Personal monitor and method for measuring heart rate

US 6,304,774 B1
Filed: 03/04/1999
Issued: 10/16/2001
Est. Priority Date: 03/19/1993
Status: Expired due to Fees

First Claim

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1. A personal heart rate monitor, comprisinga sensor for sensing biomedical signals related to heartbeats, means for transforming a sequence of said sensed biomedical signals to a sequence of transmission signals that can be wirelessly transmitted from a transmitter to a receiver, each said transmission signal being a sequence of pulses the initiation of which coincides with a feature of said biomedical signals, means for generating data signals as part of said transmission signals, means for generating an identification signal for identifying a transmitter-receiver pair, said identification signal being part of said transmission signals, a transmitter for wirelessly transmitting said sequence of transmission signals to a receiver, said transmitting being initiated by the occurrence of said biomedical signals, a receiver for receiving said sequence of transmission signals, identification means for using said identification signal to determine if said transmission signals in said sequence are from said transmitter, means for rejecting said transmission signals if said transmission signals are not from said transmitter, means for using said sequence of received transmission signals to calculate heart rate if said sequentially received transmission signals are from said transmitter, and a display for displaying said heart rate.

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Abstract

A monitor-exercise equipment apparatus for measuring a biomedical response such as heartbeat rate, and for using the measured response to control the exercise equipment, where the monitor includes a transmitting unit and a receiving unit located in the exercise equipment. The monitor detects a biomedical response (heart rate) and produces a digital pulse train representing this response. The digital pulse train is then encoded to produce an encoded digital signal having a first identification part identifying the transmitting unit and a second data part representing the person'"'"'s biomedical response. This encoded digital signal is wirelessly sent to the receiving unit which reads the received signal to determine if it is from the transmitting unit. If it is from that transmitting unit, the data part is read. If there are too many errors in the data part, a new frequency of wireless transmission is used in the monitor. If the errors are within a reasonable bound, the data bits representing the biomedical response are sent to a memory and/or a display. If the received signal were not from the correct transmitting unit, the received signal is rejected. Interference from other monitors or electrical equipment is minimized, and the data displayed is very accurate. The receiving unit provides a signal to a parameter control means in the exercise equipment. The parameter control means automatically regulates the resistance offered to the user in accordance with the measured heart rate of the user to provide a proper workout. Memory is included for providing exercise profiles unique to the user. An identification unit allows each user to identify himself/herself to the equipment to access the proper stored exercise profile for that person.

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20 Claims

1. A personal heart rate monitor, comprisinga sensor for sensing biomedical signals related to heartbeats, means for transforming a sequence of said sensed biomedical signals to a sequence of transmission signals that can be wirelessly transmitted from a transmitter to a receiver, each said transmission signal being a sequence of pulses the initiation of which coincides with a feature of said biomedical signals, means for generating data signals as part of said transmission signals, means for generating an identification signal for identifying a transmitter-receiver pair, said identification signal being part of said transmission signals, a transmitter for wirelessly transmitting said sequence of transmission signals to a receiver, said transmitting being initiated by the occurrence of said biomedical signals, a receiver for receiving said sequence of transmission signals, identification means for using said identification signal to determine if said transmission signals in said sequence are from said transmitter, means for rejecting said transmission signals if said transmission signals are not from said transmitter, means for using said sequence of received transmission signals to calculate heart rate if said sequentially received transmission signals are from said transmitter, and a display for displaying said heart rate.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The personal monitor of claim 1, further including detection means in said receiver for determining if a transmission signal in a sequence of transmission signals has not been received in said receiver and correction means in said receiver for approximating said heart rate if at least one of said transmission signals of said sequence is missing at said receiver.
  - 3. The personal monitor of claim 2, where said correction means includes means for using said received data signals to determinethe number of said missing transmission signals.
  - 4. The personal monitor of claim 1, where said sequence of received transmission signals includes the currently received transmission signal and the immediately preceeding transmission signal.
  - 5. The personal monitor of claim 1, including means for changing the frequency over which wireless transmission occurs.

