Abstract: An electrical stimulation system that provides for transtympanic stimulation of the inner ear that can be used for safely and effectively treating tinnitus. The electrical stimulation system of the present invention may be fully implantable or partially implantable. The system features an electrode placed on the round window membrane. An external portion provides the power to the electrode, which can stimulate the inner ear via the round window as needed by the patient. The present invention also features methods of treating tinnitus using the electrical stimulation system described herein.

Abstract: An electrical stimulation system that provides for transtympanic stimulation of the inner ear that can be used for safely and effectively treating tinnitus. The electrical stimulation system of the present invention may be fully implantable or partially implantable. The system features an electrode placed on the round window membrane. An external portion provides the power to the electrode, which can stimulate the inner ear via the round window as needed by the patient. The present invention also features methods of treating tinnitus using the electrical stimulation system described herein.

Abstract: Apparatuses and methods for matching the tinnitus of a subject are provided. A plurality of sounds are applied to a subject. The plurality of sounds includes a plurality of first sounds and further includes a plurality of second sounds. A first likeness score associated with the plurality of the sounds is received. Each first likeness score is representative of the similarity of the sound associated therewith to the tinnitus of the subject. At least one third sound is generated based on at least one of the plurality of first sounds and based on at least one of the plurality of second sounds. The at least one third sound is generated based on the first likeness scores associated with the plurality of sounds. A fourth sound is determined based on the at least one third sound. The fourth sound matches the tinnitus of the subject.

Abstract: The invention relates to retrieving data from a storage system. One embodiment of the invention comprises receiving a write operation, establishing a correspondence relationship between a logic block address and a physical block address of the write operation, and determining whether a valid data percentage in a mapping table is greater than a predetermined threshold after the correspondence relationship is added in stored metadata of stored metadata.

Abstract: Disclosed herein are embodiments of methods and systems for attenuating artifacts in single channel cochlear implants. Both high and low frequency artifacts can be attenuating using embodiments of the disclosed methods and systems. In some embodiments, low-pass filters, impedance balancing, and DC artifact estimation can be used, alone or in combination, to attenuate or completely remove artifacts in single channel cochlear implants.

Abstract: Disclosed herein are embodiments of methods and systems for attenuating artifacts in single channel cochlear implants. Both high and low frequency artifacts can be attenuating using embodiments of the disclosed methods and systems. In some embodiments, low-pass filters, impedance balancing, and DC artifact estimation can be used, alone or in combination, to attenuate or completely remove artifacts in single channel cochlear implants.

Abstract: Apparatuses and methods for matching the tinnitus of a subject are provided. A plurality of sounds are applied to a subject. The plurality of sounds includes a plurality of first sounds and further includes a plurality of second sounds. A first likeness score associated with the plurality of the sounds is received. Each first likeness score is representative of the similarity of the sound associated therewith to the tinnitus of the subject. At least one third sound is generated based on at least one of the plurality of first sounds and based on at least one of the plurality of second sounds. The at least one third sound is generated based on the first likeness scores associated with the plurality of sounds. A fourth sound is determined based on the at least one third sound. The fourth sound matches the tinnitus of the subject.

Abstract: A system and method that enhance the performance of cochlear implant signal processing in an amplification device. The system utilizes a signal input device that picks up the sounds from the environment or other hearing or audio devices and feeds the incoming signal into a front-end signal processor. The front-end processor pre-processes the signals and feeds them into a cochlear implant signal processor. The system may also insert a front-end processor into multiple signal processing stages of a cochlear implant signal processor with the front-end processor “sandwiched” between the multiple signal processing stages of the cochlear implant signal processors. The system may also insert a front-end processor into multiple signal processing stages of a cochlear implant signal processor with the front-end processor being either an integrated part of the cochlear implant signal processor or a functionally distinctive part for bilateral cochlear implants.

Abstract: Embodiments of the present disclosure are directed to systems and methods for a closed-loop cochlear implant. The closed-loop cochlear implant can use at least one extra-cochlear electrode for monitoring auditory evoked potentials from the peripheral and central auditory pathway and stimulating to optimize speech processing. The closed-loop cochlear implant can further use at least one intra-cochlear electrode to stimulate the auditory nerve. Additionally, in some embodiments, the closed-loop cochlear implant can be used to monitor biosignals, such as EMG and ECG.

Abstract: Methods and devices for treating tinnitus in human or animal subjects wherein the subject is caused to perceive a tinnitus suppressing sound which fully or partially suppresses the subject's tinnitus. In some embodiments of this method, the subject selects a sound that he or she perceives to be the same as the tinnitus and that sound (or a similar sound that is complementary to the subject's perceived tinnitus) is then used as the tinnitus suppressing sound. In other embodiments, the tinnitus suppressing may be a sound that has previously been determined to suppress tinnitus in a substantial number of subjects.

