Heart pulse monitor

US 5,807,267 A
Filed: 08/08/1995
Issued: 09/15/1998
Est. Priority Date: 06/01/1994
Status: Expired due to Fees

First Claim

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1. A heart pulse rate monitor assembly adapted to be worn by a user, typically at the wrist, to measure the user'"'"'s heart pulse rate, comprising;

sensor means for sensing heart pulses of the user and producing a varying electrical sensor signal representative of said heart pulses;

amplifier means connected to said sensor means for amplifying said electrical sensor signal;

signal modification means connected to said amplifier means for converting said sensor signal into a digital signal;

array means for storing values of said digital signal,first normalizing means for normalizing said values of said digital signals to eliminate any highly divergent values stored in said array means,FFT means for computing the FFT of said values of said digital signals to detect the strength of a specific frequency in a spectrum of frequencies included in said varying electrical sensor signal,second normalizing means for normalizing the FFT within a selected range of heart pulses,pulse tracking means for selecting a steady pulse reading within said selected range of heart pulses and within a limited range of pulse rates as computed from the FFT which pulse is representative of the user'"'"'s heart pulse,display means connected to said pulse tracking means for selectively displaying the presence and the rate of the heart pulse;

housing means for enclosing said sensor means, said amplifier means, said signal modification means and said display means in a single unit; and

mounting means for attaching said housing to the user.

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Abstract

The invention herein described is intended to provide the user with a reliable heart rate monitor that is a completely self contained unit and is capable of providing accurate readings while the wearer is moving about. The use of piezoelectric sensing elements eliminates the power drain caused by LEDs and similar devices. The sensing element mounting means disclosed herein is devised to greatly reduce the noise introduced into the pulse signal by body motion. The use of optical sensors in a staring mode and optical sensors in a pulsed mode is also presented. The effects of noise are further reduced by employing digital signal processing algorithms to find the heart pulse intermixed with noise signals and present the heart pulse rate in beats per minute on a display. The resulting device permits the visual monitoring of the heart pulse rate in a human body in a consistent, error-free manner.

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27 Claims

1. A heart pulse rate monitor assembly adapted to be worn by a user, typically at the wrist, to measure the user'"'"'s heart pulse rate, comprising;
- sensor means for sensing heart pulses of the user and producing a varying electrical sensor signal representative of said heart pulses;
  
  amplifier means connected to said sensor means for amplifying said electrical sensor signal;
  
  signal modification means connected to said amplifier means for converting said sensor signal into a digital signal;
  
  array means for storing values of said digital signal,first normalizing means for normalizing said values of said digital signals to eliminate any highly divergent values stored in said array means,FFT means for computing the FFT of said values of said digital signals to detect the strength of a specific frequency in a spectrum of frequencies included in said varying electrical sensor signal,second normalizing means for normalizing the FFT within a selected range of heart pulses,pulse tracking means for selecting a steady pulse reading within said selected range of heart pulses and within a limited range of pulse rates as computed from the FFT which pulse is representative of the user'"'"'s heart pulse,display means connected to said pulse tracking means for selectively displaying the presence and the rate of the heart pulse;
  
  housing means for enclosing said sensor means, said amplifier means, said signal modification means and said display means in a single unit; and
  
  mounting means for attaching said housing to the user.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 13, 14, 15)
- - 2. The monitor recited in claim 1 wherein,said means for sensing comprises an optical sensor device.
  - 3. The monitor recited in claim 2 wherein,said optical sensor device includes a light emitting means for shining light onto the pulse location of the user and a light detecting means for detecting light reflected from said pulse location of the user.
  - 4. The monitor recited in claim 3 wherein,said light emitting means comprises a light emitting diode and said light detecting means comprises a photodetector,said light emitting diode and said photodector are spaced apart adjacent to said pulse location.
  - 5. The monitor recited in claim 4 wherein,said light emitting diode produces infrared light and said photodetector is responsive to the same type of light.
  - 6. The monitor recited in claim 1 wherein,said display means comprises a liquid crystal display.
  - 7. The monitor recited in claim 1 wherein,said housing comprises in a wrist watch case.
  - 8. The monitor recited in claim 1 wherein,said sensor means includes means for sensing ambient noise signals separately from said sensor signal, andsubtractor means for subtracting said ambient noise signal from said sensor signal to produce a heart pulse signal.
  - 9. The monitor recited in claim 8 wherein,said subtractor means operates on digital representations of said ambient noise signal and said sensor signal.
  - 10. The monitor recited in claim 1 wherein,said filter means comprises low pass filters.
  - 13. The monitor recited in claim 5 wherein,said piezo electric sensor means includes first and second piezo electric sensor devices,said first piezo electric sensor device mounted with a button to contact said pulse location,said second piezo electric sensor device mounted on a bridge which is spaced from said pulse location.
  - 14. The monitor recited in claim 13 wherein,each of said first and second piezo electric sensor devices is connected to said circuit means.
  - 15. The monitor recited in claim 13 wherein,both of said first and second piezo electric sensor devices are mounted on a common backing plate.

