Global Aerospace Robotics Market Synopsis
The Global Aerospace Robotics Market Size Was Valued at USD 3.54 Billion in 2023 and is Projected to Reach USD 9.52 Billion by 2032, Growing at a CAGR of 11.62% From 2024-2032.
Aerospace robots are specifically created to help in the aerospace industry, aiding people and manufacturing processes. They vary from robotic arms in assembly lines to autonomous drones for surveys and inspections. Robots are crucial in industries requiring efficiency, safety, and precision, and are a perfect match for aerospace companies. They improve efficiency and productivity for airplane makers and create new opportunities for innovation and progress in all sectors of the field.
- Robotic technology brings great advantages to various aspects within the aerospace industry. For example, robotic automation can assist in handling the intricate job of air traffic control (ATC), guaranteeing airplanes depart and arrive securely and promptly. In this role, robots can assist human air traffic controllers by managing repetitive and time-sensitive tasks, which decreases errors and enhances safety. Robots' accuracy and trustworthiness enhance ATC operations, enabling controllers to concentrate on strategic aspects of air traffic management.
- A real-world example of aerospace robotics is evident at London's Heathrow Airport, which is among the busiest airports globally. Robotic applications are currently being used to assist ATC operations, which help in accelerating processes and improving vision systems. The efforts underway at Heathrow showcase the potential for robots to transform air traffic control, leading to improved efficiency and safety. The aerospace industry improves current abilities and sets the stage for future innovations by integrating robotic technology, fundamentally changing the management and operation of air travel.
Top Key Players:
"Kuka AG (Germany), ABB Group (Switzerland), Fanuc Corporation (Japan), Yaskawa Electric (Japan), Kawasaki Heavy Industries (Japan), Torres (Spain), Oliver Crispin Robotics (United Kingdom), Gudel Ag (Switzerland), Electroimpact Inc. (United States), Universal Robots A/S (Denmark), Swisslog Ag (Switzerland), Reis Robotics (Germany), Boston Dynamics (United States), Bosch Rexroth (Germany)."
Global Aerospace Robotics Market Trend Analysis
Rise in manual labor costs
- Aircraft makers are using robots more to compete in the aerospace sector by providing more affordable products. The increasing expenses for workers pose a major obstacle, pushing manufacturers to find cost-efficient answers. Robots, although costly to implement at first, offer significant advantages in the long run. They decrease the reliance on human work and boost efficiency and accuracy in manufacturing procedures. Robots do not need to be paid, given bonuses, take time off, or receive benefits, making them a cost-effective choice in the long run compared to human workers. This move towards automation assists manufacturers in simplifying operations, reducing errors, and ensuring consistent quality, leading to savings and competitive pricing.
- Integrating robotics into the aerospace industry is a strategic reaction to the changing needs of the sector. With the rising costs of labor, it is becoming more difficult to sustain the financial weight of providing human employees with benefits and incentives. Robots present a feasible option, carrying out repetitive and intricate tasks more effectively and dependably. This progress in technology enables manufacturers to shift human resources to activities that add more value, promoting innovation and enhancing operational efficiency as a whole. Integrating robots into the production line allows aerospace companies to reduce labor expenses and increase efficiency, helping them stay competitive in a market with fast technological developments and cost-conscious customers. Therefore, implementing robotics is an affordable and crucial action for continued growth and competitiveness in the aerospace sector.
Human-robot collaboration
- Integrating robots into the aerospace sector presents a chance for transformation by combining the unique skills of humans and robots to improve efficiency and accuracy in building aircraft. Robots are more and more taking over conventional manufacturing methods to carry out duties that demand high levels of skill and accuracy, which are frequently beyond the capabilities of human employees. The transition is motivated by the ability of robots to perform repetitive, high-precision tasks consistently, which lowers the margin of error and enhances the quality of manufactured parts. The advent of robots has continued to transform the industry by enabling smooth teamwork between humans and robots. Robots are created to assist human workers, adding to their abilities and improving the effectiveness of intricate manufacturing procedures. The collaboration of human dexterity and robotic precision enhances productivity and allows the manufacturing process to be flexible and responsive to the complex requirements of aerospace engineering.
- Introducing robots to the aerospace manufacturing industry creates new growth possibilities by leveraging the combined abilities of humans and robots. Robots are extremely skilled in activities like welding, drilling, and component assembly, which demand precision, endurance, and consistency. These tasks are enhanced by the robots' capacity to work determinedly and with little variation, guaranteeing consistency in production. Humans contribute creativity, problem-solving skills, and adaptability to the manufacturing process, taking on tasks that involve complex decision-making and detailed craftsmanship. Incorporating robots enables human employees to concentrate on tasks that are more strategic and less repetitive, boosting job satisfaction and promoting innovation. This well-rounded method doesn't just boost manufacturing efficiency but also elevates the final product's overall quality and safety. As the aerospace robotics market progresses, the strategic integration of robotic systems alongside human expertise is crucial.
Global Aerospace Robotics Market Segment Analysis:
Global Aerospace Robotics Market Segmented based on type, Component, Payload, and application.
By Type, the traditional robots segment is expected to dominate the market during the forecast period.
- Traditional robots, mainly used in production, are automated, programmable, and have the ability to move in three or more directions. Robot arms, similar to human arms, called robotic arms or manipulator arms, are created for various purposes like welding, painting, assembly, disassembly, PCB pick-and-place operations, packaging, labeling, palletizing, product inspection, and testing. They have a vital impact on the management of materials in warehouse environments. Their design and functionality are essential for improving efficiency and accuracy in multiple industrial uses.
