Title :
The discrete polynomial-phase transform
Author :
Peleg, Shimon ; Friedlander, Benjamin
Author_Institution :
Nexus Telecommunication Syst., Givatayim, Israel
fDate :
8/1/1995 12:00:00 AM
Abstract :
The discrete polynomial-phase transform (DPT) is a new tool for analyzing constant-amplitude polynomial-phase signals. The main properties of the DPT are its ability to identify the degree of the phase polynomial and to estimate its coefficients. The transform is robust to deviations from the ideal signal model, such as slowly-varying amplitude, additive noise and nonpolynomial phase. The authors define the DPT, derive its basic properties, and use it to develop computationally efficient estimation and detection algorithms. A statistical accuracy analysis of the estimated parameters is also presented
Keywords :
parameter estimation; polynomials; signal detection; signal processing; statistical analysis; transforms; additive noise; computationally efficient estimation; constant-amplitude polynomial-phase signals; detection algorithms; discrete polynomial-phase transform; estimated parameters; nonpolynomial phase; phase polynomial; slowly-varying amplitude; statistical accuracy analysis; Acceleration; Acoustic noise; Additive noise; Discrete transforms; Doppler radar; Parameter estimation; Phase estimation; Polynomials; Signal analysis; Time frequency analysis;
Journal_Title :
Signal Processing, IEEE Transactions on
