JP6945935B2 - Body temperature measurement processing program, body temperature measurement device and body temperature measurement processing system equipped with this program - Google Patents

Description

The present invention relates to a body temperature measurement processing program for specifying body temperature by being worn on the body and measuring skin temperature and external temperature, a body temperature measuring device provided with this program, and a body temperature measuring processing system.

In recent years, there is an increasing need to measure body temperature for a long period of time such as while sleeping, exercising, or working for the purpose of health management. In order to measure body temperature, it is common to measure it in the mouth or under the armpit, but it is difficult to measure body temperature for a long time at these positions. As a method of measuring body temperature for a long time, a method of measuring body surface temperature (skin temperature) by attaching a device to the body is known, but since body surface temperature is easily affected by outside air temperature, it depends on outside air temperature. It is necessary to correct the body surface temperature and calculate the body temperature. Therefore, it is desired that not only the body surface temperature but also the outside air temperature is not affected by clothing and the like, and the variation is minimized.

Conventionally, various body temperature measuring devices for knowing the body temperature are known. For example, in Patent Document 1, as a body temperature information terminal device, a body surface temperature detecting portion is provided on a surface of a casing on the body surface side so as to protrude from the casing, and an outside air temperature detecting portion protrudes from the casing on the opposite surface. When specifying the body temperature as a representative temperature, the body surface temperature and the outside air temperature are measured in a common sense range (for example, 33 ° C. to 38 ° C.) which is considered to be a daily body temperature. ) Is removed, and the modified body surface temperature is obtained by modifying the body surface temperature according to Fourier's law for the temperature data other than the removed temperature data. It is described that the state is determined and used as a representative temperature candidate, and among the representative temperature candidates, the one having the highest temperature is specified as a representative temperature.

Japanese Patent No. 3909301

However, in Patent Document 1, since Fourier's law is calculated using the body temperature and the outside air temperature, for example, when the mounting surface of the body temperature information terminal device is mounted upside down, the outside air is detected by the body surface temperature detection unit. Is detected, and the body temperature is detected by the outside air temperature detection unit, and there is a problem that the body temperature that specifies the body temperature cannot be corrected by the reverse temperature data, or even if the body temperature can be corrected, the accuracy is lacking. This is true not only in the body temperature information terminal device described in Patent Document 1, but also in various other existing body temperature measuring devices.

Therefore, the present invention has been made in view of the above problems, and provides a body temperature measurement processing program that accurately identifies the body temperature even if the temperature data is due to an incorrect attachment of the device, a body temperature measurement device provided with this program, and a body temperature measurement processing system. The purpose is to do.

In order to solve the above problems, in the invention of claim 1, a skin temperature sensor that is worn on the body and is provided on a predetermined housing surface to contact the skin to measure the skin temperature and a surface other than the housing surface. The body temperature measuring device is provided with an external temperature sensor for measuring the external temperature, and the skin temperature data and the external temperature data measured at each predetermined time elapse are stored in the storage means. A body temperature measurement processing program that identifies body temperature from skin temperature data and external temperature data, and compares the skin temperature data at at least one point with the external temperature data among the stored skin temperature data and external temperature data. If the compared skin temperature data is high, each is certified as regular skin temperature data and external temperature data, and if the external temperature data is high, the compared external temperature data is used as regular skin temperature data. At the same time, the skin temperature is obtained from the means for certifying the compared skin temperature data as the regular external temperature data, the regular skin temperature data and the external temperature data, and the coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin. The configuration includes a means for correcting the temperature to obtain the body temperature.

The second aspect of the present invention is a body temperature measuring device that is worn on the body, measures the skin temperature and the external temperature, and specifies the body temperature based on at least the elapsed time and the measured temperature data, and is provided on a predetermined housing surface. A skin temperature sensor that measures the skin temperature in contact with the skin, an external temperature sensor that is provided on a surface other than the housing surface and measures the external temperature, and at least the skin temperature data measured by the skin temperature sensor. And a storage unit that stores the external temperature data measured by the external temperature sensor in association with the elapsed measurement time, and at least the skin temperature data at at least one time point among the stored skin temperature data and the external temperature data. Compare with external temperature data, if the compared skin temperature data is high, certify each as regular skin temperature data and external temperature data, and if the external temperature data is high, the compared external temperature data is regular The skin temperature data of the above is used, and the compared skin temperature data is recognized as the regular external temperature data. It is configured to include a processing unit provided with a program for correcting the temperature and specifying it as body temperature.

