Patent application number | Description | Published |
20110064240 | Dynamic Noise Reduction in Auditory Prosthesis Systems - An exemplary method of dynamically adjusting an amount of noise reduction applied in an auditory prosthesis system includes dividing an audio signal presented to a patient into a plurality of analysis channels each containing a signal representative of a distinct frequency portion of the audio signal, determining an overall noise level of the signals within the analysis channels, and dynamically adjusting an amount of noise reduction applied to the signals within the analysis channels in accordance with the determined overall noise level. The dynamic adjustment of noise reduction is configured to minimize the amount of noise reduction applied to the signals within the analysis channels if the overall noise level is less than a predetermined minimum threshold. Corresponding methods and systems are also disclosed. | 03-17-2011 |
20110064241 | Methods and Systems for Reducing an Effect of Ambient Noise Within an Auditory Prosthesis System - An exemplary method of reducing an effect of ambient noise within an auditory prosthesis system includes dividing an audio signal presented to an auditory prosthesis patient into a plurality of analysis channels each containing a frequency domain signal representative of a distinct frequency portion of the audio signal, determining a signal-to-noise ratio and a noise reduction gain parameter based on the signal-to-noise ratio for each of the frequency domain signals, applying noise reduction to the frequency domain signals in accordance with the determined noise reduction gain parameters to generate a noise reduced frequency domain signal corresponding to each of the analysis channels, and generating one or more stimulation parameters based on the noise reduced frequency domain signals and in accordance with at least one of a current steering stimulation strategy and an N-of-M stimulation strategy. Corresponding methods and systems are also disclosed. | 03-17-2011 |
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 |
20130108092 | Dynamic Noise Reduction in Auditory Prosthesis Systems | 05-02-2013 |
20130253609 | Methods and Systems for Representing Different Spectral Components of an Audio Signal Presented to a Cochlear Implant Patient - An exemplary system includes a sound processor configured to identify one or more spectral peaks of an audio signal presented to a cochlear implant patient and an implantable cochlear stimulator communicatively coupled to the sound processor and configured to apply electrical stimulation representative of the one or more spectral peaks to at least one stimulation site within the cochlear implant patient using a partial multipolar stimulation configuration and apply electrical stimulation representative of one or more other spectral components of the audio signal to at least one other stimulation site within the cochlear implant patient using a monopolar stimulation configuration. Corresponding systems methods are also disclosed. | 09-26-2013 |
20130282077 | Channel-Specific Adjustment of Sound Processing Strategies Based on Electrode Impedance - An exemplary method includes a sound processing unit 1) directing an implantable cochlear stimulator to apply a plurality of stimulation pulses each having a first pulse width by way of a plurality of electrodes during a first stimulation frame, the plurality of electrodes including a first electrode and a set of remaining electrodes, 2) detecting a change in impedance of the first electrode, 3) adjusting, in response to the change in impedance of the first electrode, a pulse width parameter associated with the first electrode to define a second pulse width, and 4) directing the implantable cochlear stimulator to apply a stimulation pulse having the second pulse width by way of the first electrode and a plurality of stimulation pulses having the first pulse width by way of the set of remaining electrodes during a second stimulation frame subsequent to the first stimulation frame. | 10-24-2013 |
20130289656 | METHODS AND SYSTEMS OF CONVEYING FINE STRUCTURE INFORMATION TO A COCHLEAR IMPLANT PATIENT - An exemplary system includes 1) a sound processor configured to divide an audio signal into a plurality of analysis channels, wherein each of the analysis channels contains information corresponding to a distinct frequency band of the audio signal, and wherein one of the analysis channels contains fine structure information corresponding to the audio signal, and 2) an implantable cochlear stimulator configured to generate electrical stimulation in accordance with the information contained within each of the analysis channels, apply the electrical stimulation to at least one stimulation site within a patient via a plurality of stimulation channels, each of the stimulation channels corresponding to one of the analysis channels and configured to convey the information contained within the analysis channels to the patient via at least one electrode, and at least partially isolate one of the stimulation channels from a rest of the stimulation channels. | 10-31-2013 |
20140046402 | METHODS AND SYSTEMS FOR MINIMIZING A PERCEPTUAL DISTURBANCE CAUSED BY SHORTED ELECTRODES IN AN AUDITORY PROSTHESIS SYSTEM - An exemplary system for minimizing a perceptual disturbance caused by shorted electrodes in an auditory prosthesis system includes a sound processor ( | 02-13-2014 |
20140135872 | Systems and Methods of Facilitating Manual Adjustment of One or More Cochlear Implant System Control Parameters - An exemplary system includes a sound processing unit configured to apply noise reduction to an audio signal in accordance with a noise reduction parameter, an implantable cochlear stimulator communicatively coupled to the sound processing unit and configured to apply stimulation representative of the noise reduced audio signal to a patient via one or more electrodes, and a user input facility communicatively coupled to the sound processing unit and that facilitates manual adjustment of the noise reduction parameter. | 05-15-2014 |
20150051654 | PROGRAMMING SYSTEMS FOR ELICITING EVOKED RESPONSES IN A COCHLEAR IMPLANT PATIENT AND PERFORMING PREDETERMINED ACTIONS IN ACCORDANCE WITH THE EVOKED RESPONSES - An exemplary system includes 1) a programming device configured to be located external to a cochlear implant patient and communicatively coupled to a cochlear implant system associated with the patient, 2) a programming interface device communicatively coupled to the programming device and configured to be located external to the patient, and 3) a receiver communicatively coupled directly to the programming interface device. The programming device directs at least one of the cochlear implant system and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed. | 02-19-2015 |
20150057714 | ELECTRO-ACOUSTIC STIMULATION SYSTEMS THAT PERFORM PREDETERMINED ACTIONS IN ACCORDANCE WITH EVOKED RESPONSES - An exemplary system includes 1) an electro-acoustic stimulation (“EAS”) sound processor configured to be located external to a patient, 2) a cochlear implant communicatively coupled to the EAS sound processor and configured to be implanted within the patient, 3) an electrode array communicatively coupled to the cochlear implant and configured to be located within a cochlea of the patient, and 4) a receiver communicatively coupled to the EAS sound processor and configured to be in communication with an ear of the patient. The EAS sound processor directs at least one of the cochlear implant and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed. | 02-26-2015 |