JP2020156827A - Biosignal measuring site output device, biosignal measuring device, and information terminal device - Google Patents

Abstract

To provide a biosignal measuring site output device causing a measurer, etc. to easily recognize a measuring site in a subject on which a measuring section for measuring a biosignal is worn and thereby capable of suppressing misidentification of the measuring site.SOLUTION: A biosignal measuring site output device comprises a measuring section for measuring a biosignal at a site of a measuring object in a subject, a biosignal communication section for transmitting the biosignal measured by the measuring section to a transmission destination device, a measuring site information setup section for setting information of the measuring site, a storage section for storing information of the measuring site set by the measuring site information setup section, and a measuring section information output section for outputting the information of the measuring site stored in the storage section.SELECTED DRAWING: Figure 2

Description

The present invention relates to a biological signal measurement site output device, a biological signal measurement device, and an information terminal device.

In research in the medical field and the healthcare field, a biological signal measurement system that measures a biological signal such as an electromyogram, an electrocardiogram, or an electroencephalogram of a subject is used.

For example, in surgery on the spinal cord or spine, nerve function is monitored to avoid neuropathy.
In the monitoring of nerve function, the electromyogram of the limbs or trunk when the patient's head is electrically stimulated is recorded once for several minutes to several tens of minutes, and the recorded electromyogram. The function of the spinal cord is diagnosed based on the change in the amplitude of the spinal cord.

Regarding the recording of electromyograms during surgery, in the field of orthopedics, recording of electromyograms with eight or more muscles is recommended, and recording with a plurality of muscles is generally performed.
However, since a wired needle electrode or surface electrode is used in such an electrocardiogram recording, the wiring is complicated when connecting the bioelectrode and the monitoring device, and the electrode is attached. It may be complicated that it takes time and that the operation in the prone position involves reconnection of the electrodes when changing the position from the supine position after anesthesia.

For the use of exercise analysis in fields such as sports, a myoelectric potential measurement system equipped with a wireless function is commercially available. In the monitoring of nerve function, it is expected that the complexity caused by wiring will be eliminated by making the electrodes wireless.
Such a wireless myoelectric potential measuring system is configured by using one or more data receiving devices and one or more measuring devices equipped with sensors. In a device composed of a plurality of measuring devices, each of the plurality of measuring devices is attached to each measurement site of the person to be measured. In each measuring device, a plurality of electromyograms are recorded by transmitting the measured electromyogram data to the data receiving device.

As an example of the prior art, it has been studied to display information indicating a measurement site on a bioelectrode of a measuring device (see Patent Document 1).
As another example of the prior art, a living body method measuring system in which a plurality of measuring devices are attached to a clothing type sensor worn on a subject is being studied (see Patent Document 2).

Japanese Unexamined Patent Publication No. 4-355640 JP-A-2017-148220

In the conventional biological signal measurement system, when the measurement result data is transmitted from each measurement device to the data receiving device by wire, for example, by tracing the electrodes, the correspondence between the myocardiogram and the measurement site is confirmed. It is possible to do.
On the other hand, in a device in which the measurement site can be freely changed according to the application, when the measurement result data is wirelessly communicated from each measurement device to the data receiving device, each measured EMG is used. There was no method to confirm that was recorded as an electromyogram of each intended measurement site without mistake.
Even when the measurement result data is transmitted from each measuring device to the data receiving device by wire, it is often complicated to confirm the correspondence between the electromyogram and the measurement site.

Further, in the technique according to Patent Document 1, it is assumed that a disposable measuring device having a fixed measurement site is used, and the information indicating the measurement site displayed on each measuring device cannot be changed. .. Therefore, in the technique according to Patent Document 1, when a reusable measuring device is used for an arbitrary part, information indicating the measuring part displayed on the main body of the electrode or the cover film in each measuring device is provided. Since it cannot be changed, it may not be possible to display the correct measurement site of each measuring device.

Further, in the technique according to Patent Document 2, biometric information can be recorded without causing a mistake in the measurement site, even when each of the plurality of measuring devices is attached to any measurement site. However, in the technique according to Patent Document 2, it is necessary to separately attach a clothing-type sensor that transmits information about the measurement site to the measurement device to the person to be measured in advance. Further, this method has a drawback that it can be attached only to the portion prepared for the clothing type sensor.

As described above, in the biological signal measurement system, it may be complicated to confirm whether or not each of the plurality of measuring devices is correctly attached to the measurement site to be attached. In particular, the measuring device is wireless. In some cases, such confirmation was difficult in the modified configuration. Such a problem can be a big problem because, for example, when the types of measurement parts or the combination of a plurality of measurement parts are increased, the measurement parts are likely to be mistaken for each other.

The present invention has been made in consideration of such circumstances, and the measurement site in the person to be measured to which the measurement unit for measuring the biological signal should be mounted can be easily confirmed by the measurer or the like. An object of the present invention is to provide a biological signal measurement site output device, a biological signal measurement device, and an information terminal device capable of suppressing a mistake in a measurement site.

One aspect of the present invention includes a measuring unit that measures a biometric signal of a site to be measured in a person to be measured, a biosignal communication unit that transmits the biometric signal measured by the measuring unit to a destination device, and a measuring site. A measurement site information setting unit that sets the information of the measurement site, a storage unit that stores the information of the measurement site set by the measurement site information setting unit, and a measurement that outputs the information of the measurement site stored in the storage unit. It is a biological signal measurement site output device including a site information output unit.

