The synthetic aperture method enables the acquisition of ultra-high definition images compared to conventional imaging radar.
The sensitivity also is excellent, since it is FMCW type.
With the built-in camera, image acquired by radar can be superimposed on camera image.
• Measurement of RCS (Radar Cross Section)
• Analysis to find out where the reflection is coming from on the target.
• Detection of metal and other objects in the wall
The strength of Synthetic Aperture Imaging radar is that it scans stationary objects over time to provide higher resolution imaging.
On the other hand, imaging radar is particularly strong at imaging moving objects in near real time.
The features of each product are as follows;
The following images show (1) Radio wave absorber made by another company, and (2) Radio wave absorber made by KEYCOM, imaged by Synthetic Aperture Imaging Radar.
The closer the color of the imaging image is to blue, the more effectively the absorber absorbs radar waves from the synthetic aperture imaging radar.
This imaging result confirms the high quality of Keycom's radio wave absorber.
• We placed a radio absorber 4m away from the synthetic aperture radar and measured the peak RCS.
• As a result of the measurement, we found that the peak RCS of the radio wave absorber made by Keycom was 7dB lower than that made by other companies.
