Address: PLA Air Force Engineering University, Xi City, Shaanxi Province?
Postal code 7 10038?
Tel: (029)4397 157 4398427?
School profile?
Air Force Engineering University, 1999, consists of Air Force Telecommunication Engineering College, Air Force Engineering College and Air Force Missile College. It is a comprehensive military college that focuses on engineering and combines engineering with military science. Responsible for training professional engineering and technical cadres in communication, navigation, command automation and security for the Air Force. ?
The training levels of the college are divided into doctoral students, master students, undergraduates, junior college students and secondary school students, and foreign students are trained. The college covers an area of 35 hectares, with a building area of about 6.5438+0.7 million square meters. There are stadiums, swimming pools and other sports venues, and the campus is tree-lined and beautiful. It has 120 laboratory and professional room, as well as teaching facilities such as electronic experiment center, computer center, audio-visual education center and science and technology experiment center. The college library covers an area of 7,200 square meters, with more than 6,543,800 books and 6,543,800 periodicals, equipped with advanced audio-visual equipment and microcomputer management system.
Professional introduction?
Radio navigation engineering (undergraduate)?
Training objectives: air force radio navigation engineering and technical cadres and command cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for radio navigation system engineering technology and management, scientific research and teaching, and radio navigation and detachment command and management in the Air Force. ?
Radio communication (undergraduate)?
Training objectives: air force radio communication engineering and technical cadres and command cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable to engage in radio communication system engineering and technical management, scientific research and teaching, and use and maintenance of radio communication equipment in the Air Force. ?
Cable Telecommunications (Undergraduate)
Training objectives: air force cable telecommunications engineering and technical cadres and command cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for technical management, scientific research and teaching of wired communication systems in the Air Force, as well as the use and maintenance of wired communication equipment and the command and management of wired communication units. ?
Telecommunication switching engineering (undergraduate)?
Training objectives: engineering and technical cadres of the air force telecommunication exchange major. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for working in the Air Force in telecommunication switching system engineering and technical management, scientific research and teaching, and the use and maintenance of telecommunication switching equipment. ?
Optical fiber communication (undergraduate)?
Training objectives: air force optical fiber communication engineering and technical cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for the air force to engage in optical fiber communication system engineering and technical management, scientific research and teaching, and the use and maintenance of optical fiber communication equipment. ?
Command automation engineering (undergraduate)?
Training objectives: air force combat command automation system engineering and technical cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for air force command automation system, equipment maintenance, technical management and computer application. ?
Commander of communications forces (undergraduate)?
Training objectives: junior commanding cadres of air force communications forces. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for the command and management of air force communications forces. ?
Satellite communication (undergraduate)
Training objectives: air force satellite engineering and technical cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for satellite communication system engineering and technical management, scientific research and teaching, and the use and maintenance of satellite communication equipment in the Air Force. ?
Aircraft and Engine Engineering (Undergraduate)?
Training objectives: engineering and technical cadres and management cadres engaged in aircraft and engine equipment maintenance, manufacturing supervision and research. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aircraft and engine equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aviation ordnance engineering (undergraduate)?
Training objectives: engineering and technical cadres and management cadres engaged in maintenance, supervision and research of aviation ordnance equipment. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aviation ordnance equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aviation fire control engineering (undergraduate)?
Training objective: Engineering management cadres engaged in maintenance, supervision and research of aviation fire control system. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aviation fire fighting, equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aviation missile engineering (undergraduate)?
Training objective: Engineering management cadres engaged in maintenance, supervision and research of aviation missiles. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aviation missile equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aviation instrumentation and electrical engineering (undergraduate)?
Training objective: Engineering management cadres engaged in maintenance, supervision and research of aviation instruments and electrical systems. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for the maintenance and overall demonstration of aviation instruments and electrical equipment, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aircraft control engineering (undergraduate)?
Training objective: Engineering management cadres engaged in maintenance, supervision and research of aircraft control system. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aircraft control system equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aviation communication and navigation engineering (undergraduate)?
Training objectives: engineering and technical cadres and management cadres engaged in the maintenance, supervision and research of aviation communication and navigation systems. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aviation communication and navigation equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Aviation radar engineering (undergraduate)?