According to the present invention, in the biological signal measurement site output device, the biological signal measurement device, and the information terminal device, the measurement site in the person to be measured to which the measurement unit for measuring the biological signal should be mounted can be easily confirmed by the measurer or the like. This makes it possible to prevent the measurement site from being mistaken for each other.

It is a figure which shows the schematic structure of the biological signal measurement system which concerns on one Embodiment (1st Embodiment) of this invention. It is a figure which shows an example of the functional structure of the biological signal measurement site output device which concerns on one Embodiment (1st Embodiment) of this invention. It is a figure which shows the example of the appearance of the biological signal measurement site output device which concerns on one Embodiment (1st Embodiment) of this invention. It is a figure which shows the outline of the person to be measured, the biological signal measuring apparatus and the information terminal apparatus which concerns on one Embodiment (second Embodiment) of this invention. It is a figure which shows the example of the functional structure of the biological signal measurement site output device which concerns on one Embodiment (second Embodiment) of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First Embodiment)
[Biomedical signal measurement system]
FIG. 1 is a diagram showing a schematic configuration of a biological signal measurement system 1 according to an embodiment (first embodiment) of the present invention.
The biological signal measurement system 1 includes a stimulator 10, an information transmission device 20, an input device 30, a main body device 40, and a plurality of (8 in the example of FIG. 1) biological signal measurement site output devices 50-1 to 50-1. It is equipped with 50-8.

The biological signal measurement system 1 may be applied to any measurement target, for example, a system for measuring biological signals such as an electromyogram, an electrocardiogram, or an electroencephalogram, or another biological signal related to nerve function. It may be applied to a measuring system or the like.
Further, the biological signal measurement system 1 may be applied to, for example, a system for monitoring biological signals in real time, or may be applied to a system for processing biological signals in non-real time.

Although the person to be measured 60 is also shown in FIG. 1, the person to be measured 60 is not included in the biological signal measurement system 1. The person to be measured may be referred to as a subject or the like.
Further, in the present embodiment, eight biological signal measurement site output devices 50-1 to 50-8 are shown, but the number of biological signal measurement site output devices may be any number of 2 or more. It may be 1.

The person to be measured 60 is a human being. On the body surface of the person to be measured 60, the respective biological signal measurement site output devices 50-1 to 50-8 are attached to the respective sites to be attached. Mounting may be referred to as mounting or the like.
In the present embodiment, in order to simplify the explanation, the plurality of biological signal measurement site output devices 50-1 to 50-8 should be equipped with the respective biological signal measurement site output devices 50-1 to 50-8. It will be described as a similar device except that the measurement site is different. In addition, a configuration may be used in which a plurality of biological signal measurement site output devices 50-1 to 50-8 include two or more types of devices.

Here, as the measurement site, any site may be used, for example, a predetermined location of the right arm, a predetermined location of the right leg, a predetermined location of the left arm, a predetermined location of the left leg, a predetermined location of the head, and a chest. Names of parts such as predetermined parts and abdominal parts, muscle names such as abductor pollicis longus muscle and tibialis posterior muscle, specific anatomical names such as bones such as sternal pedicle and xiphoid process, or C1 , An electrocardiogram such as an Erb point, a site name of a neurophysiological examination, or the like may be used. As the predetermined location, for example, an upper stage, a middle stage, a lower stage, a center, or the like may be used.

Each biological signal measurement site output device 50-1 to 50-8 provides a measurement function for measuring a biological signal and information on a measurement site to which the biological signal measurement site output device 50-1 to 50-8 should be attached. It has a measurement site information output function to be output. Any signal may be used as the biological signal.
Each of the biological signal measurement site output devices 50-1 to 50-8 transmits the measured biological signal to the information transmission device 20 by the function of wireless communication.

In the present embodiment, a plurality of biological signal measurement site output devices 50-1 to 50-8 are attached to the same subject 60.
In addition, each of the biological signal measurement site output devices 50-1 to 50-8 measures biological signals of different sites of the person to be measured 60.

The stimulator 10 stimulates the subject 60.
In the present embodiment, the stimulator 10 can measure the biological signal of the person to be measured 60 by the measurement function of the biological signal measurement site output device 50-1 to 50-8 mounted on the body surface of the person to be measured 60. A predetermined electric signal is transmitted to the person to be measured 60 by the function of the wired communication in order to confirm whether or not it is possible. Any signal may be used as the electric signal. Further, any timing may be used as the timing at which the electric signal is transmitted from the stimulator 10 to the person to be measured 60.
The stimulator 10 communicates with the main body device 40 by the function of wired communication, and is controlled by the main body device 40.

The information transmission device 20 receives the biological signals transmitted from the respective biological signal measurement site output devices 50-1 to 50-8 by the function of wireless communication.
The information transmission device 20 outputs the received biological signal to the input device 30 by the function of wired communication.

The input device 30 receives the biological signal transmitted from the information transmission device 20 by the function of wired communication.
The input device 30 transmits the received biological signal to the main device 40 by the function of wired communication.

The main body device 40 receives the biological signal transmitted from the input device 30 by the function of wired communication.
The main body device 40 executes processing based on the received biological signal. As the processing, any processing may be used, for example, a processing for storing a biological signal, a processing for analyzing a biological signal, a processing for displaying a biological signal or an analysis result, and the like may be used.
The main body device 40 communicates with the stimulator 10 by a wired communication function to control the stimulator 10.

