Mobile Robots in Manufacturing

Mobile Robots in Manufacturing Market Outlook

As of 2023, the global mobile robots in manufacturing market is valued at approximately USD 15 billion, with a projected compound annual growth rate (CAGR) of around 20% from 2025 to 2035. This robust growth is primarily driven by the increasing need for automation to enhance efficiency and reduce labor costs within manufacturing processes. The advent of Industry 4.0 and the integration of advanced technologies like artificial intelligence and machine learning in mobile robotics are also significant contributors. Furthermore, the surge in e-commerce has heightened the demand for efficient logistics and inventory management solutions, propelling the adoption of mobile robots in various manufacturing sectors. As industries continue to evolve, the emphasis on safety and precision in operations further underscores the role of mobile robots in modern manufacturing environments.

Growth Factor of the Market

The mobile robots in manufacturing market is experiencing rapid growth due to several key factors that are transforming the landscape of industrial automation. Firstly, the shift towards smart factories, characterized by interconnected devices and real-time data analytics, has made mobile robots essential for maintaining operational efficiency. Companies are increasingly investing in automation to streamline processes such as material handling and assembly, which are critical to meeting growing consumer demands. Additionally, the continuous advancements in robotic technologies, including improved navigation systems and enhanced AI capabilities, are driving the adoption of mobile robots in the manufacturing sector. The increasing labor shortages in various regions are also motivating manufacturers to explore automation solutions, which can effectively mitigate these challenges while improving productivity. Lastly, the growing focus on workplace safety has led organizations to deploy mobile robots to handle hazardous tasks, thereby minimizing the risk of accidents and enhancing employee well-being.

Key Highlights of the Market

• Significant growth in demand for automated solutions in manufacturing to improve operational efficiency and reduce costs.
• Technological advancements in robotics, such as AI and machine learning, driving innovation in mobile robot capabilities.
• Rising labor shortages across various industries prompting the need for automation.
• Growing emphasis on workplace safety and efficiency influencing the adoption of mobile robots.
• Expansion of smart factory initiatives encouraging the integration of robotics in manufacturing processes.

By Product Type

Automated Guided Vehicles:

Automated Guided Vehicles (AGVs) are a cornerstone of the mobile robots in manufacturing segment, designed to transport materials across facilities with minimal human intervention. These vehicles use predefined paths and may be equipped with various navigation technologies such as magnetic strips, lasers, or vision systems. The flexibility and reliability of AGVs make them ideal for repetitive tasks in environments like warehouses and assembly lines. Their ability to operate in complex layouts while ensuring safety has made them indispensable in sectors such as automotive manufacturing and pharmaceuticals. As manufacturers seek to optimize logistics and reduce costs, the demand for AGVs continues to rise, solidifying their position in the automation landscape.

Autonomous Mobile Robots:

Autonomous Mobile Robots (AMRs) represent a significant evolution in mobile robotics, equipped with advanced sensors and artificial intelligence that enable them to navigate dynamically in unstructured environments. Unlike AGVs that rely on fixed paths, AMRs can adapt to changing surroundings and make real-time decisions, making them ideal for tasks such as inventory management and material handling. Their deployment enhances operational flexibility and efficiency, allowing manufacturers to respond swiftly to market demands. The ongoing advancements in AI and sensor technology are driving the adoption of AMRs, as industries like electronics and food and beverage recognize their potential to streamline operations and improve productivity.

Collaborative Mobile Robots:

Collaborative Mobile Robots, or cobots, are designed to work alongside humans, enhancing productivity while ensuring safety. These robots can perform tasks that require human-like dexterity and decision-making, providing support in processes such as assembly, quality inspection, and other labor-intensive activities. The integration of collaborative robots into manufacturing workflows fosters a synergistic environment where human workers can focus on more complex tasks while relying on robots for repetitive duties. Their ease of programming and adaptability to various tasks make them an attractive choice for small to medium-sized enterprises aiming to enhance operational capabilities without extensive investments in traditional automation systems.

