While the popularity of consumer drones continues to increase, it has posed potential safety and security challenges for areas such as airports, prisons, nuclear power plants, and various government facilities and infrastructure. Traditional protections in these locations may not be able to adequately detect and monitor UAVs to prevent consequential incidents. AeroScope is able to identify the vast majority of popular drones on the market today by monitoring and analyzing their electronic signals to gain critical information, allowing users to protect the integrity of their flight-sensitive environment.
AeroScope is a comprehensive drone detection platform that rapidly identifies UAV communication links, gathering information such as flight status, paths, and other information in real-time. This monitoring data stream helps users make an informed response as soon as possible.
*Drone identification technologies are nascent and may be subject to various laws and regulations that continue to evolve. It is the customer’s responsibility to comply with any applicable laws concerning the use of AeroScope within the jurisdiction(s) of operation.
Stationary UnitDesigned for continuous protection of large-scale sites, the AeroScope stationary unit supports customization and construction according to the specific site and user demands to completely cover the surrounding airspace. Under ideal conditions, the system can monitor a range of up to 50 km and obtain key information from drones in as fast as 2 seconds. Monitoring data can be integrated with users’ existing security systems to efficiently provide an integrated monitoring system. This system also supports public cloud, private cloud, and local deployment, capable of meeting specific needs such as off-site monitoring and data segregation.*Note: The monitoring range of the stationary unit is determined by the type of antennas installed.
The portable unit is designed for temporary events, mobile deployments, and similar scenarios. The entire unit is enclosed in a single carrying case, which allows users to quickly begin operating in a new or mobile location. The portable unit can be powered by onboard TB50 Intelligent batteries or by an available power supply. It works flexibly on the move, providing convenient drone-monitoring solutions for emergencies and wherever stationary units are not available.
The AeroScope Backstage Management System is the core of a comprehensive drone security system. Using advanced information management technology, this system provides central monitoring, command, and investigation tools, integrating with data collected from previous flights. The AeroScope Backstage Management System is a comprehensive and convenient system for enterprises to monitor drones and help make the public airspace safer. It also supports a Software Development Kit (SDK) to meet customers’ specific demands and support the integration of different systems.
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An upgraded flagship drone platform, the Matrice 350 RTK sets a new benchmark for the industry. This next-generation drone platform features an all-new video transmission system and control experience, a more efficient battery system, and more comprehensive safety features, as well as robust payload and expansion capabilities. It is fully powered to inject innovative strength into any aerial operation.
A safe, efficient, and accurate way to obtain 3D nuclear radiation dose rate distribution. Assess the scene from a safer distance.
Extra-lightweight GPR system, suitable for medium-sized drones like DJI M300 RTK.
Comes with 3x sets of dipoles for the 300, 150, and 100 MHz.
Utilizes Real Time Sampling (RTS) with high hardware stacking, delivering high-resolution low-noise data.
Laser Falcon is sensitive only to methane, so no false readings of other gases are possible. It is a class 3R eye-safe laser.
The concept is based on Infrared Absorption Spectroscopy. The laser emits light (spectral range of 1,65 μm), which reflects back and is captured by the sensor. The outgoing and incoming signals are compared with the built-in reference cell. If methane is present along the laser path, the laser light is partially absorbed. An algorithm calculates the gas concentration in ppm×m (parts per million multiplied by meter). The value is instantly transferred to the remote control (RC) of the drone pilot and to UgCS software.
EchoLogger ECT 400S echo sounder with tilt and temperature sensor, harness, housing, and mountings for the drone.
HS Code: 90158040 (hydrographic instruments)
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