The aerospace robotics market is estimated at USD 2.9 billion in 2021 and is projected to reach USD 4.9 billion by 2026, at a CAGR of 11.4% from 2021 to 2026. The aerospace robotics market is growing at a significant rate across the world, and a similar trend is expected to be observed during the forecast period. An increase in global aircraft demand and manufacturing, increasing use of robots for efficient aircraft production processes, growing use of robotics to handle aircraft orders backlog, increasing manual labor cost are fueling the growth of the aerospace robotics market.
The Aerospace robotics market includes major players like Kuka AG (Germany), ABB Group (Switzerland), FANUC Corporation (Japan), Yaskawa electric corporation (Japan), Kawasaki Heavy Industries Ltd (Japan), Mtorres (Spain), Oliver Crispin Robotics Limited (UK), Gudel AG (Switzerland), Electroimpact Inc. (US), Universal Robots A/S (Denmark). These players have spread their business across various countries includes North America, Europe, Asia Pacific, Middle East and the Rest of the World. COVID-19 has impacted their businesses as well.
Based on robot type, the traditional robots will register the highest growth from 2021 to 2026.
Aerospace manufacturing employs different types of robots for different applications, such as drilling, fastening, painting, and coating. These activities require different robots, and sometimes they require the combination of different robots to perform certain tasks, such as fuselage assembly, aircraft inspection, and health monitoring system. The functioning of the cartesian robots is based on the three linear joints, which are parallel to the standard X, Y, and Z axes formations whereas, articulated robots, which are equipped with two or more rotary joints, enable circular movements. While cylindrical robots are a combination of rotary and linear joints, which enable circular as well as linear movements and can be used in different assembly lines such as fastening, welding, painting & coating, among other applications.
Based on the Component, the end effector segment will register the highest growth from 2021 to 2026.
End effectors are tools, which include mechanical and electrical devices installed on a robot wrist. End effectors are also called End of Arm Tooling (EOAT). The end effector of an aerospace robot includes tools such as grippers, force-torque sensors, material removal tools, welding torches, collision sensors, and tool changers, among others. The gripper is commonly used in picking objects and is the most used end effector in aerospace robotics as it has diverse gripping techniques and styles. The Force-Torque Sensor (FT) calculates the force and torque applied by the robot through the tool. It is also called six-axis force-torque sensor due to the feature of measuring three force components, namely, (x-y-z) as well a 3-torques force around these axes. The material removal tool has drilling, cutting, and deburring tools installed as robot tools.
Based on application, the processing segment will register the highest growth from 2021 to 2026.
When a product is made in a factory, it has to go through several different processes before it is shipped out to reach the consumer. First, it has to be picked, then it has to be packed into a box, and then those boxes have to be palletized. All of these applications can be automated with robots. Many aerospace manufacturing companies invest in picking, packing, or palletizing robots as they are able to perform these functions more accurately and efficiently than manual operations. This type of complex integration requires an integrator that is capable of integrating complex production lines that do not just involve robotics, but vision systems, PLCs, hard automation, grippers, end-of-arm tooling, conveyors, and more to create a fully automated work cell that would be capable of running at high speeds without a lot of issues along the way.
Based on region, the Asia Pacific region will register the highest growth from 2021 to 2026.
China, Japan, and India in the Asia Pacific region are expected to increase acquisitions of robotic systems and invest in research & development in aerospace manufacturing. In addition to this, these countries are investing in automated solutions to strengthen their manufacturing capacities and make advancements in the manufacturing process. Companies from China and India are importing robotic technologies from Western countries to enhance the productivities of their facilities. However, many aerospace robotics manufacturers are based in the Asia Pacific region. Some of the key manufacturers are Yaskawa Electric Corporation (Japan), Kawasaki Heavy Industries, Ltd (Japan), and FANUC Corporation (Japan). In addition to this, China is an emerging country in the field of commercial aircraft manufacturing with the state-owned organization, Commercial Aircraft Corporation of China, Ltd. (COMAC).
