Method of using non-simultaneous stimulation to represent the within-channel fine structure
First Claim
1. A cochlear stimulation system for capturing and delivering fine time structure (FTS) in incoming sounds, the system comprising:
- an electrode array, having a multiplicity of electrodes for placing into the cochlea;
a stimulator having a multiplicity of stimulation channels connected to the electrode array, said each channel represented by a window or band of frequencies;
an envelope extractor for extracting a slowly varying frequency envelope in the incoming sound;
an FTS analyzer for estimating the FTS information within a frequency band, the analyzer contained within the stimulator; and
a current navigator, for using the identified dominant FTS component at each band of frequency and for steering the stimulation to each point of the cochlea that spatially corresponds to the identified dominant FTS component,wherein the current navigator employs non-simultaneous stimulation, such that a first stimulus at a first electrode is followed immediately by a second stimulus at a second electrode, thereby employing virtual electrodes.
5 Assignments
0 Petitions
Accused Products
Abstract
The present invention provides a cochlear stimulation system and method for capturing and translating FTS in incoming sounds and delivering this information spatially to the cochlea. An embodiment of the system may comprise an FTS estimator/analyzer and a current navigator. An embodiment of the method of the invention can comprise: analyzing the incoming sounds within a time frequency band, extracting the slowly varying frequency components and estimating the FTS to obtain a more precise dominant FTS component within a frequency band. After adding the fine structure to the carrier to identify a precise dominant FTS component in each frequency band (or stimulation channel), a stimulation current is steered to the precise spatial location on the cochlea that corresponds to the dominant FTS component, the steering accomplished by delivering non-simultaneous stimuli through at least two electrodes.
57 Citations
21 Claims
-
1. A cochlear stimulation system for capturing and delivering fine time structure (FTS) in incoming sounds, the system comprising:
-
an electrode array, having a multiplicity of electrodes for placing into the cochlea; a stimulator having a multiplicity of stimulation channels connected to the electrode array, said each channel represented by a window or band of frequencies; an envelope extractor for extracting a slowly varying frequency envelope in the incoming sound; an FTS analyzer for estimating the FTS information within a frequency band, the analyzer contained within the stimulator; and a current navigator, for using the identified dominant FTS component at each band of frequency and for steering the stimulation to each point of the cochlea that spatially corresponds to the identified dominant FTS component, wherein the current navigator employs non-simultaneous stimulation, such that a first stimulus at a first electrode is followed immediately by a second stimulus at a second electrode, thereby employing virtual electrodes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A cochlear stimulation method for capturing and delivering FTS in incoming sounds, wherein the stimulation is provided by a multiplicity of electrodes in an electrode array connected to a multi-channel stimulator, the method comprising:
-
analyzing the incoming sounds within frequency windows or bands, each frequency band representing one channel; extracting the slowly varying frequency carrier component of the incoming sound in each frequency band with an envelope; estimating the dominant FTS component using an FTS analyzer; adding the dominant FTS component to the carrier component to provide a precise corresponding spatial location on the cochlea; and steering the stimulation current to the precise spatial location on the cochlea using a current navigator, wherein stimulation steering is accomplished with non-simultaneous stimulation, such that a first stimulus is delivered by a first electrode and followed immediately by a second stimulus delivered by a second electrode, thereby employing virtual electrodes. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
-
Specification