Gong Xiang-yi, Zhou Liang-zhu. New Optimum Algorithm for Frequency Estimation from Coherent Pulses[J]. Journal of Electronics & Information Technology, 2004, 26(10): 1594-1600.
Citation:
Gong Xiang-yi, Zhou Liang-zhu. New Optimum Algorithm for Frequency Estimation from Coherent Pulses[J]. Journal of Electronics & Information Technology, 2004, 26(10): 1594-1600.
Gong Xiang-yi, Zhou Liang-zhu. New Optimum Algorithm for Frequency Estimation from Coherent Pulses[J]. Journal of Electronics & Information Technology, 2004, 26(10): 1594-1600.
Citation:
Gong Xiang-yi, Zhou Liang-zhu. New Optimum Algorithm for Frequency Estimation from Coherent Pulses[J]. Journal of Electronics & Information Technology, 2004, 26(10): 1594-1600.
A new optimum algorithm is proposed for frequency estimation from a train of coherent pulses in additive Gaussian noise, named it as multi-stages frequency estimation algorithm. It is shown to be a optimum algorithm with small computation and high corrective possibility. Simulations are given to support these conclusion.
Torrieri D J. Statistical theory of passive location systems, IEEE Trans[J].on Aerospace and Electronic Systems.1984, 20(2):183-198[2]Stocia P. List of references on spectral line analysis[J].Signal Processing.1993, 31(3):329-340[3]IEEE Standard for Digitizing Waveform Recorders, 1994.[4]Rife D C, Boorstyn R R. Single-tone parameter estimation from discrete-time observation[J].IEEE Trans. on Information Theory.1974, 20(5):591-598[5]Becker K. New algorithm for frequency estimation from short coherent pulses of a sinusoidal signal. IEE Proc.-F, 1990, 137(4): 283-288.[6]Kay S M. A fast and accurate single frequency estimation[J].IEEE Trans. on Acoust., Speech,Signal Processing.1989, 37(2):1987-1990[7]Volcker B, Handel P. Frequency estimation from proper sets of correlations[J].IEEE Trans. on Signal Processing.2002, 50(4):791-802