The break-up of the profiles of primary participants in the Airborne ISR market is as follows:
- By Company Type: Tier 1 - 35%; Tier 2 - 45%; and Tier 3 - 20%
- By Designation: C Level Executives - 35%; Directors - 25%; and Others - 40%
- By Region: North America - 40%; Europe - 30%; Asia Pacific - 25%, Rest of the World - 5%
Major players in the Aerospace robotics market are Kuka AG (Germany), ABB Group (Switzerland), FANUC Corporation (Japan), Yaskawa electric corporation (Japan), Kawasaki Heavy Industries Ltd (Japan), Mtorres (Spain), Oliver Crispin Robotics Limited (UK), Gudel AG (Switzerland), Electroimpact Inc. (US), Universal Robots A/S (Denmark).
Research Coverage
This market study covers the Aerospace robotics market across various segments and subsegments. It aims at estimating the size and growth potential of this market across different segments based on application, robot type, component, payload, and region. This study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to their product and business offerings, recent developments undertaken by them, and key market strategies adopted by them.
Reasons to Buy this Report
This report is expected to help market leaders/new entrants by providing them with the closest approximations of the revenue numbers for the overall aerospace robotics market and its segments. This study is also expected to provide region-wise information about the applications wherein aerospace robotic solutions are used. It also aims at helping the stakeholders understand the competitive landscape of the market, gain insights to improve the position of their businesses and plan suitable go-to-market strategies. This report is also expected to help them understand the pulse of the market and provide them with information on key drivers, restraints, challenges, and opportunities influencing the growth of the aerospace robotics market.
The report provides insights on the following pointers:
- Market Penetration: Comprehensive information on aerospace robotics products/ solutions offered by the top players in the market
- Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the aerospace robotics market
- Market Development: Comprehensive information about lucrative markets - the report analyses the aerospace robotics market across varied regions
- Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the aerospace robotics market
- Competitive Assessment: In-depth assessment of market shares, growth strategies, products, and manufacturing capabilities of leading players in the aerospace robotics market
Table of Contents
1 Introduction
1.1 Objectives of the Study
1.2 Market Definition
1.2.1 Market Segmentation
1.2.2 Regional Scope
1.2.3 Years Considered for the Study
1.3 Currency & Pricing
1.4 USD Exchange Rates
1.5 Limitations
1.6 Inclusions & Exclusions
1.7 Market Stakeholders
1.8 Summary of Changes
2 Research Methodology
2.1 Research Data
Figure 1 Aerospace Robotics Market: Research Flow
Figure 2 Aerospace Robotics Market: Research Design
2.1.1 Secondary Data
2.1.1.1 Key Data from Secondary Sources
2.1.2 Primary Data
2.1.2.1 Key Primary Insights
2.1.2.2 Key Data from Primary Sources
2.1.2.3 Breakdown of Primaries
Figure 3 Breakdown of Primary Interviews: by Company Type, Designation, and Region
2.1.2.4 Primary Details
2.2 Factor Analysis
2.2.1 Introduction
2.2.2 Demand Side Indicators
2.2.2.1 Increase in Global Demand for Aircraft
Figure 4 Global Aircraft Deliveries from 2016 to 2020
2.2.2.2 Rise in Demand for Collaborative Robot
2.2.3 Supply-Side Indicators
2.2.3.1 Increase in Research & Development on Advanced Aerospace Robotics
2.3 Market Size Estimation
2.3.1 Bottom-Up Approach
Figure 5 Market Size Estimation Methodology: Bottom-Up Approach
2.3.2 Top-Down Approach
Figure 6 Market Size Estimation Methodology: Top-Down Approach
2.4 Market Breakdown & Data Triangulation
Figure 7 Data Triangulation
2.5 Research Assumptions
2.6 Risk Analysis
3 Executive Summary
