Mobile Robotics Market - Global Industry Analysis and forecast (2024-2030)
Mobile Robotics Market Size was valued at USD 16.79 Billion in 2023. The market is expected to grow at a CAGR of 20.2% during the forecasting period of 2024-2030, reaching nearly USD 70.1 Billion by 2030.
Format : PDF | Report ID : SMR_2464
Mobile Robotics Market Overview
A mobile robot is a device that is operated by software that identify its surroundings and move around its environment through the use of sensors and other technologies. Artificial intelligence (AI) and physical robotic component like wheels, tracks and legs work together to power mobile robots. Mobile robots are becoming increasingly popular across numerous business sectors as they are used to help with work processes and even complete tasks that are risky or difficult for human workers.
The mobile robotics market is expected to show growth during the forecast period 2024-2030, driven by a rising demand for automation in diverse industries. The capabilities of mobile robots are enhanced by the integration of advanced technologies like Artificial intelligence (AI), machine learning, sensors, and computer vision making them crucial for innovation, eventually increases the research and development level for mobile robotics companies. The demand for automation, focused on optimizing efficiency and reducing costs, provide a big opportunity.
North America held the largest market share of the mobile robotics market in 2023, due to the advancements in mobile robotics technologies and the development of mobile robots in various industrial application. In Asia-Pacific, China is expected to become a significant market for the mobile robotics market industry, due to country’s fast industrialization, large investments in automation technologies, and a growing focus on improving manufacturing innovation and efficiency.
The key market players of the Mobile robotics market are the JASCI LLC, Aethon Inc., KION Group AG, Amazon Robotic, Omron Robotics and Safety Technologies, Inc, Boston Dynamics, iRobot Corporation, and Others. Industries such as logistics, healthcare, and manufacturing drive market expansion, with specialized solutions meeting specific needs of the end users. Automated mobile robotics and guided vehicles robots witness a rapid growth, addressing tasks like material handling and order fulfilment. The healthcare sector contributes significantly, utilizing mobile robots for telepresence, patient assistance, and precision surgery, to meet the needs of an aging population. The integration of mobile robotics industry is further driven by the aging population and the growing demand for enhanced healthcare services.
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Mobile Robotics Market Dynamics
Drivers
The adoption of mobile robotics in agriculture boosts productivity, efficiency, and sustainability
The surge in adoption of mobile robotics in agriculture is significantly driving the mobile robotics market. This trend is fueled by the agricultural sector's growing need for advanced technology to increase productivity and efficiency. Farmers are turning to mobile robotics to address various challenges, such as labor shortages, the need for precision farming, and the demand for sustainable practices. Mobile robotics in agriculture includes autonomous and semi-autonomous machines like drones and ground-based robots. These technologies are equipped with advanced sensors and artificial intelligence, enabling real-time data collection and decision-making.
Drones, for instance, provide aerial views for crop monitoring, enabling farmers to detect issues such as pest infestations, nutrient deficiencies, and irrigation problems quickly. Ground-based robots, on the other hand, can perform tasks such as planting, weeding, and harvesting with high precision, reducing the need for manual labor and minimizing errors. The efficiency gains from mobile robotics are substantial. Robots can work around the clock, unlike human laborers, leading to increased productivity. They also optimize resource utilization by precisely applying water, fertilizers, and pesticides, reducing waste and environmental impact. This is crucial for sustainable farming practices, which are becoming increasingly important as environmental concerns rise. Furthermore, the integration of mobile robotics into agriculture supports the growing trend of precision agriculture. By using data-driven insights to make informed decisions, farmers can enhance crop yields and improve overall farm management. This technological shift not only boosts productivity but also contributes to the long-term sustainability of farming operations. The increasing reliance on mobile robotics in agriculture is driving significant growth in the mobile robotics market. As more farmers adopt these technologies, demand for sophisticated robots with advanced capabilities is rising. This, in turn, is spurring innovation and development in the robotics industry, leading to the creation of more efficient, versatile, and affordable robotic solutions for the agricultural sector.
