Since the drone detection radar can be sensitive to the operating environment, it should be optimized through environmental analysis and radio frequency analysis in advance. There are various types of radars in the range of 1km, 3km, and 5km depending on the detection range (RCS0.01), and through the experience of testing many types of radars, any type of radar can easily setup an interface with the integrated operating system.
Camouflage vehicle for testing radar and RF detection equipment. We also tested three radars and DJI rf detection equipment on this day.
Verification is difficult because the detection range and performance of each product is very different from what the manufacturer claims. We have been reviewing and testing various solutions over the years and observing the results. Except for DJI’s dedicated detection equipment, RF scan solutions usually have a detection distance of about 1-3km, and it is difficult to provide an accurate location if it is not a code hacking method. If the code hacking method fails, there is a high possibility that it will not be detected at all. Also, most solutions have to update the library periodically, which causes support problems and cost problems in the future.
In conclusion, it can be said that there is no completely ideal solution. However, it is important to integrate well with identification and neutralization through a combination of appropriate solutions according to the operating environment and purpose. We find and implement the most cost-effective method with a combination of RF detection and radar depending on the operational purpose.
Drone detection and jamming system recently supplied to the Korean military. RF detection and radar are integrated, and it can be neutralized by jamming over a wide-band frequency.