Implementation of digital systems in pseudonoise MTI radar with a reduced probability of interception
Kotelínikov Institute of Radio-engineering and Electronics of RAS,
Moscow State Institute of
Radio Engineering, Electronics and Automation (MSTU
The paper is
received on November 5, 2015
Abstract: Possible ways of using time-frequency and spatial-frequency resource for
spreading PN radar with MTI, including using randomized to receive signals, the
restructuring of the carrier frequency, multi-frequency analysis, wobble period
of pulse repetition, the use of noise bearing and in the future - full
application noise UWB radar implementing body shape uncertainty satisfying the
requirement of circular symmetry, and - having improved stealth operation.
Key words: ultra-wideband radar, expanding the range of signals,
randomization, visibility, secrecy, energy potential.