Training objectives: engineering and technical cadres and management cadres engaged in the maintenance, supervision and research of aviation radar. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aerial radar equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Avionics countermeasures (undergraduate)?
Training objectives: engineering and technical cadres and management cadres engaged in the maintenance, manufacturing supervision and research of aviation electronic warfare systems. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for avionics countermeasure equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Airport engineering (undergraduate)?
Training objectives: engineering and technical cadres and management cadres engaged in airport design and construction. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable to be engineering and technical cadres engaged in airport construction in the Air Force Corps of Engineers and the Air Force Logistics Construction Department. ?
Architectural engineering (undergraduate)?
Training objectives: Engineering technology and management cadres engaged in the design, construction and management of building projects. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for construction engineering technology and management in the Air Force Corps of Engineers and the Air Force Logistics Construction Department. ?
Aviation management engineering (undergraduate)?
Training objectives: Engineering management cadres engaged in aviation maintenance engineering management, theoretical research and teaching. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for aviation equipment maintenance and overall demonstration, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Computer application (undergraduate)?
Training objectives: engineering and technical cadres engaged in computer software application and airborne computer maintenance. ?
Enrollment target: local high school graduates and good soldier with high school diploma. ?
Educational system: four years. ?
Graduates are suitable for the maintenance and overall demonstration of airborne computer equipment, order supervision, maintenance and modification, life extension and retirement, scientific research and teaching. ?
Radar engineering (undergraduate)?
Training objectives: engineering and technical cadres and command cadres of the guided radar unit engaged in the use, maintenance, supervision and application research of guided radar and target indication radar equipment in the air force ground-to-air missile unit. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for the engineering and technical work of guidance radar system and target indication radar in ground-to-air missile units. ?
Radar countermeasure engineering (undergraduate)?
Training object: engineering and technical cadres who use, maintain, supervise and learn electronic countermeasures equipment of air defense missile weapon system of air force ground-to-air missile force. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable to engage in jamming and anti-jamming engineering and technical work in ground-to-air missile forces. ?
Tactical missile control and test engineering (undergraduate)?
Training objectives: engineering and technical cadres in the use, maintenance, supervision and research of surface-to-air missile control system and its test equipment in air force missile force and command cadres in technical support units. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for engineering and technical work of missile control and testing in ground-to-air missile forces. ?
Tactical missile system and engine engineering (undergraduate)?
Training objectives: engineering and command cadres of technical support units engaged in the use, maintenance, supervision and research of tactical missiles and their rocket engines in the air force missile force. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for technical work in missile structure and power engineering in ground-to-air missile forces. ?
Tactical missile launch control engineering (undergraduate)
Training objectives: Air Force ground-to-air missile units are engaged in the use of missile launch control equipment. Engineering and technical cadres in maintenance, manufacturing supervision and research work, as well as the primary command of organization and operation management of launching units.
Cadres. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for engineering and technical cadres who do missile launch control in ground-to-air missile units. ?
Missile weapon system engineering (undergraduate)?
Training objectives: engineering and technical cadres engaged in the overall and systematic analysis, demonstration and research of missile weapons in the air force ground-to-air missile force. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for the overall engineering and technical work of missile weapon system in ground-to-air missile forces. ?
Computer and application (undergraduate)?
Training objectives: engineering and technical cadres engaged in the research and development of computer software and hardware systems and their application in military technical equipment and the use and maintenance of computer equipment for air defense missile systems.
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for engineering and technical work of computer application in ground-to-air missile forces. ?
Missile mechanical equipment maintenance engineering (undergraduate)
Training objectives: engineering and technical cadres engaged in the research, use, maintenance and supervision of air defense missile machinery and equipment in the air force ground-to-air missile unit and command cadres of technical support units. ?
Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for engineering and technical work of missile machinery and equipment in ground-to-air missile forces. ?
Missile power supply engineering (undergraduate)
Training objectives: engineering and technical cadres engaged in the use, maintenance, supervision and research of missile power supply system in the air force surface-to-air missile unit and junior commanding cadres in the organization, command and operation management of power supply unit.
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Enrollment targets: local high school graduates and good soldiers with high school diplomas. ?
Educational system: four years. ?
Graduates are suitable for power supply system engineering and technical work in ground-to-air missile units.