Patents by Inventor Ángel Ramos de Miguel
Ángel Ramos de Miguel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240024677Abstract: Disclosed technology includes technology for compensating for a balance dysfunction. A system can combine sensory substitution with balance dysfunction suppression. Dysfunctional balance information coming from a recipient's vestibular system is inhibited using stimulation. Balance information (e.g., how the recipient is positioned with respect to gravity, such as rotation along pitch and roll axes) is then passed to another sensory channel (e.g., visual, audible, or tactile sensory channels). Such a system can be implemented with a cochlear implant or another sensory prostheses having balance signals injected into the stimulation signal processing path.Type: ApplicationFiled: September 25, 2023Publication date: January 25, 2024Inventors: Angel RAMOS DE MIGUEL, Carl VAN HIMBEECK, Erika Jeanne VAN BAELEN
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Patent number: 11806530Abstract: Disclosed technology includes technology for compensating for a balance dysfunction. A system can combine sensory substitution with balance dysfunction suppression. Dysfunctional balance information coming from a recipient's vestibular system is inhibited using stimulation. Balance information (e.g. how the recipient is positioned with respect to gravity, such as rotation along pitch and roll axes) is then passed to another sensory channel (e.g., visual, audible, or tactile sensory channels). Such a system can be implemented with a cochlear implant or another sensory prostheses having balance signals injected into the stimulation signal processing path.Type: GrantFiled: November 20, 2020Date of Patent: November 7, 2023Assignees: Cochlear Limited, University of Las Palmas de Gran CanariaInventors: Angel Ramos De Miguel, Carl Van Himbeeck, Erika Jeanne Van Baelen
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Publication number: 20230084109Abstract: A method, including obtaining information indicative of a phenomenon sensed at a read electrode of a cochlear implant electrode array relative to a reference and/or at a read electrode remote from the electrode array relative to a reference, where one of the electrodes of the cochlear implant electrode array was energized executing a first analysis of the information to identify one or more first meanings from among a first group of meanings of the sensed phenomenon, conditioning the obtained information based on the identified one or more first meanings, and executing a second analysis of the conditioned information to identify one or more second meanings from among a second group of meanings of the sensed phenomenon.Type: ApplicationFiled: September 12, 2022Publication date: March 16, 2023Inventors: Ángel Ramos de Miguel, SR., Ángel Manuel Ramos Macías, D. Juan Carlos Falcon Gonzalez, Riaan Rottier, Christopher Bennett
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Publication number: 20220387781Abstract: A system including a galvanic stimulator, and an eye tracking device, wherein the system is a clinical vestibular implant suitability evaluation system. The system includes a computing apparatus configured analyze eye tracking data generated by the eye tracking device and provide output indicative of the analysis. The system is configured to evoke a vestibular reflex in a human with at least a partially functioning neural system of the human's vestibular system.Type: ApplicationFiled: June 8, 2022Publication date: December 8, 2022Inventors: Angel Ramos de Miguel, Angel Manuel Ramos Macias
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Publication number: 20220305263Abstract: Presented herein are techniques for electrically stimulating a recipient's vestibular nerve in order to mask vestibular noise signals (vestibular noise) generated by the peripheral vestibular system (e.g., prevent erroneous balance information generated by the peripheral vestibular system from being sent to the brain of the recipient). A vestibular nerve stimulator in accordance with embodiments presented herein includes a plurality of electrodes implanted in an inner ear of a recipient at a location that is adjacent to the otolith organs of the inner ear. The vestibular nerve stimulator is configured to generate one or more continuous pulse trains and to deliver the one or more continuous pulse trains to the inferior branch of the recipient's vestibular nerve.Type: ApplicationFiled: April 28, 2022Publication date: September 29, 2022Inventors: Angel Manuel Ramos Macias, Angel Ramos de Miguel
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Patent number: 11439811Abstract: A method, including obtaining information indicative of a phenomenon sensed at a read electrode of a cochlear implant electrode array relative to a reference and/or at a read electrode remote from the electrode array relative to a reference, where one of the electrodes of the cochlear implant electrode array was energized executing a first analysis of the information to identify one or more first meanings from among a first group of meanings of the sensed phenomenon, conditioning the obtained information based on the identified one or more first meanings, and executing a second analysis of the conditioned information to identify one or more second meanings from among a second group of meanings of the sensed phenomenon.Type: GrantFiled: September 18, 2017Date of Patent: September 13, 2022Assignee: Cochlear LimitedInventors: Ángel Ramos de Miguel, Sr., Ángel Manuel Ramos Macías, D. Juan Carlos Falcon Gonzalez, Riaan Rottier, Christopher Bennett