Here, in the present embodiment, wireless communication is used as communication between the respective biological signal measurement site output devices 50-1 to 50-8 and the information transmission device 20, but as another example, a plurality of living organisms are used. Wired communication may be used for a part or all of the signal measurement site output devices 50-1 to 50-8.
Further, in the present embodiment, communication between the main body device 40 and the stimulation device 10, communication for transmitting an electric signal from the stimulation device 10 to the subject 60, communication between the information transmission device 20 and the input device 30, the input device 30 and the like. Wired communication is used as the communication with the main body device 40, but as another example, wireless communication may be used for a part or all of them.

[Functional configuration of biological signal measurement site output device]
FIG. 2 is a diagram showing an example of the functional configuration of the biological signal measurement site output device 50-1 according to the embodiment (first embodiment) of the present invention.
Here, in the present embodiment, the configurations and operations of the plurality of biological signal measurement site output devices 50-1 to 50-8 are the same, and here, the biological signal measurement site output device 50-1 will be described as a representative. ..

In this specification, for convenience of explanation, a device having both a function of a device for measuring a biological signal and a function of a device for outputting information on a measurement site by displaying or the like is referred to as a device for outputting a biological signal measurement site. Although it will be referred to as a device, such a name may be arbitrary, and for example, a device having both of these functions may be called a biological signal measuring device or the like.

The biological signal measurement site output device 50-1 includes a measurement unit 111, a storage unit 112, a main body side communication unit 113, a setting unit 114, an output unit 115, and a battery 121.

The measuring unit 111 measures the biological signal of the part to be measured in the person to be measured 60. The measuring unit 111 outputs the measured biological signal to the main body side communication unit 113.
The measuring unit 111 is, for example, a biological sensor that measures a signal (biological signal) related to a living body. The measurement may be called detection or the like.
Here, the measurement target portion where the biological signal is measured is the portion of the person to be measured 60 to which the measurement unit 111 is attached. That is, the measuring unit 111 has a mechanism for measuring the biological signal, and the biological signal measured by the mechanism is measured in a state where the biological signal measuring site output device 50-1 is attached to the person to be measured 60. The result is.

The storage unit 112 stores information.
In the present embodiment, the storage unit 112 stores information on the measurement site.
Here, the information on the measurement site is information that identifies the site on which the biological signal should be measured by the measurement unit 111. As the information of the measurement site, arbitrary information may be used, and for example, information such as a name representing the measurement site or an identification number representing the measurement site may be used.

The main body side communication unit 113 is a communication unit that communicates with the main body device 40 side.
In the present embodiment, the main body side communication unit 113 communicates with the main body device 40 via the information transmission device 20 and the input device 30 by wirelessly communicating with the information transmission device 20.
The main body side communication unit 113 transmits, for example, the biological signal measured by the measurement unit 111 to the transmission destination device (transmission destination device). In the present embodiment, the transmission destination device is the final transmission destination and is the main body device 40, and the information transmission device 20 and the input device 30 are relay devices. As another way of thinking, the transmission destination device may be regarded as a direct transmission destination and the information transmission device 20.
Here, the main body side communication unit 113 may communicate a signal other than a biological signal, for example, a signal representing various instructions transmitted from the main body device 40 is transmitted via an input device 30 and an information transmission device 20. You may receive it.

The setting unit 114 sets the information of the measurement site.
The setting unit 114 sets the information of the measurement site according to the instruction input by the measurer or the like, for example. In the present embodiment, the setting unit 114 controls the storage unit 112 to store the information of the measurement site to be set. As a result, in the present embodiment, the information of the measurement site stored in the storage unit 112 as the setting content of the measurement site becomes the information of the set measurement site.

For example, the setting unit 114 may write and store the information of the measurement part in the storage unit 112 as the setting content of the measurement part from the state where the information of the measurement part is not stored in the storage unit 112 as the setting content of the measurement part. it can.
Further, for example, the setting unit 114 can write and store the information of the measurement site stored in the storage unit 112 from the state in which the information of the measurement site is stored in the storage unit 112 as the setting content of the measurement site.
Further, the setting unit 114 can erase the information of the measurement site stored in the storage unit 112 from the state in which the information of the measurement site is stored in the storage unit 112 as the setting content of the measurement site, for example.

In the present embodiment, setting the information of the measurement site includes writing and erasing the information of the measurement site. Further, the mode of writing information includes, for example, a mode of writing new information from a state in which information is not stored, and a mode of rewriting the information from a state in which information is already stored. The rewriting may be called, for example, a change.

In the present embodiment, the storage unit 112 stores the information of one measurement site as the setting content of the measurement site, or the storage unit 112 does not store the information of the measurement site as the setting content of the measurement site. is there.
The storage unit 112 may, for example, store information on a predetermined measurement site as the setting content of the measurement site in the initial state, or store information as the setting content of the measurement site in the initial state. You don't have to.

Here, in the present embodiment, the setting unit 114 shows a case where the information of the measurement site is set according to the instruction input by a person such as a measurer, but other aspects may be used.
As an example of another aspect, the main body device 40 or another device may transmit a signal indicating an instruction regarding setting of information of the measurement site to the main body side communication unit 113. In this case, the main body side communication unit 113 outputs the received signal to the setting unit 114, and the setting unit 114 follows the instruction represented by the signal input from the main body side communication unit 113 to the measurement site. Set the information of.

