Asia Pacific Aerospace Robotics Market Outlook, 2029

The Asia Pacific Aerospace Robotics Market is projected to reach a staggering USD 5.2 billion by 2030, driven by rise in aircraft demand.

According to publisher, The Asia Pacific region is witnessing a significant rise in its aerospace robotics market, fueled by a booming aviation industry, increasing automation adoption, and government initiatives. This report delves into the key factors driving this market, explores its dynamics, segments, regional variations, recent developments, and the competitive landscape. Market Insights

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Market Growth Potential: The Asia Pacific aerospace robotics market is projected to reach a staggering USD 5.2 billion by 2030, with a robust CAGR exceeding 15%. This growth signifies the rapid integration of robotics across various aspects of aerospace manufacturing and maintenance in the region. Growth Drivers: Several factors are propelling the Asia Pacific aerospace robotics market: Rising Aircraft Demand:

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Manmayi Raval

Manmayi Raval

Research Consultant

The growing passenger base in the region is driving demand for new aircraft, leading to increased production needs and a push for automation. Example: China is a major contributor to this growth, with ambitious plans to expand its commercial aircraft fleet to meet travel demands. Government Support for Automation: Governments across Asia Pacific are actively promoting automation initiatives like Industry 4.0, fostering investments in robotics for the aerospace sector. Example: South Korea's "Manufacturing Innovation 3.0" strategy emphasizes smart factories and automation, including robotics adoption in aerospace manufacturing. Cost-Effectiveness: Robotics can help Asian aerospace manufacturers reduce labor costs, particularly in countries with rising wages, while maintaining efficiency and quality control. Example: Indian aerospace companies are increasingly utilizing robots for repetitive tasks like drilling and riveting on aircraft fuselages, optimizing production costs. Market Dynamics

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Manmayi Raval

The Asia Pacific aerospace robotics market is a dynamic environment shaped by several key trends: Technological Advancements: Asian countries are actively investing in research and development to create advanced robots specifically suited for the needs of the regional aerospace industry. Example: Japanese companies are developing robots with lightweight designs and high dexterity for delicate assembly tasks in aircraft manufacturing. Focus on Collaborative Robotics: Collaborative robots (cobots) are gaining traction as they allow for safe human-robot interaction, optimizing production processes. Example: Chinese aerospace manufacturers are implementing cobots to assist human workers in tasks like aircraft component assembly and final inspections. Skilled Workforce Development: While robots address labor costs, there's a growing need for a skilled workforce to manage, maintain, and program these advanced robotic systems. Example: Educational institutions in India are introducing specialized courses in robotics to bridge the skills gap in the aerospace sector. Market Segments The Asia Pacific aerospace robotics market can be segmented based on various criteria: Payload Capacity: Low Payload (Up to 10 kg): These robots are ideal for tasks like electronic component assembly, delicate part handling, and intricate inspections on smaller aircraft parts. Medium Payload (10 - 50 kg): This segment caters to robots suitable for welding, drilling, and painting tasks on various aircraft components. High Payload (Over 50 kg): These robots are used for heavy-duty tasks like wing assembly, fuselage movement, and large-scale inspections within aircraft structures. Application: Manufacturing: Robots are employed extensively in aircraft component manufacturing, final assembly lines, and automating various production processes. Maintenance, Repair, and Overhaul (MRO): Robots are increasingly used for automated inspections, non-destructive testing, and assisting with repairs on aircraft. Logistics: Robots can efficiently handle and transport aircraft parts and materials within manufacturing facilities, streamlining supply chains within the Asia Pacific aerospace sector. Regional Analysis The Asia Pacific aerospace robotics market exhibits significant variations across different regions: East Asia: East Asia, particularly China and Japan, holds a dominant position due to a strong presence of leading aircraft manufacturers, significant investments in automation, and a focus on technological advancements. Example: China's Commercial Aircraft Corporation of China (COMAC) is actively integrating robotics into its production lines to meet ambitious aircraft production goals. South Asia: South Asia, led by India, is experiencing rapid growth in the aerospace robotics market, driven by a growing aviation sector and government initiatives promoting automation. Example: Indian companies like Hindustan Aeronautics Limited (HAL) are adopting robotic solutions to enhance efficiency and competitiveness in aircraft manufacturing. Southeast Asia: Southeast Asia is an emerging market with potential for future growth, as countries like Thailand and Vietnam witness increasing investments in the aerospace sector. Example: partnering with established robotics companies to set up manufacturing facilities and implement robotic solutions for their growing aerospace industries. Key Developments The Asia Pacific aerospace robotics market is witnessing continuous innovation and advancements: Joint Ventures and Mergers: Leading international robotics companies are forming strategic partnerships or merging with Asian companies to tap into the region's growing market potential. Example: A European robotics leader might establish a joint venture with a Chinese company to develop and manufacture robots specifically tailored for the needs of the Asian aerospace sector. Focus on Sustainable Practices: The aerospace industry in Asia Pacific is increasingly adopting sustainable practices. Robots can contribute by minimizing material waste and optimizing resource utilization in manufacturing processes. Example: Korean aerospace manufacturers are exploring the use of robots for sorting and recycling aerospace materials, contributing to a more sustainable production cycle. Localization of Robotics Technology: There's a growing trend of localization, with Asian companies developing and manufacturing robots specifically designed for the regional market. Example: A Chinese robotics company might develop robots with features like compatibility with local power grids and user interfaces in regional languages. Competitive Landscape The Asia Pacific aerospace robotics market is a competitive landscape with a mix of established players, regional giants, and emerging startups: Global Robotics Leaders: Established industrial robotics companies like ABB, KUKA, and Yaskawa have a strong presence in the region, offering a broad range of robotic solutions adaptable for various aerospace applications. Asian Robotics Players: Regional robotics companies like EMRIE (China) and Yaskawa Motoman (Japan) are playing a significant role, catering to the specific needs of the Asian aerospace sector and offering competitive solutions. Emerging Startups: Local startups are emerging with innovative robotic solutions tailored for the regional market. Example: An Indian startup might develop a lightweight robot specifically designed for delicate tasks like aircraft wiring assembly. The Asia Pacific aerospace robotics market is brimming with potential. As the region's aerospace industry continues to flourish, we can expect to see even more advancements in robotics technology, strategic collaborations, and a focus on sustainable practices, shaping the future of aerospace manufacturing and maintenance across Asia Pacific.

