朝阳区：AI创新应用点燃城市智慧新引擎 从实验室到生产线，从政策文件到街头巷尾，朝阳区正以"应用为王"的理念，书写着AI技术与城市发展深度融合的新篇 章。当纳米蜂群智能体在产业园区协同作业，当AIGC平台让创意迸发无限可能，一个更具智慧、更有温度的未来之城，正 从蓝图走向现实。 在京城东北隅，一场以人工智能为支点的城市变革正在悄然发生。朝阳区近日发布的《人工智能+行动方案》，正以"政策 +场景+生态"的三维驱动模式，将AI技术深度融入城市血脉，打造全国首个"人工智能创新应用之城"。 走进金融街的智能服务大厅，保险领域的AI大模型正以秒级速度完成客户风险评估。这套全流程智能系统不仅实现7×24小 时在线服务，更通过深度学习将理赔效率提升300%，让"数字员工"成为金融服务的新标配。在教育领域，飞象智能学伴已 走进20余所中小学，其个性化学习推荐系统能精准捕捉学生的知识盲区，让每个孩子都拥有专属的"AI导师"。 医疗领域的突破更具温度，北京朝阳AI视频图像分析平台已在三甲医院落地。该平台对肺部CT影像的识别准确率达98%， 让医生从重复性工作中解放，将更多精力投入疑难病例诊疗。而在工业领域，京东方显示的智能生产线 ...

Core Insights - Artificial intelligence is revolutionizing traditional industries, particularly in the field of new materials, with Beijing leading the way by hosting nearly one-third of the country's "AI + new materials" innovative enterprises [1][11]. Group 1: AI's Impact on Material Science - AI is redefining the research paradigm in material science, significantly enhancing research efficiency [2][3]. - Traditional material research, which often takes 20 to 30 years from discovery to application, is now being accelerated through AI technologies [1][4]. - For instance, a company was able to reduce the research and development cycle for a new electrolyte for electric vehicle batteries from 18 months to approximately 12 months, achieving a one-third reduction in time [3][4]. Group 2: Innovations in Smart Laboratories - Smart laboratories are transforming traditional research environments by automating processes such as material mixing, reaction monitoring, and data analysis, allowing for continuous operation without human intervention [4][5]. - These smart labs can conduct hundreds of automated experiments daily, significantly increasing research output compared to traditional methods [5][6]. - Tasks that previously took 10 to 20 days can now be completed in just 1 to 2 days due to automation and AI integration [6]. Group 3: Successful Applications and Developments - The integration of AI in new materials has led to notable achievements, such as Xiaomi's use of "Titanium Alloy" in their vehicles, which improved structural stability and reduced weight [7][8]. - Other significant developments include the creation of the world's strongest hydrogen-resistant thick plate material by China Steel Research and the design of a new generation of OLED materials without precious metals by the Beijing Academy of Science [8][9]. Group 4: Future Prospects and Strategic Plans - Beijing's strategic plan aims to enhance its "AI + new materials" innovation capabilities by 2027, targeting the development of 15 benchmark new materials products empowered by AI [11]. - The city is positioned as a hub for "AI for Science," leveraging its talent pool, application scenarios, and innovative ecosystem to drive advancements in material science [10][11].