Title :
Noise and Disturbance Reduction for Heart Sounds in Cycle-Frequency Domain Based on Nonlinear Time Scaling
Author :
Tang, Hong ; Li, Ting ; Qiu, Tianshuang
Author_Institution :
Dept. of Biomed. Eng., Dalian Univ. of Technol., Dalian, China
Abstract :
Through an investigation of various clinical cases, heart sounds are found to be quasi-cyclostationary. Nonlinear time scaling from cycle-to-cycle is proposed to enhance cyclic stationarity, where nonlinear time scaling is approximated by a piecewise linear function. The techniques of cyclostationary signal processing are employed in this paper to reduce noise and disturbance in the cycle-frequency domain. Heart sounds can be theoretically recovered in the presence of additive, zero mean noise, and disturbance (perhaps non-Gaussian, nonstationary, or colored). The experimental tests in various conditions confirm the theoretical results.
Keywords :
acoustic noise; acoustic signal processing; bioacoustics; cardiology; medical signal processing; piecewise linear techniques; cycle-frequency domain; cyclostationary signal processing; disturbance reduction; heart sounds; noise reduction; non-Gaussian disturbance; nonlinear time scaling; piecewise linear function; quasicyclostationary; zero mean noise; Acoustic noise; Additive noise; Biomedical engineering; Colored noise; Frequency domain analysis; Heart; Heart valves; Lungs; Noise cancellation; Noise reduction; Piecewise linear approximation; Vibrations; Working environment noise; Cycle-frequency domain; cyclic stationarity enhancement; disturbance reduction; heart sounds; noise reduction; nonlinear time scaling; Algorithms; Electrocardiography; Heart Rate; Heart Sounds; Humans; Nonlinear Dynamics; Normal Distribution; Signal Processing, Computer-Assisted;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2009.2028693