Technological advancements in sensors, AI, battery tech, 5G, machine learning, and computer
New technological advancements are significantly driving the growth of the mobile robotics market. One of the key developments is the integration of advanced sensors and artificial intelligence (AI) technologies. These innovations enable robots to navigate complex environments, perform tasks autonomously, and make real-time decisions based on data analysis. For example, AI-driven robots can process vast amounts of information from their surroundings, allowing them to identify obstacles, optimize routes, and adapt to changing conditions. This level of sophistication enhances the capabilities of mobile robots, making them more versatile and efficient in various applications. Another major advancement is the development of improved battery technologies and energy-efficient systems. Modern mobile robots are now equipped with batteries that offer longer operational times and faster charging cycles.
This advancement ensures that robots can operate for extended periods without frequent interruptions for recharging, thereby increasing productivity. Additionally, energy-efficient components and designs help reduce power consumption, making mobile robots more cost-effective and environmentally friendly. The advent of 5G technology is also playing a crucial role in driving the mobile robotics market. With the high-speed and low-latency connectivity provided by 5G networks, mobile robots can communicate and collaborate more effectively. This connectivity is particularly beneficial in applications that require real-time data exchange and coordination, such as warehouse automation and autonomous transportation. The enhanced communication capabilities of 5G-enabled robots facilitate seamless integration into larger automated systems, further boosting their utility and adoption across industries. Lastly, advancements in machine learning and computer vision are transforming the capabilities of mobile robots. Machine learning algorithms allow robots to learn from experience and improve their performance over time. This self-learning capability enables robots to handle a wider range of tasks and adapt to new challenges. Computer vision, on the other hand, equips robots with the ability to perceive and interpret visual information, enhancing their ability to interact with their environment. These technologies collectively contribute to the increased functionality and intelligence of mobile robots, driving their adoption in diverse fields such as healthcare, logistics, agriculture, and manufacturing.
Opportunities
opportunities in surveillance, reconnaissance, bomb disposal, logistics, and UAVs, enhancing safety and operational efficiency.
The mobile robotics market presents significant opportunities in the defense and military sectors, driven by the need for advanced technologies to enhance operational capabilities and ensure safety. One of the primary applications is in reconnaissance and surveillance. Mobile robots equipped with advanced sensors, cameras, and communication systems can conduct surveillance missions in hazardous or inaccessible areas. These robots provide real-time intelligence and situational awareness, allowing military personnel to monitor and assess threats without exposing themselves to danger. This capability is crucial for enhancing border security, monitoring conflict zones, and gathering intelligence in areas where human presence is risky. Another key opportunity lies in the development of unmanned ground vehicles (UGVs) and unmanned aerial vehicles (UAVs) for tactical operations. UGVs can be used for tasks such as bomb disposal, logistics support, and hazardous material handling. These robots reduce the risk to human life by performing dangerous tasks autonomously or remotely controlled. UAVs, on the other hand, are employed for aerial reconnaissance, precision strikes, and surveillance. Advances in drone technology, including longer flight times, enhanced maneuverability, and improved payload capacities, are expanding their roles in military operations.
Challenges
High initial investment in mobile robotics, including development, sensors, and maintenance
The high initial investment costs associated with mobile robotics technology pose a significant challenge for widespread adoption. These costs encompass the development, manufacturing, and deployment of advanced robotic systems, which can be prohibitively expensive for many organizations. This includes expenses for sophisticated sensors, AI integration, and durable components required for reliable performance in demanding environments. Furthermore, the costs extend beyond the robots themselves to include ongoing maintenance, software updates, and potential training for operators. These factors can strain budgets, especially for smaller businesses or defense agencies with limited resources. Despite the long-term benefits of increased efficiency and reduced labor costs, the substantial upfront investment remains a key barrier to entry in the mobile robotics market.
Mobile Robotics Market Segment Analysis
By Product Type
Commonly known as drones, UAVs are used for aerial surveillance, reconnaissance, agriculture, and delivery services. They are equipped with cameras and sensors for tasks such as crop monitoring, mapping, and search and rescue operations. Advancements in UAV technology include longer flight times, better maneuverability, and advanced imaging capabilities
These are autonomous or remotely operated robots designed to move across the ground. UGVs are widely used in defence, logistics, agriculture, and industrial applications. They can perform tasks such as surveillance, bomb disposal, material transport, and precision farming. Innovations in UGVs focus on enhancing mobility, payload capacity, and autonomy.
