1. The larger the size of the blade, the more difficult and faster Change its angular velocity. Therefore, the multi-rotor method should not be promoted to large size. The improvement method, such as Volocopter VC200, creates heroes, and multi-rotor is the product of time. The all-in-one machine changes the experience and simplifies the flight.
2. Flight parameters: take-off weight, whole machine weight, maximum power consumption, hover power consumption, wind resistance level, maximum flight time, etc. These parameters reflect the carrying capacity, energy efficiency, environmental adaptability and continuous flight capacity of unmanned aerial vehicles.
3. UAVs use rotors to move forward and stop. The relativity of the force means that when the rotor pushes the air, the air will also push the rotor in reverse. This is the basic principle that drones can go up and down. Then, the faster the rotor rotates, the greater the lift, and vice versa.
4. The following equipment is generally installed on the flight control board of multi-rotor aircraft: electric adjustment, through the cooperation with the brushless motor, the rotation speed and rotation direction of the rotor are controlled, so as to control the flight posture.
5. Multi-rotor aircraft is also known as multi-axis aircraft; it has three or more independent power systems to carry out various control actions. Unlike single-rotor, the multi-rotor mechanical structure is simple, and it only needs to coordinate the speed between the motors to achieve control.
1. The core courses of this major mainly include Aviation Communication Technology, Principles and Structure of Aircraft, Introduction to UAV and Flight Regulations, UAV Structure and Production, UAV Flight Control Technology, etc.
2. Main courses: basics of electronic technology, C language programming, single-chip microcomputer technology, UAV assembly and maintenance, UAV operation, cartography, surveying, geographic information system principles, introduction to remote sensing, remote sensing digital image processing, photogrammetry, GIS software application, etc. This course mainly includes two parts: software simulation and physical realization.
3. Main professional courses Professional basic courses: basic surveying and mapping, surveying and mapping CAD, digital measurementDiagram, introduction to unmanned aerial vehicles, GNSS positioning measurement, computer graphics image processing, basics of photographic measurement, remote sensing technology and application.
4. Main courses: basics of circuit analysis, principle of automatic control, principle of unmanned aerial vehicle guidance and control, aircraft control and simulation, aviation data chain, reconnaissance information processing, basics of spacecraft control, etc.
5. UAV application technology is a specialized major of ordinary colleges and universities. It mainly studies the knowledge and technology of drone control, aircraft structure and drone repair. Common drone control, drone data processing, drone remote sensing and mapping, etc. are all involved in drone application technology.
Employment Prospects and Directions of Unmanned Aircraft System Engineering Majors: Engaged in design and manufacturing, operation and maintenance, data acquisition and processing in aviation, aerospace and civil aviation departments, unmanned aerial vehicle design and manufacturing enterprises, intelligent manufacturing enterprises and other aviation enterprises.
After graduating from the major of unmanned aerial vehicle system engineering, you can engage in unmanned aerial vehicle system engineering in aviation, aerospace, civil and national defense units, including unmanned aerial vehicle design.
Employment direction: mainly for the general aviation service industry, construction engineering installation industry, agricultural service industry, geographic information technology industry, media and entertainment industry, etc.
The career prospects of drone pilots are very broad. In the next few years, with the development of the drone industry, the demand for drone pilots will continue to grow in the future.With the continuous updating of technology and the expansion of application, drone pilots have a lot of room for development in various fields.
Core courses: modern air traffic management, digital signal processing, communication principle, basics of mechanical design, aerodynamics, aviation engine principle, unmanned aircraft structure, overall design of unmanned aerial vehicle system, aircraft comprehensive control system and other courses.
*
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1. The larger the size of the blade, the more difficult and faster Change its angular velocity. Therefore, the multi-rotor method should not be promoted to large size. The improvement method, such as Volocopter VC200, creates heroes, and multi-rotor is the product of time. The all-in-one machine changes the experience and simplifies the flight.
2. Flight parameters: take-off weight, whole machine weight, maximum power consumption, hover power consumption, wind resistance level, maximum flight time, etc. These parameters reflect the carrying capacity, energy efficiency, environmental adaptability and continuous flight capacity of unmanned aerial vehicles.
3. UAVs use rotors to move forward and stop. The relativity of the force means that when the rotor pushes the air, the air will also push the rotor in reverse. This is the basic principle that drones can go up and down. Then, the faster the rotor rotates, the greater the lift, and vice versa.
4. The following equipment is generally installed on the flight control board of multi-rotor aircraft: electric adjustment, through the cooperation with the brushless motor, the rotation speed and rotation direction of the rotor are controlled, so as to control the flight posture.
5. Multi-rotor aircraft is also known as multi-axis aircraft; it has three or more independent power systems to carry out various control actions. Unlike single-rotor, the multi-rotor mechanical structure is simple, and it only needs to coordinate the speed between the motors to achieve control.
1. The core courses of this major mainly include Aviation Communication Technology, Principles and Structure of Aircraft, Introduction to UAV and Flight Regulations, UAV Structure and Production, UAV Flight Control Technology, etc.
2. Main courses: basics of electronic technology, C language programming, single-chip microcomputer technology, UAV assembly and maintenance, UAV operation, cartography, surveying, geographic information system principles, introduction to remote sensing, remote sensing digital image processing, photogrammetry, GIS software application, etc. This course mainly includes two parts: software simulation and physical realization.
3. Main professional courses Professional basic courses: basic surveying and mapping, surveying and mapping CAD, digital measurementDiagram, introduction to unmanned aerial vehicles, GNSS positioning measurement, computer graphics image processing, basics of photographic measurement, remote sensing technology and application.
4. Main courses: basics of circuit analysis, principle of automatic control, principle of unmanned aerial vehicle guidance and control, aircraft control and simulation, aviation data chain, reconnaissance information processing, basics of spacecraft control, etc.
5. UAV application technology is a specialized major of ordinary colleges and universities. It mainly studies the knowledge and technology of drone control, aircraft structure and drone repair. Common drone control, drone data processing, drone remote sensing and mapping, etc. are all involved in drone application technology.
Employment Prospects and Directions of Unmanned Aircraft System Engineering Majors: Engaged in design and manufacturing, operation and maintenance, data acquisition and processing in aviation, aerospace and civil aviation departments, unmanned aerial vehicle design and manufacturing enterprises, intelligent manufacturing enterprises and other aviation enterprises.
After graduating from the major of unmanned aerial vehicle system engineering, you can engage in unmanned aerial vehicle system engineering in aviation, aerospace, civil and national defense units, including unmanned aerial vehicle design.
Employment direction: mainly for the general aviation service industry, construction engineering installation industry, agricultural service industry, geographic information technology industry, media and entertainment industry, etc.
The career prospects of drone pilots are very broad. In the next few years, with the development of the drone industry, the demand for drone pilots will continue to grow in the future.With the continuous updating of technology and the expansion of application, drone pilots have a lot of room for development in various fields.
Core courses: modern air traffic management, digital signal processing, communication principle, basics of mechanical design, aerodynamics, aviation engine principle, unmanned aircraft structure, overall design of unmanned aerial vehicle system, aircraft comprehensive control system and other courses.
*
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