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On October 25, 2018, the Ministry of Science and Technology held a review meeting in Beijing for the national 863 Program major project titled “Star Grid Comprehensive Quantitative Remote Sensing System and Application Demonstration (Phase I and Phase II).†This event marked a significant milestone in China’s efforts to advance its Earth observation capabilities through integrated remote sensing technologies.
The comprehensive quantitative remote sensing system is a key approach to fully leverage the combined power of satellite, aerial, and ground-based Earth observation. It plays a crucial role in enhancing the accuracy and efficiency of remote sensing data acquisition and application. As an essential trend in global Earth observation development, it enables more precise and timely environmental monitoring and resource management.
In China, the Ministry of Science and Technology has prioritized the construction of integrated quantitative remote sensing systems as one of the four core areas in Earth observation and navigation technology. The project focuses on key technologies such as satellite-ground coordination, satellite networking, and the rapid processing of multi-scale space-time remote sensing data. It also emphasizes the generation of comprehensive remote sensing products and their authenticity validation based on satellite networking and virtual constellations. The goal is to provide proactive remote sensing services driven by events and operational support for resource and environmental monitoring.
The first and second phases of the project were led by the Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences. The first phase ran from January 2012 to June 2015, with a total investment of 96.12 million yuan, covering 11 topics, including four related to remote sensing Earth. The second phase, from January 2013 to June 2016, had a budget of 37.1 million yuan and included three topics, two of which were managed by the same institute.
By 2015, the project achieved several breakthroughs, including multi-star coupling network imaging planning, active multi-source data services, and collaborative inversion of surface parameters at the pixel level. These advancements positioned China as a leader in international remote sensing applications, transitioning from single-sensor quantitative systems to multi-star collaborative inversion systems that are independent of specific sensors.
On October 25, 2018, expert reviewers evaluated the project, reviewed its results, and confirmed that both phases met all the required objectives and technical indicators, leading to successful acceptance.
This achievement significantly enhances China’s ability to monitor critical resources such as minerals, rivers, grain production, forests, and the ecological environment. It provides essential technological support for global monitoring initiatives, including the Global Eco-Environment Remote Sensing Monitoring Report, the Digital "Belt and Road" initiative, the National Integrated Earth Observation Data Sharing Platform, and the Hainan Province and South China Sea Spatial Big Data Center.
(Source: National Remote Sensing Center, Chinese Academy of Sciences, Ministry of Science and Technology)