By Application
Mobile robots are increasingly deployed in logistics and warehousing for tasks such as automated material handling, inventory management, and order fulfilment. These robots streamline operations, reduce labour costs, and enhance supply chain efficiency. For inventory management, mobile robots equipped with advanced sensors and AI can track stock levels in real-time, ensuring accurate inventory counts and reducing the risk of stockouts or overstocking. In order fulfilment, these robots can pick and pack items with high precision and speed, accelerating the fulfilment process and improving delivery times. By automating these critical tasks, mobile robots streamline operations, lower labour costs, and enhance overall supply chain efficiency, making them a valuable asset in modern logistics and warehousing environments.
The domestic application segment holds a major share of the market due to the development of AI technology and its integration in domestic activities. The growth of the segment is attributed to increasing research activities and the development of domestic cleaning robots and other mobile robots with wide application in the domestic segment.
Mobile Robotics Market Import-Export Analysis
Emerging markets in Asia-Pacific including China and India, Europe, and North America are notable importers of mobile robotics. These regions are experiencing rapid growth in sectors like manufacturing, logistics, and healthcare, driving demand for advanced robotic systems.
Countries with advanced robotics manufacturing capabilities, such as Japan, South Korea, Germany, and the United States, are major exporters of mobile robotics. These nations lead in innovation and production, exporting a significant volume of robotics to regions with growing demand.
Mobile Robotics Market Regional Analysis
North America dominated the mobile robotics market in 2023, driven by the increasing demand of mobile robotics in manufacturing, logistics, healthcare, and defence sectors. Particularly the United States and Canada, is a leading market for mobile robotics due to advancement in technology, strong research and development infrastructure, and a presence of key robotics manufacturers. High technological and innovative investments, combined with a strong industrial base, fuel the market growth. Incorporation of AI and machine learning into robotic systems, growing use of robotics in warehouse automation, and the development of robotics in the area of healthcare and defence applications, rising the demand of mobile robotics in this region.
Asia Pacific is expected to witness high growth due to strong demand for UAVs in Australia, Japan, China, India, and South Korea. Increased use in agricultural, medical, and industrial applications is expected to drive the regional market. China, Japan, South Korea, and India, is one of the fastest-growing markets for mobile robotics due to rapid industrialization, increasing automation, and rising demand for advanced technologies. Key factors driving growth include large-scale manufacturing activities, expanding e-commerce sectors, and government initiatives supporting robotics and automation. The region is also witnessing significant investments in smart agriculture and healthcare robotics. The adoption of mobile robotics is accelerating in logistics, manufacturing, and agriculture. China and India are particularly focused on integrating robotics into their burgeoning manufacturing sectors and agricultural practices.
Mobile Robotics Market Competitive Analysis
The key market players of the Mobile robotics market are JASCI LLC, Aethon Inc., KION Group AG, Amazon Robotic, Omron Robotics and Safety Technologies, Inc., Boston Dynamics, iRobot Corporation, and Others.
Boston Dynamics is one of the leading Robotics Design Companies developing and implementing highly mobile robots that can handle the most difficult tasks for the industry. Boston Dynamics develops a series of dynamic highly mobile robots including BigDog, Spot, Atlas, and Handle. The robot dog Spot is developed by Boston Dynamics and is well-known for its machine designed to work in deep underground mines and offshore oil rigs. Advanced robotics has the potential to have a positive impact on society for rapid growth by increasing productivity and safety at work. Since purchasing Kinema Systems in 2019, Boston Dynamics has been showing interest in the logistics industry. Kinema Systems produces machine vision software for robots used in warehouses. Boston Dynamics then created the wheeled robot Handle, which balanced itself massive swinging counterweight in the shape of a tail that could move boxes using a robotic arm.
iRobot, is American leading consumer robot manufacture company, designs and builds robots that empower individual to accomplish more both inside outside of the home. The company's manufactures range of floor moppers (Braava) and autonomous home vacuum cleaners (Roomba) as well as the other autonomous cleaning appliances. Its robots have solved the puzzles around the Great Pyramid of Giza, located harmful submerged oil in the Gulf of Mexico, and saved thousands of lives in areas of conflict and crisis worldwide. In the area of physical solutions like human-robot interaction, and mapping and navigation, iRobot is at the forefront of technological development.
- In May 2022, iRobot announced the new operating system and software platform for its Roomba vacuum cleaners, iRobot OS. The company stated the move from iRobot genius to iRobot OS will aid in giving their products a deeper understanding of the user’s households and the users habits, in addition to voice commands and greater objected identification.
