A Loop Analysis of Adaptive Notch Filters

Adaptive notch filters have been the focus of intense research for more than three decades. Low computational requirements and good performance make them attractive for tracking frequency modulated signals. Despite the extensive literature on adaptive notch filters, algorithm extensions and new models for describing the dynamics of the notch frequency continue to be proposed. In this paper, the equivalence between adaptive notch filters using a Plain Gradient (PG) algorithm and Frequency Lock Loops (FLLs) with exponential filtering is established. FLL theory is then used to analyse the noise performance and signal tracking capabilities of adaptive notch filters. A linear model describing the dynamics of the filter adaptation process is derived and the concepts of loop and Doppler bandwidths are introduced. Criteria based on the loop and Doppler bandwidths are suggested to set the PG adaptation step. Finally, algorithm extensions based on the FLL theory are suggested. Theoretical results are supported by Monte Carlo simulations which show the validity of the analysis performed.

BORIO Daniele; 

2016-05-25

INST ENGINEERING TECHNOLOGY-IET

JRC91403

1751-9675,   

http://digital-library.theiet.org/content/journals/10.1049/iet-spr.2015.0310,    https://publications.jrc.ec.europa.eu/repository/handle/JRC91403,   

10.1049/iet-spr.2015.0310,