송
궤도상 연료 저장
세계의 궤도상 서비스 로봇 시장 : 수리 및 보수 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
부품 수리
시스템 진단
하드웨어 교환
소프트웨어 업데이트
구조 보강
세계의 궤도상 서비스 로봇 시장 : 조립 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
모듈형 부품 통합
대형 구조물 건설
안테나 전개
태양열 어레이 설치
우주선 재구성
세계의 궤도상 서비스 로봇 시장 : 우주 파편 제거 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
액티브 파편 캡처
궤도 이탈 서비스
충돌 회피 지원
사용한 위성 폐기
계류 제거 시스템
세계의 궤도상 서비스 로봇 시장 : 기타 서비스 유형별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
점검 서비스
시험 및 교정
페이로드 이송
궤도 최적화
수명 종료시 폐기 처리
제7장 지역별/국가별 분석
세계의 궤도상 서비스 로봇 시장 : 지역별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
세계의 궤도상 서비스 로봇 시장 : 국가별, 분석과 예측, 2019-2024년, 2024-2029F, 2034F
제8장 아시아태평양 시장
제9장 중국 시장
제10장 인도 시장
제11장 일본 시장
제12장 호주 시장
제13장 인도네시아 시장
제14장 한국 시장
제15장 서유럽 시장
제16장 영국 시장
제17장 독일 시장
제18장 프랑스 시장
제19장 이탈리아 시장
제20장 스페인 시장
제21장 동유럽 시장
제22장 러시아 시장
제23장 북미 시장
제24장 미국 시장
제25장 캐나다 시장
제26장 남미 시장
제27장 브라질 시장
제28장 중동 시장
제29장 아프리카 시장
제30장 경쟁 구도와 기업 프로파일
궤도상 서비스 로봇 시장 : 경쟁 구도
궤도상 서비스 로봇 시장 : 기업 프로파일
Airbus SE : 개요, 제품 및 서비스, 전략 및 재무 분석
Northrop Grumman Corporation : 개요, 제품 및 서비스, 전략 및 재무 분석
Blue Origin : 개요, 제품 및 서비스, 전략 및 재무 분석
Thales Alenia Space : 개요, 제품 및 서비스, 전략 및 재무 분석
MDA Space Ltd. : 개요, 제품 및 서비스, 전략 및 재무 분석
제31장 기타 주요 기업 및 혁신 기업
Sierra Space
Redwire Corporation
Voyager Space Holdings, Inc.
D-Orbit SpA
ClearSpace SA
GITAI
Starfish Space
Astroscale Holdings Inc.
Space Applications Services
Skycorp Inc.
Orbit Fab
Turion Space Corp.
Motiv Space Systems
PIAP Space
Infinite Orbits
제32장 세계 시장 경쟁 벤치마킹과 대시보드
제33장 주요 인수합병(M&A)
제34장 최근 시장 동향
제35장 시장의 잠재력이 높은 국가, 부문, 전략
궤도상 서비스 로봇 시장(2029년) : 새로운 기회를 제공하는 국가
궤도상 서비스 로봇 시장(2029년) : 새로운 기회를 제공하는 부문
궤도상 서비스 로봇 시장(2029년) : 성장 전략
시장 동향에 기초한 전략
경쟁 전략
제36장 부록
JHS
영문 목차
영문목차
In-orbit servicing robotics are robotic systems designed to maintain, repair, refuel, or assemble spacecraft while they operate in orbit. They utilize robotic arms, sensors, and autonomous controls to perform tasks such as inspection, component replacement, and debris removal. These technologies extend the lifespan and functionality of satellites, reducing the overall cost of space operations.
The primary service types of in-orbit servicing robotics include life extension, refueling, repair and maintenance, assembly, debris removal, and others. Life extension refers to the use of robotic systems in space to maintain, repair, refuel, or upgrade satellites and spacecraft, thereby extending their operational lifespan without returning them to Earth. The robot types involved are remotely operated and autonomous, used across commercial, defense, and scientific research applications, with end-users including satellite operators, space agencies, defense organizations, and others.
Note that the outlook for this market is being affected by rapid changes in trade relations and tariffs globally. The report will be updated prior to delivery to reflect the latest status, including revised forecasts and quantified impact analysis. The report's Recommendations and Conclusions sections will be updated to give strategies for entities dealing with the fast-moving international environment.
