機器人、協作機器人、人形軟性機器人、群體機器人的未來：按技術和產業分類的全球市場 - 預測到 2030 年

Future of Robotics Market Cobots, Humanoid & Soft Robots, Swarm Robotics, by Technology, Industry - Global Forecast to 2030

出版日期: 2025年01月10日 | 出版商:

MarketsandMarkets | 英文 71 Pages | 訂單完成後即時交付

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人工智慧機器人正在透過使系統變得更加智慧、更具適應性和自主性來改變機器人技術的未來。

透過利用人工智慧處理即時資料、分析環境和做出獨立決策的能力，這些機器人將大幅提高效率並減少各行業的錯誤。人工智慧電腦視覺使機器人能夠識別物體、了解動態情況並執行精確的任務。在製造過程中，我們透過進行品質檢查、精確組裝零件以及最大限度地減少工作場所傷害來簡化生產。醫療保健將受益於手術、病人照護和日常業務中的人工智慧機器人，從而提高安全性和業務效率。在農業領域，人工智慧機器人將最佳化作物收割、除草和生產力，減少對體力勞動的依賴。人工智慧自動駕駛汽車正在推動交通運輸的發展，徹底改變出行方式。同時，在航太，這些機器人透過在未知地形中導航和協助太空人來協助太空探勘。人工智慧還將增強預測性維護，使機器人能夠監控效能並檢測問題，從而最大限度地減少停機時間。隨著人工智慧技術的發展，它將推動各行業的創新，使機器人能夠處理複雜的任務並適應特定需求，徹底改變自動化，實現更智慧、高效的未來。

“協作機器人的興起正在縮小人與機器之間的差距，以創造更智慧的未來。”

協作機器人（cobots）透過實現人與機器之間的無縫互動正在重塑機器人技術的未來。與單獨操作的傳統機器人不同，協作機器人旨在與人類一起安全地工作，從而提高各行各業的生產力。透過卸載重複性和危險的任務，工人可以專注於更複雜、更增值的活動。人工智慧、機器學習和感測器技術的最新進展使得協作機器人更加智慧、適應性更強，能夠學習任務、適應新環境並在沒有物理障礙的情況下運作。它的多功能性使其成為動態生產環境的理想選擇，因為它可以輕鬆重新配置以適應不同的任務。借助碰撞和力檢測等先進的安全功能，協作機器人可以創造更安全的職場，同時提高營運效率。作為工業 4.0 的關鍵組成部分，協作機器人與工業IoT(IIoT) 無縫整合，以最佳化工作流程並實現資料驅動的決策。透過解決勞動力短缺和日益成長的效率需求，協作機器人正在推動創新並改變人類在自動化中的角色，為以人性化的協作鋪平了道路。

“軟機器人透過為自動化帶來靈活、適應性強的技術來推動創新。”

軟機器人有望利用軟性、柔軟的材料使機器人能夠模仿生物體的自然運動，從而徹底改變自動化。這項技術創新提供了幾個關鍵優勢，包括增強的適應性、更安全的人機協作和具有成本效益的解決方案。在醫學領域，軟性機器人透過提供精細的協助並以最小的風險改善患者護理，正在徹底改變手術和復原。在農業領域，它能夠實現更有效率、更永續的操作，例如在不損壞農作物的情況下收割作物。軟性機器人也在製造業和物流中掀起波瀾，它們能夠小心地處理精密貨物，從而減少產品損壞並提高生產效率。隨著材料科學和人工智慧的進步推動更智慧、更強大的系統的發展，軟性機器人的可能性不斷擴大。研究人員致力於創造能夠提高性能同時確保環境永續性的材料。隨著這些技術的進步，軟機器人有望透過補充人類能力和提高營運效率成為全球產業的重要組成部分。軟性機器人注重安全性和靈活性，將推動重大技術創新，再形成產業並改善世界各地的生活品質。

本報告研究了全球機器人市場並展望了機器人技術的未來，探索了自動化、機器人智慧和協作機器人的進步以及機器人技術跨行業的融合。

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-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.