Table of Contents

  • 1 Introduction 7
  • 1.1 Industry Definition and Research Scope 7
  • 1.1.1 Industry Definition 7
  • 1.1.2 Research Scope 8
  • 1.2 Research Methodology 11
  • 1.2.1 Overview of Market Research Methodology 11
  • 1.2.2 Market Assumption 12
  • 1.2.3 Secondary Data 12
  • 1.2.4 Primary Data 12
  • 1.2.5 Data Filtration and Model Design 13
  • 1.2.6 Market Size/Share Estimation 14
  • 1.2.7 Research Limitations 15
  • 1.3 Executive Summary 16
  • 2 Market Overview and Dynamics 19
  • 2.1 Market Size and Forecast 19
  • 2.1.1 Impact of COVID-19 on World Economy 20
  • 2.1.2 Impact of COVID-19 on the Market 23
  • 2.1.3 Impact of Russia-Ukraine Conflict: War Slows Economic Recovery 25
  • 2.2 Major Growth Drivers 29
  • 2.3 Market Restraints and Challenges 33
  • 2.4 Emerging Opportunities and Market Trends 36
  • 2.5 Porter’s Fiver Forces Analysis 40
  • 3 Segmentation of Asia Pacific Market by Offering 44
  • 3.1 Market Overview by Offering 44
  • 3.2 Robots & Peripherals 46
  • 3.3 Software 47
  • 3.4 Services 48
  • 4 Segmentation of Asia Pacific Market by Robot Type 49
  • 4.1 Market Overview by Robot Type 49
  • 4.2 Articulated Robots 51
  • 4.3 Parallel Robots 52
  • 4.4 Linear/Cartesian Robots 53
  • 4.5 SCARA Robots 54
  • 4.6 Collaborative Robots (Cobots) 55
  • 4.7 Other Robot Types 56
  • 5 Segmentation of Asia Pacific Market by Component 57
  • 5.1 Market Overview by Component 57
  • 5.2 Controller 59
  • 5.3 Sensor 60
  • 5.4 Drive 61
  • 5.5 End Effector 62
  • 5.5.1 Welding Guns 64
  • 5.5.2 Grippers 65
  • 5.5.3 Robotic Screwdrivers 66
  • 5.5.4 Sanding & Deburring Tools 67
  • 5.5.5 Specialty & Hybrid End Effectors 68
  • 5.5.6 Other End Effectors 69
  • 5.6 Arm Processor 70
  • 5.7 Other Components 71
  • 6 Segmentation of Asia Pacific Market by Payload 72
  • 6.1 Market Overview by Payload 72
  • 6.2 Up to 16.00 kg 74
  • 6.3 16.01–60.00 kg 75
  • 6.4 60.01–225.00 kg 76
  • 6.5 More than 225.00 kg 77
  • 7 Segmentation of Asia Pacific Market by Application 78
  • 7.1 Market Overview by Application 78
  • 7.2 Material Handling 80
  • 7.3 Drilling & Fastening 81
  • 7.4 Soldering & Welding 82
  • 7.5 Assembling & Disassembling 83
  • 7.6 Painting & Dispensing 84
  • 7.7 Cutting & Processing 85
  • 7.8 Non-Destructive Testing & Inspection 86
  • 7.9 Other Applications 87
  • 8 Asia-Pacific Market 2022-2032 by Country 88
  • 8.1 Overview of Asia-Pacific Market 88
  • 8.2 Japan 91
  • 8.3 China 94
  • 8.4 Australia 96
  • 8.5 India 99
  • 8.6 South Korea 101
  • 8.7 Rest of APAC Region 103
  • 9 Competitive Landscape 105
  • 9.1 Overview of Key Vendors 105
  • 9.2 New Product Launch, Partnership, Investment, and M&A 109
  • 9.3 Company Profiles 114
  • ABB Ltd. 114
  • Boston Dynamics 116
  • Comau S.p.A. 117
  • Electroimpact Inc. 118
  • FANUC Corporation 119
  • Festo Inc. 120
  • General Electric Company 121