Mobile Robotics Market Scope |
|
Market Size in 2023 |
USD 16.79 Billion |
Market Size in 2030 |
USD 70.1 Billion |
CAGR (2024-2030) |
20.2 % |
Historic Data |
2018-2022 |
Base Year |
2023 |
Forecast Period |
2024-2030 |
Segments |
By Product Type
|
By Component
|
|
By Application
|
Key Regions
- North America (United States, Canada, Mexico)
- Europe (UK, France, Germany, Italy, Spain, Sweden, Austria, Rest of Europe)
- Asia Pacific (China, S Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan, Rest of Asia Pacific)
- Middle East and Africa (South Africa, GCC, Egypt, Nigeria, Rest of MEA)
- South America (Brazil, Mexico, Rest of South America)
Key Players
- Boston Dynamics
- Teradyne Inc. (Mobile Industrial Robots ApS (MIR))
- Fetch Robotics
- JASCI LLC
- Aethon Inc.
- KION Group AG
- Amazon Robotics
- Omron Robotics and Safety Technologies, Inc (U.S)
- iRobot Corporation
- Lockheed Martin Corporation
- Softbank Robotics
- UBTECH Robotics
- Barrett Technology, LLC (U.S)
- General Dynamics Mission Systems, Inc. (U.S)
- Boeing (U.S)
- Bossa Nova Robotics (U.S)
- ECA GROUP (France)
- FANUC CORPORATION (Japan)
- GeckoSystems Intl. Corp. (U.S)
- Harvest Automation (U.S)
- Alphabet Inc. (U.S)
- Honda Motor Co., Ltd. (Japan)
- Deere & Company (U.S)
- Kongsberg Maritime (Norway)
Frequently Asked Questions
Ans: JASCI LLC, Aethon Inc., KION Group AG, Amazon Robotic, Omron Robotics and Safety Technologies, Inc., Boston Dynamics, iRobot Corporation are the key players of the mobile robotics market.
Ans) The size of the Global Mobile Robotics Market was USD 16.79 Billion in 2023.
Ans) Logistics and Warehousing, Defense, Healthcare, Domestic, Entertainment, Education, and Agriculture and forestry are the application of the global mobile robotics market.
1. Mobile Robotics Market: Research Methodology
2. Mobile Robotics Market: Competitive Landscape
2.1. Stellar Competition Matrix
2.2. Competitive Landscape
2.3. Key Players Benchmarking
2.4. Market Structure
2.4.1. Market Leaders
2.4.2. Market Followers
2.4.3. Emerging Players
2.5. Consolidation of the Market
3. Mobile Robotics Market: Executive Summary
4. Mobile Robotics Market: Dynamics
4.1. Market Drivers
4.2. Market Restraints
4.3. Market Opportunities
4.4. Market Challenges
4.5. Regulatory Landscape by Region
4.5.1. North America
4.5.2. Europe
4.5.3. Asia Pacific
4.5.4. Middle East and Africa
4.5.5. South America
5. Mobile Robotics Market Size and Forecast by Segments (by Value USD Billion)
5.1. Mobile Robotics Market Size and Forecast, by Product Type (2023-2030)
5.1.1. Unmanned Ground Vehicle (UGV)
5.1.2. Unmanned Aerial Vehicle (UAV)
5.1.3. Autonomous underwater vehicles (AUV)
5.2. Mobile Robotics Market Size and Forecast, by Component (2023-2030)
5.2.1. Hardware
5.2.1.1. Sensor
5.2.1.2. Actuator
5.2.1.3. Power Supply
5.2.1.4. Control System
5.2.1.5. Others
5.2.2. Software
5.3. Mobile Robotics Market Size and Forecast, by Application (2023-2030)
5.3.1. Logistics and Warehousing
5.3.2. Defence
5.3.3. Healthcare
5.3.4. Domestic
5.3.4.1. Floor Cleaning Robots
5.3.4.2. Lawn Cleaning Robots
5.3.4.3. Pool Cleaning Robots
5.3.4.4. Window Cleaning Robots
5.3.4.5. Others
5.3.5. Entertainment
5.3.6. Education
5.3.7. Agriculture and forestry
