Method for frequency-driven generation of a multiresolution decomposition of the input to wave-based sensing arrays
First Claim
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1. A method for performing a multiresolution decomposition of an input signal to a wave-based sensing array into a plurality of outputs of spatial bandpass filters comprising the steps of:
- a) generating at least two different types of directivity pattern for each of a plurality of frequency components in the input signal for each array sensor;
at least one of the types being a center-type directivity pattern which concentrates the spatial sensitivity in a central main-lobe and at least one of the types being a surround-type directivity pattern which surrounds the direction of the center-type directivity'"'"'s main-lobe with its most sensitive region;
b) scaling the center-type and surround-type directivity patterns with frequency so that a plurality of different beam-widths are produced;
c) forming center-type and surround-type bandpass channels by isolating frequency components corresponding to the center-type and surround-type directivity patterns via bandpass-filtering performed on the input signal of a single sensor, pairwise combining the outputs the center-type channels with the surround-type channels matching in spatial scale, and determining an amplitude difference between the channels.
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Abstract
A method for generating a multiresolution decomposition of an array signal by a bank of spatial bandpass filters is disclosed. The signal processing operation is implemented through the use of the directivities of the individual array elements and does not degrade the spatial or temporal resolution of the array.
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Citations
1 Claim
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1. A method for performing a multiresolution decomposition of an input signal to a wave-based sensing array into a plurality of outputs of spatial bandpass filters comprising the steps of:
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a) generating at least two different types of directivity pattern for each of a plurality of frequency components in the input signal for each array sensor;
at least one of the types being a center-type directivity pattern which concentrates the spatial sensitivity in a central main-lobe and at least one of the types being a surround-type directivity pattern which surrounds the direction of the center-type directivity'"'"'s main-lobe with its most sensitive region;b) scaling the center-type and surround-type directivity patterns with frequency so that a plurality of different beam-widths are produced; c) forming center-type and surround-type bandpass channels by isolating frequency components corresponding to the center-type and surround-type directivity patterns via bandpass-filtering performed on the input signal of a single sensor, pairwise combining the outputs the center-type channels with the surround-type channels matching in spatial scale, and determining an amplitude difference between the channels.
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Specification