 Six-propeller Drone M6 Four-propeller Drone M4 loitering munition M40 loitering munition M76
Intelligent inspection system for wind and solar new energy UAV+visible light/infrared/video pod+intelligent inspection system The cost of wind and solar new energy equipment is high, and its stable operation requires the help of various intelligent means. Unmanned aerial vehicles can use their flexible and maneuverable characteristics to conduct precise inspections of wind and solar new energy equipment through high-power zoom, high-pixel visible light, and thermal infrared devices, timely exposing minor damage, achieving rapid positioning, and timely troubleshooting; And real-time temperature analysis of power grid equipment can be carried out through thermal infrared cameras to quickly identify equipment abnormalities; Continuous operation enables rapid inspection work day and night, providing strong support for the stable operation of wind and solar new energy equipment. Tethered emergency rescue unmanned system Drone+tethered power supply system+payload equipment Stranded drones, also known as tethered drones, are a special form of multi rotor drones that use ground power transmitted through tethered cables as a power source, replacing traditional lithium batteries. Their main feature is their ability to hover for long periods of time. The tethered drone can be powered by ground generators, and can achieve 24-hour all-weather hovering at a fixed point of 100 meters. It is widely used in various broad fields such as emergency lighting, disaster relief and rescue, geological survey, forest fire prevention, emergency communication, public security counter-terrorism, traffic supervision, news interviews, engineering monitoring, environmental monitoring, film and television shooting, scientific research, national defense and military industry. Unmanned system for cluster networking and monitoring Drone+Datalink networking module+small image transmission payload+strike device With the development of autonomous and networked communication technologies for unmanned aerial vehicles, the operational modes of unmanned aerial vehicles are also constantly evolving. Due to limitations in detection capability, payload field of view, and other factors, a single unmanned aerial vehicle is difficult to complete complex combat tasks. By adopting a collaborative approach of multiple drones, information sharing is achieved through inter aircraft communication, expanding the perception of environmental situations, achieving collaborative task allocation, collaborative search, reconnaissance, and attack, which can effectively improve the survival ability and overall combat effectiveness of drones. The emergence of unmanned cluster warfare has largely made up for the "inherent shortcomings" of drone warfare. 5G networked unmanned aerial vehicle duty system 5G connected drone duty system drone+hangar+DataLink 5G connected terminal The 5G networked unmanned aerial vehicle duty system consists of rotor drones, unmanned hangars, and 5G networked terminals. The system can be installed in open areas such as outdoor natural environments, building roofs, and playgrounds, paired with hangars and 5G internet terminals to achieve fully automatic unmanned operation. The hangar contains an intelligent airport weather station, which can provide storage, charging, and link relay locations for drones. It has functions such as one click control, high-precision takeoff and landing, remote control, autonomous charging, autonomous power outage, remote command, weather warning, and multiple security strategies. Combining 5G networking technology to break through the distance limitations of wireless links. The system is widely applicable for precision, high-frequency, and remote interactive inspection applications.
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