11. A pulse rate monitor comprising,sensor means adapted to be disposed adjacent to a pulse location of a user,said sensor means operative to produce a first signal in response to a pulse at said pulse location and a second signal in response to artifact signals at said pulse location,circuit means connected to said sensor means to receive said first and second signals,said circuit means operative to produce a digital output signal which is representative of the difference between said first and second signals and is a function of the rate at which said first signal is received,said circuit means compares said difference signal to a theoretical approximation signal to produce an output signal which is the best match between said difference signal and said theoretical approximation signal;
- display means connected to said circuit means and operative to produce a display signal which is representative of said output signal, andhousing means for enclosing said sensor means, said amplifier means, said signal modification means, said circuit means and said display means in a single unit.
- View Dependent Claims (12, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 12. The monitor recited in claim 11 wherein,said sensor means comprises a piezo electric sensor means.
  - 16. The monitor recited in claim 11 wherein,said circuit means includes microprocessor means for processing the first and second signals.
  - 17. The monitor recited in claim 16 including,analog-to-digital converter means connected to supply input signals to said microprocessor means.
  - 18. The monitor recited in claim 17 including,filter means connected to supply input signals to said analog-to-digital converter means.
  - 19. The monitor recited in claim 18 including,amplifier means connected to supply input signals to said filter means.
  - 20. The monitor recited in claim 19 including,sample and hold circuit means for capturing and holding the input signals supplied by the amplifier means connected between said amplifier means and said filter means.
  - 21. The monitor recited in claim 20 including,timing control means connected between said circuit means and said sensor means for controlling the operation of the circuit means.
  - 22. The monitor recited in claim 18 including,log amplifier means connected between said filter means and said analog-to-digital converter to provide selective signal compression.
  - 23. The monitor recited in claim 11 including,switching means connected between said circuit means and said sensor means whereby said circuit means selectively turns off said switching means such that said first signal is not supplied to said circuit means whereby said second signal is algebraically subtracted from said first signal in said circuit means.
  - 24. The monitor recited in claim 23 including,sample and hold circuit means connected between said sensor means and said filter means in order to capture and hold a sample of said sensor signal produced by said sensor means.
  - 25. The monitor recited in claim 24 including,differential amplifier means connected to said sample and hold circuit means to produce an output signal which is the difference between said first signal and said second signal.

26. A pulse rate monitor comprising:
- sensor means adapted to be disposed adjacent to a pulse location of a user, said sensor mean operative to produce a first signal in response to the occurrence of a heart pulse at said pulse location and a second signal in response to artifact signals at said pulse location; and
  
  circuit means operative to produce an output signal which is representative of the difference between the first and second signals which varies as a function of the heart pulse rate;
  
  wherein said circuit means includes;
  
  amplifier means connected for amplifying the signals from the sensor means and supplying the amplified signals as output signals;
  
  filter means connected to receive the output signal of the amplifier means and provide a filtered signal as a filter output signal;
  
  an analog-to-digital converter connected to receive the filter output signal and convert said filter output signal to a digital signal;
  
  microprocessor means connected to receive said digital signal from said analog-to-digital converter;
  
  said microprocessor means includes;
  
  array means for storing values of said digital signal;
  
  first normalizing means for normalizing said values of said digital signals between selected maximum and minimum value;
  
  means for computing the Fourier Transform (FT) of said values of said digital signals in order to detect a periodic pulse representative of a frequency node peak having a narrow spectral range relative to the entire spectral range;
  
  pulse tracking means for selecting a pulse from the FT within a predetermined signal spectrum, which pulse is representative of the user'"'"'s heart pulse rate, and supplying the pulse rate as an output;
  
  a display means connected to said microprocessor means for displaying the pulse rate;
  
  wherein said microprocessor means only updates the display means when said pulse tracking means selects a peak in said predetermined spectrum;
  
  and wherein said microprocessor means does not update said pulse rate a divergent value of said peak is selected.

27. The method of detecting a heart pulse rate with a unitary portable detector comprising,detecting a heart pulse signal from a pulse location on the user'"'"'s body,converting the heart pulse signal to a digital signal,storing the digital signal in a buffer,periodically updating the digital signal stored in the buffer,normalizing the digital signal stored in the buffer to establish a limited range of values for the digital signal,computing a Fourier Transform to filter the normalized signal to detect a periodic pulse in the normalized signal and to eliminate a periodic pulses in the normalized signal;
- converting the frequency of said periodic pulse to a spectral peak value which is representative of said heart pulse signal,comparing said spectral peak value to a prescribed line shape function and interpolating to achieve the best match therebetween in order to obtain an accurate representation of the heart pulse rate; and
  
  displaying the heart pulse rate on a suitable display.

Specification

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Current Assignee
Advanced Body Metrics Corporation
Original Assignee
Advanced Body Metrics Corporation
Inventors
Cavanaugh, David, Bryars, John D.
Primary Examiner(s)
Nasser, Robert L.

Application Number

US08/512,712
Time in Patent Office

1,134 Days
Field of Search

128/672, 128/666, 128/687-690, 128/706, 128/707, 600/500-503, 5/476-475
US Class Current

600/500
CPC Class Codes

A61B 5/02433   for infrared radiation

A61B 5/02438   with portable devices, e.g....

A61B 5/02444   Details of sensor A61B5/024...

A61B 5/681   Wristwatch-type devices

A61B 5/7257   using Fourier transforms

Heart pulse monitor

First Claim

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Abstract

204 Citations

27 Claims

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Heart pulse monitor

First Claim

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Abstract

204 Citations

27 Claims

Specification

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Solutions

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