Future of Robotics – Global Forecast to 2030
로봇 시장의 미래 – 코봇, 휴머노이드 및 소프트 로봇, 그룹 로봇, 기술(인공지능, 디지털 트윈, AR/VR, 클라우드 컴퓨팅), 산업(자동차, 스마트 시티, 우주 탐사, 물류, 농업) – 2030년까지의 세계 예측
Future of Robotics Market Cobots, Humanoid & Soft Robots, Swarm Robotics, by Technology (Artificial Intelligence, Digital Twin, AR/VR, Cloud Computing), Industry (Automotive, Smart Cities, Space Exploration, Logistics, Agriculture) – Global Forecast to 2030
| 조사회사 | MarketsandMarkets |
| 출판년월 | 2025년1월 |
| 페이지 수 | 71 |
| 도표 수 | NA |
| 라이센스 | Single User License |
| 가격 | USD 4,950 |
| 구성 | 영문조사보고서 |
Report Overview
Industrial Robotics, collaborative robots, and humanoid robots are expected to lead the future of robotics. Industrial Robotics Market is expected to reach ~USD 35 billion by 2030 from ~USD 17 billion in 2024, growing at a CAGR of ~14%. Collaborative Robot Market is expected to reach ~USD 12 billion in 2030 from ~USD 2 billion, growing at a CAGR of ~35%. Humanoid Robots Market is expected to reach ~ USD 18 billion by 2030 from ~USD 2 billion in 2024, growing at a CAGR of ~40%.
산업용 로봇, 협동로봇, 휴머노이드 로봇 등이 로봇의 미래를 주도할 것으로 기대된다. 산업용 로봇 시장은 2024년 약 170억 달러에서 2030년까지 약 350억 달러에 도달하여 CAGR 약 14% 성장할 것으로 예상됩니다. 협동 로봇 시장은 약 35%의 CAGR로 성장해 2030년에는 약 20억 달러에서 약 120억 달러에 이를 것으로 예상됩니다. 휴머노이드 로봇 시장은 2024년 약 20억 달러에서 2030년까지 약 180억 달러에 도달하여 CAGR 약 40% 성장할 것으로 예상됩니다.
AI-powered robots are transforming the future of robotics by making systems smarter, more adaptive, and autonomous. These robots leverage AI’s ability to process real-time data, analyze environments, and make independent decisions, significantly enhancing efficiency and reducing errors across industries.
AI 기반 로봇은 시스템을 더욱 스마트하고 적응력이 뛰어나며 자율적으로 만들어 로봇 공학의 미래를 변화시키고 있습니다. 이러한 로봇은 실시간 데이터를 처리하고, 환경을 분석하고, 독립적인 결정을 내리는 AI의 능력을 활용하여 산업 전반에 걸쳐 효율성을 크게 향상하고 오류를 줄입니다.
AI-driven computer vision enables robots to identify objects, understand dynamic conditions, and perform precision tasks. In manufacturing, they streamline production by conducting quality inspections, assembling components with accuracy, and minimizing workplace injuries. Healthcare benefits from AI robots in surgeries, patient care, and routine tasks, improving safety and operational efficiency. In agriculture, AI-powered robots optimize crop harvesting, weed control, and productivity, reducing reliance on manual labor. Transportation is advancing with AI-driven autonomous vehicles, revolutionizing mobility, while in aerospace, these robots support space exploration by navigating uncharted terrains and assisting astronauts.
AI also enhances predictive maintenance, allowing robots to monitor performance, detect issues, and minimize downtime. As AI technology evolves, it will drive innovation across industries, enabling robots to tackle complex tasks, adapt to specific needs, and revolutionize automation for a more intelligent and efficient future.
“The rise of cobots is bridging the gap between humans and machines for a smarter future”
Collaborative robots, or cobots, are reshaping the future of robotics by enabling seamless interaction between humans and machines. Unlike traditional robots that operate in isolation, cobots are designed to work safely alongside humans, boosting productivity across a wide range of industries. By taking over repetitive and hazardous tasks, they free workers to focus on more complex and value-driven activities. Recent advancements in AI, machine learning, and sensor technologies have made cobots smarter and more adaptable, allowing them to learn tasks, adjust to new environments, and operate without physical barriers. Their versatility makes them ideal for dynamic production settings, as they can be easily reconfigured to handle different tasks. With advanced safety features like collision detection and force sensing, cobots create safer workplaces while enhancing operational efficiency. As key components of Industry 4.0, cobots integrate seamlessly with the Industrial Internet of Things (IIoT), optimizing workflows and enabling data-driven decisions. By addressing labor shortages and rising efficiency demands, cobots are driving innovation, transforming human roles in automation, and paving the way for collaborative, human-centric workplaces.