Further, the setting unit 114 reads the information of the measurement part stored in the storage unit 112 as the setting content of the measurement part, and outputs the information to the output unit 115.
The output unit 115 inputs the information of the measurement site output from the setting unit 114, and outputs the input information of the measurement site in a predetermined mode. As a result, the output unit 115 outputs the information of the measurement site stored in the storage unit 112.
Here, as the predetermined aspect, any aspect may be used, and for example, an aspect of outputting the information of the measurement site by display or an aspect of outputting the information of the measurement site by voice may be used. ..

For example, if the name of the measurement site is displayed as the information of the measurement site, it is easy for the measurer or the like to understand.
As another example, an image including a moving image may be displayed as information on the measurement site.
As another example, an identification number representing the measurement site may be used as the information of the measurement site. In this case, a list of correspondence between the name of the measurement site and the identification number is prepared, and a configuration is used in which the measurer or the like confirms the correspondence between the name of the measurement site and the identification number by looking at the list. You may.

In the present embodiment, the setting unit 114 reads the information of the measurement site from the storage unit 112 and the output unit 115 outputs the information, but other aspects may be used.
As an example of another aspect, the output unit 115 may read the information of the measurement site from the storage unit 112 and output the information.

The battery 121 supplies electric power to each part of the biological signal measurement site output device 50-1.
The battery 121 may be detachable from, for example, the housing of the biological signal measurement site output device 50-1.
As another example, a commercial power source may be used instead of the battery 121. In this case, the commercial power source and the biological signal measurement site output device 50-1 are connected by a power cable or non-contact, and power is supplied from the commercial power source to the biological signal measurement site output device 50-1.

Here, any timing may be used as the timing for outputting the information of the measurement site by the output unit 115.
For example, the output unit 115 may always output information on the measurement site.
For example, the output unit 115 may output information on the measurement site at time intervals of a fixed cycle.
For example, the output unit 115 may output information on the measurement site at the timing when a predetermined instruction is given. The predetermined instruction may be input to the setting unit 114 by a person such as a measurer, or may be transmitted from the main body device 40 or another device to the biological signal measurement site output device 50-1 to communicate with the main body side. It may be input to the setting unit 114 via the unit 113. In these cases, the setting unit 114 gives the input instruction to the output unit 115. The content of these instructions may be the content of an arbitrary instruction, for example, one output may be instructed, two or more output may be instructed, or a predetermined number of outputs may be instructed. You may instruct to keep outputting for the time range.

[Appearance of biological signal measurement site output device]
FIG. 3 is a diagram showing an example of the appearance of the biological signal measurement site output device 50-1 according to the embodiment (first embodiment) of the present invention.
Here, in the present embodiment, the appearances of the plurality of biological signal measurement site output devices 50-1 to 50-8 are the same, and here, the biological signal measurement site output device 50-1 will be described as a representative.

The biological signal measurement site output device 50-1 includes a screen 211 and an operation unit 212.
The screen 211 displays information.
Any screen may be used as the screen 211, for example, a liquid crystal screen may be used.
In the present embodiment, the output unit 115 outputs by displaying the information of the measurement site on the screen 211.
The screen 211 may be considered to be included in the output unit 115, or may be considered to be separate from the output unit 115, for example.

The operation unit 212 receives the content of the operation performed by a person such as a measurer.
In the present embodiment, the operation unit 212 has a plurality of buttons 231 to 233. The operation unit 212 receives the content of the operation performed on the buttons 231 to 233 by a person such as a measurer. The content of the operation may be any content.
In the present embodiment, the content of the operation specifies, for example, the content of the instruction regarding the setting of the information of the measurement site performed by the setting unit 114.
The operation unit 212 may be considered to be included in the setting unit 114, for example, or may be considered to be a separate body from the setting unit 114.

Here, for example, both the screen 211 and the operation unit 212 may perform a process of accepting the content of the operation. As a specific example, the setting unit 114 or the like controls the output unit 115 to display information such as selectable instructions on the screen 211, and the instruction selected according to the content of the operation received by the operation unit 212. Etc. may be specified and input.
Further, for example, a configuration in which the screen 211 and the operation unit 212 are integrated may be used, and as an example, a touch panel for displaying information and receiving the contents of the operation may be used.

Various appearances may be used as the appearance of the biological signal measurement site output device 50-1.
Further, for example, electronic paper may be used as a display device for displaying information on the screen 211. In this case, the electronic paper may be regarded as an integral part of the biological signal measurement site output device 50-1, or may be regarded as a separate body from the biological signal measurement site output device 50-1.
Since the electronic paper can hold the displayed contents without consuming electric power, the consumption of the battery 121 can be suppressed by using the electronic paper.

[About the first embodiment]
As described above, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, the measurement site in the person to be measured 60 to which the measurement unit 111 for measuring the biological signal should be mounted is determined by the measurer or the like. It can be easily confirmed, and thereby it is possible to suppress the mistake of the measurement site.

For example, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, the information can be notified to the measurer or the like by displaying the information of the measurement site or the like. Further, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, the information of the measurement site to be displayed or the like can be arbitrarily changed by the measurer or the like, whereby the biological signal can be changed. The measurement site output device 50-1 to 50-8 can be reused for a different measurement site than the already used measurement site.
In the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, the measurer or the like can easily confirm that the biological signal measurement site output device 50-1 to 50-8 is attached to the correct measurement site. It is possible to confirm and to support the recording of biological signals without confusing the measurement site.

