Utilization of different loudness encoding schemes in cochlear implant systems

US 9,643,007 B2
Filed: 10/30/2013
Issued: 05/09/2017
Est. Priority Date: 10/30/2013
Status: Active Grant

First Claim

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1. A sound processor included in a cochlear implant system associated with a patient, the sound processor comprising:

a processing facility that identifies a loudness level of an audio signal presented to the patient; and

a loudness encoding management facility thatdetermines that a stimulation pulse amplitude corresponding to the loudness level is greater than a maximum stimulation pulse amplitude allowed by a compliance voltage associated with a cochlear implant implanted within the patient, anddirects, in response to the determination that the stimulation pulse amplitude is greater than a maximum stimulation pulse amplitude allowed by the compliance voltage, the cochlear implant to represent the loudness level to the patient by directing the cochlear implant to generate and apply a plurality of stimulation pulses to the patient in accordance with a pulse density modulation encoding scheme.

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Abstract

An exemplary sound processor included in a cochlear implant system associated with a patient may 1) identify a loudness level of an audio signal presented to the patient, 2) determine that a stimulation pulse amplitude corresponding to the loudness level is greater than a maximum stimulation pulse amplitude allowed by a compliance voltage associated with a cochlear implant implanted within the patient, and 3) direct, in response to the determination that the stimulation pulse amplitude is greater than a maximum stimulation pulse amplitude allowed by the compliance voltage, the cochlear implant to represent the loudness level to the patient by directing the cochlear implant to generate and apply one or more stimulation pulses to the patient in accordance with at least one of a first encoding scheme that includes pulse density modulation and a second encoding scheme that includes a combination of pulse amplitude modulation and pulse width modulation.

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20 Claims

1. A sound processor included in a cochlear implant system associated with a patient, the sound processor comprising:
- a processing facility that identifies a loudness level of an audio signal presented to the patient; and
  
  a loudness encoding management facility thatdetermines that a stimulation pulse amplitude corresponding to the loudness level is greater than a maximum stimulation pulse amplitude allowed by a compliance voltage associated with a cochlear implant implanted within the patient, anddirects, in response to the determination that the stimulation pulse amplitude is greater than a maximum stimulation pulse amplitude allowed by the compliance voltage, the cochlear implant to represent the loudness level to the patient by directing the cochlear implant to generate and apply a plurality of stimulation pulses to the patient in accordance with a pulse density modulation encoding scheme.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The sound processor of claim 1, wherein the loudness encoding management facility directs the cochlear implant patient to represent the loudness level to the patient by generating and applying the plurality of stimulation pulses by way of an electrode disposed within a cochlea of the patient.
  - 3. The sound processor of claim 1, wherein the plurality of stimulation pulses comprises a first stimulation pulse having a first stimulation pulse amplitude and a second stimulation pulse having a second stimulation pulse amplitude, wherein a sum of the first and second stimulation pulse amplitudes is substantially equal to the stimulation pulse amplitude corresponding to the loudness level.
  - 4. The sound processor of claim 3, wherein the loudness encoding management facility directs the cochlear implant to apply the plurality of stimulation pulses to the patient by directing the cochlear implant to sequentially apply the first and second stimulation pulses.
  - 5. The sound processor of claim 4, wherein the pulse density modulation encoding scheme defines a delay time that temporally separates the first and second stimulation pulses.
  - 6. The sound processor of claim 1, wherein the stimulation pulse amplitude corresponding to the loudness level is equal to a stimulation pulse amplitude that a single stimulation pulse must have if the single stimulation pulse is used by the cochlear implant to represent the loudness level to the patient in accordance with a pulse amplitude modulation encoding scheme.
  - 7. The sound processor of claim 1, wherein:
    - the processing facility identifies an additional loudness level of the audio signal presented to the patient; and
      
      the loudness encoding management facilitydetermines that an additional stimulation pulse amplitude corresponding to the additional loudness level is less than or equal to the maximum stimulation pulse amplitude allowed by the compliance voltage, anddirects, in response to the determination that the additional stimulation pulse amplitude is less than or equal to the maximum stimulation pulse amplitude allowed by the compliance voltage, the cochlear implant to represent the additional loudness level to the patient by directing the cochlear implant to generate and apply a single stimulation pulse having the additional stimulation pulse amplitude to the patient in accordance with a pulse amplitude modulation encoding scheme.
  - 8. The sound processor of claim 7, wherein:
    - the plurality of stimulation pulses and the single stimulation pulse are included in a single pulse train applied by way of a single electrode; and
      
      the loudness encoding management facility directs the cochlear implant to dynamically switch from operating in accordance with the pulse density modulation encoding scheme to operating in accordance with the pulse amplitude modulation encoding scheme while the single pulse train is being applied by way of the single electrode.
  - 9. The sound processor of claim 1, wherein the loudness encoding management facility directs the cochlear implant to represent the loudness level to the patient without increasing the compliance voltage associated with the cochlear implant.
  - 10. The sound processor of claim 1, wherein the wherein the loudness encoding management facility further directs the cochlear implant to generate and apply the stimulation pulses in accordance with a pulse width modulation encoding scheme.
  - 11. The sound processor of claim 1, wherein:
    - the processing facility identifies an additional loudness level of the audio signal presented to the patient; and
      
      the loudness encoding management facilitydetermines that an additional stimulation pulse amplitude corresponding to the additional loudness level is greater than the maximum stimulation pulse amplitude allowed by the compliance voltage and that the additional loudness level cannot be represented using the pulse density modulation encoding scheme, andincreases, in response to the determination that the additional stimulation pulse amplitude is greater than the maximum stimulation pulse amplitude allowed by the compliance voltage and that the additional loudness level cannot be represented using the pulse density modulation encoding scheme, the compliance voltage associated with the cochlear implant.

