Title :
Fuzzy logic for digital phase-locked loop filter design
Author :
Simon, Dan ; El-Sherief, Hossny
Author_Institution :
TRW Test Lab., Mesa, AZ, USA
fDate :
5/1/1995 12:00:00 AM
Abstract :
The problem of robust phase-locked loop design has attracted attention for many years, particularly since the advent of the global positioning system. This paper proposes and demonstrates the use of a fuzzy PLL to estimate the time-varying phase of a sinusoidal signal. It is shown via simulation results that fuzzy PLL´s offer performance comparable to analytically derived PLL´s (e.g. Kalman filters and H∞ estimators) when the phase exhibits high dynamics and high noise. The fuzzy PLL rules are optimized using a gradient descent method and a genetic algorithm
Keywords :
digital phase locked loops; discrete time filters; filtering theory; fuzzy logic; genetic algorithms; state estimation; time-varying systems; digital phase-locked loop filter; fuzzy PLL; fuzzy logic; genetic algorithm; gradient descent method; sinusoidal signal; time-varying phase; Analytical models; Digital filters; Fuzzy logic; Genetic algorithms; Optimization methods; Performance analysis; Phase estimation; Phase locked loops; Phase noise; Robustness;
Journal_Title :
Fuzzy Systems, IEEE Transactions on
