Abstract:
A hearing device and a method for fitting the hearing device are provided. The method for fitting a monaural hearing device involve obtaining audiograms of both ears, and adjusting an amplification gain based on the audiograms of both ears, in which the audiograms comprise an audiogram of a first ear for wearing the monaural hearing device and an audiogram of a second ear not wearing the monaural hearing device.
Abstract:
A vacuum suction head may include a holder including a through hole formed therein, a suction pad surrounding at least a portion of a side surface of the holder, and a packing pad on a lower surface of the holder. The suction pad may protrude below a lower surface of the holder. The packing pad may include a cutout part. The cutout part may allow a space between the suction pad and the packing pad such that the space and the through hole may be in fluid communication with each other.
Abstract:
A curved display including an external protective layer with an edge at least a part of which has a certain curvature, an opaque layer disposed at the edge of the external protective layer, and a panel module layer including an electrode trace area aligned under the opaque layer.
Abstract:
Disclosed are a hearing aid and a related method. In an example, the hearing aid receives a sound input, stores an audible advertisement, generates a sound signal based on the sound input and the stored audible advertisement, and outputs the generated sound signal.
Abstract:
An apparatus and method are provided to determine a parameter using an auditory model of a hearing loss patient. The parameter determination apparatus determines a similarity between a neurogram of a normal subject and a neurogram of a hearing loss patient, and determines an optimal frequency band for the hearing loss patient based on the similarity.
Abstract:
A mobile electronic device includes a display including a glass and a panel module; a frame including a first surface disposed under the display and a sidewall formed from an edge of the first surface; and a shock absorbing member disposed at the sidewall along of at least a part of an edge of the display.
Abstract:
An electronic device is provided. The electronic device includes an image capture device configured to capture at least a portion of a user's body based on a light source device, a first camera, and a second camera, a memory configured to store a capture image by the image capture device, a display configured to emit light in a specified color at least one region based on driving at least one pixel, and at least one processor configured to be electrically connected with the image capture device, the memory, and the display. The at least one processor being configured to control to drive the image capture device in a state where the at least one region of the display emits light in the specified color to obtain a first capture image and a second capture image and perform registration of the first capture image and the second capture image to generate a third image.
Abstract:
An electronic device having a curved surface display area, the electronic device including: a display including: glass including an edge having a certain curvature; an opaque layer disposed at the edge of the glass; and a panel module layer including a non-display area disposed under the opaque layer; and a housing supporting the display.
Abstract:
Disclosed are a terminal and a method of pairing a terminal with a hearing apparatus. The method of pairing a terminal involves verifying whether a hearing apparatus is in contact with a terminal, and pairing the terminal with the hearing apparatus in response to a determination that the hearing apparatus is in contact with the terminal.
Abstract:
A hearing loss compensation apparatus and method compensate for distortion caused by a change in a sound transmission path using hearing characteristics of a user. The hearing loss compensation apparatus may include a sound direction detection device configured to detect a sound generation direction, in which a sound generates, using one or more microphones, and a sound compensation device configured to compensate the sound using hearing characteristics of a user corresponding to the sound generation direction. Additionally, a hearing characteristics measurement apparatus and method provide a way to obtain such hearing characteristics information.