Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power without the use of a headpiece.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power without the use of a headpiece.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power without the use of a headpiece.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power without the use of a headpiece.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power without the use of a headpiece.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of a head mountable power supply to power an implantable cochlear stimulator.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power without the use of a headpiece.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of a head mountable power supply to power an implantable cochlear stimulator.

Abstract: Hearing assistance apparatus, systems and methods that involve the use of distributed power.

Abstract: With a hearing aid device barometric pressure equalization is intended to be achieved in a simple and economical manner in a sound canal between an earpiece and a cerumen protection system with a gas-tight membrane. To this end a pressure equalization canal is proposed, which opens into the sound canal. The pressure equalization canal preferably connects the sound canal to a vent. It can be produced in a simple manner when manufacturing the housing of the hearing aid device using a computer-aided manufacturing method.

Abstract: A hearing device has an ear fitting piece, a housing part wearable behind the ear, and an earpiece tube connecting the ear fitting piece and the housing part. The transmission of mechanical vibrations between the ear fitting piece and the housing part via the earpiece tube is prevented by damping elements located in the region of the connection points between the ear fitting piece and the earpiece tube, or between the earpiece tube and the housing part. The damping elements damp mechanical vibrations in the transition region. A damping element that prevents the transmission of mechanical vibrations can also be present on or in the earpiece tube. The feedback tendency in the appertaining hearing device is thereby reduced.

Abstract: An optical measuring device for a three-dimensional measuring of a hollow space formed within an object is provided. The optical measurement device has a light source, which is provided for emitting illumination light along an illumination beam path, and an optical deflection element, which spatially structures the radiated illumination light such that on an inside wall an illumination line forms, which extends along the longitudinal axis. The shape of the line is dependant on the size and shape of the hollow space. Further, the optical measuring device has a camera, which detects the illumination line via an imaging beam path at a triangulation angle. Through an appropriate evaluation of the image of the detected shape and size of the illumination line by the camera, the three-dimensional shape of the hollow space is determined.

Abstract: The increasing miniaturization of hearing aids means that less and less space is available for accommodating controls (9). It is thus proposed that, at least one proximity sensor (6; 12A, 12B) be provided on a hearing aid (1; 11) so as to enable an operating function to be performed even without touching a control directly. For operation of a hearing aid (1; 11) in accordance with the invention, in addition to the hearing aid (1; 11) itself, no further technical aids such as remote control, magnets etc. have to be worn as well.

Abstract: With a hearing aid device barometric pressure equalization is intended to be achieved in a simple and economical manner in a sound canal between an earpiece and a cerumen protection system with a gas-tight membrane. To this end a pressure equalization canal is proposed, which opens into the sound canal. The pressure equalization canal preferably connects the sound canal to a vent. It can be produced in a simple manner when manufacturing the housing of the hearing aid device using a computer-aided manufacturing method.

Abstract: A contactless data transmission system includes a laterally emitting optical conductor connected to an electro-optical data transmitter. The optical conductor is formed by a bundle of optical fibers provided with a transparent cladding, so that the optical conductor laterally emits signals along its entire length corresponding to the data signals which are coupled into the optical conductor. An opto-electrical detector is disposed at a location next to the optical conductor, for receiving the laterally emitted optical signals therefrom. The optical conductor and its data source, and the detector, can be respectively mounted on parts of a system which are relatively movable with respect to each other, such as the stationary frame and the rotating ring of a computer tomography apparatus.

Abstract: Circuit arrangement for a gradiometer with super conducting quantum interferometer (SQUID) for measuring low-intensity biomagnetic fields. In the circuit arrangement a modulated output voltage that is proportional to a measured magnetic field is supplied to an analog-to-digital converter for digitization and quantization, a modulated output signal of the analog-to-digital converter serving as a digital measured signal.

Abstract: In a method for calibrating multi-channel SQUID systems having gradiometers of an arbitrary order, calibration coils, each having the same number of ampere turns are symmetrically arranged at identical distances between the parallel coil planes with respect to every gradiometer coil, so that every gradiometer coil is penetrated by a common, oppositely directed magnetic field generated by the calibration coils. The field that the calibration coils produce at the locations of the gradiometer coils are numerically calculated to obtain a net gradient field value which is divided by the measured voltage at the output of the allocated SQUID electronics in order to calculate the calibration factor.

Abstract: In an arrangement for analyzing local bioelectric currents in biological tissue complexes, electrical signals measured by EEG and/or MEG sensors are supplied to a pattern recognition unit in which defined signal patterns are acquired and are provided with time markings to produce "templates." The templates are forwarded to a correlation unit which compares the continuous measured values to the templates, and calculates a correlation coefficient based on the comparison. A threshold definition unit identifies signal patterns from the continuously measured signal which transgress the threshold, and supplies the threshold-transgressing signal patterns to a comparison unit which compares the correlated signal to the threshold-transgressing signal. Signal patterns are selected based on this comparison which are temporally and spatially identical, and are supplied to an averaging unit, which forms temporal averages of the selected signal patterns.