Figure 8 Collaborative Robots Segment to Exhibit Highest CAGR, 2021-2026
Figure 9 Controller Segment to Lead Market During Forecast Period
Figure 10 Handling Segment Projected to Dominate Market During Forecast Period
Figure 11 North America to Command Major Share in 2021
4 Premium Insights
4.1 Attractive Opportunities in Aerospace Robotics Market
Figure 12 Demand for Efficient Aircraft Production Offers Untapped Opportunities
4.2 Aerospace Robotics Market, by Payload
Figure 13 Up to 16.00 Kg Payload Segment to Dominate Aerospace Robotics Market in 2021
4.3 Aerospace Robotics Market, by Region
Figure 14 North America Held Largest Share of Aerospace Robotics Market in 2021
5 Market Overview
5.1 Introduction
5.2 Market Dynamics
Figure 15 Aerospace Robotics Market: Market Dynamics
5.2.1 Drivers
5.2.1.1 Increase in Global Aircraft Demand and Manufacturing
5.2.1.2 Increasing Use of Robots for Efficient Aircraft Production Processes
5.2.1.3 Growing Use of Robotics to Handle Aircraft Orders Backlog
Figure 16 Aircraft Delivery Backlog, Regional Share,2021
5.2.1.4 Increasing Manual Labor Cost
5.2.2 Restraints
5.2.2.1 Lack of Skilled Operators
5.2.2.2 Maintenance Requirement for Robots
5.2.3 Opportunities
5.2.3.1 Human-Robot Collaboration
5.2.3.2 Developments in Automated Additive Manufacturing Technology
5.2.4 Challenges
5.2.4.1 High Initial Cost of Implanting Robotics
5.2.4.2 Possible Hazards at Workplace with Implementation of Robotics
5.3 Impact of COVID-19 on Aerospace Robotics Market
Figure 17 Impact of COVID-19 on Aerospace Robotics Market
5.4 Ranges and Scenarios
Figure 18 Impact of COVID-19 on Aerospace Robotics Market: 3 Global Cenarios
5.5 Value Chain Analysis of Aerospace Robotics Market
Figure 19 Value Chain Analysis
5.6 Trends/Disruption Impacting Customer Business
5.6.1 Revenue Shift and New Revenue Pockets for Aerospace Robotics Manufacturers
Figure 20 Revenue Shift in Aerospace Robotics Market
5.7 Aerospace Robotics Market Ecosystem
5.7.1 Prominent Companies
5.7.2 Private and Small Enterprises
5.7.3 End-users
Figure 21 Market Ecosystem Map: Aerospace Robotics Market
Table 1 Aerospace Robotics Market Ecosystem
5.8 Average Selling Price of Aerospace Robotics
Table 2 Average Selling Price Trends of Aerospace Robotics, 2020 (USD Million)
5.9 Porter's Five Forces Analysis
Table 3 Porter's Five Forces Analysis
5.9.1 Threat of New Entrants
5.9.2 Threat of Substitutes
5.9.3 Bargaining Power of Suppliers
5.9.4 Bargaining Power of Buyers
5.9.5 Competitive Rivalry in Industry
5.10 Tariff and Regulatory Landscape
5.10.1 International Organization for Standardization (Iso)
5.11 Trade Analysis
Table 4 Country-Wise Import, Industrial Robotics, 2019-2020 (USD Thousand)
Table 5 Country-Wise Exports, Industrial Robotics, 2019-2020 (USD Thousand)
6 Industry Trends
6.1 Introduction
6.2 Use Case Analysis
6.2.1 Use Case: Arc Welding Robots
6.2.2 Use Case: Ai in Aerospace Robotics
6.2.3 Use Case: Fully Autonomous Mobile Robots
6.3 Technology Trends
6.3.1 Optoelectronics Solutions for Embedded Sensors
Table 6 Optoelectronic Embedded Sensors: Possible Application in Aerospace Robotics
6.3.2 Nano Technology
Table 7 Application Possibility of Nano Technology in Aerospace Robotics
6.3.3 Increasing Use of Open Architecture Software
Table 8 Use of Open Architecture in Aerospace Robotics:
Table 9 Programing Language Sourced, by Major Industrial Robot Manufacturers
6.3.4 Artificial Intelligence
Table 10 Application of Artificial Intelligence in Aerospace Robotics
Figure 22 Artificial Intelligence Market, 2014-2023
6.4 Impact of Megatrends
6.4.1 3D Printing
6.4.2 Shift in Global Economic Power
6.5 Innovation & Patent Registrations
Table 11 Innovation & Patent Registrations, 2018-2021
7 Aerospace Robotics Market, by Robot Type
7.1 Introduction
Figure 23 Traditional Robots Segment Projected to Lead Aerospace Robotics Market from 2021 to 2026
Table 12 Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 13 Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
