FI119171B - Procedure and heart rate monitor - Google Patents

Description

1,119,171 t

Method and heart rate monitor

The invention relates to a method for transmitting heart rate information from a remote device to a terminal device according to claim 1.

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The invention also relates to a method according to claim 14 for processing heart rate information received from a remote device at a terminal.

The invention further relates to heart rate monitors and transmitter parts and counting and display units of heart rate monitors adapted to use the aforementioned methods. In this case, a heart rate monitor also means a wristop computer or other similar device having heart rate measuring capabilities.

According to the prior art, heart rate monitors and similar wrist computers comprise 15 transmitter belts typically connected to the human body by a flexible belt, which today typically measures the pulse. This measuring device with electrodes sends a measurement message over the radio to a wristwatch-like computer, where at least a portion of the received signal is processed and displayed on the wristop computer screen. In addition to pulse, well-known wristop computers can measure, for example, · »« \: 20 blood pressure, velocity, acceleration and direction information.

When there are many athletes using wristop computers close together, which is typical of * · ***** guided exercise classes or mass athlete distractions, * * * * * * the receiver is recognized by the correct transmitter.

• · • ♦ 25. ι ·) Two prior art techniques have been used to identify the correct transmitter. alternative method. For example, Finnish patent 96380 describes an analog # * • · · * solution which uses a time between at least two identifier pulses ···· ♦ • ·. as a means by which the receiver can select the correct transmission signal for several • ·. 30 of the transmission signals. Implemented by analogue technology, this system may have ·· * ♦ · * • * 'encountered error if the detection pulses of the two devices were • · t ** ** too close together. In this case, for example, as a result of interference, the signals of the two transmitters may have been at least intermittently mixed.

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On the other hand, newer devices have used digital signal transmission with digital identification codes. One such digital solution is described in EP 0 760 224 B1. In this solution, the transmitter belt includes a circuitry 5 for detecting heartbeats and generating heart rate interval information that indicates the time elapsed between the detected heartbeats. Heart rate interval data is encoded into a digital signal that is transmitted to the wrist unit.

The known digital solution can solve the aforementioned problem of mixing the transmitted and received data, but we have found that the known digital solution itself can cause problems in the absence of heartbeat detection or heart rate transmitter data transmission for some reason. Namely, it can be very difficult for a wrist unit to control a situation where heart rate interval information is missing. The lack of heart rate information may thus lead to confusion in the 1S wrist unit and an error in the displayed heart rate information.

It is an object of the present invention to provide a novel type of solution in which both the data transmitted by different pairs of wristband transmitters and the wristband: '* *; the possibility of internal mixing of the transmitter belt pair is relatively small.

: V; 20 • *

The invention is based on the fact that, in a transmitter belt or a similar measuring device: (on a remote device), heartbeats are detected and (temporarily) the time information associated with each heartbeat is recorded; The time information is expressed in some comparable format, for example, the value given by the internal clock of the measuring device or the equivalent 25-hour time indicating device. Time information may be local .. * · * or completely independent of this. The time information should describe the time points of successive heart rates with appropriate accuracy and · · · comparability. Thereafter, heart rate time information is transmitted to the heart rate monitor, wristop computer or similar terminal along with the identification information. Now, heart rate data and: 30 if necessary, heart rate interval data can be calculated in the terminal and possibly missing ·. · * *. the remaining heart rate data is detected based on the time data received.

More particularly, the transmission method according to the invention is characterized in what is set forth in the characterizing part of claim 1.

The treatment method according to the invention, in turn, is characterized by what is set forth in the characterizing part of claim 14.

The characteristic features of the heart rate monitor transmitter components and calculation and display units according to the invention are further defined in claims 13 and 25.

The invention provides considerable advantages. Namely, the invention provides a solution in which the likelihood of mixing data transmitted by different pairs of remote terminal devices (for example, a pair of wristband transmitter belts) and of internal pairing of remote terminal pairs is relatively small.

Compared to the known digital solution, there is an advantage that a remote device (e.g., a transmitter belt) can easily transmit sufficient data to a terminal device (e.g., a wrist unit) to calculate heart rate data and further to conclude that the received heart rate information is incomplete.

* · * 20 In an embodiment using a digital identifier, the advantage over analogue encoding technology ·· · ϊ * is that a much larger number of · * · *. * * Combinations of transceivers can be used without creating • · ' * · ** uncertainty as to which receiver each signal is intended for.

Embodiments of the invention allow for very accurate heart rate information and heart rate interval information. , getting a wrist unit or a computer. Accurate heart rate information can be used to calculate the heart rate variation on a wrist unit or computer, for example, by calculating the heart rate variation on the wrist unit or computer. * * * * Can also provide interesting information on body stress levels, for example. the embodiments differ substantially from the technique described in EP 0 760 224 • · ·: *. · B1, which makes it practically not possible to achieve a precision of *. * 1 in order to utilize the heart rate intermediate data in a more advanced analysis of heart rate data.

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The invention will now be illustrated by means of exemplifying embodiments according to the accompanying drawings.