  • Gudel Group AG 122
  • JH Robotics Inc. 123
  • Kawasaki Heavy Industries Ltd. 124
  • KUKA AG (Midea Group) 125
  • Mtorres 126
  • Nachi-Fujikoshi Corp. 127
  • Oliver Crispin Robotics Limited 128
  • Omron Adept Technology Inc. 129
  • Seiko Epson Corp. 130
  • Staubli International AG 131
  • Teradyne Inc. 132
  • Universal Robots A/S 133
  • Yaskawa Electric Corporation 134
  • RELATED REPORTS 135



Table 1. Snapshot of Asia Pacific Aerospace Robotics Market in Balanced Perspective, 2022-2032 17
Table 2. World Economic Outlook, 2021-2031 21
Table 3. World Economic Outlook, 2021-2023 22
Table 4. Scenarios for Economic Impact of Ukraine Crisis 26
Table 5. Main Product Trends and Market Opportunities in Asia Pacific Aerospace Robotics Market 36
Table 6. Asia Pacific Aerospace Robotics Market by Offering, 2022-2032, $ mn 44
Table 7. Asia Pacific Aerospace Robotics Market by Robot Type, 2022-2032, $ mn 49
Table 8. Asia Pacific Aerospace Robotics Market by Component, 2022-2032, $ mn 57
Table 9. Asia Pacific Aerospace Robotics Market: End Effectors by Type, 2022-2032, $ mn 63
Table 10. Asia Pacific Aerospace Robotics Market by Payload, 2022-2032, $ mn 72
Table 11. Asia Pacific Aerospace Robotics Market by Application, 2022-2032, $ mn 78
Table 12. APAC Aerospace Robotics Market by Country, 2022-2032, $ mn 89
Table 13. Japan Aerospace Robotics Market by Robot Type, 2022-2032, $ mn 93
Table 14. Japan Aerospace Robotics Market by Component, 2022-2032, $ mn 93
Table 15. Japan Aerospace Robotics Market by Application, 2022-2032, $ mn 93
Table 16. China Aerospace Robotics Market by Robot Type, 2022-2032, $ mn 95
Table 17. China Aerospace Robotics Market by Component, 2022-2032, $ mn 95
Table 18. China Aerospace Robotics Market by Application, 2022-2032, $ mn 95
Table 19. Australia Aerospace Robotics Market by Robot Type, 2022-2032, $ mn 98
Table 20. Australia Aerospace Robotics Market by Component, 2022-2032, $ mn 98
Table 21. Australia Aerospace Robotics Market by Application, 2022-2032, $ mn 98
Table 22. India Aerospace Robotics Market by Robot Type, 2022-2032, $ mn 100
Table 23. India Aerospace Robotics Market by Component, 2022-2032, $ mn 100
Table 24. India Aerospace Robotics Market by Application, 2022-2032, $ mn 100
Table 25. South Korea Aerospace Robotics Market by Robot Type, 2022-2032, $ mn 102
Table 26. South Korea Aerospace Robotics Market by Component, 2022-2032, $ mn 102
Table 27. South Korea Aerospace Robotics Market by Application, 2022-2032, $ mn 102
Table 28. Aerospace Robotics Market in Rest of APAC by Country/Region, 2022-2032, $ mn 104
Table 29. Breakdown of World Market by Key Vendor, 2022, % 107
Table 30. Recent News about Product Launch & Development 110
Table 31. Recent News about Collaborations & Partnerships 111
Table 32. ABB Ltd.: Company Snapshot 114
Table 33. ABB Ltd.: Business Segmentation 115
Table 34. ABB Ltd.: Product Portfolio 115



