Sensors for inductive plethysmographic monitoring applications and apparel using same

US 8,034,001 B2
Filed: 09/21/2005
Issued: 10/11/2011
Est. Priority Date: 09/21/2004
Status: Active Grant

First Claim

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1. A physiological sensor for monitoring a subject, comprising:

a supporting elastic material adapted to be arranged on a body part of the monitored subject and, when so arranged, stretchable through an operating range of stretch by expansion and contraction of said underlying body part;

two sensor conductors, each of said sensor conductors being operably affixed to said elastic material in a pattern comprising repeated unit waves that stretch and contract with said supporting elastic material,wherein at least one unit wave is configured to have legs that are substantially parallel,wherein the at least one unit wave is configured such that the legs of the unit wave remain substantially parallel throughout an operating range of stretch, andwherein each sensor conductor has an external contact point; and

a bridging connection connecting the two sensor conductors, wherein the bridging connection is arranged so that the two bridged sensor conductors are electrically continuous, wherein the two sensor conductors form a loop configuration having a bridged end and an external contact end, and wherein the external contact points of the two sensor conductors are located at the external contact end of the loop.

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Abstract

This invention includes improved IP sensors that both have improved sensitivity, performance, and other properties and are multifunctional. The improved IP sensors have IP sensor conductors with waveforms having legs that are substantially parallel throughout the operating range of stretch. The multifunctional IP sensors include, in addition to IP sensors, accessory conductors, additional sensors, and other compatible modules. This inventions also includes embodiments of apparel incorporating the improved IP sensors. This apparel can range from band-like to shirt-like, and so forth, and include one or more IP sensors sensitive to expansions and contractions of underlying regions of a monitored subject.

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15 Claims

1. A physiological sensor for monitoring a subject, comprising:
- a supporting elastic material adapted to be arranged on a body part of the monitored subject and, when so arranged, stretchable through an operating range of stretch by expansion and contraction of said underlying body part;
  
  two sensor conductors, each of said sensor conductors being operably affixed to said elastic material in a pattern comprising repeated unit waves that stretch and contract with said supporting elastic material,wherein at least one unit wave is configured to have legs that are substantially parallel,wherein the at least one unit wave is configured such that the legs of the unit wave remain substantially parallel throughout an operating range of stretch, andwherein each sensor conductor has an external contact point; and
  
  a bridging connection connecting the two sensor conductors, wherein the bridging connection is arranged so that the two bridged sensor conductors are electrically continuous, wherein the two sensor conductors form a loop configuration having a bridged end and an external contact end, and wherein the external contact points of the two sensor conductors are located at the external contact end of the loop.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The physiological sensor of claim 1 further comprising an accessory conductor affixed to said elastic material in a second pattern comprising repeated second unit waves that stretch and contract with said supporting elastic material, wherein said second unit waves of said accessory conductor have a smooth pattern and a spatial frequency less than the spatial frequency of said sensor conductors.
  - 3. The physiological sensor of claim 1 further comprising an accessory conductor affixed to said elastic material in a second pattern comprising repeated second unit waves that stretch and contract with said supporting elastic material, wherein said second unit waves of said accessory conductor have a smooth pattern and a spatial frequency less than approximately 3 per inch.
  - 4. The physiological sensor of claim 1 further comprising an accessory conductor affixed to said elastic material in a second pattern comprising repeated second unit waves that stretch and contract with said supporting elastic material, wherein said accessory conductor is operably linked to at least one conductor external to said supporting elastic material,wherein said second unit waves of said accessory conductor have a smooth pattern and a spatial frequency less than the spatial frequency of the sensor conductor.
  - 5. The physiological sensor of claim 1 further comprising an accessory conductor affixed to said elastic material in a second pattern comprising repeated second unit waves that stretch and contract with said supporting elastic material, wherein said second unit waves of said accessory conductor have a smooth pattern and a spatial frequency less than the spatial frequency of the sensor conductor,wherein each of said first and second unit waves is configured to have legs that are substantially parallel wherein the unit wave is configured such that the legs of the unit wave remain substantially parallel throughout an operating range of stretch;
    - andan additional sensor affixed to said supporting elastic material, wherein said accessory conductor is operably linked to an external conductor and is also operably linked to said additional sensor so that signals from said additional sensor are conveyed to/from said external conductor.
  - 6. The physiological sensor of claim 1 further comprising an accessory conductor affixed to said elastic material in a second pattern comprising repeated second unit waves that stretch and contract with said supporting elastic material, wherein said accessory conductor is operably linked to at least one conductor external to said supporting elastic material,wherein said second unit waves of said accessory conductor have a smooth pattern and a spatial frequency less than the spatial frequency of the sensor conductor;
    - a plurality of additional sensors.
  - 7. The sensor of claim 1, wherein the legs of the at least one unit wave do not deviate more than 10 degrees from parallel throughout the operating range of stretch.
  - 8. The sensor of claim 7, wherein the legs of the at least one unit wave are within approximately 4-5 degrees of being parallel throughout the operating range of stretch.
  - 9. The sensor of claim 7, wherein the legs of the at least one unit wave are within approximately 1-2 degrees of being parallel throughout the operating range of stretch.