5.4. Mobile Robotics Market Size and Forecast, by region (2023-2030)
5.4.1. North America
5.4.2. Europe
5.4.3. Asia Pacific
5.4.4. Middle East and Africa
5.4.5. South America
6. North America Mobile Robotics Market Size and Forecast (by Value USD Billion)
6.1. North America Mobile Robotics Market Size and Forecast, by Product Type (2023-2030)
6.1.1. Unmanned Ground Vehicle (UGV)
6.1.2. Unmanned Aerial Vehicle (UAV)
6.1.3. Autonomous underwater vehicles (AUV)
6.2. North America Mobile Robotics Market Size and Forecast, by Component (2023-2030)
6.2.1. Hardware
6.2.1.1. Sensor
6.2.1.2. Actuator
6.2.1.3. Power Supply
6.2.1.4. Control System
6.2.1.5. Others
6.2.2. Software
6.3. North America Mobile Robotics Market Size and Forecast, by Application (2023-2030)
6.3.1. Logistics and Warehousing
6.3.2. Defence
6.3.3. Healthcare
6.3.4. Domestic
6.3.4.1. Floor Cleaning Robots
6.3.4.2. Lawn Cleaning Robots
6.3.4.3. Pool Cleaning Robots
6.3.4.4. Window Cleaning Robots
6.3.4.5. Others
6.3.5. Entertainment
6.3.6. Education
6.3.7. Agriculture and forestry
6.4. North America Mobile Robotics Market Size and Forecast, by Country (2023-2030)
6.4.1. United States
6.4.2. Canada
6.4.3. Mexico
7. Europe Mobile Robotics Market Size and Forecast (by Value USD Billion)
7.1. Europe Mobile Robotics Market Size and Forecast, by Product Type (2023-2030)
7.1.1. Unmanned Ground Vehicle (UGV)
7.1.2. Unmanned Aerial Vehicle (UAV)
7.1.3. Autonomous underwater vehicles (AUV)
7.2. Europe Mobile Robotics Market Size and Forecast, by Component (2023-2030)
7.2.1. Hardware
7.2.1.1. Sensor
7.2.1.2. Actuator
7.2.1.3. Power Supply
7.2.1.4. Control System
7.2.1.5. Others
7.2.2. Software
7.3. Europe Mobile Robotics Market Size and Forecast, by Application (2023-2030)
7.3.1. Logistics and Warehousing
7.3.2. Defence
7.3.3. Healthcare
7.3.4. Domestic
7.3.4.1. Floor Cleaning Robots
7.3.4.2. Lawn Cleaning Robots
7.3.4.3. Pool Cleaning Robots
7.3.4.4. Window Cleaning Robots
7.3.4.5. Others
7.3.5. Entertainment
7.3.6. Education
7.3.7. Agriculture and forestry
7.4. Europe Mobile Robotics Market Size and Forecast, by Country (2023-2030)
7.4.1. UK
7.4.2. France
7.4.3. Germany
7.4.4. Italy
7.4.5. Spain
7.4.6. Sweden
7.4.7. Austria
7.4.8. Rest of Europe
8. Asia Pacific Mobile Robotics Market Size and Forecast (by Value USD Billion)
8.1. Asia Pacific Mobile Robotics Market Size and Forecast, by Product Type (2023-2030)
8.1.1. Unmanned Ground Vehicle (UGV)
8.1.2. Unmanned Aerial Vehicle (UAV)
8.1.3. Autonomous underwater vehicles (AUV)
8.2. Asia Pacific Mobile Robotics Market Size and Forecast, by Component (2023-2030)
8.2.1. Hardware
8.2.1.1. Sensor
8.2.1.2. Actuator
8.2.1.3. Power Supply
8.2.1.4. Control System
8.2.1.5. Others
8.2.2. Software
8.3. Asia Pacific Mobile Robotics Market Size and Forecast, by Application (2023-2030)
8.3.1. Logistics and Warehousing
8.3.2. Defence
8.3.3. Healthcare
8.3.4. Domestic
8.3.4.1. Floor Cleaning Robots
8.3.4.2. Lawn Cleaning Robots
8.3.4.3. Pool Cleaning Robots
8.3.4.4. Window Cleaning Robots
8.3.4.5. Others
8.3.5. Entertainment
8.3.6. Education
8.3.7. Agriculture and forestry
8.4. Asia Pacific Mobile Robotics Market Size and Forecast, by Country (2023-2030)
8.4.1. China
8.4.2. S Korea
8.4.3. Japan
8.4.4. India
8.4.5. Australia