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Patent number: 11351372Abstract: Presented herein are techniques for electrically stimulating a recipient's vestibular nerve in order to mask vestibular noise signals (vestibular noise) generated by the peripheral vestibular system (e.g., prevent erroneous balance information generated by the peripheral vestibular system from being sent to the brain of the recipient). A vestibular nerve stimulator in accordance with embodiments presented herein includes a plurality of electrodes implanted in an inner ear of a recipient at a location that is adjacent to the otolith organs of the inner ear. The vestibular nerve stimulator is configured to generate one or more continuous pulse trains and to deliver the one or more continuous pulse trains to the inferior branch of the recipient's vestibular nerve.Type: GrantFiled: March 13, 2020Date of Patent: June 7, 2022Assignee: Universidad De Las Palmas De Gran CanariaInventors: Angel Manuel Ramos Macias, Angel Ramos de Miguel
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Publication number: 20210322772Abstract: Disclosed technology includes technology for compensating for a balance dysfunction. A system can combine sensory substitution with balance dysfunction suppression. Dysfunctional balance information coming from a recipient's vestibular system is inhibited using stimulation. Balance information (e.g. how the recipient is positioned with respect to gravity, such as rotation along pitch and roll axes) is than passed to another sensory channel (e.g., visual, audible, or tactile sensory channels). Such a system can be implemented with a cochlear implant or another sensory prostheses having balance signals injected into the stimulation signal processing path.Type: ApplicationFiled: November 20, 2020Publication date: October 21, 2021Inventors: Angel RAMOS DE MIGUEL, Carl VAN HIMBEECK, Erika Jeanne VAN BAELEN
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Publication number: 20210023370Abstract: Presented herein are techniques for electrically stimulating a recipient's vestibular nerve in order to mask vestibular noise signals (vestibular noise) generated by the peripheral vestibular system (e.g., prevent erroneous balance information generated by the peripheral vestibular system from being sent to the brain of the recipient). A vestibular nerve stimulator in accordance with embodiments presented herein includes a plurality of electrodes implanted in an inner ear of a recipient at a location that is adjacent to the otolith organs of the inner ear. The vestibular nerve stimulator is configured to generate one or more continuous pulse trains and to deliver the one or more continuous pulse trains to the inferior branch of the recipient's vestibular nerve.Type: ApplicationFiled: March 13, 2020Publication date: January 28, 2021Inventors: Angel Manuel Ramos Macias, Angel Ramos de Miguel
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Publication number: 20210023366Abstract: A vestibular stimulation prosthesis can restore vestibular function in recipients having vestibular deficiency. In an example, a body is appended onto or within the recipient's ossicular chain such that the body directly interfaces with an oval window of an inner ear of the recipient. Electrical stimulation is provided using one or more electrodes of the body to stimulate the vestibular system and thereby restore vestibular functioning. In an example, a stimulator device connected to the body via a lead is also implanted. The stimulator device can have a small and convenient form factor. In some instances, the stimulator device is a stand-alone device that is configured to provide stimulation to the recipient's vestibular system without respect to signals received from devices external to the recipient. In some implementations, the stimulator device is a component of a sensory prosthesis (e.g., a cochlear implant or bionic eye) or another medical device.Type: ApplicationFiled: March 12, 2020Publication date: January 28, 2021Inventors: Angel Manuel RAMOS MACIAS, Angel RAMOS DE MIGUEL, Koen Erik VAN DEN HEUVEL, Mattheus Johannes Petrus KILLIAN
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Publication number: 20180280687Abstract: A method, including sequentially activating a plurality of respective electrode pairs of an implanted cochlear implant, at least one of the electrodes of the respective electrode pairs being a respective electrode of an electrode array implanted in a cochlea, thereby generating respective localized electric fields, concurrently respectively measuring, for the plurality of activated respective electrode pairs, an electrical characteristic between the respective electrodes of the respective electrode pairs resulting from the respective localized electric fields, thereby obtaining a measurement set, determining, from the measurement set, a distance between the electrode array and a wall of the cochlea.Type: ApplicationFiled: March 26, 2018Publication date: October 4, 2018Inventors: Paul Michael CARTER, Nicholas Charles PAWSEY, Ryan Orin MELMAN, Ángel Ramos de Miguel, Ángel Manuel Ramos Macías, D. Juan Carlos Falcon Gonzalez, Riaan Rottier, Christopher Bennett, John Michael Heasman, Peter Gibson, Mary-Beth Brinson, Stephen O?Leary, Christo Bester, Richard Bruce Murphy
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Publication number: 20180140829Abstract: A method, including obtaining information indicative of a phenomenon sensed at a read electrode of a cochlear implant electrode array relative to a reference and/or at a read electrode remote from the electrode array relative to a reference, where one of the electrodes of the cochlear implant electrode array was energized executing a first analysis of the information to identify one or more first meanings from among a first group of meanings of the sensed phenomenon, conditioning the obtained information based on the identified one or more first meanings, and executing a second analysis of the conditioned information to identify one or more second meanings from among a second group of meanings of the sensed phenomenon.Type: ApplicationFiled: September 18, 2017Publication date: May 24, 2018Inventors: Ángel Ramos de Miguel, Sr., Ángel Manuel Ramos Macías, D. Juan Carlos Falcon Gonzalez, Riaan Rottier, Christopher Bennett