Title :
Least squares acceleration filtering for the estimation of signal derivatives and sharpness at extrema [and application to biological signals]
Author :
Frei, Mark G. ; Davidchack, Ruslan L. ; Osorio, Ivan
Author_Institution :
Flint Hills Sci., Lawrence, KS, USA
Abstract :
A family of finite impulse-response (FIR) filters is derived which estimate the second derivative or "acceleration" of a digitized signal. The acceleration is obtained from parabolas that are continuously fit to the signal using a least squares optimization criterion. A closed-form solution for the filter coefficients is obtained. The general approach is computationally simple, can be performed in real-time, and is robust in the presence of noise. An important application of the method, that of measuring sharpness in biologic signals, is presented using the electroencephalogram and electrocardiogram signals as examples. Furthermore, the design method is extended to derive FIR filters for estimating derivatives of arbitrary order in digital signals of biologic or other origins.
Keywords :
FIR filters; digital filters; electrocardiography; electroencephalography; filtering theory; least squares approximations; medical signal processing; signal classification; signal resolution; closed-form solution; digital filtering; digitized signal; electrocardiogram; electroencephalogram; finite impulse-response filters; least squares acceleration filtering; real-time; second derivative; sharpness at extrema; sharpness in biologic signals; signal derivatives estimation; Acceleration; Biomedical measurements; Closed-form solution; Electroencephalography; Epilepsy; Filtering; Finite impulse response filter; Least squares approximation; Least squares methods; Signal analysis; Algorithms; Artifacts; Electrocardiography; Electroencephalography; Epilepsy; Humans; Least-Squares Analysis; Signal Processing, Computer-Assisted;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
