Hao Yanling, Professor, Doctoral Supervisor, Candidate of Chinese Academy of Engineering in 2003. He is the leader of navigation, guidance and control of national key disciplines, and has long been engaged in the independent research and development of software and hardware of integrated navigation system for ships, electronic nautical chart application system, marine environment GIS, fiber optic gyro and its inertial system. He is now the director of the Institute of Marine Carrier Navigation Equipment of the School of Automation, the director of the Academic Committee of the Engineering Research Center of the Ministry of Education for Navigation Instrumentation, the executive director of the Chinese Society of Inertial Technology, the director of the Chinese Society of Oceanography, and the chairman of the Harbin Society of Inertial Technology.
Bian Xinqian is a professor, doctoral supervisor, and a candidate for academician of Chinese Academy of Engineering in 2003, 2005 and 2009. He is the leader of Control Theory and Control Engineering, and is mainly engaged in the research of ship power positioning technology, underwater robotics technology, rescue technology, hovercraft driving control technology and so on. He has presided over and completed a number of national projects with international advanced or leading level, which have added to the domestic gaps. He enjoys the special government allowance of the State Council. Now he is the director of BeiSa Institute of Marine Device and Control Technology of School of Automation, member of Robotics Committee of Chinese Society of Automation, chief expert of "973" technology, and editor-in-chief of "Journal of Marine Science and Application".
Jin Hongzhang is a professor and doctoral supervisor. His research interests include control theory and control systems, intelligent control, complex systems, ship control systems, and ship rocking reduction devices. He enjoys the special governmental allowance of the State Council. He is currently the director of the technical committee of the Engineering Research Center of the Ministry of Education of the Ship Control Engineering, the head of the direction of the advanced ship rocking control technology, and the director of the key construction disciplines of "Ninth Five-Year Plan", "Fifteenth Five-Year Plan" and "211 Project" of the university. He is also the head of the "Ninth Five-Year Plan", "Fifteenth Five-Year Plan", "211 Project" and "Ship and Ocean Engineering Special Auxiliary Devices and Systems" and "Ship Control Engineering", which are key construction disciplines.
Sun Feng, professor, doctoral supervisor. He is mainly engaged in the research of inertial navigation technology, platform-type and short-coupled inertial navigation system, combined navigation technology, high-precision fiber-optic gyro-inertial system technology, navigation and positioning for underwater vehicles, long-term covert navigation for underwater vehicles, the earth's gravity field, geomagnetic field navigation technology. He is currently the head of the postdoctoral station of Instrumentation Science and Technology, the head of the key projects of the National Natural Science Foundation of China, a senior member of the IEEE, a senior member of the Chinese Institute of Electronics, a director of the Council of Systems Engineering and Electronics Technology, and a director of the Chinese Society of Inertial Technology.
Liu Sheng, Professor, Doctoral Supervisor. He is a famous teacher in Heilongjiang Province, and the leader of the first-level discipline of control science and engineering. His main research interests include: optimal estimation and control of stochastic systems, naval navigation and attitude control, and automated control system design and realization technology. He is currently a director of the Chinese Society of Automation, executive director of the Expert Advisory Committee of the Chinese Society of Automation, member of the Qualification Review Committee of the Chinese Automation System Engineer, deputy director of the Instrumentation Committee of the Chinese Society of Shipbuilders, deputy director of the Heilongjiang Society of Automation, and member of the editorial boards of Journal of Intelligent Systems, Journal of Automation Technology and Application, and Journal of Electrical Machines and Control.
Kejun Wang is a professor and doctoral supervisor. D. supervisor. He is the leader of Pattern Recognition and Intelligent Systems, and his main research interests include biometric identification and video surveillance technology, novel neural network theory and application, intelligent control theory and application, and bioinformatics. He is currently the director of the Institute of Pattern Recognition and Intelligent Systems, the chairman of the Artificial Intelligence Society of Heilongjiang Province, the director of the Chinese Society of Artificial Intelligence, the deputy director of the popularization committee of the Chinese Society of Artificial Intelligence, the executive director of the Automation Society of Heilongjiang Province, the deputy director of the editorial board of Journal of Intelligent Systems, and the editorial board member of the Journal of Automation Technology and Application.
Introduction of Undergraduate Programs
●Automation
To cultivate a solid theoretical foundation and scientific research ability, with basic knowledge and basic skills in automation engineering and related disciplines, and to be able to use the acquired theoretical knowledge and skills to engage in the national economy, national defense and scientific research departments in motion control, industrial process control, detection and automation instrumentation, power electronics, electronic and computer technology, information technology, and information technology. technology, electronic and computer technology, information processing, management and decision-making, modern integrated manufacturing and other areas of work of senior engineering and technical personnel.
The program is a characteristic specialty of the Ministry of Education, with three professional directions of "industrial automation", "ship automation" and "nuclear power automation".
The main courses offered: network and system analysis, analog electronics, digital electronics, automatic control theory, microcomputer principles and interface technology, automatic control components, detection and conversion technology, electromagnetic field, innovative cognition and practice, computer control systems, power electronics, motion control systems, industrial process control, control system design, nuclear power plant equipment and electrical systems, nuclear power plant operation and control, marine power automation. , Nuclear Power Plant Operation and Control, Ship Control Principles, Ship Control Devices and Systems, etc.
