APPARATUS AND METHOD FOR DATA PROCESSING OF PHYSIOLOGICAL SIGNALS

US 20140142395A1
Filed: 04/05/2012
Published: 05/22/2014
Est. Priority Date: 04/12/2011
Status: Active Grant

First Claim

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1. A filter apparatus comprising:

a signal input, at which an input signal is present, which input signal contains a useful component and a noise component;

a fast signal path, the fast signal path having a fast signal path input and a fast signal path output;

a slow signal path arranged in parallel to the fast signal path, the slow signal path having a slow signal path input and a slow signal path output;

a signal line coupling the slow signal path output with the fast signal path, wherein the signal input is coupled with the fast signal path input and of the slow signal path input, wherein the fast signal path contains a filter to bring about fast filtering of the input signal and wherein the slow signal path contains a filter to bring about slow filtering of the input signal;

a signal output coupled with the fast signal path output and at which an output signal, which contains essentially useful components of the input signal, is present; and

another signal line via which a signal is returned from the fast signal path to the slow signal path to affect the functional characteristic of the slow filter path, wherein an output of the fast signal path is coupled via the other signal line with an input of the slow signal path and wherein physiological signals from a patient, which are used after their filtering to drive a respirator, are present at the signal input.

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Abstract

A filter apparatus (100) having a signal input (101) to which an input signal is applied which contains a useful component and a noise component, a fast signal path (102) and a slow signal path (103) arranged in parallel therewith. The fast signal path and the slow signal path are coupled to the signal input. The fast signal path contains a filter in order to prompt fast filtering of the input signal. The slow signal path contains a filter in order to prompt slow filtering of the input signal. An output of the slow signal path is coupled to the fast signal path by means of a signal line (106). A signal output (104) which is coupled to the fast signal path has an output signal applied to it which essentially contains useful components of the input signal.

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15 Claims

1. A filter apparatus comprising:
- a signal input, at which an input signal is present, which input signal contains a useful component and a noise component;
  
  a fast signal path, the fast signal path having a fast signal path input and a fast signal path output;
  
  a slow signal path arranged in parallel to the fast signal path, the slow signal path having a slow signal path input and a slow signal path output;
  
  a signal line coupling the slow signal path output with the fast signal path, wherein the signal input is coupled with the fast signal path input and of the slow signal path input, wherein the fast signal path contains a filter to bring about fast filtering of the input signal and wherein the slow signal path contains a filter to bring about slow filtering of the input signal;
  
  a signal output coupled with the fast signal path output and at which an output signal, which contains essentially useful components of the input signal, is present; and
  
  another signal line via which a signal is returned from the fast signal path to the slow signal path to affect the functional characteristic of the slow filter path, wherein an output of the fast signal path is coupled via the other signal line with an input of the slow signal path and wherein physiological signals from a patient, which are used after their filtering to drive a respirator, are present at the signal input.
- View Dependent Claims (2, 6)
- - 2. A filter apparatus in accordance with claim 1, in which the fast signal path has a filter with nonlinear properties and the slow signal path has a filter with filter linear properties or an adaptive filter.
  - 6. A filter apparatus in accordance with claim 1, wherein the slow signal path is provided with an artifact analysis block, which has inputs for additional signals.

3-5. -5. (canceled)

7. A filter apparatus comprising:
- a plurality of signal inputs, each having an input signal, which contains a useful component and a noise component;
  
  a plurality of fast signal paths arranged in parallel;
  
  a plurality of slow signal paths arranged in parallel;
  
  wherein each of the plurality of signal inputs is coupled with an input of the plurality of fast signal paths arranged in parallel and of the plurality of slow signal paths arranged in parallel, wherein each fast signal path contains a filter to bring about fast filtering of the input signal, wherein each slow signal path contains a filter to bring about slow filtering of the input signal;
  
  an accounting/decision unit;
  
  signal lines, wherein each slow signal path is coupled with corresponding inputs of the accounting/decision unit via the respective signal lines, wherein each fast signal path is coupled with corresponding outputs of the accounting/decision unit via the respective signal lines; and
  
  a plurality of signal outputs, which are coupled each with outputs of the fast signal paths and at which respective output signals, which contain essentially useful components of the input signals, are present.
- View Dependent Claims (8, 9, 10, 11)
- - 8. A filter apparatus in accordance with claim 7, in which each of the plurality of fast signal paths has a filter with nonlinear properties and each of the plurality of slow signal paths has a filter with linear properties or an adaptive filter.
  - 9. A filter apparatus in accordance with claim 7, wherein the outputs of the fast signal paths are coupled with corresponding inputs of the accounting/decision unit via the respective signal lines.
  - 10. A filter apparatus in accordance with claim 7 for the real-time filtering of physiological signals from a patient, which are used after their filtering to drive a respirator.
  - 11. A filter apparatus in accordance with claim 7, wherein the slow signal path is provided with an artifact analysis block, which has inputs for additional signals.