Industrial Robotic Arms:

Industrial robotic arms are pivotal in the mobile robotics segment, playing a vital role in automation across diverse manufacturing processes. These robots are highly versatile, capable of executing a range of tasks such as welding, assembly, painting, and packaging with precision and speed. Their programmability allows manufacturers to customize operations according to specific production needs, significantly improving efficiency and reducing cycle times. The integration of robotic arms with other automated solutions, such as conveyor systems and vision technologies, enhances their effectiveness in high-volume production environments. As industries increasingly demand higher quality and efficiency, the adoption of industrial robotic arms continues to surge.

Automated Storage and Retrieval Systems:

Automated Storage and Retrieval Systems (AS/RS) are crucial components of the mobile robots in manufacturing market, offering efficient solutions for inventory management and warehouse operations. These systems utilize mobile robots to automate the process of storing and retrieving goods, significantly reducing the time and labor involved in manual handling. As the demand for rapid order fulfillment grows, particularly in e-commerce and retail sectors, the value of AS/RS in optimizing space utilization and improving operational workflows becomes evident. By integrating AS/RS with advanced data analytics and inventory management systems, businesses can achieve superior accuracy and efficiency in their supply chain operations.

By Application

Material Handling:

Material handling is one of the primary applications of mobile robots in manufacturing, focusing on the efficient movement, protection, storage, and control of materials throughout the manufacturing process. Mobile robots designed for material handling can transport raw materials, components, and finished products within manufacturing facilities, significantly reducing the risk of damage and improving workflow efficiency. Their automated nature minimizes human intervention, leading to faster processing times and reduced labor costs. As manufacturers look to streamline operations while maintaining quality and safety, the adoption of mobile robots for material handling tasks is expected to continue its upward trajectory.

Assembly:

In the assembly application, mobile robots play a crucial role in streamlining operations and enhancing precision. These robots can perform repetitive tasks such as component placement, fastening, and quality checks, improving overall assembly line efficiency. The integration of robotic systems in assembly processes not only reduces the potential for human error but also allows for more consistent production quality. As manufacturing becomes increasingly sophisticated, the reliance on mobile robots for assembly tasks is growing, enabling companies to achieve higher throughput and shorter lead times while reallocating skilled labor to more complex, value-added tasks.

Welding and Soldering:

Welding and soldering applications benefit significantly from the precision and consistency provided by mobile robots. These robotic systems can perform complex welding tasks with high accuracy, reducing the likelihood of defects and ensuring structural integrity in manufactured products. The automation of welding and soldering processes not only enhances efficiency but also improves workplace safety by minimizing human exposure to hazardous environments. As the automotive and aerospace industries continue to demand superior quality and efficiency, the adoption of mobile robots for welding applications is expected to increase in the coming years, driving further innovation in this field.

Packaging and Palletizing:

Mobile robots are increasingly utilized in packaging and palletizing applications, where they automate the process of packaging goods for shipment and organizing products onto pallets. These robots can handle various packaging tasks, including boxing, labeling, and sealing, significantly improving the speed and accuracy of the packaging process. By automating these repetitive tasks, manufacturers can enhance productivity while reducing labor costs and minimizing the risk of injury associated with manual handling. As consumer demand for faster delivery times continues to rise, the role of mobile robots in packaging and palletizing will undoubtedly expand.

Inspection and Testing:

Inspection and testing processes are vital to ensuring product quality and compliance with industry standards. Mobile robots equipped with advanced sensors and imaging technologies can perform real-time inspections, identifying defects or deviations from specifications with high accuracy. Automating these processes not only enhances the reliability of inspections but also reduces the time required for quality control. Consequently, manufacturers can achieve higher standards of quality assurance while minimizing waste and rework. The increasing emphasis on quality in manufacturing will likely drive the adoption of mobile robots in inspection and testing applications.