7.2 Traditional Robots
Table 14 Traditional Robots Market, by Region, 2018-2020 (USD Million)
Table 15 Traditional Robots Market, by Region, 2021-2026 (USD Million)
7.2.1 Articulated
7.2.1.1 Articulated Robots are Generally Used Painting, Welding, and Inspection
7.2.2 Parallel
7.2.2.1 Parallel Robots are Most Used for Handling and Assembly
7.2.3 Linear/Cartesian
7.2.3.1 Cartesian Robots are Used for CNC Machines and 3D Printing
7.2.4 Scara
7.2.4.1 Scara Robots are Used for Jobs That Require Precise Lateral Movements
7.2.5 Others
7.3 Collaborative Robots
7.3.1 Collaborative Robots are Manufacturing Bots Designed to Work Alongside Humans Rather Than in Their Space
Table 16 Collaborative Robots Market, by Region, 2018-2020 (USD Million)
Table 17 Collaborative Robots Market, by Region, 2021-2026 (USD Million)
8 Aerospace Robotics Market, by Component
8.1 Introduction
Figure 24 Controller Segment Estimated to Lead Aerospace Robotics Market in 2021
Table 18 Aerospace Robotics Market Size, by Component, 2018-2020 (USD Million)
Table 19 Aerospace Robotics Market Size, by Component, 2021-2026 (USD Million)
8.2 Controller
8.2.1 Controller Interprets Code to Instruct Robots to Operate
8.3 Sensors
8.3.1 Robotic Sensors Provide Essential Inputs About an Object's Motion, Location, Velocity, and Temperature
8.4 Drive
8.4.1 Drive System Enables Movement of Robots
8.5 End Effector
8.5.1 Welding Guns
8.5.1.1 Robots Equipped with Welding Guns Automate the Welding Process
8.5.2 Grippers
8.5.2.1 Grippers are the Most Common Type of End Effector Used on a Robotic Arm
8.5.3 Robotic Screwdrivers
8.5.3.1 Repeatability is the Advantage of Using Robots for Screwdriving Applications
8.5.4 Sanding & Deburring Tools
8.5.4.1 Growing Demand for Complex and Customized Grinding Solutions for Diverse Requirements Drive this Segment
8.5.5 Specialty & Hybrid End Effectors
8.5.5.1 Growing Demand to Automate Mundane and Repetitive Tasks Will Drive this Segment
9 Aerospace Robotics Market, by Payload
9.1 Introduction
Figure 25 Up to 16.00 Kg Segment Projected to Lead Aerospace Robotics Market from 2021 to 2026
Table 20 Aerospace Robotics Market, by Payload, 2018-2020 (USD Million)
Table 21 Aerospace Robotics Market, by Payload, 2021-2026 (USD Million)
9.2 Up to 16.00 Kg
9.2.1 Capability of a Wide Range of Motion with Six Degrees of Freedom
Table 22 Up to 16.00 Kg Aerospace Robotics Market, by Region, 2018-2020 (USD Million)
Table 23 Up to 16.00 Kg Aerospace Robotics Market, by Region, 2021-2026 (USD Million)
9.3 16.01-60.00 Kg
9.3.1 Demand from Applications Involving High Process Forces
Table 24 16.01-60.00 Kg Aerospace Robotics Market Size, by Region, 2018-2020 (USD Million)
Table 25 16.01-60.00 Kg Aerospace Robotics Market, by Region, 2021-2026 (USD Million)
9.4 60.01-225.00 Kg
9.4.1 Capability to Replace Forklifts, Cranes, and Lifts while Providing Increased Production Flexibility
Table 26 60.01-225.00 Kg Aerospace Robotics Market, by Region, 2018-2020 (USD Million)
Table 27 60.01-225.00 Kg Aerospace Robotics Market, by Region, 2021-2026 (USD Million)
9.5 More Than 225.00 Kg
9.5.1 Ease to Reprogram for Production Changes
Table 28 More Than 225.00 Kg Aerospace Robotics Market, by Region, 2018-2020 (USD Million)
Table 29 More Than 225.00 Kg Aerospace Robotics Market, by Region, 2021-2026 (USD Million)
10 Aerospace Robotics Market, by Application
10.1 Introduction
Figure 26 Handling Segment Projected to Lead Aerospace Robotics Market from 2016 to 2022
Table 30 Aerospace Robotics Market Size, by Application, 2018-2020 (USD Million)
Table 31 Aerospace Robotics Market Size, by Application, 2021-2026 (USD Million)
10.2 Drilling & Fastening
10.2.1 Aircraft Manufacturing Requires Precision Drilling and Fastening for Aircraft Fuselage and Wing Assemblies
Table 32 Aerospace Robotics Market for Drilling & Fastening, by Region, 2018-2020 (USD Million)
Table 33 Aerospace Robotics Market for Drilling & Fastening, by Region, 2021-2026 (USD Million)