Figure 1 is a block diagram showing one apparatus environment in which the invention can be utilized.

According to Figure 1, the apparatus comprises a measuring device 1, which is typically a pulse measuring device connected to the chest by a flexible belt. This pulse measuring device contains 10 electrodes for measuring the human heart rate. The measuring device 1 can, of course, be another measuring device. The measuring device is connected to a transmitter / encoder 2, where the measuring signal is converted into a transmitable form and provided with a code identifying the transmitter 2. From the transmitter 2, the signal is transmitted wirelessly along the transmission path 3 to the receiver 4, which also includes means for decoding the code. The transmission path 3 is typically an air space between the measuring device 2 located around the chest and the receiver 4 located at the wrist.

The receiver 4, in turn, is connected to a data processing unit 5, which typically: ** 'is also connected to a display. The receiver 4 and the data processing unit 5 are typically i ··: * · *; 20 executed in a wristwatch-like wristop computer. Such a wristop computer may • ·: *! *: Include, in addition to pulse measurement or other measurement features, normal clock functions, possibly positioning equipment such as GPS circuits, and altitude (| T measurement devices, typically a pressure sensor).

• The wristop computer may also be equipped with, for example, a temperature measuring device. Also known are φ wristop computers with interfaces and communication devices to connect a ··· :: wristop to a normal microcomputer, eg via USB.

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Embodiments for transmitting heart rate information from 30 remote devices to the terminal are described below. In such methods: • ·; "* · - generates a message on the remote device containing the heart rate information and a tag, and ·· sends a message from the remote device to the terminal.

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Embodiments are characterized in that the heart rate information comprises heart rate time information.

The identifier used in the embodiments may be in analog format or preferably in digital format.

In one embodiment, the heart rate information is encoded on the remote device to digital format prior to transmission. In another embodiment, the information contained in the message sent from the remote device to the terminal is fully encoded in digital form.

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The remote device may also collect information on multiple heartbeats and include time information related to multiple heartbeats in a single message. For example, the heart rate information contained in each message may comprise a predetermined number of time data associated with detected consecutive heartbeats. For example, the number of time information 15 contained in the message may range from 1 to 8, preferably from 2 to 4, and is preferably equal to 3.

The message containing the heart rate information is produced on the remote device without calculating the heart rate interval information. The remote does not: ***: so this functionality may not be required at all.

• ν ': • · v': The digital identifier contained in the message identifies the remote device, allowing the ·· # terminal to identify the remote device using a digital identifier.

··· ··· «··· :: In a further embodiment, the time information includes a value derived from a time reference selected at the time of the heartbeat detection. Typically, this is done by * ·· !: 'retrieving the time reference from the time reference as soon as the heartbeat is detected. In this case, the time value is obtained after the device's operation delay after the heartbeat ·· • *. · Has been detected. With the device operating time remaining substantially constant, the time values obtained are • • · comparable, since each time value is associated with the same time delay. Typically, a clock device internal to the remote device is used as the time reference.

• * • · · · · · ···

The values derived from the time reference may thus be relative in that they indicate the heartbeat relative to the preceding or subsequent heartbeats.

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Alternatively, the values derived from the time reference may be substantially absolute such that they express with significant accuracy the local time of the heartbeat.

It should also be noted that in the most common embodiment, messages are transmitted wirelessly over the radio frequency.

Thus, the above operations can be performed on a remote device, e.g. The terminal, for example, the heart rate monitor computing and display unit, can in turn carry out the operations described below.

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According to embodiments, the terminal receives messages sent by the remote device containing the heart rate information and the identifier, and determines the respective heart rate value based on the heart rate information contained in the received messages. In embodiments, the heart rate information comprises time-related heart rate information.

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The identifier used in the embodiments may be in analog form or preferably in digital form.

In one embodiment, the heart rate information received is encoded to digital

MB · '· *: 20 formats. In another embodiment, the information contained in the received messages is · · fully encoded in digital format.

999 9 9 9 9 999 „* · * A received message may contain time information related to one or more heartbeats. In some embodiments, the heart rate information contained in each message comprises 25 predetermined number of time data related to consecutive heartbeats detected on the remote device. The number of time information contained in the message may be 999: for example, 1-8, preferably 2-4, and preferably even 3.

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Since heart rate data need not be calculated in the remote device in this method, heart rate information 30 is calculated based on the received time information at the terminal if information about the time between heartbeats is required.

It is advantageous to examine in the terminal the identifier contained in the digital form of each message and, if the identifier differs from the identifier assigned to the terminal, to reject the message containing the mismatched identifier.

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Thus, each time information may include a relative time value such that the time values indicate the heartbeat relative to the preceding or subsequent heartbeats, or a substantially absolute time value such that the time values express substantially the local time of the heartbeat.

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Typically, the message is received wirelessly over the radio frequency.