The sharp hike in U.S. tariffs and the associated trade disputes in spring 2025 are notably impacting the aerospace and defense sector by raising costs for titanium, carbon fiber composites, and avionics materials largely sourced from global suppliers. Defense contractors, locked into fixed-price government contracts, absorb these added costs, while commercial aerospace firms face airline pushback on higher aircraft prices. Delays in component shipments due to customs bottlenecks further disrupt tight production schedules for jets and satellites. The industry is responding by stockpiling critical materials, seeking waivers for defense-related imports, and collaborating with allied nations to diversify supply chain.
The in-orbit servicing robotics market research report is one of a series of new reports from The Business Research Company that provides in-orbit servicing robotics market statistics, including in-orbit servicing robotics industry global market size, regional shares, competitors with a in-orbit servicing robotics market share, detailed in-orbit servicing robotics market segments, market trends and opportunities, and any further data you may need to thrive in the in-orbit servicing robotics industry. This in-orbit servicing robotics market research report delivers a complete perspective of everything you need, with an in-depth analysis of the current and future scenario of the industry.
The in-orbit servicing robotics market size has grown rapidly in recent years. It will grow from $1.90 billion in 2024 to $2.16 billion in 2025 at a compound annual growth rate (CAGR) of 13.5%. The growth in the historic period was driven by increasing demand for satellite life extension, rising government funding for space sustainability, a growing number of satellite launches, expanding collaboration between public and private space entities, and a heightened need for orbital debris mitigation.
The in-orbit servicing robotics market size is expected to see rapid growth in the next few years. It will grow to $3.54 billion in 2029 at a compound annual growth rate (CAGR) of 13.2%. The growth in the forecast period is driven by deployment of satellite mega constellations, greater focus on sustainable space operations, growing commercial space exploration missions, increasing regulatory emphasis on space debris removal, and rising demand for on-orbit asset maintenance. Key trends in the forecast period include technological advancements in autonomous servicing systems, innovations in modular satellite design, development of advanced sensor and imaging technologies, investment in on-orbit assembly and manufacturing capabilities, and progress in compact propulsion systems for servicing missions.
The increasing demand for debris removal services is expected to drive the growth of the in-orbit servicing robotics market. Debris removal services refer to space-based operations and technologies designed to track, capture, and safely remove or reposition defunct satellites, spent rocket stages, and other orbital debris. The growing need for debris removal is fueled by the rapid expansion of space activities, which result in increased orbital congestion and higher collision risks. In-orbit servicing robotics help address this issue by enabling efficient and cost-effective debris removal or repositioning, ensuring safer and more sustainable space operations. For example, in July 2024, the Office of Space Commerce, a US-based unit within the Department of Commerce, reported that the United States Department of Defense is currently monitoring over 45,200 space objects, including about 10,200 active satellites and 18,800 pieces of debris. Experts estimate that over one million additional fragments are too small to be tracked with current technology. Thus, the rising demand for debris removal services is driving the growth of the in-orbit servicing robotics market.
Companies in the in-orbit servicing robotics market are focusing on developing advanced solutions such as autonomous in-orbit servicing vehicles to demonstrate and validate robotic servicing capabilities that enhance the longevity, functionality, and sustainability of satellites in orbit. An autonomous in-orbit servicing vehicle is a spacecraft equipped with robotic systems that can independently conduct maintenance, refueling, upgrades, relocation, or de-orbiting of other satellites in space. For example, in May 2023, Thales Alenia Space, a France-based space systems company and joint venture between Thales and Leonardo, secured a $273 million (€235 million) contract from the Italian Space Agency to design, develop, and qualify an autonomous robotic vehicle for an in-orbit servicing demonstration mission. This vehicle integrates an advanced spacecraft platform with a dexterous robotic arm to perform tasks such as refueling, component repair or replacement, orbital transfers, and controlled re-entry of satellites. The project marks a significant step in advancing Europe's autonomous space robotics capabilities, enabling more sustainable, flexible, and cost-efficient satellite operations.
In January 2022, Blue Origin, a US-based aerospace manufacturer and spaceflight services company, acquired Honeybee Robotics for an undisclosed amount. This acquisition significantly boosted Blue Origin's capabilities in in-orbit servicing robotics, advanced planetary exploration technologies, and space resource utilization. By leveraging Honeybee's expertise in robotic systems, precision drills, actuators, and highly specialized space mechanisms, Blue Origin is positioned to support complex and long-duration space missions. Honeybee Robotics, based in the US, specializes in advanced robotic systems for planetary exploration and satellite servicing.
