System and a method for detecting the direction of arrival of a sound signal
First Claim
1. An apparatus for automatically detecting the direction of noisy sound events, said apparatus comprised of:
- at least two sound detectors positioned in the vicinity of the apparatus, wherein each said sound detector receives a signal comprising a first event and multiple reflections;
means for estimating the envelope of each said received signal;
means for identifying the beginning of the first event of each said signal;
processing and analyzing means for detecting the direction of arrival of said noisy sound events, wherein said processing and analyzing means applies maximum likelihood methods on intervals of the signals wherein said intervals start with the beginning of the first event and end after a predetermined time in which no reflection has yet occurred.
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Abstract
The disclosed invention is a highly reliable cost effective sound direction detection system. In the preferred embodiment of the invention the system comprises a device which includes two microphones set at a spread of at lease 5 cm from each other, a digital signal processing (DSP) and a command processing board. A pattern recognition algorithm allows the system to recognize the signal of an actual event and distinguish it from echoes and reflections according to several parameters such as the signal'"'"'s time of arrival, energy, amplitude levels and frequency. The pattern of the recorded signals is analyzed according to prevalent signal patterns and then the real event can be identified. By identifying the signal of the sound event and distinguishing it from background noises and from its reflections, the system can calculate its direction of arrival (DOA) using classical sound direction detection methods.
18 Citations
9 Claims
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1. An apparatus for automatically detecting the direction of noisy sound events, said apparatus comprised of:
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at least two sound detectors positioned in the vicinity of the apparatus, wherein each said sound detector receives a signal comprising a first event and multiple reflections; means for estimating the envelope of each said received signal; means for identifying the beginning of the first event of each said signal; processing and analyzing means for detecting the direction of arrival of said noisy sound events, wherein said processing and analyzing means applies maximum likelihood methods on intervals of the signals wherein said intervals start with the beginning of the first event and end after a predetermined time in which no reflection has yet occurred. - View Dependent Claims (2, 3, 4, 5)
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6. A method for automatically detecting the direction of noisy events, said method comprising the steps of:
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sampling sound signals from at least two different sources in space; estimating each said signal'"'"'s envelope; identifying each signal'"'"'s first event; detecting the direction of arrival of sound events based on maximum likelihood by analyzing the time delay between each two signal received, wherein said analysis concentrates on the intervals that start with the beginning of the first event and end after a predetermined time wherein no reflection has yet occurred. - View Dependent Claims (7, 8, 9)
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Specification