Title :
Filterbank implementation of a window based Gabor transform
Author_Institution :
Dept. of Nat. Defence, PMO Aurora, Ottawa, Ont.
Abstract :
Joint time-frequency analysis (JFTA) can be used in applications such as speech, music, radar, and sonar, where the frequency content of a signal during successive time intervals must be determined. Gabor (1946) presented a JFTA technique where a signal could be described as the sum of shifted and modulated Gaussian basis functions which are weighted by complex constants. Further developments have permitted the practical implementation of the Gabor transform on digital computers. However, these techniques were not well suited for real time processing of digital sequences of very long or of infinite length due to the requirement to receive and store the entire signal prior to processing. A solution to this is presented in the form of a window based Gabor transform (WBGT), which is suitable for filterbank implementations. It is developed based on the orthogonal like discrete Gabor transform (OLGT) and is implemented in filterbanks
Keywords :
band-pass filters; digital filters; filtering theory; signal processing; time-frequency analysis; transforms; complex constants; digital computers; digital sequences; filterbank implementation; frequency content; joint time-frequency analysis; modulated Gaussian basis functions; music; orthogonal like discrete Gabor transform; parallel input filter bank; radar; real time processing; shifted Gaussian basis functions; sonar; speech; successive time intervals; window based Gabor transform; Application specific integrated circuits; Band pass filters; Digital signal processing chips; Discrete transforms; Filter bank; Fourier transforms; Frequency synthesizers; Gabor filters; Signal analysis; Signal processing;
Conference_Titel :
Electrical and Computer Engineering, 1996. Canadian Conference on
Conference_Location :
Calgary, Alta.
Print_ISBN :
0-7803-3143-5
DOI :
10.1109/CCECE.1996.548267
