Patent application number | Description | Published |
20090279723 | Processing Signals Representative of Sound Based on the Identity of an Input Element - Systems and techniques for processing signals representative of sound for conveyance to the auditory system of a subject based on the identity of an input device. In one implementation, a method includes identifying an input element to an audiological system that conveys sound information directly to a subject's auditory system, automatically setting parameters for processing the signal based on the identity of the input element, and processing the signal in accordance with the processing parameters. The input element is configured to generate a signal representative of sound. | 11-12-2009 |
20100121412 | Optimizing Pitch Allocation in a Cochlear Implant - Errors in pitch allocation within a cochlear implant are corrected in order to provide a significant and profound improvement in the quality of sound perceived by the cochlear implant user. The disclosure provides a tool for determining the implant fitting curve for cochlear implant system to correct pitch warping. The method presents familiar musical tunes to determine the implant fitting slope (relative alignment). In addition, in one embodiment, speech sounds may be used to determine the offset of the fitting line (absolute alignment). The use of music and speech to determine the implant fitting curve (line) and the slope is facilitated by using techniques to implement virtual electrodes to more precisely direct stimuli to the location or “place” on the cochlea. | 05-13-2010 |
20100228321 | Systems for Fitting a Cochlear Implant to a Patient - Systems for fitting an implantable cochlear stimulator to a patient include an interface unit configured to display a graphical representation of an implant fitting line as part of a graphical user interface. The implant fitting line has a slope and a horizontal position and represents a mapping relationship between a plurality of audio frequencies and a plurality of stimulation sites within a cochlea of the patient. The interface unit is further configured to facilitate adjustment of the slope and/or horizontal position of the fitting line. | 09-09-2010 |
20110098785 | Fully Implantable Cochlear Implant Systems Including Optional External Components and Methods for Using the Same - An exemplary cochlear implant system includes an external module configured to be positioned external to and worn by a patient, the external module having an external microphone configured to detect an input audio signal presented to the patient, and an external speaker configured to acoustically transmit an audio signal representative of the input audio signal. The exemplary cochlear implant system further includes an implantable module configured to be implanted within the patient, the implantable module having an internal microphone configured to detect the acoustically transmitted audio signal, an internal sound processor configured to generate one or more stimulation parameters based on the acoustically transmitted audio signal, and an internal cochlear stimulator configured to apply electrical stimulation representative of the input audio signal to one or more stimulation sites within the patient in accordance with the one or more stimulation parameters. Corresponding methods and systems are also disclosed. | 04-28-2011 |
20110098786 | Remote Audio Processor Module for Auditory Prosthesis Systems - An exemplary auditory prosthesis system includes an auditory prosthesis configured to be implanted within a head of a patient and to apply electrical stimulation representative of an audio signal to one or more stimulation sites within the patient in accordance with one or more stimulation parameters, a behind-the-ear sound processing unit configured to be secured to an ear of the patient and to transmit the one or more stimulation parameters to the auditory prosthesis, and a remote audio processor module separate from the behind-the-ear sound processing unit and communicatively coupled to the behind-the-ear sound processing unit via a communication link, the remote audio processor module configured to perform at least a portion of a signal processing heuristic on the audio signal in order to facilitate generation of the one or more stimulation parameters. Corresponding systems and methods are also disclosed. | 04-28-2011 |
20110160799 | Dynamic Compliance Voltage Management for an Implantable Stimulator - An exemplary method includes generating, by an external control device selectively and communicatively coupled to an implantable stimulator, a calibration table indicating transmit power levels required to achieve a plurality of distinct combinations of compliance voltages and maximum stimulation current levels by the implantable stimulator, determining, by the external control device, a maximum stimulation current level to be delivered by the implantable stimulator via one or more electrodes to one or more stimulation sites within a patient during a stimulation frame, determining, by the external control device, an optimal compliance voltage that allows the implantable stimulator to deliver the determined maximum stimulation current level, and selecting, by the external control device in accordance with the calibration table, a transmit power level that results in the implantable stimulator operating at substantially the optimal compliance voltage during the stimulation frame. Corresponding methods, apparatuses and systems are also disclosed. | 06-30-2011 |
20120197346 | Optimizing Pitch Allocation in a Cochlear Implant - Errors in pitch allocation within a cochlear implant are corrected in order to provide a significant and profound improvement in the quality of sound perceived by the cochlear implant user. The disclosure provides a tool for determining the implant fitting curve for cochlear implant system to correct pitch warping. The method presents familiar musical tunes to determine the implant fitting slope (relative alignment). In addition, in one embodiment, speech sounds may be used to determine the offset of the fitting line (absolute alignment). The use of music and speech to determine the implant fitting curve (line) and the slope is facilitated by using techniques to implement virtual electrodes to more precisely direct stimuli to the location or “place” on the cochlea. | 08-02-2012 |
20120303096 | METHODS AND SYSTEMS OF AUTOMATICALLY DETECTING AN IMPEDANCE OF ONE OR MORE ELECTRODES IN A COCHLEAR IMPLANT SYSTEM - An exemplary method includes a sound processing unit 1) directing an implantable cochlear stimulator coupled to a plurality of electrodes to generate an electrical stimulation current in accordance with one or more stimulation parameters, 2) automatically detecting an impedance of at least one of the electrodes, and 3) directing, in accordance with the detected impedance, the implantable cochlear stimulator to adjust a pulse width of the electrical stimulation current to maintain constant a total electric charge level of the electrical stimulation current. | 11-29-2012 |
