Acoustic feedback is a well-known phenomenon in hearing aids and public address systems. Under certain conditions it causes the so-called howling effect, which is highly annoying for the hearing aid user and limits the maximum amplification of the hearing aid. The most common choice to prevent howling is the adaptive feedback cancellation algorithm, which is able to completely eliminate the feedback signal. However, standard adaptive feedback cancellation algorithms suffer from a biased adaptation if the input signal is spectrally colored, as it is for speech and music signals. Due to this bias distortion artifacts (entrainment) are generated and consequently, the sound quality is significantly reduced. Most of the known methods to reduce t...
This research evaluates four state-of-the-art acoustic feedback cancellation systems in hearing aids...
Journal ArticleAdaptive filters are commonly used to cancel acoustic feedback in hearing aids. The s...
We consider an adaptive linear prediction based feedback canceller for hearing aids that exploits tw...
Acoustic feedback is a well-known phenomenon in hearing aids. Under certain conditions it causes the...
Standard adaptive feedback cancellation algorithms in hearing aids suffer from a biased adaptation i...
Acoustic feedback is a well-known problem in hearing aids, caused by the undesired acoustic coupling...
Acoustic coupling between microphone and loudspeaker is a significant problem in open-fit digital he...
This report describes important physiological and anatomical aspects of human hearing, including ins...
Acoustic feedback is a big challenge in hearing aids. If not appropriately treated, the feedback lim...
© 2018 Crown. Adaptive feedback cancellation (AFC) techniques are common in modern hearing aid devic...
Acoustic feedback is a well-known phenomenon in hearing aids. Under certain conditions, it causes th...
This paper discusses objective measures for real-time evaluation of feedback cancellation algorithms...
Acoustic feedback degrades the sound quality and limits the maximum stable gain of modern open fitti...
Acoustic feedback cancellation is one of the challenging tasks in the design of a behind the ear (BT...
This review focuses on howling and entrainment artifacts in digital hearing aids. The howling may oc...
This research evaluates four state-of-the-art acoustic feedback cancellation systems in hearing aids...
Journal ArticleAdaptive filters are commonly used to cancel acoustic feedback in hearing aids. The s...
We consider an adaptive linear prediction based feedback canceller for hearing aids that exploits tw...
Acoustic feedback is a well-known phenomenon in hearing aids. Under certain conditions it causes the...
Standard adaptive feedback cancellation algorithms in hearing aids suffer from a biased adaptation i...
Acoustic feedback is a well-known problem in hearing aids, caused by the undesired acoustic coupling...
Acoustic coupling between microphone and loudspeaker is a significant problem in open-fit digital he...
This report describes important physiological and anatomical aspects of human hearing, including ins...
Acoustic feedback is a big challenge in hearing aids. If not appropriately treated, the feedback lim...
© 2018 Crown. Adaptive feedback cancellation (AFC) techniques are common in modern hearing aid devic...
Acoustic feedback is a well-known phenomenon in hearing aids. Under certain conditions, it causes th...
This paper discusses objective measures for real-time evaluation of feedback cancellation algorithms...
Acoustic feedback degrades the sound quality and limits the maximum stable gain of modern open fitti...
Acoustic feedback cancellation is one of the challenging tasks in the design of a behind the ear (BT...
This review focuses on howling and entrainment artifacts in digital hearing aids. The howling may oc...
This research evaluates four state-of-the-art acoustic feedback cancellation systems in hearing aids...
Journal ArticleAdaptive filters are commonly used to cancel acoustic feedback in hearing aids. The s...
We consider an adaptive linear prediction based feedback canceller for hearing aids that exploits tw...