Abstract :
General conditions are derived for an (N=KL2)-point discrete chirp with chirp rate a and carrier frequency b to have minimal support on the LtimesKL Zak transform lattice. Earlier, it has been shown that when the normalized chirp parameters amacr= aK, amacr= aK 2, and 2bmacr = 2bK are integers, the last two of the same parity, then the discrete chirp is supported at KL points. Here, this condition is relaxed, by allowing amacr to be a rational number, i.e., amacr = n/d, n, disin Z, (n,d)=1, and requiring only that amacr and bmacrL be integers of arbitrary parity. It is shown that the support of the Zak space chirp satisfying the new condition then increases to dKL points. The results provide foundations for future constructions of sophisticated radar and communications signal processing algorithms. Examples of direct applications of the Zak space conditions in chirp parameter estimation, chirp detection, and chirp de-noising are included
Keywords :
frequency modulation; radar signal processing; signal representation; Zak space support characterization; communication signal processing; discrete chirp; radar signal processing; sparse representation; Chirp; Discrete Fourier transforms; Discrete transforms; Fourier transforms; Frequency; Gaussian processes; Lattices; Parameter estimation; Radar signal processing; Signal processing algorithms; Chirp parameter estimation; Gauss sum; Zak space conditions; Zak transform; Zak transform support; finite chirp; linear FM chirp;