In the invention of claim 3, measure the skin temperature and external temperature of the body, a body temperature measurement processing system for identifying the body temperature based on at least the elapsed time and the measured temperature data, which Ru is worn on the body, predetermined A skin temperature sensor provided on the surface of the housing and measuring the skin temperature in contact with the skin, an external temperature sensor provided on a surface other than the surface of the housing and measuring the external temperature, and at least the skin temperature sensor. A body temperature measuring device including a storage unit that stores the skin temperature data measured by the above and the external temperature data measured by the external temperature sensor in association with the elapsed measurement time, and the measurement stored by the body temperature measuring device. The skin temperature data and the external temperature data associated with the elapsed time are acquired, and among the skin temperature data and the external temperature data, the skin temperature data at at least one time point and the external temperature data are compared, and the compared skin is compared. If the temperature data is high, each is certified as regular skin temperature data and external temperature data, and if the external temperature data is high, the compared external temperature data is used as regular skin temperature data and the compared skin. The temperature data is recognized as regular external temperature data, and the skin temperature is corrected and specified as body temperature from the regular skin temperature data and external temperature data and the coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin. The configuration includes a processing unit provided with a program for processing, and a body temperature measurement processing device including the processing unit.

According to the invention of claim 1, the body temperature measuring device worn on the body includes a skin temperature sensor for measuring the skin temperature in contact with the skin and an external temperature sensor for measuring the external temperature, and every predetermined time elapses. The skin temperature data and the external temperature data measured by each are stored in the storage means, and among the stored skin temperature data and the external temperature data, at least the skin temperature data at one time point and the external temperature data are compared. If the compared skin temperature data is high, each is certified as regular skin temperature data and external temperature data, and if the external temperature data is high, the compared external temperature data is used as regular skin temperature data. At the same time, the compared skin temperature data is certified as regular external temperature data, and the skin temperature is corrected from the certified regular skin temperature data and external temperature data and the coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin. By setting the body temperature as the body temperature, the body temperature can be accurately specified even with the temperature data measured by the skin temperature sensor and the external temperature sensor due to the wrong mounting of the device.

According to the invention of claim 2, the skin temperature sensor for measuring the skin temperature in contact with the skin and the external temperature sensor for measuring the external temperature when worn on the body are provided, and each of them is provided with the elapse of a predetermined time. A storage unit for storing the skin temperature data and the external temperature data measured in the above is provided, and the processing unit compares the skin temperature data at at least one time point with the external temperature data among the stored skin temperature data and the external temperature data. If the compared skin temperature data is high, each is certified as regular skin temperature data and external temperature data, and if the external temperature data is high, the compared external temperature data is used as regular skin temperature data. At the same time, the compared skin temperature data is certified as regular external temperature data, and the skin temperature is corrected from the certified regular skin temperature data and external temperature data and the coefficient value obtained from the thermal conductivity of the device and skin. By configuring the body temperature, even if the temperature data is measured by the skin temperature sensor and the external temperature sensor due to incorrect mounting of the device, the accuracy of body temperature identification can be improved by a simple calculation process in the device. Is.

According to the invention of claim 3, the body temperature measuring device worn on the body includes a skin temperature sensor for measuring the skin temperature in contact with the skin and an external temperature sensor for measuring the external temperature, and every predetermined time elapses. The skin temperature data and the external temperature data measured by each are stored in the storage means, and the skin temperature data and the external temperature data stored in the body temperature measuring device in the program provided in the processing unit of the body temperature measuring device. Is obtained, and the skin temperature data is compared with the skin temperature data at at least one time point and the external temperature data among the external temperature data. Certified as external temperature data, and if the external temperature data is high, the compared external temperature data is used as the regular skin temperature data, and the compared skin temperature data is certified as the regular external temperature data. The skin temperature is corrected from the skin temperature data and external temperature data of the body temperature data and the coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin to obtain the body temperature. And even the temperature data measured by the external temperature sensor can accurately identify the body temperature.