By Industry

Automotive:

The automotive industry is one of the largest adopters of mobile robots, utilizing them for a variety of applications, including material handling, assembly, and welding. The fast-paced nature of automotive manufacturing necessitates high levels of efficiency and precision, making robotic solutions indispensable. Automated Guided Vehicles (AGVs) and Autonomous Mobile Robots (AMRs) help streamline the movement of parts and materials, while robotic arms perform critical assembly and welding operations with unmatched accuracy. As the industry moves towards electric vehicles and autonomous driving technologies, the demand for advanced robotic solutions is expected to increase, further solidifying mobile robots' role in automotive manufacturing.

Electronics:

The electronics industry relies heavily on mobile robots for efficient production and assembly processes. With the growing complexity of electronic devices, manufacturers are utilizing mobile robots to handle delicate components and perform precise assembly tasks. The integration of robotics in this industry enhances productivity and minimizes the risk of damage during assembly. Moreover, the use of mobile robots for inspection and testing ensures that electronic products meet stringent quality standards. As the demand for smart devices and consumer electronics continues to rise, the adoption of mobile robots in electronics manufacturing is expected to expand significantly.

Food and Beverage:

The food and beverage industry is increasingly adopting mobile robots to improve efficiency and safety in manufacturing and distribution processes. These robots can handle various tasks, from material handling to packaging and palletizing, ensuring compliance with hygiene standards. By automating repetitive tasks, manufacturers can reduce labor costs and enhance productivity while maintaining high standards of quality and safety. Additionally, mobile robots can assist in inventory management, helping businesses optimize their supply chain operations. The growing focus on automation within the food and beverage sector will likely drive further investment in mobile robotics solutions.

Pharmaceuticals:

In the pharmaceuticals industry, mobile robots are essential for maintaining stringent quality control and regulatory compliance. These robots facilitate tasks such as material handling, inspection, and packaging, ensuring that products are manufactured in a controlled environment. The ability of mobile robots to operate with precision and reliability significantly reduces the risk of contamination and errors. As the demand for pharmaceutical products continues to grow, particularly in the wake of global health challenges, the reliance on automation and mobile robotics will increase, fostering further advancements in pharmaceutical manufacturing processes.

Aerospace:

The aerospace industry is adopting mobile robots to enhance operations and meet the rigorous standards required for manufacturing aircraft and spacecraft components. These robots are employed in various applications, including material handling, assembly, and inspection, where precision and reliability are crucial. The use of mobile robots allows manufacturers to streamline workflows, reduce lead times, and improve safety in complex manufacturing environments. Furthermore, as the aerospace industry embraces advanced manufacturing techniques and technologies, the integration of mobile robotics will become increasingly critical to maintaining competitiveness and efficiency.

By User

Automotive Manufacturers:

Automotive manufacturers are at the forefront of adopting mobile robots to enhance production efficiency and ensure quality in their operations. The demand for vehicles continues to grow globally, prompting manufacturers to seek innovative solutions that can streamline processes such as assembly, material handling, and inspection. By integrating mobile robots into their production lines, automotive manufacturers can achieve higher throughput while reducing labor costs and minimizing the risk of human error. As the industry evolves, particularly with the shift to electric and autonomous vehicles, the adoption of mobile robotics is expected to expand significantly.

Electronics Manufacturers:

Electronics manufacturers are increasingly relying on mobile robots to meet the challenges of high precision and rapid production cycles. With the proliferation of smart devices and rapidly changing consumer demands, the need for automation in the electronics manufacturing sector has never been greater. Mobile robots facilitate various tasks, from assembly to inspection, allowing manufacturers to maintain quality while increasing output. The flexibility and adaptability of mobile robots make them a valuable asset in the fast-paced electronics market, enabling manufacturers to respond quickly to new product releases and market trends.

