Acoustic feedback is a big challenge in hearing aids. If not appropriately treated, the feedback limits the maximum possible amplification and may lead to significant sound distortions. In a state-of-the-art hearing aid, an acoustic feedback cancellation (AFC) system is used to compensate the artifacts caused by acoustic feedback. The AFC is usually carried out by adaptively estimating the feedback paths (from receiver to micro-phones) and using these estimates to reduce the artifacts introduced by the acoustic feedback. One major limitation in the widely used adaptive filter technique for AFC systems is the biased adaptive filter estimation problem, especially when tonal signals such as music and alarm tones enter the hearing aid microphon...
We consider an adaptive linear prediction based feedback canceller for hearing aids that exploits tw...
Adaptive feedback cancellation methods may integrate the use of probe signals to assist with the bia...
In this letter, we present new insights into the bias problem for acoustic feedback cancellation whe...
Adaptive filters are widely used in acoustic feedback cancellation systems and have evolved to be st...
https://www.sciencedirect.com/science/article/pii/S1746809419300862#!In this paper, we propose a pro...
Acoustic feedback is a well-known phenomenon in hearing aids and public address systems. Under certa...
The perhaps most challenging problem in acoustic feedback cancellation using adaptive filters is the...
A common problem of hearing aids is whistling caused by feedback from the loudspeaker back to the mi...
Acoustic feedback is a well-known problem in hearing aids, caused by the undesired acoustic coupling...
This research evaluates four state-of-the-art acoustic feedback cancellation systems in hearing aids...
Acoustic feedback refers to the undesired acoustic coupling between the loudspeaker and microphone i...
Acoustic feedback is a well-known phenomenon in hearing aids. Under certain conditions it causes the...
This report describes important physiological and anatomical aspects of human hearing, including ins...
A probe noise signal can be used in an acoustic feedback cancellation system to prevent biased adapt...
Acoustic coupling between microphone and loudspeaker is a significant problem in open-fit digital he...
We consider an adaptive linear prediction based feedback canceller for hearing aids that exploits tw...
Adaptive feedback cancellation methods may integrate the use of probe signals to assist with the bia...
In this letter, we present new insights into the bias problem for acoustic feedback cancellation whe...
Adaptive filters are widely used in acoustic feedback cancellation systems and have evolved to be st...
https://www.sciencedirect.com/science/article/pii/S1746809419300862#!In this paper, we propose a pro...
Acoustic feedback is a well-known phenomenon in hearing aids and public address systems. Under certa...
The perhaps most challenging problem in acoustic feedback cancellation using adaptive filters is the...
A common problem of hearing aids is whistling caused by feedback from the loudspeaker back to the mi...
Acoustic feedback is a well-known problem in hearing aids, caused by the undesired acoustic coupling...
This research evaluates four state-of-the-art acoustic feedback cancellation systems in hearing aids...
Acoustic feedback refers to the undesired acoustic coupling between the loudspeaker and microphone i...
Acoustic feedback is a well-known phenomenon in hearing aids. Under certain conditions it causes the...
This report describes important physiological and anatomical aspects of human hearing, including ins...
A probe noise signal can be used in an acoustic feedback cancellation system to prevent biased adapt...
Acoustic coupling between microphone and loudspeaker is a significant problem in open-fit digital he...
We consider an adaptive linear prediction based feedback canceller for hearing aids that exploits tw...
Adaptive feedback cancellation methods may integrate the use of probe signals to assist with the bia...
In this letter, we present new insights into the bias problem for acoustic feedback cancellation whe...