8.4.6. Indonesia
8.4.7. Malaysia
8.4.8. Vietnam
8.4.9. Taiwan
8.4.10. Bangladesh
8.4.11. Pakistan
8.4.12. Rest of Asia Pacific
9. Middle East and Africa Mobile Robotics Market Size and Forecast (by Value USD Billion)
9.1. Middle East and Africa Mobile Robotics Market Size and Forecast, by Product Type (2023-2030)
9.1.1. Unmanned Ground Vehicle (UGV)
9.1.2. Unmanned Aerial Vehicle (UAV)
9.1.3. Autonomous underwater vehicles (AUV)
9.2. Middle East and Africa Mobile Robotics Market Size and Forecast, by Component (2023-2030)
9.2.1. Hardware
9.2.1.1. Sensor
9.2.1.2. Actuator
9.2.1.3. Power Supply
9.2.1.4. Control System
9.2.1.5. Others
9.2.2. Software
9.3. Middle East and Africa Mobile Robotics Market Size and Forecast, by Application (2023-2030)
9.3.1. Logistics and Warehousing
9.3.2. Defence
9.3.3. Healthcare
9.3.4. Domestic
9.3.4.1. Floor Cleaning Robots
9.3.4.2. Lawn Cleaning Robots
9.3.4.3. Pool Cleaning Robots
9.3.4.4. Window Cleaning Robots
9.3.4.5. Others
9.3.5. Entertainment
9.3.6. Education
9.3.7. Agriculture and forestry
9.4. Middle East and Africa Mobile Robotics Market Size and Forecast, by Country (2023-2030)
9.4.1. South Africa
9.4.2. GCC
9.4.3. Egypt
9.4.4. Nigeria
9.4.5. Rest of MEA
10. South America Mobile Robotics Market Size and Forecast (by Value USD Billion)
10.1. South America Mobile Robotics Market Size and Forecast, by Product Type (2023-2030)
10.1.1. Unmanned Ground Vehicle (UGV)
10.1.2. Unmanned Aerial Vehicle (UAV)
10.1.3. Autonomous underwater vehicles (AUV)
10.2. South America Mobile Robotics Market Size and Forecast, by Component (2023-2030)
10.2.1. Hardware
10.2.1.1. Sensor
10.2.1.2. Actuator
10.2.1.3. Power Supply
10.2.1.4. Control System
10.2.1.5. Others
10.2.2. Software
10.3. South America Mobile Robotics Market Size and Forecast, by Application (2023-2030)
10.3.1. Logistics and Warehousing
10.3.2. Defence
10.3.3. Healthcare
10.3.4. Domestic
10.3.4.1. Floor Cleaning Robots
10.3.4.2. Lawn Cleaning Robots
10.3.4.3. Pool Cleaning Robots
10.3.4.4. Window Cleaning Robots
10.3.4.5. Others
10.3.5. Entertainment
10.3.6. Education
10.3.7. Agriculture and forestry
10.4. South America Mobile Robotics Market Size and Forecast, by Country (2023-2030)
10.4.1. Brazil
10.4.2. Mexico
10.4.3. Rest of South America
11. Company Profile: Key players
11.1. Boston Dynamics
11.1.1. Company Overview
11.1.2. Financial Overview
11.1.3. Business Portfolio
11.1.4. SWOT Analysis
11.1.5. Business Strategy
11.1.6. Recent Developments
11.2. Teradyne Inc. (Mobile Industrial Robots ApS (MIR))
11.3. Fetch Robotics
11.4. JASCI LLC
11.5. Aethon Inc.
11.6. KION Group AG
11.7. Amazon Robotics
11.8. Omron Robotics and Safety Technologies, Inc (U.S)
11.9. iRobot Corporation
11.10. Lockheed Martin Corporation
11.11. Softbank Robotics
11.12. UBTECH Robotics
11.13. Barrett Technology, LLC (U.S)
11.14. General Dynamics Mission Systems, Inc. (U.S)
11.15. Boeing (U.S)
11.16. Bossa Nova Robotics (U.S)
11.17. ECA GROUP (France)
11.18. FANUC CORPORATION (Japan)
11.19. GeckoSystems Intl. Corp. (U.S)
11.20. Harvest Automation (U.S)
11.21. Alphabet Inc. (U.S)
11.22. Honda Motor Co., Ltd. (Japan)
11.23. Deere & Company (U.S)
11.24. Kongsberg Maritime (Norway)
11.25. Others
12. Key Findings
13. Industry Recommendations