Food and Beverage Companies:

Food and beverage companies are leveraging mobile robots to optimize their manufacturing processes and ensure compliance with health and safety regulations. The automation of material handling, packaging, and inspection tasks enhances operational efficiency and minimizes labor costs. Additionally, mobile robots help maintain high hygiene standards, which are essential in the food industry. As consumer preferences shift towards healthier and more diverse food options, the demand for automation in food and beverage manufacturing is expected to rise, driving further investment in mobile robotics solutions.

Pharmaceutical Companies:

Pharmaceutical companies are increasingly turning to mobile robots to enhance production efficiency and maintain strict quality control in their operations. The complex nature of pharmaceutical manufacturing requires precise handling of materials and adherence to regulatory standards. Mobile robots facilitate various applications, including material transport, inspection, and packaging, helping manufacturers streamline their processes while ensuring compliance with industry regulations. As the demand for pharmaceutical products continues to grow, particularly in response to global health challenges, mobile robotics will play a crucial role in meeting production goals and improving operational efficiency.

Aerospace Companies:

Aerospace companies are adopting mobile robots to enhance productivity and improve safety in manufacturing processes. The aerospace industry requires high precision and reliability in the production of aircraft and spacecraft components, making mobile robots invaluable for tasks such as assembly, inspection, and material handling. The integration of robotics into aerospace manufacturing allows companies to streamline workflows and reduce lead times. Furthermore, as the industry embraces advanced manufacturing techniques, the role of mobile robots in ensuring quality and efficiency will continue to grow, supporting the aerospace sector's ongoing innovation.

By Region

In North America, the mobile robots in manufacturing market is experiencing significant growth, driven by the increasing adoption of automation technologies across various industries. The region's strong manufacturing base, coupled with ongoing investments in research and development, positions it as a leader in the mobile robotics market. By 2035, North America is projected to hold a substantial market share, with a CAGR of approximately 21% during the forecast period. This growth is fueled by the demand for automated solutions in sectors such as automotive, electronics, and pharmaceuticals, where efficiency and precision are paramount.

Europe is another key player in the global mobile robots in manufacturing market, characterized by a strong focus on automation and Industry 4.0 initiatives. The region's commitment to technological advancements and sustainability is driving the adoption of mobile robots in manufacturing processes. By 2035, Europe is expected to account for a significant portion of the market, with an estimated CAGR of around 19%. Countries like Germany and the United Kingdom are leading the way, as manufacturers seek to enhance operational efficiency and maintain a competitive edge in the global market. The increasing emphasis on safety, quality, and compliance further propels the demand for mobile robotics solutions in the region.

Opportunities

The mobile robots in manufacturing market presents numerous opportunities for businesses looking to enhance their operations through automation. As industries continue to evolve, the demand for advanced technologies that improve efficiency and reduce costs will rise. Companies can capitalize on this trend by investing in research and development to create innovative robotic solutions tailored to the specific needs of different sectors. Furthermore, partnerships and collaborations with technology providers can facilitate the integration of cutting-edge robotics into existing manufacturing processes, enhancing competitiveness and driving growth. The increasing focus on sustainability and environmentally friendly practices in manufacturing also opens up opportunities for the development of energy-efficient mobile robots that align with global sustainability goals.

Additionally, the expansion of e-commerce and the growing need for rapid order fulfillment are significant drivers for the mobile robots in manufacturing market. As businesses seek to optimize their supply chains and improve inventory management, the adoption of mobile robotics solutions will become increasingly important. Companies that offer comprehensive automation solutions, including software integration and support services, will be well-positioned to thrive in this evolving landscape. The ongoing advancements in artificial intelligence, machine learning, and sensor technologies will continue to create opportunities for the development of smarter, more capable mobile robots that can adapt to diverse applications and environments, further enhancing their appeal in the manufacturing sector.

