航空航天技术协同创新

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两部门:开展航天器在轨运行、卫星遥感与通信、空间探测、商用飞机智能制造、低空航空器等关键共性计量技术研究
news flash· 2025-07-09 06:56
Core Viewpoint - The State Administration for Market Regulation and the Ministry of Industry and Information Technology have issued an action plan for metrology support in the development of new productive forces in industries from 2025 to 2030, focusing on key measurement technologies in aerospace and aviation sectors [1] Group 1: Key Measurement Technologies - The plan emphasizes research on critical common measurement technologies for spacecraft operation in orbit, satellite remote sensing and communication, space exploration, intelligent manufacturing of commercial aircraft, and low-altitude aircraft [1] - It aims to develop a prototype of a quantum natural standard for space use and conduct typical experimental validations [1] - The initiative addresses challenges such as long-term vacuum leakage in space stations and the measurement of material outgassing rates [1] Group 2: Industry Applications - The research will tackle key parameter measurement and calibration technologies for intelligent perception, positioning navigation, and energy power in low-altitude aircraft [1] - It will also focus on intelligent detection and online calibration technologies for comprehensive parameters in commercial aircraft, commercial remote sensing, and satellite internet fields [1] - The goal is to create typical application demonstrations that promote collaborative innovation in aerospace technology [1]
两部门:研究商用飞机、商业遥感与卫星互联网领域综合参数智能化检测和在线校准技术 带动航空航天技术协同创新
news flash· 2025-07-09 06:54
Core Viewpoint - The State Administration for Market Regulation and the Ministry of Industry and Information Technology have issued the "Measurement Support Action Plan for the Development of New Quality Productive Forces (2025-2030)", focusing on key measurement technology research to support national strategic emerging industries [1] Group 1: Key Areas of Focus - The plan emphasizes the need for measurement technology research in areas such as major aerospace projects, commercial aerospace, commercial aircraft, aviation engines, and the low-altitude economy [1] - It aims to develop key common measurement technologies for spacecraft in-orbit operation, satellite remote sensing and communication, space exploration, intelligent manufacturing of commercial aircraft, and low-altitude aircraft [1] Group 2: Specific Technological Goals - The initiative includes the development of a prototype for quantum natural standards for space use and conducting typical experimental validations [1] - It seeks to address challenges such as long-term vacuum leakage measurement and material outgassing rate measurement for space stations [1] - The plan also targets the calibration technology for key parameters in low-altitude aircraft, including intelligent perception, positioning navigation, and energy power [1] Group 3: Application and Innovation - Research will focus on intelligent detection and online calibration technology for comprehensive parameters in commercial aircraft, commercial remote sensing, and satellite internet fields [1] - The initiative aims to create typical application demonstrations to drive collaborative innovation in aerospace technology [1]