Major players in the in-orbit servicing robotics market are Airbus SE, Northrop Grumman Corporation, Blue Origin, Thales Alenia Space, MDA Space Ltd., Sierra Space, Redwire Corporation, Voyager Space Holdings, Inc., D-Orbit S.p.A., ClearSpace SA, GITAI, Starfish Space, Astroscale Holdings Inc., Space Applications Services, Skycorp Inc., Orbit Fab, Turion Space Corp., Motiv Space Systems, PIAP Space, Infinite Orbits, Kurs Orbital, OrbitAID Aerospace, Momentus Inc., Kinetik Space, and WorkerInSpace.
North America was the largest region in the in-orbit servicing robotics market in 2024. Asia-Pacific is expected to be the fastest-growing region in the forecast period. The regions covered in in-orbit servicing robotics report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East and Africa.
The countries covered in the in-orbit servicing robotics market report are Australia, Brazil, China, France, Germany, India, Indonesia, Japan, Russia, South Korea, UK, USA, Canada, Italy, Spain.
The in-orbit servicing robotics market consists of revenues earned by entities by providing services such as inspection services, testing and calibration, payload transfer, orbit optimization, end-of-life decommissioning, satellite relocation, orbital tug services, and satellite reconfiguration support. The market value includes the value of related goods sold by the service provider or included within the service offering. The in-orbit servicing robotics market also includes sales of robotic arms, dexterous manipulators, end-effectors, autonomous docking systems, capture mechanisms, guidance and navigation systems, control and propulsion modules, and modular robotic platforms. Values in this market are 'factory gate' values, that is, the value of goods sold by the manufacturers or creators of the goods, whether to other entities (including downstream manufacturers, wholesalers, distributors, and retailers) or directly to end customers. The value of goods in this market includes related services sold by the creators of the goods.
The market value is defined as the revenues that enterprises gain from the sale of goods and/or services within the specified market and geography through sales, grants, or donations in terms of the currency (in USD unless otherwise specified).
The revenues for a specified geography are consumption values that are revenues generated by organizations in the specified geography within the market, irrespective of where they are produced. It does not include revenues from resales along the supply chain, either further along the supply chain or as part of other products.
In-Orbit Servicing Robotics Global Market Report 2025 from The Business Research Company provides strategists, marketers and senior management with the critical information they need to assess the market.
This report focuses on in-orbit servicing robotics market which is experiencing strong growth. The report gives a guide to the trends which will be shaping the market over the next ten years and beyond.
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Create regional and country strategies on the basis of local data and analysis.
Identify growth segments for investment.
Outperform competitors using forecast data and the drivers and trends shaping the market.
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Benchmark performance against key competitors.
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Where is the largest and fastest growing market for in-orbit servicing robotics ? How does the market relate to the overall economy, demography and other similar markets? What forces will shape the market going forward, including technological disruption, regulatory shifts, and changing consumer preferences? The in-orbit servicing robotics market global report from the Business Research Company answers all these questions and many more.
The report covers market characteristics, size and growth, segmentation, regional and country breakdowns, competitive landscape, market shares, trends and strategies for this market. It traces the market's historic and forecast market growth by geography.
The market characteristics section of the report defines and explains the market.
The market size section gives the market size ($b) covering both the historic growth of the market, and forecasting its development.
The forecasts are made after considering the major factors currently impacting the market. These include:
The forecasts are made after considering the major factors currently impacting the market. These include the technological advancements such as AI and automation, Russia-Ukraine war, trade tariffs (government-imposed import/export duties), elevated inflation and interest rates.
Market segmentations break down the market into sub markets.
The regional and country breakdowns section gives an analysis of the market in each geography and the size of the market by geography and compares their historic and forecast growth.
The competitive landscape chapter gives a description of the competitive nature of the market, market shares, and a description of the leading companies. Key financial deals which have shaped the market in recent years are identified.
The trends and strategies section analyses the shape of the market as it emerges from the crisis and suggests how companies can grow as the market recovers.