As described above, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, the information of the measurement site can be arbitrarily set, and by displaying the information of the set measurement site or the like. For the measurer, etc., it becomes clear to which part the biological signal measurement site output device 50-1 to 50-8 should be attached, and the plurality of biological signal measurement site output devices 50-1 to 50-8 can be used. Each can be attached to the part that should definitely be attached. For example, if the biological signal measurement site output device 50-1 to 50-8 is configured to display the information of the measurement site, the measurer or the like can visually grasp the information of the measurement site at a glance.
Further, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, the information of the set measurement site can be changed, and for example, it is necessary to measure another site at the time of reuse. In that case, the information of the set measurement site can be changed to the information of the other site.
Further, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, it is necessary to attach a device such as the clothing type sensor described in Patent Document 2 to the person to be measured in advance. Absent.
Further, in the biological signal measurement site output device 50-1 to 50-8 according to the present embodiment, for example, if the information of the measurement site is displayed using electronic paper, the power consumption in the display can be reduced. ..

The effect of this embodiment is that the biological signal measurement site output device 50-1 to 50-8 is wirelessly connected to the side of the main body device 40 (the information transmission device 20 in the example of FIG. 1). In particular, it is applied when the biological signal measurement site output device 50-1 to 50-8 is connected to the side of the main body device 40 (in the example of FIG. 1, the information transmission device 20) by wire. However, it has the effect of facilitating confirmation of information on the measurement site.
Further, the present embodiment is preferably applied when a plurality of biological signal measurement site output devices 50-1 to 50-8 are attached to different measurement sites, but for example, one biological signal measurement site output. Even if the device 50-1 is applied when the device 50-1 is attached to one measurement site, there is an effect that the information on the measurement site can be easily confirmed.

<Configuration example>
As a configuration example, in the biometric signal measurement site output device (biological signal measurement site output device 50-1 in the example of FIG. 2), the site to be measured by the person to be measured (person to be measured 60 in the example of FIG. 1). The measuring unit (measurement unit 111 in the example of FIG. 2) for measuring the biological signal of the above and the destination device (finally the main body device 40 in the example of FIG. 1) for transmitting the biological signal measured by the measuring unit. A biometric signal communication unit (main unit 113 in the example of FIG. 2) that directly transmits to the information transmission device 20) and a measurement site information setting unit (in the example of FIG. 2 that sets information of the measurement site). Setting unit 114), a storage unit that stores information on the measurement site set by the measurement site information setting unit (storage unit 112 in the example of FIG. 2), and output information on the measurement site stored in the storage unit. It includes a measurement site information output unit (output unit 115 in the example of FIG. 2).
As a configuration example, in the biological signal measurement site output device, the measurement site information output unit has an electronic paper that displays information on the measurement site.

(Second Embodiment)
[Biomedical signal measurement system]
The biological signal measurement system according to the present embodiment is different from the biological signal measurement system 1 shown in FIG. 1 in that the biological signal measurement site output device is separated into two devices.
In the present embodiment, for convenience of explanation, the stimulus device 10, the information transmission device 20, the input device 30, and the main body device 40 will be described with the same reference numerals as those shown in FIG.

FIG. 4 is a diagram showing an outline of a person to be measured 300, a biological signal measuring device 410-1 to 410-8, and an information terminal device 420 according to an embodiment (second embodiment) of the present invention.
In the present embodiment, the biological signal measurement site output device 401 is configured by the respective biological signal measurement devices 410-1 to 410-8 and the information terminal device 420 for each of the biological signal measurement devices 410-1 to 410-8. Has been done.
As another way of thinking, it may be considered that the biological signal measurement site output device 401 is configured by the plurality of biological signal measuring devices 410-1 to 410-8 and the information terminal device 420. That is, in the present embodiment, one information terminal device 420 is common to the plurality of biological signal measuring devices 410-1 to 410-8.

The person to be measured 300 is the same as the person to be measured 60 shown in FIG.
The parts of the subject 300 to which the respective biological signal measuring devices 410-1 to 410-8 are attached are, for example, equipped with the respective biological signal measuring part output devices 50-1 to 50-8 shown in FIG. It is the same as the part in the person to be measured 60.

[Biomedical signal measurement site output device]
FIG. 5 is a diagram showing an example of the functional configuration of the biological signal measurement site output device 401 according to one embodiment (second embodiment) of the present invention.
Here, in the present embodiment, the configurations and operations of the plurality of biological signal measuring devices 410-1 to 410-8 are the same, and here, the biological signal measuring device 410-1 will be described as a representative.
The biological signal measurement site output device 401 includes the biological signal measurement device 410-1 and the information terminal device 420.

The biological signal measuring device 410-1 includes a measuring unit 511, a storage unit 512, a measuring site information communication control unit 513, a main body side communication unit 514, a measuring side communication unit 515, and a battery 516.
The information terminal device 420 includes a terminal-side communication unit 531, a setting unit 532, and an output unit 533.
Here, as the information terminal device 420, any device may be used, and for example, a smart phone, a tablet-type computer, or the like may be used. As the information terminal device 420, for example, it is preferable to use a device having a size that can be held by a person such as a measurer.

Each part of the biological signal measuring device 410-1 will be described.
The measuring unit 511 has the same function as the measuring unit 111 shown in FIG.
The storage unit 512 has the same function as the storage unit 112 shown in FIG. 2, except that it is controlled by the measurement site information communication control unit 513.
The measurement site information communication control unit 513 controls communication of information on the measurement site stored in the storage unit 512. Further, the measurement site information communication control unit 513 writes, erases, reads, and the like about the information of the measurement site stored in the storage unit 512 as the setting content of the measurement site.