6. A method for monitoring the heartbeat rate of a person comprising the steps of:
- using a sensor to obtain biomedical signal outputs based on a biomedical condition of a person, said biomedical condition containing heartbeat information, using said sensor biomedical signal outputs to produce a sequence of signals used to determine heartbeat rate, said sequence of signals representing heartbeats, wirelessly transmitting said sequence of signals over a first frequency from a transmitter to a receiver, and transmitting being initiated by the outputs of said sensor in response to said biomedical condition, producing an identification signal identifying said transmitter even in the presence of interfering signals, wirelessly transmitting said identification signal from said transmitter to said receiver, said identification signal being transmitted with each said signal in said sequence of signals, using said sequence of received signals in said receiver to calculate the heartbeat rate of said person if said signals are from said transmitter, rejecting said signals in said receiver if said identification signal indicates that said signals are not from said transmitter, and displaying said heartbeat rate only if said identification signal identifies said transmitter.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
- - 7. The method of claim 6, where said sequence of received signals is tested in said receiver for a match to an expected sequence of heartbeats.
  - 8. The method of claim 7, including the step of determining said heartbeat rate if said match occurs.
  - 9. The method of claim 7, including the step of determining an approximate heartbeat rate if said match does not occur.
  - 10. The method of claim 7, where the testing determines the number of heartbeats that have been missed in said receiver since the last successful transmission of a signal representing a heartbeat.
  - 11. The method of claim 10, including the further step of correcting for said missed heartbeats.
  - 12. The method of claim 6, where said wirelessly transmitting steps are initiated by said heartbeats.
  - 13. The method of claim 6, including the further step of changing the frequency over which wireless transmission occurs.

14. A personal heart rate monitor, comprisinga sensor for sensing biomedical signals related to heartbeats, circuitry connected to said sensor for transforming a sequence of said sensed biomedical signals to a sequence of transmission signals that can be wirelessly transmitted from a transmitter to a receiver, each said transmission signal being a transmission pattern the initiation of which coincides with a feature of said biomedical signals, a data circuit for generating data signals as part of said transmission signals, a circuit for generating an identification signal for identifying a transmitter-receiver pair, said identification signal being part of said transmission signals, a transmitter for wirelessly transmitting said sequence of transmission signals to a receiver, said transmitting being initiated by the occurrence of said biomedical signals, a receiver for receiving said sequence of transmission signals, an identification circuit for using said identification signal to determine if each of said transmission signals in said transmission pattern are from said transmitter, a circuit for rejecting any of said transmission signals in said transmission pattern if said transmission signals are not from said transmitter, a calculator circuit for using said sequence of correctly received transmission signals from the corresponding transmitter to calculate heart rate, and a display for displaying said heart rate.
- View Dependent Claims (15, 16)
- - 15. The personal monitor of claim 14, further including a detector in said receiver for determining if a transmission signal in a sequence of transmission signals has not been received in said receiver and a correction circuit in said receiver for approximating said heart rate if at least one of said transmission signals of said sequence is missing at said receiver.
  - 16. The personal monitor of claim 15, where said correction circuit includes a circuit for using said received data signals to determine the number of said missing transmission signals between the currently successfully received transmission signal and the previously successfully received transmission signal.

17. A method for monitoring the heartbeat rate of a person comprising the steps of:
- using a sensor to obtain biomedical signal outputs based on heartbeats, said sensor directly connected to circuitry for producing a transmission pattern of signals, using said sensor biomedical signal outputs in said circuitry to produce said transmission pattern comprised of a sequence of signals used to determine heartbeat rate, said signals representing heartbeats, wirelessly transmitting said sequence of signals over a first frequency from a transmitter to a receiver, said transmitting being initiated by the outputs of said sensor, producing an identification signal identifying said transmitter even in the presence of interfering signals, wirelessly transmitting said identification signal from said transmitter to said receiver, said identification signal being transmitted with each said signal in said sequence of signals, using said sequence of received signals in said receiver to calculate the heartbeat rate of said person if said signals are from said transmitter, rejecting said signals in said receiver if said identification signal indicates that said signals are not from said transmitter, and displaying said heartbeat rate.
- View Dependent Claims (18, 19, 20)
- - 18. The method of claim 17, where said sequence of received signals is tested in said receiver for a match to an expected sequence of heartbeats.
  - 19. The method of claim 18, including the step of determining said heartbeat rate if said match occurs.
  - 20. The method of claim 18, including the step of determining an approximate heartbeat rate if said match does not occur.

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Current Assignee
Peter Gregory Gorman
Original Assignee
Peter Gregory Gorman
Inventors
Gorman, Peter Gregory
Primary Examiner(s)
Kamm, William E.

Application Number

US09/263,763
Time in Patent Office

957 Days
Field of Search

600/508, 600/520
US Class Current

600/520
CPC Class Codes

A61B 5/002   Monitoring the patient usin...

A61B 5/222   combined with detection or ...

Y02A 90/10   Information and communicati...

Y10S 128/903   Radio telemetry

Personal monitor and method for measuring heart rate

First Claim

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Abstract

68 Citations

20 Claims

Specification

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Personal monitor and method for measuring heart rate

First Claim

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Accused Products

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Abstract

68 Citations

20 Claims

Specification

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Solutions

Use Cases

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