Despite great advances in hearing-aid technology, users still experience problems with noise in windy environments. The potential benefits of using a deep recurrent neural network (RNN) for reducing wind noise were assessed. The RNN was trained using recordings of the output of the two microphones of a behind-the-ear hearing aid in response to male and female speech at various azimuths in the presence of noise produced by wind from various azimuths with a velocity of 3 m/s, using the “clean” speech as a reference. A paired-comparison procedure was used to compare all possible combinations of three conditions for subjective intelligibility and for sound quality or comfort. The conditions were unprocessed noisy speech, noisy speech processed ...
Listening in noise is a challenging problem that affects the hearing capability of not only normal h...
A microphone array integrated with a neural network framework is proposed to enhance and optimize sp...
OBJECTIVE: A hearing aid's noise reduction algorithm cannot infer to which speaker the user intends ...
Despite great advances in hearing-aid technology, users still experience problems with noise in wind...
Despite great advances in hearing-aid technology, users still experience problems with noise in wind...
A deep recurrent neural network (RNN) for reducing transient sounds was developed and its effects on...
Speech-in-noise perception is a major problem for users of cochlear implants (CIs), especially with ...
Behind-the-ear (BTE) processors of cochlear implant (CI) devices offer little to almost no protectio...
Wind can induce noise on microphones, causing problems for users of hearing aids and for those makin...
Today personal audio devices are usually used during telephone connections. Mobility and facility ta...
Clarity and intelligibility are critical aspects of speech. Deep learning models for speech enhanc...
The project is an exploration of the field of Artificial Intelligence, especially Artificial Neural ...
Speech enhancement systems aim to improve the quality and intelligibility of noisy speech. In this s...
Many devices that include built-in microphone(s) are used in windy situations. Wind noise degrades t...
Speech enhancement is the process of removing noise to improve speech quality and intelligibility fo...
Listening in noise is a challenging problem that affects the hearing capability of not only normal h...
A microphone array integrated with a neural network framework is proposed to enhance and optimize sp...
OBJECTIVE: A hearing aid's noise reduction algorithm cannot infer to which speaker the user intends ...
Despite great advances in hearing-aid technology, users still experience problems with noise in wind...
Despite great advances in hearing-aid technology, users still experience problems with noise in wind...
A deep recurrent neural network (RNN) for reducing transient sounds was developed and its effects on...
Speech-in-noise perception is a major problem for users of cochlear implants (CIs), especially with ...
Behind-the-ear (BTE) processors of cochlear implant (CI) devices offer little to almost no protectio...
Wind can induce noise on microphones, causing problems for users of hearing aids and for those makin...
Today personal audio devices are usually used during telephone connections. Mobility and facility ta...
Clarity and intelligibility are critical aspects of speech. Deep learning models for speech enhanc...
The project is an exploration of the field of Artificial Intelligence, especially Artificial Neural ...
Speech enhancement systems aim to improve the quality and intelligibility of noisy speech. In this s...
Many devices that include built-in microphone(s) are used in windy situations. Wind noise degrades t...
Speech enhancement is the process of removing noise to improve speech quality and intelligibility fo...
Listening in noise is a challenging problem that affects the hearing capability of not only normal h...
A microphone array integrated with a neural network framework is proposed to enhance and optimize sp...
OBJECTIVE: A hearing aid's noise reduction algorithm cannot infer to which speaker the user intends ...