The main body side communication unit 514 has the same function as the main body side communication unit 113 shown in FIG.
The measurement-side communication unit 515 wirelessly communicates with the terminal-side communication unit 531 of the information terminal device 420.
The battery 516 has the same function as the battery 121 shown in FIG. 2, except that power is supplied to each part of the biological signal measuring device 410-1.

Each part of the information terminal device 420 will be described.
The terminal-side communication unit 531 wirelessly communicates with the measurement-side communication unit 515 of the biological signal measuring device 410-1.
The setting unit 532 is shown in FIG. 2 except that the information of the measurement part stored in the storage unit 512 is set via the terminal side communication unit 531, the measurement side communication unit 515, and the measurement part information communication control unit 513. It has the same function as the setting unit 114.
The output unit 533 has the same function as the output unit 115 shown in FIG.

Here, in the present embodiment, the measurement side communication unit 515 of the biological signal measuring device 410-1 and the terminal side communication unit 531 of the information terminal device 420 communicate wirelessly. As the wireless communication method, any method may be used, and for example, a short-range wireless communication (NFC: Near Field Communication) method may be used.
When NFC is used, for example, if it is an object that transmits NFC radio waves, the biological signal measuring device 410-1 can communicate even when the biological signal measuring device 410-1 is covered with the object. is there. Further, in general, a communication unit using NFC can be configured at low cost, and by using NFC, the overall cost of a plurality of biological signal measuring devices 410-1 to 410-8 is reduced. be able to.
As another example, a configuration may be used in which the measurement side communication unit 515 of the biological signal measuring device 410-1 and the terminal side communication unit 531 of the information terminal device 420 perform wired communication.

[Operation in the biological signal measurement site output device]
The difference between the operation performed by the biological signal measurement site output device 401 and the biological signal measurement site output device 50-1 shown in FIG. 2 will be described in detail. Regarding the operation performed by the biological signal measurement site output device 401, the same points as those of the biological signal measurement site output device 50-1 shown in FIG. 2 will be omitted in detail, but are applied to the present embodiment. May be good.

The setting of the information of the measurement site will be described.
In the information terminal device 420, the setting unit 532 receives information on the measurement site to be set. Then, the setting unit 532 transmits the received information on the measurement site to be set to the measurement side communication unit 515 of the biological signal measuring device 410-1 by the terminal side communication unit 531.
In the biological signal measuring device 410-1, the measurement site information communication control unit 513 stores the information of the measurement site to be set, which is received from the terminal side communication unit 531 by the measurement side communication unit 515, as the setting content of the measurement site. It is controlled to be stored by the unit 512.
As the setting of the information of the measurement site, for example, erasing may be performed in addition to writing.

The output of information on the measurement site will be described.
In the biological signal measuring device 410-1, the measurement site information communication control unit 513 reads out the information of the measurement site stored in the storage unit 512 as the setting content of the measurement site, and the information is obtained by the measurement side communication unit 515. It transmits to the terminal side communication unit 531 of the terminal device 420.
In the information terminal device 420, the setting unit 532 outputs the information of the measurement part received from the measurement side communication unit 515 by the terminal side communication unit 531 to the output unit 533. Then, the output unit 533 outputs the information of the measurement site input from the setting unit 532 in a predetermined mode. As a result, the output unit 533 outputs the information of the measurement site received from the measurement side communication unit 515 by the terminal side communication unit 531.

[About the second embodiment]
As described above, the biological signal measurement site output device 401 according to the present embodiment can display the information of the measurement site of the biological signal measurement devices 410-1 to 410-8, and the measurement to be displayed or the like can be displayed. The same effect as that of the biological signal measurement site output device 50-1 to 50-8 according to the first embodiment can be obtained in that the information on the site can be arbitrarily changed by the measurer or the like.
That is, in the biological signal measurement site output device 401 according to the present embodiment, the measurement site in the person to be measured 300 to which the measurement unit 511 for measuring the biological signal should be mounted can be easily confirmed by the measurer or the like. Therefore, it is possible to suppress the mistake of the measurement site.

Further, in the biological signal measurement site output device 401 according to the present embodiment, the biological signal measurement device 410-1 to 410-8 and the information terminal device 420 are separated. As a result, in the biological signal measurement site output device 401 according to the present embodiment, one information terminal device 420 can be shared with the plurality of biological signal measurement devices 410-1 to 410-8, and a plurality of biological signals can be shared. The cost of the signal measuring devices 410-1 to 410-8 can be reduced, and the overall cost can be reduced.

Further, in the biological signal measurement site output device 401 according to the present embodiment, for example, by bringing the common information terminal device 420 closer to the respective biological signal measurement devices 410-1 to 410-8, each biological signal measurement By configuring the devices to communicate with the devices 410-1 to 410-8 in a non-contact manner, the information of the measurement site can be set for each biological signal measuring device 410-1 to 410-8, and each biological signal measuring device. It becomes easy to display the information of the measurement site set to 410-1 to 410-8.