20130006327 | TWO-PIECE SOUND PROCESSOR SYSTEM FOR USE IN AN AUDITORY PROSTHESIS SYSTEM - An exemplary system includes 1) a headpiece module configured to be affixed to a head of a patient and comprising a primary sound processor configured to generate stimulation parameters used to direct an auditory prosthesis implanted within the patient to apply electrical stimulation representative of one or more audio signals to the patient and 2) a sound processor module separate from the headpiece module and configured to be selectively and communicatively coupled to the headpiece module. The sound processor module includes a secondary sound processor configured to detect a communicative coupling of the sound processor module to the headpiece module and contribute to the generation of one or more of the stimulation parameters while the sound processor module is communicatively coupled to the headpiece module. Corresponding systems and methods are also disclosed. | 01-03-2013 |
20130226297 | METHODS AND SYSTEMS FOR MULTI-MONOPOLAR CURRENT STEERING IN AN AUDITORY PROSTHESIS SYSTEM - An exemplary method includes a sound processor 1) mapping an analysis channel associated with a frequency band to a stimulation channel that comprises at least three electrodes communicatively coupled to an auditory prosthesis associated with a patient, 2) identifying a spectral peak included in an audio signal presented to the patient, the spectral peak having a peak frequency included in the frequency band, and 3) directing the auditory prosthesis to apply electrical stimulation representative of the spectral peak to a stimulation site associated with the peak frequency by simultaneously stimulating at least two of the at least three electrodes at substantially fifty percent or less of their respective most comfortable current levels (M levels) in accordance with a multi-monopolar current steering strategy. Corresponding methods and systems are also disclosed. | 08-29-2013 |
20140031898 | Shabbat-Compatible Auditory Prosthesis Systems and Methods - An exemplary method includes a Shabbat-compatible auditory prosthesis system (a) detecting a transition of a clock signal from being in an on state to being in an off state, (b) directing, in response the transition of the clock signal to being in the off state, a sound processor to turn off and enter an extended off state during which the sound processor remains off for a first predetermined amount of time, and (c) directing, in response to an elapsing of the first predetermined amount of time, the sound processer to turn on and enter a search state for up to a second predetermined amount of time during which the sound processor searches for an implanted auditory prosthesis. Corresponding methods and systems are also disclosed. | 01-30-2014 |
20140126731 | METHODS AND SYSTEMS FOR LOGGING DATA ASSOCIATED WITH AN OPERATION OF A SOUND PROCESSOR BY AN AUDITORY PROSTHESIS - An exemplary method includes 1) detecting, by an auditory prosthesis configured to be implanted in a patient, a communicative coupling of a sound processor to the auditory prosthesis, the sound processor configured to be located external to the patient, and 2) logging, by the auditory prosthesis, data associated with an operation of the sound processor while the sound processor is communicatively coupled to the auditory prosthesis. Corresponding auditory prostheses and systems are also disclosed. | 05-08-2014 |
20140146985 | TWO-PIECE SOUND PROCESSOR SYSTEM FOR USE IN AN AUDITORY PROSTHESIS SYSTEM - An exemplary system includes 1) a headpiece module configured to be affixed to a head of a patient and comprising a primary sound processor configured to generate stimulation parameters used to direct an auditory prosthesis implanted within the patient to apply electrical stimulation representative of one or more audio signals to the patient and 2) a sound processor module separate from the headpiece module and configured to be selectively and communicatively coupled to the headpiece module. The sound processor module includes a secondary sound processor configured to detect a communicative coupling of the sound processor module to the headpiece module and contribute to the generation of one or more of the stimulation parameters while the sound processor module is communicatively coupled to the headpiece module. Corresponding systems and methods are also disclosed. | 05-29-2014 |
20140188189 | BILATERAL AUDITORY PROSTHESIS SYSTEMS AND METHODS - An exemplary bilateral auditory prosthesis system includes 1) a primary auditory prosthesis configured to be implanted on a first side of a head of a patient, 2) a secondary auditory prosthesis configured to be implanted on a second side of the head of the patient and to be communicatively coupled to the primary auditory prosthesis with one or more wires, the second side being contralateral to the first side, and 3) a sound processor configured to be communicatively coupled to the primary auditory prosthesis and to control an operation of the secondary auditory prosthesis by transmitting control data to the secondary auditory prosthesis by way of the primary auditory prosthesis and at least one wire included in the one or more wires. Corresponding systems and methods are also disclosed. | 07-03-2014 |
20140200630 | Fully Implantable Cochlear Implant Systems Including Optional External Components and Methods for Using the Same - An exemplary method includes 1) detecting, by an external module configured to be positioned external to and worn by a patient, an input audio signal presented to the patient, 2) acoustically transmitting, by the external module, an audio signal representative of the input audio signal, 3) detecting, by an implantable module configured to be implanted within the patient, the acoustically transmitted audio signal, 4) generating, by the implantable module, one or more stimulation parameters based on the acoustically transmitted audio signal, and 5) applying, by the implantable module, electrical stimulation representative of the input audio signal to one or more stimulation sites within the patient in accordance with the one or more stimulation parameters. | 07-17-2014 |
20140330344 | SYSTEMS AND METHODS FOR FACILITATING BINAURAL HEARING BY A COCHLEAR IMPLANT PATIENT - An exemplary system for facilitating binaural hearing by a cochlear implant patient includes 1) a spectral analysis facility configured to divide a first audio signal presented to a first ear of the patient and a second audio signal presented to a second ear of the patient into first and second sets of analysis channels, respectively, and 2) a processing facility configured to process acoustic content contained in a first analysis channel included in the first set of analysis channels and acoustic content contained in a second analysis channel included in the second set of analysis channels, mix the processed acoustic content contained in the first and second analysis channels, and direct a cochlear implant to apply electrical stimulation representative of the mixed acoustic content to the first ear by way of a stimulation channel that corresponds to the first analysis channel. | 11-06-2014 |