Title :
Viable/Inviable Polynomial-Phase Modulations for "Stretch Processing"
Author :
Yeh, Lina ; Wong, Kainam Thomas ; Mir, Hasan Saeed
Author_Institution :
Dept. of Math., Soochow Univ., Taipei, Taiwan
Abstract :
For pulse compression, "stretch processing" offers a low sampling rate, computationally simple alternative to the conventional matched-filter-based approach for radar/sonar receivers to pulse-compress the linear frequency modulated (a.k.a. "chirp," "linear chirp," or "sweep signal") radar returns. A question remains in the open literature whether this "stretch processing" method could be applied to other constant-modulus polynomial-phase modulations. A concise mathematical proof is presented to show the answer as "no"; the linear frequency modulation (LFM) is the only constant-modulus polynomial-phase-based pulse compression suitable for "stretch processing".
Keywords :
FM radar; filtering theory; polynomials; radar signal processing; radio receivers; LFM; constant-modulus polynomial-phase modulations; constant-modulus polynomial-phase-based pulse compression; linear frequency modulated radar returns; linear frequency modulation; matched-filter-based approach; mathematical proof; radar-sonar receivers; stretch processing; viable-inviable polynomial-phase modulations; Bandwidth; Chirp; Delay; Educational institutions; Modulation; Polynomials; Radar;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2012.6129680