As described above, in the biological signal measurement site output device 401 according to the present embodiment, the information terminal device 420, which is separate from the biological signal measurement devices 410-1 to 410-8, has an information setting function and an output function of the measurement site. Equipped with. Therefore, for example, even when the biological signal measuring device 410-1 to 410-8 does not have an output function such as a display, the output function of the information terminal device 420 displays information on the set measurement site or the like. It is possible to do.
Further, in the biometric signal measurement site output device 401 according to the present embodiment, for example, after the biometric signal measuring device 410-1 to 410-8 is attached to the person to be measured 300, the biometric signal measuring device 410-1 to 410- Even when the 8 is covered with a cloth or the like, the measurer or the like can grasp the information of the set measurement site by using the information terminal device 420. Then, the measurer or the like can confirm whether or not the set measurement site and the actual mounting site match. Such an effect is particularly remarkable in a configuration in which the biological signal measuring device 410-1 to 410-8 and the information terminal device 420 communicate wirelessly. For example, when NFC communication is used, the measurer or the like can set the information of the measurement site or set the information of the measurement site by holding the information terminal device 420 over each biological signal measurement device 410-1 to 410-8. Information can be displayed.

Here, in the example of FIG. 5, the information terminal device 420 is provided with the function of the setting unit 532, but as a modification, the information terminal device 420 is not provided with the function of the setting unit 532, and each biological signal measuring device 410 is provided. -1 to 410-8 may be provided with the function of the setting unit. As the function of the setting unit, for example, a function similar to the function of the setting unit 114 shown in FIG. 2 may be used. In this case, in this case, roughly, the biological signal measurement site output device shown in FIG. In 50-1, the function of the output unit 115 is separated into an external information terminal device. Further, in this case, in the example of FIG. 5, the function of the setting unit may be included in the measurement site information communication control unit 513 of the biological signal measuring device 410-1.

Further, as another modification, in the configuration shown in FIG. 5, the biological signal measuring device 410-1 may further be provided with any one or both of the function of the setting unit and the function of the output unit. .. With such a configuration, convenience for the measurer and the like can be enhanced. As the function of the setting unit, for example, a function similar to the function of the setting unit 114 shown in FIG. 2 may be used. As the function of the output unit, for example, a function similar to the function of the output unit 115 shown in FIG. 2 may be used.

<Configuration example>
As a configuration example, the biological signal measurement site output device (biosignal measurement site output device 401 in the example of FIG. 4) is a biological signal measurement device (biological signal measurement device 410-1 to 410-8 in the example of FIG. 4). ) And an information terminal device (in the example of FIG. 4, the information terminal device 420).
The biometric signal measuring device includes a measuring unit (measurement unit 511 in the example of FIG. 5), a biosignal communication unit (main body side communication unit 514 in the example of FIG. 5), and a storage unit (memory in the example of FIG. 5). Measurement site information communication control that controls communication between the unit 512), the measurement side communication unit that communicates with the information terminal device (measurement side communication unit 515 in the example of FIG. 5), and the information of the measurement site stored in the storage unit. A unit (in the example of FIG. 5, measurement site information communication control unit 513) is provided.
The information terminal device is a terminal side that communicates with a measurement site information setting unit (setting unit 532 in the example of FIG. 5), a measurement site information output unit (output unit 533 in the example of FIG. 5), and a biological signal measuring device. It includes a communication unit (in the example of FIG. 5, the terminal-side communication unit 531).
In the information terminal device, the measurement site information setting unit transmits the information of the measurement site to be set to the measurement side communication unit by the terminal side communication unit.
In the biological signal measuring device, the storage unit stores the information of the measurement site to be set, which is received from the terminal-side communication unit by the measurement-side communication unit.
In the biological signal measuring device, the measurement site information communication control unit transmits the information of the measurement site stored in the storage unit to the terminal side communication unit by the measurement side communication unit.
In the information terminal device, the measurement site information output unit outputs the information of the measurement site received from the measurement side communication unit by the terminal side communication unit.
As a configuration example, in the biological signal measurement site output device, the measurement side communication unit in the biological signal measurement device and the terminal side communication unit in the information terminal device perform NFC communication.

As a configuration example, the biometric signal measuring device includes a measuring unit that measures a biometric signal of a site to be measured in a person to be measured, a biometric signal communication unit that transmits the biometric signal measured by the measuring unit to a destination device, and the like. Measurement site information communication control that controls communication between the measurement side communication unit that communicates with the information terminal device, the storage unit that stores the measurement site information set by the information terminal device, and the measurement site information stored in the storage unit. It has a department.
The storage unit stores information on the measurement site to be set, which is received from the information terminal device by the measurement side communication unit.
The measurement site information communication control unit transmits the information of the measurement site stored in the storage unit to the information terminal device by the measurement side communication unit.
As a configuration example, the information terminal device includes a terminal-side communication unit that communicates with the biological signal measurement device, a measurement site information setting unit that sets information on the measurement site, and a measurement site information output unit that outputs information on the measurement site. , Equipped with.
The measurement site information setting unit transmits information on the measurement site to be set to the biological signal measuring device by the terminal-side communication unit.
The measurement site information output unit outputs information on the measurement site received from the biological signal measuring device by the terminal-side communication unit.

[About the above embodiment]
It should be noted that any component in any device such as the biometric signal measurement site output device 50-1 to 50-8, the biometric signal measurement device 410-1 to 410-8, the information terminal device 420, and the main body device 40 described above. A program for realizing the above functions may be recorded on a computer-readable recording medium, and the program may be read by a computer system and executed. The term "computer system" as used herein includes hardware such as an operating system (OS: Operating System) or peripheral devices. The "computer-readable recording medium" refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, a CD (Compact Disc) -ROM, or a storage device such as a hard disk built in a computer system. .. Furthermore, a "computer-readable recording medium" is a volatile memory (RAM) inside a computer system that serves as a server or client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, it shall include those that hold the program for a certain period of time.