Threats

Despite the promising growth prospects of the mobile robots in manufacturing market, several threats could hinder its progress. One of the primary challenges is the high initial investment required for implementing robotic automation solutions. Many small and medium-sized enterprises may find it difficult to justify the costs associated with deploying mobile robots, which could limit market expansion in certain sectors. Additionally, the rapid pace of technological advancements poses a threat to companies that may struggle to keep up with the latest innovations. As new capabilities and functionalities emerge, businesses must continually invest in upgrades and training, which can strain resources and operational budgets.

Moreover, concerns related to cybersecurity and data privacy are increasingly relevant as more manufacturing processes become interconnected. The potential for cyberattacks on automated systems poses significant risks, particularly in industries where sensitive information is handled. Companies must prioritize cybersecurity measures to protect their operations and maintain customer trust. Furthermore, the potential for job displacement due to automation remains a critical societal concern. As mobile robots take over various tasks, there may be resistance from the workforce, leading to challenges in employee morale and retention. Addressing these concerns proactively will be essential for ensuring the sustainable growth of the mobile robots in manufacturing market.

Competitor Outlook

• ABB Ltd.
• Fanuc Corporation
• KUKA AG
• Yaskawa Electric Corporation
• iRobot Corporation
• Omron Adept Technologies, Inc.
• Clearpath Robotics Inc.
• Mobile Industrial Robots (MiR)
• Fetch Robotics, Inc.
• Robot System Products AB
• BlueBotics SA
• Swisslog Holding AG
• Locus Robotics
• Vecna Robotics
• Geek+ Robotics

The competitive landscape of the mobile robots in manufacturing market is characterized by a diverse range of players, from established multinational corporations to innovative startups. Major companies such as ABB Ltd., Fanuc Corporation, and KUKA AG dominate the market with their extensive portfolios of robotic solutions, catering to various manufacturing applications. These companies are continuously investing in research and development to enhance their product offerings and maintain a competitive edge. Additionally, collaborations and partnerships with technology providers and industry stakeholders are common strategies employed by these major players to expand their market presence and drive innovation.

Emerging companies, such as Fetch Robotics and Geek+ Robotics, are making significant strides in the mobile robots segment by introducing innovative solutions that address specific industry needs. These companies often focus on niche markets or specialized applications, allowing them to differentiate themselves from larger competitors. The rapid advancements in artificial intelligence and machine learning technologies are also shaping the competitive landscape, as companies leverage these innovations to develop smarter, more autonomous mobile robots that can adapt to diverse manufacturing environments.

Overall, the mobile robots in manufacturing market is witnessing intense competition, with companies continually striving to enhance their offerings and capture market share. As the demand for automation continues to grow, the landscape will likely evolve further, with new entrants and technological advancements playing a crucial role in shaping the future of mobile robotics in manufacturing. Major players are expected to focus on expanding their geographical reach, enhancing their service capabilities, and investing in next-generation technologies to capitalize on the opportunities presented by this burgeoning market.

• 1 Appendix

  • 1.1 List of Tables
  • 1.2 List of Figures

• 2 Introduction

  • 2.1 Market Definition
  • 2.2 Scope of the Report
  • 2.3 Study Assumptions
  • 2.4 Base Currency & Forecast Periods

• 3 Market Dynamics

  • 3.1 Market Growth Factors
  • 3.2 Economic & Global Events
  • 3.3 Innovation Trends
  • 3.4 Supply Chain Analysis

