Title :
Near Optimum Low Complexity Smoothing Loops for Dynamical Phase Estimation—Application to BPSK Modulated Signals
Author :
Yang, J. ; Geller, B.
Author_Institution :
Lab. SATIE, ENS Cachan, Cachan, France
Abstract :
This correspondence provides and analyzes a low complexity, near optimum, fixed-interval smoothing algorithm that approaches the performance of an optimal smoother for the price of two low complexity sequential estimators, i.e., two phase-locked loops (PLLs). Based on a linear approximation of the problem, a theoretical performance evaluation is given. The theoretical results are compared to some simulation results and to the Bayesian and hybrid Cramer-Rao bounds. They illustrate the good performance of the proposed smoothing PLL (S-PLL) algorithm.
Keywords :
phase estimation; phase locked loops; phase shift keying; sequential estimation; BPSK modulated signals; Bayesian bounds; binary phase shift keying; dynamical phase estimation; fixed-interval smoothing algorithm; hybrid Cramer-Rao bounds; linear approximation; low-complexity sequential estimators; phase-locked loops; theoretical results; Dynamical phase estimation; phase-locked loop (PLL); smoothing algorithm;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2009.2021452