It is a block diagram of the body temperature measuring apparatus which concerns on this invention. It is a block block diagram of the electronic circuit in the body temperature measuring apparatus and the body temperature measuring processing apparatus which concerns on this invention. It is explanatory drawing of the wearing state of the body temperature measuring apparatus of FIG. It is a processing flowchart (1) of the body temperature measurement processing program which specifies a body temperature. It is a processing flowchart (2) of the body temperature measurement processing program which specifies a body temperature. It is explanatory drawing of the skin temperature and the external temperature by the forward and reverse of wearing in the body temperature measuring apparatus of FIG. It is explanatory drawing of the element which corrects the skin temperature by Fourier's law. It is a comparative explanatory view of the skin temperature, the external temperature and the corrected skin temperature by the forward and reverse of wearing in the body temperature measuring device of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. This embodiment will be described as a system of the body temperature measurement processing device and the body temperature measurement processing device, assuming that the body temperature measurement processing device is provided with the body temperature measurement processing program, but the body temperature measurement processing device is provided with the body temperature measurement processing device. It may be (described later).

FIG. 1 shows a block diagram of the body temperature measuring device according to the present invention, and FIG. 2 shows a block configuration diagram of an electronic circuit in the body temperature measuring device and the body temperature measuring processing device according to the present invention. In FIGS. 1A and 1B, the body temperature measuring device 11 is attached to the body, and the skin side housing surface 13 is such that one side of the housing 12 is in direct contact with the skin. The tip portion thereof is exposed at a predetermined height from the skin temperature sensor hole 15 formed at the corresponding position on the housing surface 13, and the tip portion comes into contact with the skin to measure the skin temperature. The configuration of the tip position of the body temperature measuring device 11 shown in the present embodiment, particularly the skin temperature sensor 21, is an example and may be the same as the configuration of the previously known body temperature measuring device.

Further, a surface other than the skin-side housing surface 13, where the external temperature sensor 22 for measuring the external temperature is located at a predetermined position on the outer-side housing surface 14 on the opposite surface. In the figure, the tip portion of the hole 16 for the external temperature sensor is exposed and located on the inner side of the housing 12, and a gap region 22A is provided between the position of the surface 14 of the outer housing and the tip portion. The external temperature (temperature inside the clothes) is measured, but the configuration of the tip position is an example, and as is known from the past, a body temperature measuring device that is flush with the surface or protrudes from the surface. The configuration may be the same as that of the above, and the configuration may not be exposed as shown in FIG. 1. However, especially when the external temperature sensor 22 is the same as or protrudes from the housing surface, the normal mounting and the reverse mounting are performed. The difference in the corrected skin temperature is remarkable (the correction of the skin temperature will be described later).

As shown in FIG. 1C, an electronic circuit board 31A on which the electronic circuit 31 is mounted is provided inside the housing 12, and is located on the skin side housing surface 13 side of the electronic circuit board 31A. The skin temperature sensor 21 is mounted, and the external temperature sensor 22 is mounted on the outer housing surface 14 side.

As shown in FIG. 2, the above-mentioned body temperature measuring device 11 constitutes one of the body temperature measuring processing systems, and can communicate freely with the body temperature measuring processing device 41 constituting the other of the systems regardless of whether it is wired or wireless. (Here, it is wireless).

The electronic circuit 31 included in the body temperature measuring device 11 includes a processing unit 51, a timing unit 52, a storage unit 53, a transmission unit 54, and an operation input unit 55. Here, the time measuring unit 52 is a circuit having a calendar function and counting the date and time, the storage unit 53 is a memory mainly for storing each temperature data, and the transmitting unit 54 is in the body temperature measuring processing device 41. For example, it is a communication interface for transmitting data by BLUETOOTH (registered trademark) or the like, and the operation input unit 55 is a circuit for inputting an operation signal from an operation unit (not shown in FIG. 1).

The processing unit 51 inputs time data from the measuring unit 52 in response to the measurement start signal from the operation input unit 55, and sets in advance from the skin temperature sensor 21 and the external temperature sensor 22 shown in FIG. 1 (by the measurer). The skin temperature data and the external temperature data measured at predetermined time intervals are input, and the temperature data of the skin temperature data and the external temperature data for each passage of time are associated with the elapsed time and stored in the storage unit 53. A program is provided which performs a process of transmitting the temperature data stored in the storage unit 53 to the body temperature measurement processing device 41 via the transmission unit 54 at an appropriate timing operation by the measurer.

The body temperature measurement processing device 41 includes at least a processing unit 61, a receiving unit 62, a storage unit 63, and a display unit 64. The body temperature measurement processing device 41 is, for example, a mobile terminal such as a smartphone, a personal computer, or the like, and the above-mentioned body temperature measurement processing program is installed and appropriately executed. Here, the body temperature measurement processing function is specialized. It is explained as.