12. A sound processor included in a cochlear implant system associated with a patient, the sound processor comprising:
- at least one processor thatidentifies, during a first time slot, a first loudness level of an audio signal presented to the patient,determines that a first stimulation pulse amplitude corresponding to the first loudness level is less than or equal to a maximum stimulation pulse amplitude allowed by a compliance voltage associated with a cochlear implant implanted within the patient,directs, in response to the determination that the first stimulation pulse amplitude is less than or equal to the maximum stimulation pulse amplitude applied by the compliance voltage, the cochlear implant to represent the first loudness level to the patient by directing the cochlear implant to generate and apply a single stimulation pulse that has the first stimulation pulse amplitude to the patient in accordance with a pulse amplitude modulation encoding scheme;
  
  identifies, during a second time slot subsequent to the first time slot, second first loudness level of the audio signal presented to the patient,determines that a second stimulation pulse amplitude corresponding to the second loudness level is greater than the maximum stimulation pulse amplitude allowed by the compliance voltage, anddirects, in response to the determination that the second stimulation pulse amplitude is greater than the maximum stimulation pulse amplitude applied by the compliance voltage, the cochlear implant to represent the second loudness level to the patient by directing the cochlear implant to generate and apply one or more stimulation pulses in accordance with an encoding scheme that is different than the pulse amplitude modulation encoding scheme.
- View Dependent Claims (13, 14, 15, 16)
- - 13. The sound processor of claim 12, wherein the encoding scheme that is different than the pulse amplitude modulation scheme includes a pulse density modulation encoding scheme.
  - 14. The sound processor of claim 12, wherein the encoding scheme that is different than the pulse amplitude modulation scheme includes both pulse amplitude modulation and pulse width modulation.
  - 15. The sound processor of claim 14, wherein the at least one processor directs the cochlear implant to generate and apply the one or more stimulation pulses in accordance with the encoding scheme that is different than the pulse amplitude modulation scheme includes both pulse amplitude modulation and pulse width modulation by directing the cochlear implant to generate and apply a second single stimulation pulse that has a stimulation pulse amplitude and a stimulation pulse width that results in the second single stimulation pulse having a total charge corresponding to the second loudness level.
  - 16. The sound processor of claim 12, wherein:
    - the single stimulation pulse and the one or more stimulation pulses are included in a single pulse train applied by way of a single electrode; and
      
      the at least one processor directs the cochlear implant to dynamically switch from operating in accordance with the pulse amplitude modulation encoding scheme to operating in accordance with the encoding scheme that is different than the pulse amplitude modulation scheme while the single pulse train is being applied by way of the single electrode.

17. A sound processor included in a cochlear implant system associated with a patient, the sound processor comprising:
- at least one processor thatidentifies a loudness level of an audio signal presented to the patient; and
  
  directs the cochlear implant to encode the loudness level of the audio signal into a plurality of stimulation pulses in accordance with a pulse density modulation encoding scheme.
- View Dependent Claims (18)
- - 18. The sound processor of claim 17, wherein the at least one processor directs the cochlear implant to apply the plurality of stimulation pulses to the patient by way of a single electrode.

19. A cochlear implant implanted within a patient and included a cochlear implant system, the cochlear implant comprising:
- a receiving facility that receives an instruction from a sound processor included in the cochlear implant system for the cochlear implant to represent a loudness level of an audio signal to the patient;
  
  a loudness encoding management facility thatdetermines that a stimulation pulse amplitude corresponding to the loudness level is greater than a maximum stimulation pulse amplitude allowed by a compliance voltage associated with the cochlear implant, andrepresents, in response to the determination that the stimulation pulse amplitude is greater than a maximum stimulation pulse amplitude allowed by the compliance voltage, the loudness level to the patient by generating and applying one or more stimulation pulses to the patient in accordance with at least one of a first encoding scheme that includes pulse density modulation and a second encoding scheme that includes a combination of pulse amplitude modulation and pulse width modulation.
- View Dependent Claims (20)
- - 20. The cochlear implant of claim 19, wherein the loudness encoding management facility represents the loudness level to the patient in accordance with the first encoding scheme by generating and applying a plurality of stimulation pulses by way of an electrode disposed within a cochlea of the patient.

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Current Assignee
Advanced Bionics AG (Sonova Holding AG)
Original Assignee
Advanced Bionics AG (Sonova Holding AG)
Inventors
Mishra, Lakshmi N.
Primary Examiner(s)
Gedeon, Brian T

Application Number

US15/024,024
Publication Number

US 20160235985A1
Time in Patent Office

1,287 Days
Field of Search

None
US Class Current
CPC Class Codes

A61N 1/36038 Cochlear stimulation

A61N 1/36189 using modulation techniques

Utilization of different loudness encoding schemes in cochlear implant systems

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

14 Citations

20 Claims

Specification

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Utilization of different loudness encoding schemes in cochlear implant systems

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

14 Citations

20 Claims

Specification

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Solutions

Use Cases

Quick Links