After graduation, students are mainly employed in research, design and production units in the fields of navigation, shipbuilding, aviation, aerospace and all kinds of automation and computer technology, with a wide range of employment. Most of the graduates go to Beijing, Shanghai, Dalian, Qingdao, Guangzhou, Shenzhen, Wuhan, Chengdu and other places of research institutes, state-owned enterprises, foreign investment and joint venture enterprises and government agencies. The one-time employment rate of the program in the past three years is 97.6%, 96.1% and 97.4% respectively.
●Measurement and Control Technology and Instrumentation
To cultivate senior engineering and technical personnel with basic knowledge and skills in measurement and control technology and instrumentation and related disciplines, and able to utilize the theoretical knowledge and skills acquired to engage in measurement and control systems, instrumentation, and other related fields of information acquisition, information processing, and information utilization in national economy, national defense and scientific research sectors.
The program has two specialized directions, "navigation technology" and "measurement and control technology".
The main courses offered: network and system analysis, analog electronic technology, digital electronic technology, automatic control theory, microcomputer principles and interface technology, automatic control elements, detection and conversion technology, innovative cognition and practice, electromagnetic field, optical measurement technology, navigation and positioning systems, inertial devices and applications, inertial navigation system principles, error theory and data processing, embedded Control System, Precision Instrument Structure Design, Motion Parameter Detection Technology, etc.
After graduation, students are mainly employed in the research, design and production units of aviation, aerospace, navigation and other measurement and control departments. The main cities of employment are: Beijing, Shanghai, Wuhan, Qingdao, Dalian, Chengdu, Shenzhen, Guangzhou, Harbin, Shenyang and so on. The one-time employment rate of the program in the past three years was 95.0%, 97.4% and 96.8% respectively.
●Electrical Engineering and Automation
To cultivate senior engineering and technical personnel with basic knowledge and basic skills in electrical engineering and related disciplines, and be able to use the theoretical knowledge and skills acquired to engage in the operation of the national economy, national defense and scientific research departments in the fields of system operation, automatic control, power electronics technology, information processing, test analysis, research and development.
The program has two major directions: "Power Electronics and Power Transmission" and "Power System and Automation".
The main courses offered: network and system analysis, analog electronics, digital electronics, power electronics, automatic control theory, microcomputer principles and interface technology, automatic control components, detection and conversion technology, electromagnetic field, electromagnetism, electrical engineering, electrical machinery and drag foundation, ship power plant, power drag control system, special motors and applications, power system analysis, power systems, relay protection, electrical parts of power plants. relay protection, electrical parts of power plants, etc.
Students are mainly engaged in electrical engineering and automation after graduation. The main employment areas are Guangzhou, Shenzhen, Harbin, Shanghai, Beijing, Tianjin, Dalian, Fujian, Zhejiang. The one-time employment rate of the program in the past three years is 98.7%, 100.0%, 97.4%.
●Detection, Guidance and Control Technology
To cultivate the basic knowledge and skills of detection, guidance and control technology and related disciplines, and be able to use the theoretical knowledge and skills acquired to engage in the national economy, national defense and scientific research in the fields of guidance and control technology, motion control, detection and automation instrumentation, electronic and computer technology, information processing, management and decision-making, modern integrated manufacturing and other fields. The program is designed for senior engineering talents in the fields of guidance and control technology, motion control, detection and automation instrumentation, electronic and computer technology, information processing, management and decision-making, and modern integrated manufacturing.
The main courses offered: network and system analysis, analog electronics, digital electronics, automatic control theory, microcomputer principles and interface technology, automatic control components, detection and conversion technology, innovative cognition and practice, electromagnetic field, theoretical mechanics, introduction to aircraft, digital signal processing, flight mechanics, inertial devices of aircraft, guidance and navigation systems of aircraft, Digital Image Processing, Guidance and Control System, Missile Servo System Principles and Design, etc.
After graduation, students can be engaged in the analysis, research and design of detection, guidance and control technology and related technology in the field of aerospace, aviation, navigation and other areas of the country's military departments and a variety of related technologies in the field of research, design and production units. The main employment areas are Beijing, Guangzhou, Shenzhen, Shanghai, Shaanxi, Hebei. The one-time employment rate of the program in the past three years is 100.0%, 100.0% and 94.3% respectively.
●Biomedical Engineering
To cultivate senior engineering and technical personnel with basic knowledge and skills in biomedical engineering and related disciplines, who are able to utilize the knowledge and engineering methods of interdisciplinary disciplines and engage in the research, development, operation, and management of the monitoring of human body information, medical instruments, medical image processing, and hospital information system in the national economy, national defense, and scientific research sectors. Talents.
Biomedical engineering is a modern life sciences and medical engineering combined with the development of interdisciplinary, engineering methods to study and solve a variety of new issues raised by the biological and medical fields of the discipline, has a very broad development prospects, is China's current priority to the development of one of the disciplines of key support.
The main courses offered: network and system analysis, modern biology, human anatomy, physiology, analog electronics, digital electronics, microcomputer principles and interface technology, biomedical sensors and measurements, biomedical signal processing, medical imaging fundamentals, medical image processing, medical instrumentation and other courses.
After graduation, students can be engaged in biomedical research and development of biomedical instrumentation and bioinformatics testing in the relevant scientific research and production departments, and can also be engaged in research, development and management in the computer information industry. The main employment areas are Beijing, Shenzhen, Guangdong, Heilongjiang, Zhejiang, Liaoning and Shandong. In the past three years, the one-time employment rate of this specialty was 97.7%, 96.9% and 81.8% respectively.