公开(公告)号：US10154149B1

公开(公告)日：2018-12-11

申请号：US15922660

申请日：2018-03-15

Applicant: MOTOROLA SOLUTIONS, INC.

Inventor： Nissim Gean ,  Bar Yamin ,  Avner Carmeli ,  Pavel Livshits

IPC: H04B1/38 ,  H04M9/08 ,  H03G3/32 ,  H04R3/04

Abstract: An audio framework for acoustic feedback suppression. One example portable communication device includes a microphone, a loudspeaker, and an electronic processor. The electronic processor receives an acoustic signal, including an audible component and an ultrasonic component, from the microphone. The electronic processor splits the acoustic signal into a first stream and a second stream identical to the first stream. The electronic processor is removes the ultrasonic component from the first stream to generate a filtered audio stream, and passes the filtered audio stream to a sound server. The electronic processor removes the audible component from the second stream to generate a received ultrasonic stream, and compares the received ultrasonic stream to a transmit ultrasonic stream to determine an acoustic distance. The electronic processor determines an attenuation level based on the acoustic distance, and adjusts an audio component of the portable communication device based on the attenuation level.

公开(公告)号：US10284728B1

公开(公告)日：2019-05-07

申请号：US15901690

申请日：2018-02-21

Applicant: MOTOROLA SOLUTIONS, INC.

Inventor： Nissim Gean ,  Pavel Livshits ,  Bar Yamin

IPC: H04M1/20 ,  H04B1/64 ,  H04M9/08 ,  H03G3/32 ,  G10L21/0232 ,  H04R29/00

Abstract: Devices and methods for howling suppression. One method includes receiving, via a microphone, an acoustic signal from a communication device operating in an acoustic field with the microphone. The method includes determining a reflection pattern for the acoustic field based on the acoustic signal, and determining an acoustic characteristic for the acoustic field based on the reflection pattern. The method includes determining, based on the acoustic characteristic, a plurality of howling zones for the acoustic field, each zone defined by first and second proximity thresholds. The method includes, for each of the howling zones, determining an attenuation level for the zone based on the proximity thresholds and the acoustic characteristic. The method includes determining a distance between the microphone and the communication device, selecting one of the howling zones based on the distance, and adjusting a volume of a loudspeaker based on the attenuation level for the selected howling zone.