12. A method for the real-time filtering of physiological signals with a useful component and with a noise component, the method comprising the steps of:
- providing a fast signal path, through which the physiological signal is to pass, with a signal input and with a signal output;
  
  providing a slow signal path through which the physiological signal is to pass in parallel thereto with a signal input and with a signal output;
  
  providing a connection and connecting the signal output of the fast signal path with the signal output of the slow signal path as a signal output;
  
  providing another connection and connecting the signal output of the fast signal path with the signal input of the slow signal path;
  
  coupling the physiological signal in parallel into the input of the fast signal path and into the input of the slow signal path;
  
  passing the physiological signal through the fast signal path fast, providing a filtered output signal, which contains essentially the useful component of the physiological signal and in which the noise component of the physiological signal is not suppressed completely by the fast filtering at the signal output of the fast signal path, wherein the characteristic of the fast signal path is affected via the connection; and
  
  passing the physiological signal through the slow signal path slowly, wherein the characteristic of the slow signal path is affected via the further connection, and and providing a filtered output signal, which contains essentially the useful component of the physiological signal and in which the noise component of the physiological signal is essentially suppressed by the slow filtering at the signal output of the slow signal path, wherein a filtered output signal, which contains essentially the useful component of the physiological signal and in which the noise component of the physiological signal is essentially suppressed, is present at the signal output without time delay relative to the signal output of the fast signal path.
- View Dependent Claims (14, 15)
- - 14. A method in accordance with claim 12, wherein the noise component of the physiological signal is not suppressed completely in the fast signal path.
  - 15. A method in accordance with claim 12, wherein the noise component of the physiological signal is suppressed essentially completely in the slow signal path.

13. A method for the real-time filtering of physiological signals with a useful component and with a noise component, the method comprising the steps of:
- feeding a noise-affected physiological signal as an input signal at a signal input of a fast signal path and, in parallel and simultaneously in time therewith, into a signal input of a slow signal path;
  
  fast filtering the noise-affected physiological signal in the fast signal path;
  
  slow filtering the noise-affected physiological signal in the slow signal path;
  
  feeding a parameter of the slow signal path into the fast signal path;
  
  returning a feedback signal of the fast signal path into the slow signal path; and
  
  providing a noise-suppressed physiological signal, which is not delayed relative to the pass through the fast signal path of the physiological signal, as a filtered output signal.

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Current Assignee
Dragerwerk AG & Company KGaA (FPS Vermögensverwaltung GmbH)
Original Assignee
Marcus Eger
Inventors
Sattler, Frank, Eger, Marcus

Granted Patent

US 9,585,622 B2
Time in Patent Office

Days
Field of Search
US Class Current

600/300
CPC Class Codes

A61B 5/0205   Simultaneously evaluating b...

A61B 5/021   Measuring pressure in heart...

A61B 5/14542   for measuring blood gases A...

A61B 5/316   Modalities, i.e. specific d...

A61B 5/318   Heart-related electrical mo...

A61B 5/389   Electromyography [EMG]

A61B 5/4836   Diagnosis combined with tre...

A61B 5/7203   for noise prevention, reduc...

A61B 5/725   using specific filters ther...

A61M 16/00   Devices for influencing the...

A61M 16/0051   with alarm devices

A61M 16/0057   Pumps therefor

A61M 16/024   including calculation means...

A61M 2230/00   Measuring parameters of the...

A61M 2230/005   Parameter used as control i...

A61M 2230/04   Heartbeat characteristics, ...

A61M 2230/42   Rate

A61M 2230/60   Muscle strain, i.e. measure...

H03H 17/0261   Non linear filters

H03H 17/0294   Variable filters; Programma...

H03H 2021/0083 : Shadow filter, i.e. one of ...

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APPARATUS AND METHOD FOR DATA PROCESSING OF PHYSIOLOGICAL SIGNALS

First Claim

2 Assignments

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Abstract

Citations

15 Claims

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APPARATUS AND METHOD FOR DATA PROCESSING OF PHYSIOLOGICAL SIGNALS

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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