10.3 Non-Destructive Testing & Inspection
10.3.1 Robotic Non-Destructive Testing Offers High Accuracy, Precision, and Speed of Inspection while Reducing Production Time and Associated Labor Costs
Table 34 Aerospace Robotics Market for Non-Destructive Testing & Inspection, by Region, 2018-2020 (USD Million)
Table 35 Aerospace Robotics Market for Non-Destructive Testing & Inspection, by Region, 2021-2026 (USD Million)
10.4 Welding & Soldering
10.4.1 Welding Robots Perform According to a Set Program and Can be Tuned as Per the Aircraft Structure
Table 36 Aerospace Robotics Market for Welding & Soldering, by Region, 2018-2020 (USD Million)
Table 37 Aerospace Robotics Market for Welding & Soldering, by Region, 2021-2026 (USD Million)
10.5 Sealing & Dispensing
10.5.1 Sealing and Dispensing Use Robots due to the Precision Required and Potentially Hazardous Materials Often Used as Sealants for Aircraft Components
Table 38 Aerospace Robotics Market for Sealing & Dispensing, by Region, 2018-2020 (USD Million)
Table 39 Aerospace Robotics Market for Sealing & Dispensing, by Region, 2021-2026 (USD Million)
10.6 Processing
10.6.1 Processing Robots Can Perform Functions More Accurately and Efficiently Than Manual Operations
Table 40 Aerospace Robotics Market for Processing, by Region, 2018-2020 (USD Million)
Table 41 Aerospace Robotics Market for Processing, by Region, 2021-2026 (USD Million)
10.7 Handling
10.7.1 Material Handling Robots Enhance the Efficiency of Production Lines and Increase Customer Satisfaction by Providing Quality Products in a Timely Manner
Table 42 Aerospace Robotics Market for Handling, by Region, 2018-2020 (USD Million)
Table 43 Aerospace Robotics Market for Handling, by Region, 2021-2026 (USD Million)
10.8 Assembling & Disassembling
10.8.1 Robotic Assembly Systems Lower Costs while Boosting Quality and Capacity
Table 44 Aerospace Robotics Market for Assembling & Disassembling, by Region, 2018-2020 (USD Million)
Table 45 Aerospace Robotics Market for Assembling & Disassembling, by Region, 2021-2026 (USD Million)
11 Regional Analysis
11.1 Introduction
Figure 27 Aerospace Robotics Market in Asia-Pacific Projected to Witness Highest Growth Rate During Forecast Period
Table 46 Aerospace Robotics Market, by Region, 2018-2020 (USD Million)
Table 47 Aerospace Robotics Market, by Region, 2021-2026 (USD Million)
11.2 North America
11.2.1 COVID-19 Impact on North America
11.2.2 PESTLE Analysis
Figure 28 North America Aerospace Robotics Market Snapshot
Table 48 North America: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 49 North America: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 50 North America: Aerospace Robotics Market, by Payload, 2018-2020 (USD Million)
Table 51 North America: Aerospace Robotics Market, by Payload, 2021-2026 (USD Million)
Table 52 North America: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 53 North America: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
Table 54 North America: Aerospace Robotics Market, by Country, 2018-2020 (USD Million)
Table 55 North America: Aerospace Robotics Market, by Country, 2021-2026 (USD Million)
11.2.3 US
11.2.3.1 Presence of Leading OEMs to Drive the Market in the US
Table 56 US: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 57 US: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 58 US: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 59 US: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.2.4 Canada
11.2.4.1 Aircraft Modernization Programs to Drive the Market in Canada
Table 60 Canada: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 61 Canada: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 62 Canada: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 63 Canada: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.3 Europe
11.3.1 COVID-19 Impact on Europe
11.3.2 PESTLE Analysis
Figure 29 Europe Aerospace Robotics Market Snapshot
