UAVOS has introduced profitable flight testing of a sophisticated optoelectronic payload system built-in aboard the ApusNeo 18, a solar-powered high-altitude pseudo-satellite developed in partnership with Mira Aerospace. The stratospheric drone payload demonstrated spectacular earth commentary capabilities throughout current check flights performed from 15,000 meters altitude.
Stratospheric Drone Imaging Efficiency
The gyro-stabilized Payload Onboard Gadget captured 472 km of electro-optical imagery with a floor sampling distance of 69 cm per pixel through the check mission. The system additionally acquired infrared imagery at 480 cm per pixel decision. Working from stratospheric altitudes, the drone-mounted digital camera’s footprint lined 53.9 km², whereas its steerable design enabled entry to any location inside a 54.5 x 12.3 km space at any given time.
In response to Aliaksei Stratsilatau, Founder and CEO of UAVOS, “The Payload Onboard Gadget (POD) has already been efficiently examined for wildfire monitoring in Spain. When built-in with the HAPS ApusNeo 18, which is able to surveying tons of of kilometres in a single flight, the system delivers a complete situational image, bettering operational effectivity, lowering prices, and rising total mission effectiveness.”
Technical Specs for Excessive-Altitude Operations
The POD weighs simply 3.6 kg with a compact kind issue measuring 845 mm in size, 128 mm in width, and 142 mm in peak. The stratospheric drone payload options an onboard pc for real-time information processing and a UAVOS radio modem geared up with a ten W amplifier, enabling high-throughput information transmission to floor management stations.
To take care of dependable efficiency within the excessive stratospheric setting, the system incorporates built-in heating and cooling methods that guarantee optimum working situations for onboard sensors. The POD additionally features a foldable, servo-driven antenna that may be stowed in a protected place when required. The mechanical design allows video and picture acquisition with roll stabilization of as much as ±50 levels, increasing operational flexibility for the high-altitude drone platform.
UAVOS develops and manufactures safety and industrial unmanned aerial methods, together with multi-role UAVs, proprietary autopilots, superior communication methods, and UAV parts. The corporate is actively concerned in stratospheric analysis and improvement tasks, having beforehand developed the HiDRON stratospheric glider for meteorological missions and the HAPS ApusDuo autonomous plane.
Extra data is offered from UAVOS’ web site.
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Ian McNabb is a journalist specializing in drone know-how and life-style content material at Dronelife. He’s based mostly between Boston and NH and, when not writing, enjoys mountaineering and Boston space sports activities.
