Workflow
独家对话|李治军:国产操作系统与具身智能的双向奔赴
Guan Cha Zhe Wang·2025-05-13 04:40

Core Insights - The article discusses the integration of artificial intelligence with operating systems, focusing on the development of domestic operating systems in China and the potential of embodied intelligence to reshape human-machine interaction and industrial forms [1] Group 1: Domestic Operating Systems - The importance of domestic operating systems is emphasized due to China's long-standing "lack of core technologies," where "core" refers to operating systems and "chips" refers to hardware [2] - The increasing attention from the government, industry, and market towards operating systems is seen as a positive development for the sector [2] - Current global exploration in the field of robotic operating systems is highlighted, with no mature solutions available yet [3] Group 2: Embodied Intelligence - Embodied intelligence is defined as the integration of artificial intelligence with the physical world, with robots being a key manifestation of this concept [5] - The article outlines the potential applications of robots in various sectors, particularly in B-end markets due to labor shortages and harsh production environments [3][5] - The future of embodied intelligence may involve multi-agent systems, where robots and other intelligent entities operate autonomously in various environments [5] Group 3: Entrepreneurial Insights - The gap between theoretical research and practical application in entrepreneurship is discussed, emphasizing the need for solutions that meet actual market demands rather than just technical specifications [7] - The importance of rapid product iteration based on user feedback is stressed, rather than striving for a perfect product before market introduction [8] - The article notes that the development of embodied intelligence requires a collaborative effort across various sectors, including education and industry [18] Group 4: Industry Trends and Challenges - The article mentions that the development of robotic systems may follow a trajectory similar to that of the mobile phone industry, with a focus on creating ecosystems and applications [11] - The challenges faced by mobile manufacturers entering the robotics field are highlighted, particularly the need for collaboration with industry professionals to navigate the complexities of robotics [11] - The lack of mature competing robotic operating systems is noted, with few companies currently exploring similar solutions [12] Group 5: Investment and Support - The article discusses the challenges of monetizing operating systems, with examples of major systems like Windows and Android illustrating the long investment cycles required [21] - The support from patient capital is emphasized as crucial for the development of operating systems, which often face skepticism regarding their profitability [21] - Collaboration with national innovation centers is highlighted as a means to secure funding and resources for early-stage projects [22] Group 6: Future Directions - The article suggests that the future of embodied intelligence and robotics will require a systemic approach involving government guidance, patient capital, and continuous innovation from technology workers [18][24] - The need for interdisciplinary talent to drive the integration of operating systems and robotics is emphasized, as well as the importance of real-world data for model training [24] - The potential for embodied intelligence to revolutionize human capabilities and societal functions is discussed, indicating a transformative future [18]