Table 64 Europe: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 65 Europe: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 66 Europe: Aerospace Robotics Market, by Payload, 2018-2020 (USD Million)
Table 67 Europe: Aerospace Robotics Market, by Payload, 2021-2026 (USD Million)
Table 68 Europe: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 69 Europe: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
Table 70 Europe: Aerospace Robotics Market, by Country, 2018-2020 (USD Million)
Table 71 Europe: Aerospace Robotics Market, by Country, 2021-2026 (USD Million)
11.3.3 UK
11.3.3.1 Presence of Mro Service Providers and Extension in the Air Force Will Drive Market in the UK
Table 72 UK: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 73 UK: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 74 UK: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 75 UK: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.3.4 Germany
11.3.4.1 Manufacturing and Assembly Activities are Expected to Drive the Need for Aerospace Robotics
Table 76 Germany: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 77 Germany: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 78 Germany: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 79 Germany: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.3.5 France
11.3.5.1 Anticipated to Boost Air Traffic, Subsequently Driving the Aerospace Robotics Market in the Country.
Table 80 France: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 81 France: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 82 France: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 83 France: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.3.6 Spain
11.3.6.1 Presence of Key Aircraft Manufacturers Will Drive Market
Table 84 Spain: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 85 Spain: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 86 Spain: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 87 Spain: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.3.7 Italy
11.3.7.1 Plans to Renew Airborne Fleet Expected to Propel Market in Italy
Table 88 Italy: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 89 Italy: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 90 Italy: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 91 Italy: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.3.8 Rest of Europe
Table 92 Rest of Europe: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 93 Rest of Europe: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 94 Rest of Europe: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 95 Rest of Europe: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.4 Asia-Pacific
11.4.1 COVID-19 Impact on Asia-Pacific
11.4.2 PESTLE Analysis
Figure 30 Asia-Pacific Aerospace Robotics Market Snapshot (2021)
Table 96 Asia-Pacific: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 97 Asia-Pacific: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 98 Asia-Pacific: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 99 Asia-Pacific: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
Table 100 Asia-Pacific: Aerospace Robotics Market, by Payload, 2018-2020 (USD Million)
Table 101 Asia-Pacific: Aerospace Robotics Market, by Payload, 2021-2026 (USD Million)
Table 102 Asia-Pacific: Aerospace Robotics Market, by Country, 2018-2020 (USD Million)
Table 103 Asia-Pacific: Aerospace Robotics Market, by Country, 2021-2026 (USD Million)
11.4.3 China
11.4.3.1 Increasing Number of Aging Fleets and Emphasis on Domestic Maintenance of Aircraft Components Will Fuel Growth of Market
Table 104 China: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 105 China: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 106 China: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 107 China: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.4.4 India
11.4.4.1 Procurement of Modern Robotic Systems and Make in India Initiative to Drive Market