Figure 1. Research Method Flow Chart 11
Figure 2. Bottom-up Approach and Top-down Approach for Market Estimation 14
Figure 3. Asia Pacific Market Forecast in Optimistic, Conservative and Balanced Perspectives, 2022-2032 16
Figure 4. Asia Pacific Aerospace Robotics Market, 2022-2032, $ mn 19
Figure 5. Impact of COVID-19 on Business 23
Figure 6. Primary Drivers and Impact Factors of Asia Pacific Aerospace Robotics Market 29
Figure 7. World Smart Factory Market, 2019-2026, $ mn 32
Figure 8. Primary Restraints and Impact Factors of Asia Pacific Aerospace Robotics Market 33
Figure 9. Investment Opportunity Analysis 37
Figure 10. Porter’s Fiver Forces Analysis of Asia Pacific Aerospace Robotics Market 40
Figure 11. Breakdown of Asia Pacific Aerospace Robotics Market by Offering, 2022-2032, % of Revenue 45
Figure 12. Asia Pacific Addressable Market Cap in 2023-2032 by Offering, Value ($ mn) and Share (%) 45
Figure 13. Asia Pacific Aerospace Robotics Market by Offering: Robots & Peripherals, 2022-2032, $ mn 46
Figure 14. Asia Pacific Aerospace Robotics Market by Offering: Software, 2022-2032, $ mn 47
Figure 15. Asia Pacific Aerospace Robotics Market by Offering: Services, 2022-2032, $ mn 48
Figure 16. Breakdown of Asia Pacific Aerospace Robotics Market by Robot Type, 2022-2032, % of Sales Revenue 50
Figure 17. Asia Pacific Addressable Market Cap in 2023-2032 by Robot Type, Value ($ mn) and Share (%) 50
Figure 18. Asia Pacific Aerospace Robotics Market by Robot Type: Articulated Robots, 2022-2032, $ mn 51
Figure 19. Asia Pacific Aerospace Robotics Market by Robot Type: Parallel Robots, 2022-2032, $ mn 52
Figure 20. Asia Pacific Aerospace Robotics Market by Robot Type: Linear/Cartesian Robots, 2022-2032, $ mn 53
Figure 21. Asia Pacific Aerospace Robotics Market by Robot Type: SCARA Robots, 2022-2032, $ mn 54
Figure 22. Asia Pacific Aerospace Robotics Market by Robot Type: Collaborative Robots (Cobots), 2022-2032, $ mn 55
Figure 23. Asia Pacific Aerospace Robotics Market by Robot Type: Other Robot Types, 2022-2032, $ mn 56
Figure 24. Breakdown of Asia Pacific Aerospace Robotics Market by Component, 2022-2032, % of Sales Revenue 58
Figure 25. Asia Pacific Addressable Market Cap in 2023-2032 by Component, Value ($ mn) and Share (%) 58
Figure 26. Asia Pacific Aerospace Robotics Market by Component: Controller, 2022-2032, $ mn 59
Figure 27. Asia Pacific Aerospace Robotics Market by Component: Sensor, 2022-2032, $ mn 60
Figure 28. Asia Pacific Aerospace Robotics Market by Component: Drive, 2022-2032, $ mn 61
Figure 29. Asia Pacific Aerospace Robotics Market by Component: End Effector, 2022-2032, $ mn 62
Figure 30. Asia Pacific Aerospace Robotics Market by End Effector: Welding Guns, 2022-2032, $ mn 64
Figure 31. Asia Pacific Aerospace Robotics Market by End Effector: Grippers, 2022-2032, $ mn 65
Figure 32. Asia Pacific Aerospace Robotics Market by End Effector: Robotic Screwdrivers, 2022-2032, $ mn 66
Figure 33. Asia Pacific Aerospace Robotics Market by End Effector: Sanding & Deburring Tools, 2022-2032, $ mn 67
