The 2020 project approval work of the National Key R&D Program of China was completed recently. Two projects led by Xiangtan University (XTU), the Research on Smart Judicial Scientific Theory and Scientific Supporting Technology of Judicial Reform and the Mathematical Methods for Intelligent Navigation and High-precision Fusion of Remote Sensing Data were approved.
The project leader of the Research on Smart Judicial Scientific Theory and Scientific Supporting Technology of Judicial Reform is Professor Liao Yong’an. It belongs to the key special program of the national key research and development plan "Public Security Risk Prevention and Control and Emergency Technology and Equipment" (including judicial topics), with a total project funding of 16 million yuan.
The project consists of 5 topics, namely: Scientific Theories and Models for Improving Judicial Process and Business Under Multiple Values, Research on Construction, Optimization, and Intervention of Judicial Staff's Psychological Pressure and Decision-Making Models, Judicial Resource Allocation and Trial Quality Evaluation Platform Development Oriented to Case Workload, Research on the Theory of Setting up Judicial Organs Across Administrative Regions and the Intelligent Evaluation Technology of Reform Effectiveness, and Study of Effectiveness Evaluation and Optimization Technology for the Reform of the Trial-centered Litigation System and Diversified Dispute Resolution Mechanism.
The project leader of the Mathematical Methods for Intelligent Navigation and High-precision Fusion of Remote Sensing Data is Professor Huang Yunqing. It belongs to Key Scientific Issues of Transformational Technology, a key special project of the National Key R&D Program of China, with a funding of 14.51 million yuan.
The project includes 4 topics, namely: Research on GNSS Real-time PPP Ultra-fast Convergence and High-precision Positioning Method, GNSS Highly Reliable Full-Circle Ambiguity Fixed and Deep Integrated Navigation Algorithm in Complex Environment, Multi-source Heterogeneous Space Remote Sensing Data Modeling and Calibration Application, and Optimization Theory and Application of High Resolution Imaging and Remote Sensing Information Reconstruction.