Research Fields:

Detection Technology and Automation Equipment:

This field is a second-level discipline under the first-level discipline of Control Science and Engineering, with the right to grant doctoral and master's degrees. This research focuses on the design theory, engineering methods, and implementation technologies for integrating information detection technology with complex automation equipment. It aims to develop automation equipment and engineering systems with advanced functions by combining information, communication, and control technologies. This discipline focuses on cultivating senior versatile technical personnel in the fields of information system design, environment sensing and AI, signal detection, and complex circuit design. The main research directions include: space embedded system design, intelligent industrial Internet system, AI and optimal control, graphic image processing, and digital-analog hybrid circuit design technology. With information detection technology as the core, the research targets complex systems and devices within the context of modern industry, emerging sectors, and space applications. The main courses are: Engineering Optimization Method, Matrix Theory, Digital Signal Processing, Pattern Recognition, Digital Image Engineering System Design, Intelligent System Principle, and Embedded System Design. Graduates of this program are mainly engaged in R&D, design, production, operations, and system maintenance related to information detection and automation systems within advanced information technology companies and national key research institutes. They have received high praise from employers.

Navigation, Guidance and Control:

This field is a second-level discipline under the first-level discipline of Control Science and Engineering, with the right to grant doctoral and master's degrees. This discipline has made remarkable achievements in various areas, including advanced navigation technology, all-source navigation and integrated navigation technology, new autonomous navigation and positioning technology, precision guidance and intelligent control technology, and target detection and positioning technology. Notably, X-ray pulsar navigation technology and quantum timing and positioning technology are at the forefront both domestically and internationally. The main research directions of include: advanced navigation technology and application, target detection and tracking technology, precision guidance technology, and intelligent control technology. The main courses are: Engineering Optimization Method, Matrix Theory, Digital Signal Processing, Navigation Principle, Digital Image Processing, Intelligent Control Theory and Application, and Image Processing and Imaging Guidance.