“Soft robotics is driving innovation by bringing flexible and adaptive technology to automation”
Soft robotics is transforming automation by utilizing flexible, soft materials that allow robots to mimic the natural movements of living organisms. This innovation offers several key advantages, such as enhanced adaptability, safer human-robot collaboration, and cost-effective solutions. In healthcare, soft robots are revolutionizing surgery and rehabilitation by providing delicate assistance and improving patient care with minimal risk. In agriculture, they are enabling more efficient and sustainable practices, like harvesting crops without causing damage. Soft robotics is also making waves in manufacturing and logistics, where their ability to handle delicate items with care is reducing product damage and increasing productivity. The potential of soft robots continues to grow as advances in material science and artificial intelligence drive the development of smarter, more capable systems. Researchers are focused on creating materials that improve performance while ensuring environmental sustainability. As these technologies progress, soft robotics will become an integral part of industries worldwide, complementing human abilities and enhancing operational efficiency. By emphasizing safety and flexibility, soft robots are set to drive significant innovation, reshaping industries and improving the quality of life globally.
“North America’s role in robotics innovation and technological growth”
North America is leading the way in shaping the future of robotics, with significant developments in the US, Canada, and Mexico. According to the International Federation of Robotics (IFR), the US accounts for 77% of total robot installations, driven by substantial investments in automation, especially in the automotive and electronics sectors. Companies like Tesla and General Motors are investing heavily in robotics to boost production efficiency and address labor shortages. In Canada, the automotive sector has seen a remarkable 95% increase in robot installations, reflecting a growing commitment to automation. Government incentives for robotics research and development further support this trend, fostering innovation in sectors like healthcare and logistics. In addition, Mexico is adapting to shifting economic dynamics, with nearshoring efforts bringing supply chains closer to home. As these countries continue investing in robotics and embracing technologies like AI and machine learning, North America’s robotics market is expected to grow significantly in the coming future, strengthening its position as a global leader in innovation.
Research Coverage:
This report examines the future of robotics, exploring the advancements in automation, robotic intelligence, collaborative robots (cobots), and the integration of robotics into various industries. It offers a forward-looking analysis of how robotics will evolve and shape industries by enhancing efficiency, reducing costs, and driving innovation in manufacturing, healthcare, logistics, and more.
Report Scope
This report provides an in-depth analysis of the trends that will transform robotics in the coming years. Key areas of focus include the integration of AI and machine learning with robotics, the rise of autonomous systems, soft robotics, swarm robotics, advancements in collaborative robotics, and the development of robots for new applications. Additionally, it covers the role of robotics in supporting sustainability efforts, improving productivity, and enabling new business models. These insights are invaluable for manufacturers, technology providers, investors, and policymakers looking to secure a competitive advantage while aligning their strategies with the future evolution of robotics.
Recent developments related to robotics in India
Table of Contents
1.EXECUTIVE SUMMARY
2.EVOLUTION OF ROBOTICS IN MANUFACTURING
3.ROBOTICS BY TYPE
3.1 INDUSTRIAL ROBOTS
3.2 COLLABORATIVE ROBOTS (COBOTS)
3.3 SERVICE ROBOTS
3.4 MOBILE ROBOTS
4.TECHNOLOGICAL ADVANCEMENTS IN ROBOTICS
4.1 AI IN ROBOTICS
4.2 HUMANOID ROBOTS
4.3 SOFT ROBOTICS
4.4 SWARM ROBOTICS
5.GLOBAL REGIONAL OUTLOOK ON ROBOTICS
5.1 NORTH AMERICA
5.2 EUROPE
5.3 ASIA PACIFIC
5.4 ROW
6.FUTURE OF ROBOTICS IN INDUSTRIES
6.1 AUTOMOTIVE
6.2 HEALTHCARE
6.3 ELECTRICAL & ELECTRONICS
6.4 SPACE EXPLORATION
6.5 WASTE MANAGEMENT
6.6 DEFENSE
6.7 ENTERTAINMENT
7.FUTURE OF ROBOTICS SHAPING SUSTAINABILITY
8.TECHNOLOGICAL CHALLENGES IN ROBOTICS
9.CONCLUSION: FUTURE OF ROBOTICS BEYOND 2030
*This is a tentative table of contents, and there might be a few changes during the study
