Abstract: A method for estimating the sensitivity in an environment of a sound emission detector device capable of detecting a physical phenomenon producing a spatially limited sound emission, said detector device comprising a transducer array, said method comprising a) receiving at least one signal from at least one respective transducer of the transducer array, said array being place within said environment, b) estimating from the at least one signal received at step a) a detection threshold value of a spatially limited source sound emission parameter, c) estimating from the detection threshold value estimated at step b) a quantity representative of a magnitude of the physical phenomenon, d) displaying the quantity estimated at step c) so as to inform the user of the sensitivity of the detector.

Abstract: An internal failure detection method of an external failure detection system for industrial equipment, the external failure detection system including an array of transducers, the method including: (a) receiving a plurality of signals, each signal being measured by a corresponding transducer of the transducers array; (b) for each pair of transducers among a number of pairs of transducers, calculating at least one value of a correlation parameter between the pair of signals received at step (a) at the pair of transducers, by correlating at least part of the signals or of invertible transforms thereof; (c) for at least one transducer among the number of pairs of transducers, estimating from the values of the correlation parameters calculated at step (b) if the transducer is working properly.

Abstract: A system includes: an acoustic detection device comprising a plurality of microphones; an output or communication means for sending a signal or a message; a memory for storing a location of at least one region of interest and an associated threshold value; a processing circuit for detecting a location and a sound pressure level of a potential sound source; and for testing if the detected sound source is situated in a Region of Interest, and for testing if the detected Sound Pressure Level is higher than the threshold, and if an outcome of these tests is true, sending a signal or a message for operating a component, such as an audio-visual component or a valve or the like. An acoustic detection device includes Regions of Interest support.

Abstract: A method and apparatus for checking an enclosure for leaks. An ultrasonic signal generator on one side of the enclosure emits ultrasonic signals. An array of ultrasonic transducers on the other side of the enclosure received ultrasonic signals from the signal generator through a leak and produces an acoustic image. An optical camera generates an optical image that may be combined with the acoustic image to display the location of a leak in the enclosure. An estimate of the leak size may be calculated and displayed together with the acoustic image.

Abstract: A method and apparatus for checking an enclosure for leaks. An ultrasonic signal generator on one side of the enclosure emits ultrasonic signals. An array of ultrasonic transducers on the other side of the enclosure received ultrasonic signals from the signal generator through a leak and produces an acoustic image. An optical camera generates an optical image that may be combined with the acoustic image to display the location of a leak in the enclosure. An estimate of the leak size may be calculated and displayed together with the acoustic image.

Abstract: A method for estimating the sensitivity in an environment of a sound emission detector device capable of detecting a physical phenomenon producing a spatially limited sound emission, said detector device comprising a transducer array, said method comprising a) receiving at least one signal from at least one respective transducer of the transducer array, said array being place within said environment, b) estimating from the at least one signal received at step a) a detection threshold value of a spatially limited source sound emission parameter, c) estimating from the detection threshold value estimated at step b) a quantity representative of a magnitude of the physical phenomenon, d) displaying the quantity estimated at step c) so as to inform the user of the sensitivity of the detector.

Abstract: A method for estimating the sensitivity in an environment of a sound emission detector device capable of detecting a physical phenomenon producing a spatially limited sound emission, said detector device comprising a transducer array, said method comprising a) receiving at least one signal from at least one respective transducer of the transducer array, said array being place within said environment, b) estimating from the at least one signal received at step a) a detection threshold value of a spatially limited source sound emission parameter, c) estimating from the detection threshold value estimated at step b) a quantity representative of a magnitude of the physical phenomenon, d) displaying the quantity estimated at step c) so as to inform the user of the sensitivity of the detector.

Abstract: A method for estimating the sensitivity in an environment of a sound emission detector device capable of detecting a physical phenomenon producing a spatially limited sound emission, said detector device comprising a transducer array, said method comprising a) receiving at least one signal from at least one respective transducer of the transducer array, said array being place within said environment, b) estimating from the at least one signal received at step a) a detection threshold value of a spatially limited source sound emission parameter, c) estimating from the detection threshold value estimated at step b) a quantity representative of a magnitude of the physical phenomenon, d) displaying the quantity estimated at step c) so as to inform the user of the sensitivity of the detector.

Abstract: An internal failure detection method of an external failure detection system for industrial equipment, the external failure detection system including an array of transducers, the method including: (a) receiving a plurality of signals, each signal being measured by a corresponding transducer of the transducers array; (b) for each pair of transducers among a number of pairs of transducers, calculating at least one value of a correlation parameter between the pair of signals received at step (a) at the pair of transducers, by correlating at least part of the signals or of invertible transforms thereof; (c) for at least one transducer among the number of pairs of transducers, estimating from the values of the correlation parameters calculated at step (b) if the transducer is working properly.