Scope
Markets Covered:1) By Service Type: Life Extension; Refueling; Repair And Maintenance; Assembly; Debris Removal; Other Services
2) By Robot Type: Remotely Operated; Autonomous
3) By Application: Commercial; Defense; Scientific Research; Other Applications
4) By End-User: Satellite Operators; Space Agencies; Defense Organizations; Other End-Users
Subsegments:
1) By Life Extension: Station Keeping; Orbit Raising; Attitude Control Adjustment; Component Replacement; Satellite Upgrading
2) By Refueling: Fuel Transfer; Pressurant Transfer; Fuel Tank Augmentation; Cryogenic Propellant Transfer; On-Orbit Fuel Storage
3) By Repair And Maintenance: Component Repair; System Diagnostics; Hardware Replacement; Software Updates; Structure Reinforcement
4) By Assembly: Modular Component Integration; Large Structure Construction; Antenna Deployment; Solar Array Installation; Spacecraft Reconfiguration
5) By Debris Removal: Active Debris Capture; Deorbiting Services; Collision Avoidance Support; Disposal Of Defunct Satellites; Tethered Removal Systems
6) By Other Services: Inspection Services; Testing And Calibration; Payload Transfer; Orbit Optimization; End OF Life Decommissioning
Companies Mentioned: Airbus SE; Northrop Grumman Corporation; Blue Origin; Thales Alenia Space; MDA Space Ltd.; Sierra Space; Redwire Corporation; Voyager Space Holdings, Inc.; D-Orbit S.p.A.; ClearSpace SA; GITAI; Starfish Space; Astroscale Holdings Inc.; Space Applications Services; Skycorp Inc.; Orbit Fab; Turion Space Corp.; Motiv Space Systems; PIAP Space; Infinite Orbits; Kurs Orbital; OrbitAID Aerospace; Momentus Inc.; Kinetik Space; WorkerInSpace.
3. In-Orbit Servicing Robotics Market Trends And Strategies
4. In-Orbit Servicing Robotics Market - Macro Economic Scenario Including The Impact Of Interest Rates, Inflation, Geopolitics, Trade Wars and Tariffs, And Covid And Recovery On The Market
4.1. Supply Chain Impact from Tariff War & Trade Protectionism
5. Global In-Orbit Servicing Robotics Growth Analysis And Strategic Analysis Framework
5.1. Global In-Orbit Servicing Robotics PESTEL Analysis (Political, Social, Technological, Environmental and Legal Factors, Drivers and Restraints)
5.2. Analysis Of End Use Industries
5.3. Global In-Orbit Servicing Robotics Market Growth Rate Analysis
5.4. Global In-Orbit Servicing Robotics Historic Market Size and Growth, 2019 - 2024, Value ($ Billion)
5.5. Global In-Orbit Servicing Robotics Forecast Market Size and Growth, 2024 - 2029, 2034F, Value ($ Billion)
5.6. Global In-Orbit Servicing Robotics Total Addressable Market (TAM)
6.1. Global In-Orbit Servicing Robotics Market, Segmentation By Service Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Life Extension
Refueling
Repair And Maintenance
Assembly
Debris Removal
Other Services
6.2. Global In-Orbit Servicing Robotics Market, Segmentation By Robot Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Remotely Operated
Autonomous
6.3. Global In-Orbit Servicing Robotics Market, Segmentation By Application, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Commercial
Defense
Scientific Research
Other Applications
6.4. Global In-Orbit Servicing Robotics Market, Segmentation By End-User, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Satellite Operators
Space Agencies
Defense Organizations
Other End-Users
6.5. Global In-Orbit Servicing Robotics Market, Sub-Segmentation Of Life Extension, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Station Keeping
Orbit Raising
Attitude Control Adjustment
Component Replacement
Satellite Upgrading
6.6. Global In-Orbit Servicing Robotics Market, Sub-Segmentation Of Refueling, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Fuel Transfer
Pressurant Transfer
Fuel Tank Augmentation
Cryogenic Propellant Transfer
On-Orbit Fuel Storage
6.7. Global In-Orbit Servicing Robotics Market, Sub-Segmentation Of Repair And Maintenance, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Component Repair
System Diagnostics
Hardware Replacement
Software Updates
Structure Reinforcement
6.8. Global In-Orbit Servicing Robotics Market, Sub-Segmentation Of Assembly, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Modular Component Integration
Large Structure Construction
Antenna Deployment
Solar Array Installation
Spacecraft Reconfiguration
6.9. Global In-Orbit Servicing Robotics Market, Sub-Segmentation Of Debris Removal, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Active Debris Capture
Deorbiting Services
Collision Avoidance Support
Disposal Of Defunct Satellites
Tethered Removal Systems
6.10. Global In-Orbit Servicing Robotics Market, Sub-Segmentation Of Other Services, By Type, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
Inspection Services
Testing And Calibration
Payload Transfer
Orbit Optimization
End Of Life Decommissioning
7. In-Orbit Servicing Robotics Market Regional And Country Analysis
7.1. Global In-Orbit Servicing Robotics Market, Split By Region, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
7.2. Global In-Orbit Servicing Robotics Market, Split By Country, Historic and Forecast, 2019-2024, 2024-2029F, 2034F, $ Billion