Further, the above program may be transmitted from a computer system in which this program is stored in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the "transmission medium" for transmitting a program refers to a medium having a function of transmitting information, such as a network such as the Internet or a communication line such as a telephone line.
Further, the above program may be for realizing a part of the above-mentioned functions. Further, the above program may be a so-called difference file that can realize the above-mentioned functions in combination with a program already recorded in the computer system. The difference file may be called a difference program.

The functions of any component in any device described above may be realized by a processor. For example, each process in the present embodiment may be realized by a processor that operates based on information such as a program and a computer-readable recording medium that stores information such as a program. Here, in the processor, for example, the functions of each part may be realized by individual hardware, or the functions of each part may be realized by integrated hardware. For example, the processor includes hardware, which may include at least one of a circuit that processes a digital signal and a circuit that processes an analog signal. For example, the processor may be configured with one or more circuit devices mounted on a circuit board, or one or both of one or more circuit elements. An IC (Integrated Circuit) or the like may be used as the circuit device, and a resistor or a capacitor may be used as the circuit element.

Here, the processor may be, for example, a CPU. However, the processor is not limited to the CPU, and various processors such as GPU (Graphics Processing Unit) or DSP (Digital Signal Processor) may be used. Further, the processor may be, for example, a hardware circuit by an ASIC (Application Specific Integrated Circuit). Further, the processor may be composed of, for example, a plurality of CPUs, or may be composed of a hardware circuit by a plurality of ASICs. Further, the processor may be composed of, for example, a combination of a plurality of CPUs and a hardware circuit by a plurality of ASICs. Further, the processor may include, for example, one or more of an amplifier circuit or a filter circuit for processing an analog signal.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and the design and the like within a range not deviating from the gist of the present invention are also included.

1 ... Biometric signal measurement system, 10 ... Stimulator, 20 ... Information transmission device, 30 ... Input device, 40 ... Main unit device, 50-1 to 50-8, 401 ... Biometric signal measurement site output device, 60, 300 ... Measurer, 111, 511 ... Measuring unit, 112, 512 ... Storage unit, 113, 514 ... Main unit side communication unit, 114, 532 ... Setting unit, 115, 533 ... Output unit, 121, 516 ... Battery, 211 ... Screen, 212 ... Operation unit, 231 to 233 ... Button, 410-1 to 410-8 ... Biological signal measurement device, 420 ... Information terminal device, 513 ... Measurement site information communication control unit, 515 ... Measurement side communication unit, 513 ... Terminal side Communication department

Claims (6)

A measuring unit that measures the biological signal of the part to be measured in the subject,
A biological signal communication unit that transmits the biological signal measured by the measuring unit to the destination device,
The measurement site information setting unit that sets the measurement site information,
A storage unit that stores information on the measurement site set by the measurement site information setting unit,
A measurement site information output unit that outputs information on the measurement site stored in the storage unit,
A biological signal measurement site output device including. Including a biological signal measuring device and an information terminal device,
The biological signal measuring device is
With the measuring unit
With the biological signal communication unit
With the storage unit
The measuring side communication unit that communicates with the information terminal device,
A measurement site information communication control unit that controls communication of information on the measurement site stored in the storage unit,
With
The information terminal device is
The measurement site information setting unit and
The measurement site information output unit and
A terminal-side communication unit that communicates with the biological signal measuring device,
With
In the information terminal device, the measurement site information setting unit transmits information on the measurement site to be set to the measurement side communication unit by the terminal side communication unit.
In the biological signal measuring device, the storage unit stores information on the measurement site to be set, which is received from the terminal-side communication unit by the measurement-side communication unit.
In the biological signal measuring device, the measurement site information communication control unit transmits the information of the measurement site stored in the storage unit to the terminal side communication unit by the measurement side communication unit.
In the information terminal device, the measurement site information output unit outputs information on the measurement site received from the measurement side communication unit by the terminal side communication unit.
The biological signal measurement site output device according to claim 1. The measurement-side communication unit in the biological signal measuring device and the terminal-side communication unit in the information terminal device perform NFC communication.
The biological signal measurement site output device according to claim 2. The measurement site information output unit has an electronic paper that displays information on the measurement site.
The biological signal measurement site output device according to any one of claims 1 to 3. A measuring unit that measures the biological signal of the part to be measured in the subject,
A biological signal communication unit that transmits the biological signal measured by the measuring unit to the destination device,
The measurement side communication unit that communicates with the information terminal device,
A storage unit that stores information on the measurement site set by the information terminal device,
A measurement site information communication control unit that controls communication of information on the measurement site stored in the storage unit is provided.
The storage unit stores information on the measurement site to be set, which is received from the information terminal device by the measurement side communication unit.
The measurement site information communication control unit transmits the information of the measurement site stored in the storage unit to the information terminal device by the measurement side communication unit.
Biological signal measuring device. The terminal-side communication unit that communicates with the biological signal measuring device,
The measurement site information setting unit that sets the measurement site information,
A measurement site information output unit that outputs information on the measurement site is provided.
The measurement site information setting unit transmits information on the measurement site to be set to the biological signal measurement device by the terminal-side communication unit.
The measurement site information output unit outputs information on the measurement site received from the biological signal measuring device by the terminal-side communication unit.
Information terminal device.

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