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Claims (25)

A method for transmitting heart rate information from a remote device to a terminal, comprising: 5. generating on the remote device a message including heart rate information and an identifier, and - transmitting a message from the remote device to the terminal, characterized in selected based on the heartbeat detection time 10, and - the heart rate information contained in each message comprises a predetermined number of time information such that the number of time information contained in the message is between 1 and 8. A method according to claim 1, characterized in that the heart rate information is encoded on the remote device into digital form before transmission. Method according to claim 1 or 2, characterized in that the information contained in the message to be transmitted from the remote device to the terminal is completely · · * * ...: encoded in digital form. • t · • · 1 »· • ·; *! 1. A method according to any one of claims 1 to 3, characterized in that the *** device in the remote device collects information on multiple heartbeats and includes time information related to more than one heartbeat in one message. The method according to any one of claims 1 to 4, characterized in that the heart rate information contained in each message comprises a predetermined number of time data, [· · ·, related to the detected consecutive heartbeats. The method according to claim 4 or 5, characterized in that the number of time information contained in the message ·: · *: 25 is between 2 and 4, and preferably at exactly 3. i »· J The method according to any one of claims 1 to 6, characterized in that * · • · · *! the message containing the heart rate information is produced on the remote device without calculating the heart rate interval information. 119171 A method according to any one of claims 1 to 7, characterized in that the identifier is in digital form and identifies the remote device, wherein the terminal device can identify the remote device by means of an identifier in digital form. 8 119171 9. A method according to claim 1, characterized in that 5 is used as a time reference by an internal clock device of the remote device. A method according to claim 1 or 9, characterized in that the values obtained from the time reference are relative such that they indicate the heartbeat relative to the preceding or subsequent heartbeats. Method according to claim 1 or 9, characterized in that the values obtained from the time reference 10 are substantially absolute, so that they express with significant accuracy the local time of the heartbeat. A method according to any one of claims 1 to 11, characterized in that the message is transmitted on your wireless radio frequency. A transmitter portion of a heart rate monitor for transmitting measured heart rate information to a computing and display unit 15 comprising: - means for detecting a heartbeat, a means for generating a message comprising a heart rate information and an identifier, and i · · • · Means for sending a message from the transmitter part to the counting and display unit, * ♦ · · ... * characterized in that »· * **** 20 transmitter parts comprise: ♦ · •« ··· - a time reference to provide a time value, • · • · · »! Means for selecting a value from the time reference based on the heart rate detection time, and. - means for generating heart rate information comprising time information including • *. 25 selected value based on the heartbeat detection time, • · · • ·; and that the means for producing the message are adapted to include in the heart rate information of each message a predetermined number of time data, which is a predetermined number between 1 and 8. 119171 ίο A method for processing heart rate information received from a remote device, the method comprising: - receiving messages transmitted by the remote device containing heart rate information and an identifier; and 5. determining a respective heart rate value based on the heart rate information contained in received messages a value derived from a time reference selected based on a heartbeat detection time 10; and - the heart rate information contained in each message comprises a predetermined number of time information such that the number of time information contained in the message is between 1 and 8. A method according to claim 14, characterized in that the received heart rate information is encoded in a digital format. Method according to claim 14 or 15, characterized in that the information contained in the received messages is fully encoded in digital, ·· ♦. shape. «S * ·· ** · * *. V A method according to any one of claims 14 to 16, characterized in that the received message contains time information related to more than one heartbeat. • · • · Ml ··· 20 Method according to one of claims 14 to 17, characterized in that the heart rate information contained in each message M ·· comprises a predetermined number of time information, # Φ #, related to the consecutive heartbeats detected on the remote device. • · • · a • a a A method according to claim 17 or 18, characterized in that the number of time information contained in the message is between 2 and 4, and preferably at exactly 3. * · ·; ··; 25 A method according to any one of claims 14 to 19, characterized in that, if necessary, information on the elapsed time between heartbeats, the heart rate interval information is calculated on the basis of the received time information. «♦ 119171 Method according to one of Claims 14 to 20, characterized in that the identifier contained in each message is examined, and if the identifier differs from the identifier set in the terminal, the message containing the different identifier is discarded. A method according to any one of claims 14 to 21, characterized in that each time information S contains a relative time value such that the time values indicate a heartbeat relative to the preceding or subsequent heartbeats. A method according to any one of claims 14 to 21, characterized in that each time information contains a substantially absolute time value such that the time values express with significant accuracy the local time of the heartbeat. A method according to any one of claims 14 to 23, characterized in that the message is received wirelessly at a radio frequency. 25. A heart rate monitor computing and display unit comprising: - means for receiving messages sent by a heart rate monitor transmitter part including heart rate information and an identifier, and 15. means for determining a respective heart rate value based on the heart rate information of received messages, characterized by: · • 1 ♦ - means for applying the tag to the computing and display unit, * · «* · · .2 ·. - means for examining and rejecting the identifier contained in each message, ··· • j · 20 if the identifier differs from the one assigned to the computing and display unit, and · 1 »1 ··· • · .. 1 - means for reading the received messages, j The means are adapted to read the heart rate information contained in the message, comprising a predetermined number of time information • t1 · such that the number of time information contained in the message is between 1 and 8, wherein each time information contains a value from the time reference selected based on the moment of recognition. «·· 1! • 1 · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · • 119 119