10. A physiological monitoring apparel to be worn by a monitored subject, comprising:
- a garment comprising a supporting elastic material adapted to be arranged on a body part of the monitored subject;
  
  two sensor conductors having a pattern comprising repeated unit waves and operably affixed to said supporting elastic material such that, when said garment is worn by the subject, said supporting elastic material and said sensor conductors are arranged on a body part of the monitored subject in a manner so as to be stretched and relaxed through an operating range of stretch by expansion and contraction of said underlying body part,wherein each sensor conductor has an external contact point; and
  
  a bridging connection connecting the two sensor conductors, wherein the bridging connection is arranged so that the two bridged sensor conductors are electrically continuous, wherein the two sensor conductors form a loop configuration having a bridged end and an external contact end, and wherein the external contact points of the two sensor conductors are located at the external contact end of the loop, and wherein the two sensor conductors are configured to extend substantially around a body part except for an insubstantial gap between the bridged end and external contact end of the loop.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. The apparel of claim 10 wherein unit wave patterns have legs within less than 10 degrees of being parallel throughout an operating range of stretch.
  - 12. The apparel of claim 11 wherein unit wave patterns have legs within approximately 4-5 degrees of being parallel throughout an operating range of stretch.
  - 13. The apparel of claim 11 wherein unit wave patterns have legs within approximately 1-2 degrees of being parallel throughout an operating range of stretch.
  - 14. The apparel of claim 10, wherein at least one unit wave is configured to have legs that are substantially parallel, and wherein the at least one unit wave is configured such that the legs of the unit wave remain substantially parallel throughout an operating range of stretch.
  - 15. The apparel of claim 10 further comprising measuring circuitry that measures an electrical impedance of the sensor conductors by applying an excitation signal to the sensor conductors, said electrical impedance changing as said supporting elastic material is stretched throughout the operating range of stretch.

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Current Assignee
Adidas AG
Original Assignee
Adidas AG
Inventors
Gal, Yoav
Primary Examiner(s)
Mallari; Patricia
Assistant Examiner(s)
JANG, CHRISTIAN YONGKYUN

Application Number

US11/233,317
Publication Number

US 20060122528A1
Time in Patent Office

2,211 Days
Field of Search

600534-536, 174/254
US Class Current

600/536
CPC Class Codes

A61B 2562/02   Details of sensors speciall...

A61B 5/0809   by impedance pneumography

A61B 5/091   Measuring volume of inspire...

A61B 5/1135   by monitoring thoracic expa...

A61B 5/6804   Garments; Clothes

A61B 5/6831   Straps, bands or harnesses

D04B 21/06   Patterned fabrics or articl...

D04B 21/18   incorporating elastic threads

Sensors for inductive plethysmographic monitoring applications and apparel using same

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

98 Citations

15 Claims

Specification

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Sensors for inductive plethysmographic monitoring applications and apparel using same

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

98 Citations

15 Claims

Specification

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Solutions

Use Cases

Quick Links