• 4 Consumer Behavior

  • 4.1 Market Trends
  • 4.2 Pricing Analysis
  • 4.3 Buyer Insights

• 5 Key Player Profiles

  • 5.1 KUKA AG
    • 5.1.1 Business Overview
    • 5.1.2 Products & Services
    • 5.1.3 Financials
    • 5.1.4 Recent Developments
    • 5.1.5 SWOT Analysis
  • 5.2 ABB Ltd.
    • 5.2.1 Business Overview
    • 5.2.2 Products & Services
    • 5.2.3 Financials
    • 5.2.4 Recent Developments
    • 5.2.5 SWOT Analysis
  • 5.3 BlueBotics SA
    • 5.3.1 Business Overview
    • 5.3.2 Products & Services
    • 5.3.3 Financials
    • 5.3.4 Recent Developments
    • 5.3.5 SWOT Analysis
  • 5.4 Geek+ Robotics
    • 5.4.1 Business Overview
    • 5.4.2 Products & Services
    • 5.4.3 Financials
    • 5.4.4 Recent Developments
    • 5.4.5 SWOT Analysis
  • 5.5 Locus Robotics
    • 5.5.1 Business Overview
    • 5.5.2 Products & Services
    • 5.5.3 Financials
    • 5.5.4 Recent Developments
    • 5.5.5 SWOT Analysis
  • 5.6 Vecna Robotics
    • 5.6.1 Business Overview
    • 5.6.2 Products & Services
    • 5.6.3 Financials
    • 5.6.4 Recent Developments
    • 5.6.5 SWOT Analysis
  • 5.7 Fanuc Corporation
    • 5.7.1 Business Overview
    • 5.7.2 Products & Services
    • 5.7.3 Financials
    • 5.7.4 Recent Developments
    • 5.7.5 SWOT Analysis
  • 5.8 iRobot Corporation
    • 5.8.1 Business Overview
    • 5.8.2 Products & Services
    • 5.8.3 Financials
    • 5.8.4 Recent Developments
    • 5.8.5 SWOT Analysis
  • 5.9 Swisslog Holding AG
    • 5.9.1 Business Overview
    • 5.9.2 Products & Services
    • 5.9.3 Financials
    • 5.9.4 Recent Developments
    • 5.9.5 SWOT Analysis
  • 5.10 Fetch Robotics, Inc.
    • 5.10.1 Business Overview
    • 5.10.2 Products & Services
    • 5.10.3 Financials
    • 5.10.4 Recent Developments
    • 5.10.5 SWOT Analysis
  • 5.11 Clearpath Robotics Inc.
    • 5.11.1 Business Overview
    • 5.11.2 Products & Services
    • 5.11.3 Financials
    • 5.11.4 Recent Developments
    • 5.11.5 SWOT Analysis
  • 5.12 Robot System Products AB
    • 5.12.1 Business Overview
    • 5.12.2 Products & Services
    • 5.12.3 Financials
    • 5.12.4 Recent Developments
    • 5.12.5 SWOT Analysis
  • 5.13 Yaskawa Electric Corporation
    • 5.13.1 Business Overview
    • 5.13.2 Products & Services
    • 5.13.3 Financials
    • 5.13.4 Recent Developments
    • 5.13.5 SWOT Analysis
  • 5.14 Mobile Industrial Robots (MiR)
    • 5.14.1 Business Overview
    • 5.14.2 Products & Services
    • 5.14.3 Financials
    • 5.14.4 Recent Developments
    • 5.14.5 SWOT Analysis
  • 5.15 Omron Adept Technologies, Inc.
    • 5.15.1 Business Overview
    • 5.15.2 Products & Services
    • 5.15.3 Financials
    • 5.15.4 Recent Developments
    • 5.15.5 SWOT Analysis

• 6 Market Segmentation

  • 6.1 Mobile Robots in Manufacturing Market, By User
    • 6.1.1 Automotive Manufacturers
    • 6.1.2 Electronics Manufacturers
    • 6.1.3 Food and Beverage Companies
    • 6.1.4 Pharmaceutical Companies
    • 6.1.5 Aerospace Companies
  • 6.2 Mobile Robots in Manufacturing Market, By Industry
    • 6.2.1 Automotive
    • 6.2.2 Electronics
    • 6.2.3 Food and Beverage
    • 6.2.4 Pharmaceuticals
    • 6.2.5 Aerospace
  • 6.3 Mobile Robots in Manufacturing Market, By Application
    • 6.3.1 Material Handling
    • 6.3.2 Assembly
    • 6.3.3 Welding and Soldering
    • 6.3.4 Packaging and Palletizing
    • 6.3.5 Inspection and Testing
  • 6.4 Mobile Robots in Manufacturing Market, By Product Type
    • 6.4.1 Automated Guided Vehicles
    • 6.4.2 Autonomous Mobile Robots
    • 6.4.3 Collaborative Mobile Robots
    • 6.4.4 Industrial Robotic Arms
    • 6.4.5 Automated Storage and Retrieval Systems

