从“晒技能”到“赛技能”（经济聚焦）

Group 1: Core Insights - The Global Developer Pioneer Conference and International Embodied Intelligence Skills Competition (GDPS 2025) was held in Shanghai from December 12 to 14, showcasing the integration of artificial intelligence into real-world applications [1] - The competition highlighted advancements in embodied intelligence across three main tracks: industrial production, life services, and professional services, demonstrating the technology's breakthroughs and industrial potential [1] Group 2: Industrial Production - In the industrial manufacturing competition, humanoid robots showcased their ability to assemble precision parts with a mechanical arm that could identify three different specifications of components within 0.3 seconds and adjust gripping force with a precision of 0.01 millimeters [2] - A team developed a high-torque joint module that reduced the friction coefficient by 30% through optimized material formulation and transmission structure, emphasizing the importance of tolerances in software engineering [2] - The establishment of the Shanghai Humanoid Robot Pilot Alliance aims to unify full-body control and fine operation planning, addressing the need for collaborative skills in embodied intelligence [2] Group 3: Life Services - The life services competition featured robots assisting elderly individuals, demonstrating capabilities such as voice interaction and personalized community activity recommendations [3] - A home service robot showcased its ability to autonomously plan paths, identify ingredients, and recommend recipes based on user health data, highlighting the personalized service potential of embodied intelligence [3] - The integration of flexible and personalized service models in daily life is expected to open new avenues for industrial development [3] Group 4: Professional Services - The professional services track tested embodied intelligence in emergency rescue and medical rehabilitation scenarios, emphasizing the technology's performance in extreme environments [4] - A rescue robot successfully navigated a simulated disaster scene, demonstrating its ability to calculate optimal paths and maintain stability while locating simulated victims [4] - In rehabilitation, a robot assisted stroke patients by adjusting support based on their exertion levels, while a surgical robot performed precise operations with an error margin of 0.1 millimeters, showcasing the critical balance of precision and care in medical applications [6]