Add to ORKGNonlinear distortion added by the loudspeaker in a hearing aid lowers the signal-to-noise ratio and may degrade the hearing aid user's ability to understand speech. The balanced-armature-type loudspeakers, predominantly used in hearing aids, are inherently nonlinear devices, as any displacement of the loudspeaker diaphragm inevitably changes the magnetic and electrical characteristics of the loudspeaker. A numerical time-domain model capable of describing these nonlinearities is presented. By simulation it is demonstrated how the output distortion could potentially be reduced significantly through careful design of the mechanical properties of the armature
Ear modeling can significantly improve sound signal processing and the design of hearing devices. Ea...
Nonlinear acoustic damping is a key nonlinearity in miniature loudspeakers when the air velocity is ...
It has been experimentally shown that the shape and the materials of loudspeaker membranes have an i...
Loudspeakers transform electrical energy into acoustic waves but most of the electrical energy is lo...
Abstract—A time-domain digital simulation of an in-the-ear (ITE) hearing aid has been developed. The...
The authors present a method to compensate for loudspeaker distortion in real time by nonlinear digi...
Given the fact that loudspeakers have several nonlinearities during operation, one of the biggest ch...
The parametric array loudspeaker (PAL) modulates the audio signal on an ultrasonic carrier. When the...
The parametric array loudspeaker (PAL) is a type of directional loudspeakers, which incurs notable d...
Simulations of a 6½-inch loudspeaker unit are performed and compared with a displacement measurement...
The aim of this research is to create a nonlinear model of a loudspeaker to analyze the open-loop di...
pre-printThis paper presents a novel equalizer for nonlinear distortions in direct-radiator loudspea...
Common types of hearing impairment are caused mainly by a loss of nearly instantaneous compressive a...
A new method is presented for the auralization of selected distortion components generated by regula...
Objective: Hearing aids are more and more technically advanced, but do not necessarily guarantee the...
Ear modeling can significantly improve sound signal processing and the design of hearing devices. Ea...
Nonlinear acoustic damping is a key nonlinearity in miniature loudspeakers when the air velocity is ...
It has been experimentally shown that the shape and the materials of loudspeaker membranes have an i...
Loudspeakers transform electrical energy into acoustic waves but most of the electrical energy is lo...
Abstract—A time-domain digital simulation of an in-the-ear (ITE) hearing aid has been developed. The...
The authors present a method to compensate for loudspeaker distortion in real time by nonlinear digi...
Given the fact that loudspeakers have several nonlinearities during operation, one of the biggest ch...
The parametric array loudspeaker (PAL) modulates the audio signal on an ultrasonic carrier. When the...
The parametric array loudspeaker (PAL) is a type of directional loudspeakers, which incurs notable d...
Simulations of a 6½-inch loudspeaker unit are performed and compared with a displacement measurement...
The aim of this research is to create a nonlinear model of a loudspeaker to analyze the open-loop di...
pre-printThis paper presents a novel equalizer for nonlinear distortions in direct-radiator loudspea...
Common types of hearing impairment are caused mainly by a loss of nearly instantaneous compressive a...
A new method is presented for the auralization of selected distortion components generated by regula...
Objective: Hearing aids are more and more technically advanced, but do not necessarily guarantee the...
Ear modeling can significantly improve sound signal processing and the design of hearing devices. Ea...
Nonlinear acoustic damping is a key nonlinearity in miniature loudspeakers when the air velocity is ...
It has been experimentally shown that the shape and the materials of loudspeaker membranes have an i...