Table 108 India: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 109 India: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 110 India: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 111 India: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.4.5 Japan
11.4.5.1 Presence of Major Manufacturers in the Country Boost the Demand for Aerospace Robotics
Table 112 Japan: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 113 Japan: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 114 Japan: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 115 Japan: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.4.6 Australia
11.4.6.1 Presence of Major MRO Service Providers Will Drive the Market
Table 116 Australia: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 117 Australia: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 118 Australia: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 119 Australia: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.4.7 Rest of Asia-Pacific
Table 120 Rest of Asia-Pacific: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 121 Rest of Asia-Pacific: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 122 Rest of Asia-Pacific: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 123 Rest of Asia-Pacific: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.5 Rest of the World
11.5.1 COVID-19 Impact on the Rest of the World
11.5.2 PESTLE Analysis: Rest of the World
Table 124 Rest of the World: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 125 Rest of the World: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 126 Rest of the World: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 127 Rest of the World: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
Table 128 Rest of the World: Aerospace Robotics Market, by Payload, 2018-2020 (USD Million)
Table 129 Rest of the World: Aerospace Robotics Market, by Payload, 2021-2026 (USD Million)
Table 130 Rest of the World: Aerospace Robotics Market, by Region, 2018-2020 (USD Million)
Table 131 Rest of the World: Aerospace Robotics Market, by Region, 2021-2026 (USD Million)
11.5.3 South America
11.5.3.1 Presence of Leading Airlines and Aircraft Manufacturers Will Fuel Market Growth
Table 132 South America: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 133 South America: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 134 South America: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 135 South America: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
11.5.4 Middle East & Africa
11.5.4.1 Increase in New Tech Startups in Aerospace Industry to Drive Market
Table 136 Middle East & Africa: Aerospace Robotics Market, by Robot Type, 2018-2020 (USD Million)
Table 137 Middle East & Africa: Aerospace Robotics Market, by Robot Type, 2021-2026 (USD Million)
Table 138 Middle East & Africa: Aerospace Robotics Market, by Application, 2018-2020 (USD Million)
Table 139 Middle East & Africa: Aerospace Robotics Market, by Application, 2021-2026 (USD Million)
12 Competitive Landscape
12.1 Introduction
12.2 Competitive Analysis of the Aerospace Robotics Market
Table 140 Key Developments by Leading Players in Aerospace Robotics Market Between 2018 and 2020
12.3 Company Evaluation Matrix
12.3.1 Star
12.3.2 Emerging Leader
12.3.3 Pervasive
12.3.4 Participant
Figure 31 Company Evaluation Matrix, 2020
12.4 Startups/SME Evaluation Quadrant
12.4.1 Progressive Companies
12.4.2 Responsive Companies
12.4.3 Dynamic Companies
12.4.4 Starting Blocks
Figure 32 Startups/SME Evaluation Quadrant, 2020
12.5 Market Share of Key Players, 2020
Figure 33 Market Share Analysis of Top Players in Aerospace Robotics market, 2020
Table 141 Aerospace Robotics Market: Degree of Competition
12.6 Ranking and Revenue Analysis of Key Players, 2020
Figure 34 Ranking of Top Players in Aerospace Robotics Market, 2020
Figure 35 Revenue Analysis of Aerospace Robotics Market Players, 2016-2020
12.7 Competitive Benchmarking
Table 142 Company Footprint (25 Companies)