Abstract: Methods and devices for treating tinnitus in human or animal subjects wherein the subject is caused to perceive a tinnitus suppressing sound which fully or partially suppresses the subject's tinnitus. In some embodiments of this method, the subject selects a sound that he or she perceives to be the same as the tinnitus and that sound (or a similar sound that is complementary to the subject's perceived tinnitus) is then used as the tinnitus suppressing sound. In other embodiments, the tinnitus suppressing may be a sound that has previously been determined to suppress tinnitus in a substantial number of subjects.

Abstract: Cochlear implant performance is improved by extracting pitch information and encoding such pitch information into the processor of a cochlear implant. One embodiment of the invention is to explicitly extract the pitch and deliver it to the cochlear implant by co-varying the stimulated site and rate. Another embodiment of the invention is to implicitly encode the pitch information via a code book that serves as the carrier of stimulation in the cochlear implant.

Abstract: Methods, devices and systems for improving hearing and for treating hearing disorders, such as auditory neuropathies. A hearing enhancement system of this invention generally comprises; an amplitude modulation processor, a frequency high-pass processor, a frequency upward-shifting processor and a formant upward-shifting processor.

Abstract: Methods and devices for treating tinnitus in human or animal subjects wherein the subject is caused to perceive a tinnitus suppressing sound which fully or partially suppresses the subject's tinnitus. In some embodiments of this method, the subject selects a sound that he or she perceives to be the same as the tinnitus and that sound (or a similar sound that is complementary to the subject's perceived tinnitus) is then used as the tinnitus suppressing sound. In other embodiments, the tinnitus suppressing may be a sound that has previously been determined to suppress tinnitus in a substantial number of subjects.

Abstract: The disclosure relates to jointly transmitting and processing analog-digital information using Inaudible Synchronous Online User-optimized Processing (iSOUP), wherein digital and analog information can be transmitted via one connection. iSOUP may be implemented in real-time MP3 anti-piracy, customized MP3 songs, Internet customized medical devices, Internet customized consumer electronics, Internet controlled psychoacoustic and physiological tests, tinnitus treatment devices, anti-piracy MP3 players, assistive listening MP3 players, healthcare sensor networks, Bluetooth sensors, audio-visual hearing aids (HAs) and cochlear implants (CIs), audio-touch HAs and CIs, Bluetooth HAs and CIs, automated fitting of HAs and CIs.

Abstract: Methods, devices and systems for improving hearing and for treating hearing disorders, such as auditory neuropathies. A hearing enhancement system of this invention generally comprises; an amplitude modulation processor, a frequency high-pass processor, a frequency upward-shifting processor and a formant upward-shifting processor.

Abstract: A programmable cochlear implant system utilizes multiple-resolution current sources and flexible data-encoding scheme for transcutaneous transmission. In certain embodiments, the number of current sources may be equal to or greater than 2, but equal or less than N?1, where N is the number of electrodes. The multi-resolution current source may introduce offset currents to achieve perceptually-based multiple resolutions with high resolution at low amplitudes and low resolution at high amplitudes. The flexible data-encoding scheme may allow arbitrary waveforms in terms of phase polarity, phase duration, pseudo-analog-waveform, while producing high-rate and high-temporal-precision stimulation. In one embodiment, a 2-current-source system may support simultaneous and non-simultaneous stimulation as well as monopolar, bipolar, pseudo-tripolar, and tripolar electrode configurations.

Abstract: A directionally-sensitive device for detecting and processing vibration waves includes an array of polymeric optical waveguide resonators positioned between a light source, such as an LED array, and a light detector, such as a photodiode array. The resonators which are preferably oriented substantially perpendicularly with respect to incoming vibration waves, vibrate when a wave is detected, thus modulating light signals that are transmitted between the light source and the light detector. The light detector converts the modulated light into electrical signals which, in a preferred embodiment, are used to drive either the speaker of a hearing aid or the electrode array of a cochlear implant. The device is manufactured using a combination of traditional semiconductor processes and polymer microfabrication techniques.

Abstract: Cochlear implant performance is improved by extracting pitch information and encoding such pitch information into the processor of a cochlear implant. One embodiment of the invention is to explicitly extract the pitch and deliver it to the cochlear implant by co-varying the stimulate site and rate. Another embodiment of the invention is to implicitly encode the pitch information via a code book that serves as the carrier of stimulation in the cochlear implant.

Abstract: System and method for using Frequency-Amplitude-Modulation-Encoding (FAME) to improve the quality of sound perception for the cochlear implant users and the compress audio signals so that broadband qualities can be achieved with narrow-band transmission channels. In one embodiment, the FAME strategy extracts essential information (changes in amplitude and frequency) and is able to use a narrow-band capacity to provide broad-band (i.e. high quality) audio signals, which can be used in auditory prostheses and telecommunication.