2. Mission equipment subsystem: battlefield reconnaissance and shooting equipment, electronic countermeasures equipment, communication relay equipment, attack mission equipment, electronic technology reconnaissance equipment, nuclear and biochemical detection equipment, battlefield measurement equipment, target equipment, etc.
3. Measurement and control and information transmission subsystem: radio remote control/telemetry equipment, information transmission equipment, relay and forwarding equipment, etc.
4. Command and control subsystem: flight control and management equipment, integrated display equipment, map and flight trajectory display equipment, mission planning equipment, recording and playback equipment, information processing and communication equipment, and other information and communication interfaces;
5. Launch and recovery subsystem: equipment or devices related to launch (take-off) and recovery (landing), such as launch vehicle, launch box, booster, landing gear, recovery umbrella, blocking net, etc.
6. Support and maintenance subsystem: basic support and maintenance equipment, base support and maintenance equipment, etc.
Extended data
workflow
(1) Start-up interface: quickly realize task planning, enter the task monitoring interface, realize the functions of quick automatic archiving and separation of aerial photography tasks, and realize the dedicated and stable operation of the software.
(2) Pre-flight inspection: In order to ensure the safety of the mission, automatic inspection is carried out in combination with flight control software before taking off to ensure that the GPS, compass, pitot tube, pitch and roll of the aircraft are in good condition and avoid dangerous situations in aerial photography.
(3) Mission planning: Mission planning is carried out in three modes: regional aerial photography, navigation and mixed mode.
(4) Flight monitoring: Grasp the attitude, azimuth, airspeed, position, battery voltage, instantaneous wind speed and direction, mission time and other important states of the aircraft in real time, so as to facilitate the operators to judge the enforceability of the mission in real time and further ensure the mission safety.
(5) Image splicing: After the aerial photography task is completed, the research area is spliced by using navigation aerial images.
UAV Model Aircraft Competition;
1. The World University Student Aviation Design Competition was founded in 1986. It is the highest-level UAV model competition for college students in the world at present, and it can be called the "World Cup" of UAV model competition for scientific research.
2. Faye Wong —— "Gao 'an Cup" National Amateur Grand Prix of UAV Aviation Model started in 2003 and has been successfully held for six consecutive times in China, which has a certain influence in China.
3. The "Avic Cup" International UAV Innovation Competition was first held on 20 1 1 and has been held for three times.
4. The "National Aerospace Model Scientific Research Championship" was held in 2004, and has been held 1 1 times by 20 15. From the initial four schools to more than 70 schools. The scientific research championship aims to improve students' physique, further explore and expand the scientific and technological innovation ability of college students and relevant personnel in scientific research institutes, build a training platform for aviation industry and national defense reserve forces, explore innovative talents and test innovative works in combination with relevant scientific research tasks.
Baidu encyclopedia-UAV
Baidu Encyclopedia-UAV System