Usage of modern microelectronic components for increasing utility properties of primary radar
Provider: Ministerstvo průmyslu a obchodu
Programme: TRIO (2016-2021)
Implementation period: 01.09.16 - 31.08.19
Workplace:
Fakulta elektrotechniky a informatiky - Katedra elektroniky a rádiových systémů
Investigator: Bezoušek PavelTeam member: Roleček Jiří | Juryca Karel | Pidanič Jan
Description:
Design and research of a universal FPGA platform for a high-speed radar signal processing using advanced processing methods. New methods and algorithms of radar signal digital processing will be used for adaptive signal distortion cancelation and for suppression of unwanted reflections (clutter) with a complicated Doppler spectrum (like scattering from wind turbines). The detection range of remote low radar cross-section targets will be enhanced not only by the radar output power increase but also by pulse compression quality and effectivity improvement. The new design will permit to meet jointly the TMA and SRE operation requirements. The advanced technology of the FPGA platform will be used simultaneously for fast digital communication.
Design and research of a universal FPGA platform for a high-speed radar signal processing using advanced processing methods. New methods and algorithms of radar signal digital processing will be used for adaptive signal distortion cancelation and for suppression of unwanted reflections (clutter) with a complicated Doppler spectrum (like scattering from wind turbines). The detection range of remote low radar cross-section targets will be enhanced not only by the radar output power increase but also by pulse compression quality and effectivity improvement. The new design will permit to meet jointly the TMA and SRE operation requirements. The advanced technology of the FPGA platform will be used simultaneously for fast digital communication.