Table 143 Company Technology Footprint
Table 144 Company Region Footprint
12.8 Competitive Scenario
12.8.1 Deals, 2019-2021
Table 145 Deals, 2019-2021
13 Company Profiles
13.1 Introduction
13.2 Key Players
13.2.1 Kuka Ag
Table 146 Kuka AG: Business Overview
Figure 36 Kuka Ag: Company Snapshot
Table 147 Kuka Ag: Product Launches
Table 148 Kuka Ag: Deals
13.2.2 Abb Group
Table 149 Abb Group: Business Overview
Figure 37 Abb Group.: Company Snapshot
Table 150 Abb Group: Product Launches
Table 151 Abb Group: Deals
13.2.3 Fanuc Corporation
Table 152 Fanuc Corporation: Business Overview
Figure 38 Fanuc Corporation: Company Snapshot
Table 153 Fanuc Corporation: Product Launches
Table 154 Fanuc Corporation: Deals
13.2.4 Yaskawa Electric Corporation
Table 155 Yaskawa Electric Corporation: Business Overview
Figure 39 Yaskawa Electric Corporation: Company Snapshot
Table 156 Yaskawa Electric Corporation: Product Launches
Table 157 Yaskawa Electric Corporation: Deals
13.2.5 Kawasaki Heavy Industries, Ltd
Table 158 Kawasaki Heavy Industries, Ltd: Business Overview
Figure 40 Kawasaki Heavy Industries, Ltd: Company Snapshot
Table 159 Kawasaki Heavy Industries, Ltd: Product Launches
Table 160 Kawasaki Heavy Industries, Ltd: Deals
13.2.6 Mtorres
Table 161 Mtorres: Business Overview
Table 162 Mtorres: Product Launches
Table 163 Mtorres: Deals
13.2.7 Oliver Crispin Robotics Limited
Table 164 Oliver Crispin Robotics Limited: Business Overview
13.2.8 Gudel Ag
Table 165 Gudel Ag: Business Overview
Table 166 Gudel Ag: Product Launches
13.2.9 Electroimpact Inc.
Table 167 Electroimpact Inc.: Business Overview
Table 168 Electroimpact Inc.: Deals
13.2.10 Universal Robots A/S
Table 169 Universal Robots A/S: Business Overview
Table 170 Universal Robots A/S: Product Launches
13.2.11 Swisslog Ag
Table 171 Swisslog Ag: Business Overview
Table 172 Swisslog Ag: Deals
13.2.12 Stäubli
Table 173 Stäubli: Business Overview
Table 174 Stäubli: Product Launches
13.2.13 Comau
Table 175 Comau: Business Overview
Table 176 Comau: Product Launches
Table 177 Comau: Deals
13.2.14 Festo
Table 178 Festo: Business Overview
13.2.15 Reis Robotics
Table 179 Reis Robotics: Business Overview
13.2.16 Boston Dynamics
Table 180 Boston Dynamics: Business Overview
Table 181 Boston Dynamics: Product Launches
Table 182 Boston Dynamics: Deals
13.2.17 Bosch Rexroth Ag
Table 183 Bosch Rexroth Ag: Business Overview
Table 184 Bosch Rexroth Ag: Product Launches
13.2.18 Omron Adept Technology, Inc.
Table 185 Omron Adept Technology, Inc.: Business Overview
Table 186 Omron Adept Technology, Inc.: Product Launches
13.2.19 Nachi-Fujikoshi Corp.
Table 187 Nachi-Fujikoshi Corp.: Business Overview
Table 188 Nachi-Fujikoshi Corp.: Product Launches
13.2.20 Seiko Epson
Table 189 Seiko Epson: Business Overview
13.2.21 Apex Automation and Robotics
Table 190 Apex Automation and Robotics: Business Overview
13.3 Other Players
13.3.1 Diligent Robotics
13.3.2 Bluefin Robotics
13.3.3 Righthand Robotics, Inc.
13.3.4 Rethink Robotics
14 Appendix
14.1 Discussion Guide
14.2 Knowledgestore: The Subscription Portal
14.3 Available Customizations
Executive Summary
Companies Mentioned
- ABB Group
- Apex Automation and Robotics
- Bluefin Robotics
- Bosch Rexroth Ag
- Boston Dynamics
- Comau
- Diligent Robotics
- Electroimpact Inc.
- Fanuc Corporation
- Festo
- Gudel Ag
- Kawasaki Heavy Industries, Ltd
- Kuka AG
- Mtorres
- Nachi-Fujikoshi Corp.
- Oliver Crispin Robotics Limited
- Omron Adept Technology, Inc.
- Reis Robotics
- Rethink Robotics
- Righthand Robotics, Inc.
- Seiko Epson
- Stäubli
- Swisslog Ag
- Universal Robots A/S
- Yaskawa Electric Corporation
Methodology
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Table Information
| Report Attribute | Details |
|---|---|
| No. of Pages | 214 |
| Published | December 2021 |
| Forecast Period | 2021 - 2026 |
| Estimated Market Value ( USD | $ 2.9 Billion |
| Forecasted Market Value ( USD | $ 4.9 Billion |
| Compound Annual Growth Rate | 11.4% |
| Regions Covered | Global |
| No. of Companies Mentioned | 25 |
