Apparatus detecting howling by decay profile of impulse...

Electrical audio signal processing systems and devices – One-way audio signal program distribution – Public address system

Reexamination Certificate

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C381S093000

Reexamination Certificate

active

06442280

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to a howling detecting apparatus for detecting a howl caused by acoustic feedback between a microphone and a loudspeaker in an acoustic system and a howling canceling apparatus based on this howling detecting apparatus.
2. Description of Related Art
In a PA (Public Address) system of a concert hall and an acoustic system such as SRS (Sound Room System) that includes a loudspeaker and a microphone, a sound outputted from the loudspeaker is fed back to the microphone. Consequently, the closed-loop gain of a particular frequency sometimes exceeds the unit value one, thereby causing a howl. To cancel the howl of this type, several techniques are known.
In the first technique, a situation prone to howl is intentionally created during a rehearsal while monitoring frequency characteristics of particular points in the acoustic system. From the monitoring result, it is determined that a howl occurs if a peak frequency continues over a certain reference time above a certain reference level. According to this determination, a filter for suppressing the level of the frequency band including the peak is configured by means of DSP (Digital Signal Processor). This technique is disclosed in “Automatic Howling Detecting and Canceling System Based on DSP” Tsuge et al., AES Tokyo Convention Preliminary Document 1995, pp. 112-155.
In the second technique, an impulse response of an acoustic system is measured, and an inverse signal component of howl caused by a voice fed back to the microphone is computed. To be specific, this inverse signal component is computed by convolution of the measured impulse response and the voice signal. The obtained inverse signal component is subtracted directly from an output signal to eliminate the howl. This technique is disclosed in Japanese Non-examined Patent Publication No. 56-30397.
However, the above-mentioned first technique requires to set the filter beforehand during the equipment installation. Besides, every time an environmental change takes place such as microphone relocation during the installation operation, the filter setting must be adjusted.
As for the second technique, the compensative component (namely, the inverse signal component) of a howl obtained from the measured impulse response is subtracted directly from the output signal, so that the impulse response must be measured with a fairly high accuracy. Otherwise, compensation error occurs, which leads to unintended distortion of the output signal. For the accurate measurement of the impulse response, an impulse waveform is generated in the monitoring mode beforehand to measure a feedback signal in the acoustic system. Still, a problem remains that the impulse response fluctuates with environmental changes. Especially, a large-scale hall for example involves a relatively long sound travel path, the transfer function frequently being fluctuated by temperature variation or partial air-flow variation. Hence, it is virtually impossible for large-scale halls to cancel howling with an inverse signal.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a howling detecting apparatus capable of avoiding howling detection error and compensation error and to provide a howling canceling apparatus based on this howling detecting apparatus.
It is another object of the present invention to provide a howling detecting apparatus capable of instantly coping with environmental variations without requiring preset operations and to provide a howling canceling apparatus based on this howling detecting apparatus.
The inventive howling detecting apparatus is provided in a sound system containing a microphone, a loudspeaker and an amplifier for detecting howling which may occur by feedback of sound from the loudspeaker to the microphone. In the howling detecting apparatus, a measuring section measures an impulse response of the sound system to determine a time length of a decay portion of the impulse response. A detecting section detects an occurrence of the howling when the determined time length is longer than a predetermined reference time length.
Preferably, the detecting section analyzes a frequency spectrum of the decay portion of the impulse response to determine a frequency point at which the howling occurs.
Preferably, the measuring section measures the impulse response in situ based on an input to and an output from the amplifier which is disposed between the microphone and the loudspeaker so as to determine the time length of the decay portion of the impulse response on real time. In such a case, the measuring section measures the impulse response by time-sequentially computing a spectrum of the impulse response in terms of a ratio of a power spectrum of the input to a cross spectrum of the input and the output. Otherwise, the measuring section measures the impulse response by digitally processing the input and the output without computing spectra of the input and the output.
Preferably, the measuring section periodically measures an impulse response of the sound system at a predetermined time interval which is longer than the predetermined reference time length.
Preferably, the measuring section determines the time length of the decay portion of the impulse response in terms of a duration during which a decibel of the measured impulse response falls below a threshold decibel.
The inventive howling canceling apparatus is provided in a sound system containing a microphone, a loudspeaker and an amplifier for canceling howling which may occur by feedback of sound from the loudspeaker to the microphone. In the howling canceling apparatus, a measuring section measures an impulse response of the sound system to determine a time length of a decay portion of the impulse response. A detecting section detects an occurrence of the howling when the determined time length is longer than a predetermined reference time length, and further analyzes a frequency spectrum of the decay portion of the impulse response to determine a frequency point at which the howling occurs. An attenuating section attenuates a frequency component of the sound around the determined frequency point so as to cancel the howling.
Preferably, the measuring section measures the impulse response in situ based on an input to and an output from the amplifier which is disposed between the microphone and the loudspeaker so as to determine the time length of the decay portion of the impulse response on real time.
Preferably, the measuring section periodically measures an impulse response of the sound system at a predetermined time interval which is longer than the predetermined reference time length.
Preferably, the measuring section determines the time length of the decay portion of the impulse response in terms of a duration during which a decibel of the measured impulse response falls below a threshold decibel.
Preferably, the attenuating section comprises an equalizer connected to the amplifier for variably attenuating a frequency component of the sound in response to the determined frequency point.
In an normal state where no howl is generated, an impulse response of the sound system or acoustic system includes only responses of a hall and circuits. When a howl appears, the decay time of the impulse response gets longer, the waveform thereof changing conspicuously. At the rear portion or tail portion of the impulse response at this moment, the frequency component causing the howl is dominant. Thus, the occurrence of a howl is determined by monitoring the damping tendency of the impulse response waveform. In this case, even if the predicted accuracy of the impulse waveform itself is not so high, the occurrence of a howl can be detected with high accuracy.
According to the howling detecting apparatus of the present invention, the impulse response of an acoustic system is measured. If the time from starting this measurement to a predetermined damping level is longer than a predetermined time, namely, if the tail of the impulse

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