Figure 34. Asia Pacific Aerospace Robotics Market by End Effector: Specialty & Hybrid End Effectors, 2022-2032, $ mn 68
Figure 35. Asia Pacific Aerospace Robotics Market by End Effector: Other End Effectors, 2022-2032, $ mn 69
Figure 36. Asia Pacific Aerospace Robotics Market by Component: Arm Processor, 2022-2032, $ mn 70
Figure 37. Asia Pacific Aerospace Robotics Market by Component: Other Components, 2022-2032, $ mn 71
Figure 38. Breakdown of Asia Pacific Aerospace Robotics Market by Payload, 2022-2032, % of Revenue 73
Figure 39. Asia Pacific Addressable Market Cap in 2023-2032 by Payload, Value ($ mn) and Share (%) 73
Figure 40. Asia Pacific Aerospace Robotics Market by Payload: Up to 16.00 kg, 2022-2032, $ mn 74
Figure 41. Asia Pacific Aerospace Robotics Market by Payload: 16.01–60.00 kg, 2022-2032, $ mn 75
Figure 42. Asia Pacific Aerospace Robotics Market by Payload: 60.01–225.00 kg, 2022-2032, $ mn 76
Figure 43. Asia Pacific Aerospace Robotics Market by Payload: More than 225.00 kg, 2022-2032, $ mn 77
Figure 44. Breakdown of Asia Pacific Aerospace Robotics Market by Application, 2022-2032, % of Revenue 79
Figure 45. Asia Pacific Addressable Market Cap in 2023-2032 by Application, Value ($ mn) and Share (%) 79
Figure 46. Asia Pacific Aerospace Robotics Market by Application: Material Handling, 2022-2032, $ mn 80
Figure 47. Asia Pacific Aerospace Robotics Market by Application: Drilling & Fastening, 2022-2032, $ mn 81
Figure 48. Asia Pacific Aerospace Robotics Market by Application: Soldering & Welding, 2022-2032, $ mn 82
Figure 49. Asia Pacific Aerospace Robotics Market by Application: Assembling & Disassembling, 2022-2032, $ mn 83
Figure 50. Asia Pacific Aerospace Robotics Market by Application: Painting & Dispensing, 2022-2032, $ mn 84
Figure 51. Asia Pacific Aerospace Robotics Market by Application: Cutting & Processing, 2022-2032, $ mn 85
Figure 52. Asia Pacific Aerospace Robotics Market by Application: Non-Destructive Testing & Inspection, 2022-2032, $ mn 86
Figure 53. Asia Pacific Aerospace Robotics Market by Application: Other Applications, 2022-2032, $ mn 87
Figure 54. Breakdown of APAC Aerospace Robotics Market by Country, 2022 and 2032, % of Revenue 89
Figure 55. Contribution to APAC 2023-2032 Cumulative Market by Country, Value ($ mn) and Share (%) 90
Figure 56. Aerospace Robotics Market in Japan, 2022-2032, $ mn 92
Figure 57. Aerospace Robotics Market in China, 2022-2032, $ mn 94
Figure 58. Aerospace Robotics Market in Australia, 2022-2032, $ mn 96
Figure 59. Aerospace Robotics Market in India, 2022-2032, $ mn 99
Figure 60. Aerospace Robotics Market in South Korea, 2022-2032, $ mn 101
Figure 61. Aerospace Robotics Market in Rest of APAC, 2022-2032, $ mn 103
Figure 62. Growth Stage of Asia Pacific Aerospace Robotics Industry over the Forecast Period 105
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Asia Pacific Aerospace Robotics Market Outlook, 2029

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