Your search keyword '"Ifukube, T."' showing total 5 results

1. Proposal of a new method for narrowing and moving the stimulated region of cochlear implants: animal experiment and numerical analysis.

Author

Miyoshi S, Shimizu S, Matsushima J, and Ifukube T

Subjects

Action Potentials, Animals, Electric Stimulation Therapy instrumentation, Electric Stimulation Therapy methods, Electrodes, Guinea Pigs, Membrane Potentials, Models, Neurological, Prosthesis Design, Vestibulocochlear Nerve physiology, Cochlear Implants

Abstract

We have proposed the tripolar electrode stimulation method (TESM) for narrowing the stimulation region and continuously moving the stimulation site for cochlear implants. The TESM stimulates the auditory nerve array using three adjacent electrodes which are selected among the electrodes of an electrode array within the lymphatic fluid. Current is emitted from each of the two lateral electrodes and received by the central electrode. The current received by the central electrode is made equal to the sum of the currents emitted from the lateral electrodes. In this paper, we evaluate whether or not TESM works according to a theory which is based on numerical analysis using an electrical equivalent circuit model of the auditory nerve fibers. In this simulation, the sums of the excited model fibers are compared to the compound action potentials (CAP's) which we obtained through animal experiments. To identify the main parameter while maintaining the amplitude of the CAP (the sum of the fired fibers), we assumed the presence of some parameters from the radial current density profile. In the case of the width value among the parameters being kept constant, the amplitude of the CAP was almost constant; thus, the number of the fired fibers was also almost constant. The width value equals the distance between the points at which the profile of the radial current density of the electrode array and the line of the radial threshold current density of the electrode array intersect. It is possible to determine the measure of the stimulation region or site by controlling the width value and the ratios of the currents emitted from the lateral electrodes. As a result, we succeeded in narrowing the stimulation region by controlling the sum of the currents emitted from the two lateral electrodes. Also we succeeded in continuously moving the stimulation site by modifying the currents emitted from the two lateral electrodes.

Published

1999

2. A blind mobility aid modeled after echolocation of bats.

Author

Ifukube T, Sasaki T, and Peng C

Subjects

Animals, Chiroptera, Echolocation, Equipment Design, Humans, Microcomputers, Blindness rehabilitation, Models, Biological, Self-Help Devices, Sound Localization, Therapy, Computer-Assisted

Abstract

A new model of a mobility aid for the blind was designed using microprocessor and ultrasonic devices. This mobility aid was evaluated based on psychophysical experiments. In this model, a downswept FM ultrasound signal is emitted from a transmitting array with broad directional characteristics in order to detect obstacles. The ultrasound reflections from the obstacles are picked up by a two-channel receiver. The frequency of the emitted ultrasound is swept from 70 to 40 kHz within 1 ms, so it has almost the same characteristics as the ultrasound a bat produces for echolocation. The frequency of the reflected ultrasound wave is down converted by about 50:1 by using a microcomputer with A/D and D/A converters. These audible waves are then presented binaurally through earphones. In this method obstacles may be perceived as localized sound images corresponding to the direction and the size of the obstacles. From the results of psychophysical experiments, it was found that downswept FM ultrasound was superior for the recognition of small obstacles compared to other ultrasonic schemes. With it a blind person can recognize a 1-mm-diameter wire. It was also proved that the blind could discriminate between several obstacles at the same time without any virtual images. This mobility aid, modeled after the bat's echolocation system, is very effective at detecting small obstacles placed in front of the head.

Published

1991

3. Current distributions produced inside and outside the cochlea from a scala tympani electrode array.

Author

Ifukube T and White RL

Subjects

Biomedical Engineering, Cochlear Implants, Electrodes, Humans, Scala Tympani physiology, Cochlea physiology

Published

1987

4. Discrimination of synthetic vowels by using tactile vocoder and a comparison to that of an eight-channel cochlear implant.

Author

Ifukube T

Subjects

Adult, Equipment Design, Humans, Touch, Cochlear Implants, Communication Devices for People with Disabilities, Self-Help Devices, Speech Discrimination Tests

Abstract

A vowel discrimination test using a tactual vocoder was administered and the results were compared to that of an eight-channel cochlear implant. Both the tactile vocoder and the cochlear implant divided the speech signals into 16 frequency components using band-pass filters and lateral inhibition circuits. In the tactile vocoder, these 16 components were converted into a vibration with 200 Hz frequency and applied to a 3 x 16 element vibrator array using bimorph piezoelectric elements. The vibratory patterns were sensed on the fingertip. In the cochlear implant, the 16 components were reduced to eight current stimulation signals, consisting of biphasic pulses with 200 Hz frequency, which were applied to an eight-channel electrode array implanted in the scala tympani. The electrode array passed through the round window into the scala tympani to a depth of 23 mm. These psychophysical experiments investigate the ability of human subjects to discriminate synthetic vowels as a function of the number of channels employed. The results suggested that an eight-channel and a 16-channel tactile vocoder provided essentially the same discrimination scores. However, the ability to discriminate synthetic vowels decreased rapidly when less than eight channels were employed. The ability of an eight-channel tactile vocoder is expected to be better than that of the eight-channel cochlear implant because it is supposed that vowel discrimination is degraded by a phenomenon known as "current spreading" in the case of cochlear stimulation. However, the comparison between the two devices was not done on the cochlear implant subject.

Published

1989

5. A speech processor with lateral inhibition for an eight channel cochlear implant and its evaluation.

Author

Ifukube T and White RL

Subjects

Biomedical Engineering, Evaluation Studies as Topic, Humans, Phonetics, Cochlear Implants, Speech, Speech Acoustics

Published

1987