• 7 Competitive Analysis

  • 7.1 Key Player Comparison
  • 7.2 Market Share Analysis
  • 7.3 Investment Trends
  • 7.4 SWOT Analysis

• 8 Research Methodology

  • 8.1 Analysis Design
  • 8.2 Research Phases
  • 8.3 Study Timeline

• 9 Future Market Outlook

  • 9.1 Growth Forecast
  • 9.2 Market Evolution

• 10 Geographical Overview

  • 10.1 Europe - Market Analysis
    • 10.1.1 By Country
      • 10.1.1.1 UK
      • 10.1.1.2 France
      • 10.1.1.3 Germany
      • 10.1.1.4 Spain
      • 10.1.1.5 Italy
  • 10.2 Asia Pacific - Market Analysis
    • 10.2.1 By Country
      • 10.2.1.1 India
      • 10.2.1.2 China
      • 10.2.1.3 Japan
      • 10.2.1.4 South Korea
  • 10.3 Latin America - Market Analysis
    • 10.3.1 By Country
      • 10.3.1.1 Brazil
      • 10.3.1.2 Argentina
      • 10.3.1.3 Mexico
  • 10.4 North America - Market Analysis
    • 10.4.1 By Country
      • 10.4.1.1 USA
      • 10.4.1.2 Canada
  • 10.5 Middle East & Africa - Market Analysis
    • 10.5.1 By Country
      • 10.5.1.1 Middle East
      • 10.5.1.2 Africa
  • 10.6 Mobile Robots in Manufacturing Market by Region

• 11 Global Economic Factors

  • 11.1 Inflation Impact
  • 11.2 Trade Policies

• 12 Technology & Innovation

  • 12.1 Emerging Technologies
  • 12.2 AI & Digital Trends
  • 12.3 Patent Research

• 13 Investment & Market Growth

  • 13.1 Funding Trends
  • 13.2 Future Market Projections

• 14 Market Overview & Key Insights

  • 14.1 Executive Summary
  • 14.2 Key Trends
  • 14.3 Market Challenges
  • 14.4 Regulatory Landscape

Segments Analyzed in the Report

The global Mobile Robots in Manufacturing market is categorized based on

By Product Type

• Automated Guided Vehicles
• Autonomous Mobile Robots
• Collaborative Mobile Robots
• Industrial Robotic Arms
• Automated Storage and Retrieval Systems

By Application

• Material Handling
• Assembly
• Welding and Soldering
• Packaging and Palletizing
• Inspection and Testing

By Industry

• Automotive
• Electronics
• Food and Beverage
• Pharmaceuticals
• Aerospace

By User

• Automotive Manufacturers
• Electronics Manufacturers
• Food and Beverage Companies
• Pharmaceutical Companies
• Aerospace Companies

By Region

• North America
• Europe
• Asia Pacific
• Latin America
• Middle East & Africa

Key Players

• ABB Ltd.
• Fanuc Corporation
• KUKA AG
• Yaskawa Electric Corporation
• iRobot Corporation
• Omron Adept Technologies, Inc.
• Clearpath Robotics Inc.
• Mobile Industrial Robots (MiR)
• Fetch Robotics, Inc.
• Robot System Products AB
• BlueBotics SA
• Swisslog Holding AG
• Locus Robotics
• Vecna Robotics
• Geek+ Robotics