- Articulated robots are noticeable within the realm of traditional robots because of their rotary joints, ranging from basic two-jointed designs to intricate setups with ten or more joints. These joints are placed in a sequence, with each joint supporting the following one, allowing for great flexibility and a wide range of motion in the robot's operational area. Articulated robots, commonly used for activities like painting, welding, and inspection, are connected to the base through a rotating joint. This kind of robot is very common in the aerospace sector because of its versatility and capability to manage various tasks. Articulated robots are preferred in many industrial processes due to their speed, agility, and high level of freedom, which drive advancements and efficiency in the automated world.
By Component, end effector segment held the largest share in 2023
- End effectors, also referred to as End of Arm Tooling (EOAT), play a vital role in robotics, including mechanical and electrical devices attached to a robot's wrist. These tools play a critical role in automating boring and repetitive tasks in industrial environments, decreasing the need for human workers. The sector has mostly adopted custom end-effectors designed for particular, repetitive jobs, guaranteeing accuracy and productivity. Specialized end-effectors have been crucial in improving efficiency in different manufacturing and assembly processes. Still, their limited design specificity restricts their flexibility, prompting a need for more versatile solutions.
- The increased demand for flexibility has resulted in the creation of hybrid end-effectors that can carry out numerous tasks. A hybrid end effector combines various functions, like merging suction and fingered grasping in one design. This advancement enables one robotic unit to manage a broader variety of objects and duties, improving its usefulness in various situations. Hybrid end-effectors offer a more flexible and efficient solution by combining various grasping techniques, overcoming the limitations of custom tools. This progress enhances the performance of robots while also cutting down on the necessity for frequent tool changes, making operations more efficient and boosting productivity in industrial automation.
Global Aerospace Robotics Market Regional Insights:
Asia Pacific is Expected to Dominate the Market Over the Forecast Period
- Players such as the Commercial Aircraft Corporation of China, Ltd. being present. The market is being greatly influenced by COMAC and domestic producers providing aerospace robotics systems at reduced prices. By upgrading its assembly and production lines, COMAC has strengthened its capacity to keep up with the increasing aircraft demand, improving its competitive advantage in the industry. This modernization is essential to ensure that COMAC can continue to grow and serve both domestic and international markets efficiently. The aerospace sector in China is evolving dynamically due to advancements in production processes and the strategic implementation of cost-effective robotics systems.
- India is becoming a significant player in both domestic and international aviation markets in the Asia Pacific region. The Indian government's new aviation policies aim to boost domestic aircraft manufacturing through a proactive approach. A significant policy shift that permits 100% Foreign Direct Investment (FDI) in the aerospace and manufacturing industries has effectively drawn foreign manufacturers to India. The increase in foreign investment will improve the manufacturing of aerospace robotics in the country, enabling the transfer of advanced technology from Western countries to India. These efforts are anticipated to greatly improve India's manufacturing abilities and establish it as a strong rival in the global aerospace sector.
Global Aerospace Robotics Market Top Key Players:
- Kuka AG (Germany)
- ABB Group (Switzerland)
- Fanuc Corporation (Japan)
- Yaskawa Electric (Japan)
- Kawasaki Heavy Industries (Japan)
- Torres (Spain)
- Oliver Crispin Robotics (United Kingdom)
- Gudel Ag (Switzerland)
- Electroimpact Inc. (United States)
- Universal Robots A/S (Denmark)
- Swisslog Ag (Switzerland)
- Reis Robotics (Germany)
- Boston Dynamics (United States)
- Bosch Rexroth (Germany)
Key Industry Developments in the Global Aerospace Robotics Market:
- In January 2024, ABB Inc. announced that it had acquired Swiss start-up Sevensense Robotics AG, a provider of AI-enabled 3D vision navigation technology for autonomous mobile robots (AMRs).
- In April 2024, Wind River, a global leader in delivering software for mission-critical intelligent systems, announced that Wind River Linux was being used by Yaskawa Electric Corporation, a leading manufacturer of servo motors, AC drives, and industrial robots, in the development of its new product, MOTOMAN NEXT.
Global Aerospace Robotics Market
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Base Year:
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2023
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Forecast Period:
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2024-2032
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Historical Data:
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2017 to 2023
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Market Size in 2023:
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USD 3.54 Bn.
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Forecast Period 2024-32 CAGR:
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11.62%
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Market Size in 2032:
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USD 9.52 Bn.
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Segments Covered:
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By Type
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- Traditional Robots
- Collaborative Robots
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By Component
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- Controller
- Sensor
- Drive
- End Effector
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By Payload
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- up to 16.00 kg
- 16.01–60.00 kg
- 60.01–225.00 kg
- More than 225.00 kg
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By Application
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- Drilling & Fastening
- Non-Destructive Testing
- Inspection Welding
- Soldering, Sealing
- Dispensing
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By Region
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- North America (U.S., Canada, Mexico)
- Eastern Europe (Bulgaria, The Czech Republic, Hungary, Poland, Romania, Rest of Eastern Europe)
- Western Europe (Germany, UK, France, Netherlands, Italy, Russia, Spain, Rest of Western Europe)
- Asia Pacific (China, India, Japan, South Korea, Malaysia, Thailand, Vietnam, The Philippines, Australia, New Zealand, Rest of APAC)
- Middle East & Africa (Turkey, Bahrain, Kuwait, Saudi Arabia, Qatar, UAE, Israel, South Africa)
- South America (Brazil, Argentina, Rest of SA)
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