The processing unit 61 includes a body temperature measurement processing program, and the processing content will be described with reference to FIG. The receiving unit 62 is a communication interface for receiving data having the same communication protocol as the transmitting unit 54 of the body temperature measuring device 11, and the storage unit 63 stores the temperature data acquired from the body temperature measuring device 11 and identifies the body temperature. Is stored in association with the measurement date, and also serves as a program processing area for specifying the body temperature. The display unit 64 is a display of a mobile terminal or a computer, and here, it is intended to display a transition of a body temperature within a predetermined period range specified specifically for the present invention.

Here, FIG. 3 shows an explanatory diagram of the wearing state of the body temperature measuring device of FIG. In FIG. 3, the body temperature measuring device 11 is worn between the body, for example, the skin 71 and clothing 72 such as underwear. In this case, the skin-side housing surface 13 of the body temperature measuring device 11 is in direct contact with the skin 71, and the tip portion of the skin temperature sensor 21 protruding at a predetermined height is in direct contact with the skin 71 in a slightly recessed state. Skin temperature is measured.

Further, although the outer housing surface 14 of the body temperature measuring device 11 comes into contact with the clothing 72, the exposed tip portion of the external temperature sensor 22 does not directly contact the clothing 72, and the tip portion and the clothing 72 are not in direct contact with the clothing 72. The gap region 22A is interposed between the and, and the external temperature is measured. If the body temperature measuring device 11 is attached by the measurer by mistake, the skin temperature sensor 21 will measure the external temperature, and the external temperature sensor 22 will measure the skin temperature.

Therefore, FIGS. 4 and 5 show a processing flowchart of the body temperature measurement processing program for specifying the body temperature, and FIG. 6 shows an explanatory diagram of the skin temperature and the external temperature depending on the forward and reverse of wearing in the body temperature measuring device of FIG. FIG. 7 shows an explanatory diagram of an element that corrects the skin temperature according to Fourier's law, and FIG. 8 shows a comparative explanatory diagram of the skin temperature, the external temperature, and the corrected skin temperature by the forward and reverse of wearing in the body temperature measuring device of FIG.

The body temperature measurement processing program in the present invention is provided in the processing unit 61 of the temperature measurement processing apparatus 41 of FIG. 2, and as the main processing of the program, of the skin temperature data and the external temperature data, the temperature data until a predetermined time is reached Of the temperature data other than the erased temperature data, the skin temperature data at at least one point is compared with the external temperature data, and if the compared skin temperature data is high, each is the normal skin temperature. When the external temperature data is high, the compared external temperature data is used as the regular skin temperature data, and the compared skin temperature data is recognized as the regular external temperature data. , It is provided with a process of correcting the skin temperature from the regular skin temperature data and the external temperature data, the body temperature measuring device, and the coefficient value obtained from the thermal conductivity of the skin to obtain the body temperature.

First, as a premise, for example, a measurer wears a body temperature measuring device 11 and starts temperature measurement, the temperature data measured by the skin temperature sensor 21 is used as skin temperature data, and the temperature data measured by the external temperature sensor 22 is used as external temperature. As the data, the skin temperature data and the external temperature data are stored in the storage unit 53 shown in FIG. 3 in association with the measured elapsed time. Then, at a desired timing by the measurer, the body temperature measuring device 11 transmits the skin temperature data and the external temperature data stored in the body temperature measuring processing device 41.

Therefore, in FIG. 4A, the body temperature measurement processing device 41 executes the body temperature measurement processing program, acquires skin temperature data and external temperature data associated with the elapsed time from the body temperature measurement device 11, and stores the storage unit 63. (Step 1 (S1)). An example of the stored skin temperature data and external temperature data is the temperature data of the graph shown in FIG. 6 (A).

Subsequently, with respect to the acquired skin temperature data and external temperature data, among the skin temperature data, the temperature data (pattern I) until the predetermined time is reached and the temperature data (pattern II) after the predetermined time are deleted (S2). ). For example, the temperature data until the predetermined time is reached is the temperature data until the skin temperature is followed, for example, the temperature data for 30 minutes immediately after the start is deleted, and the temperature data after the predetermined time is, for example, waking up or temperature. It is erased as temperature data that has reached the scheduled measurement time (see FIG. 6 (B) or FIG. 6 (C)).

Therefore, among the temperature data other than the erased temperature data, the skin temperature data at a certain temporary point is compared with the external temperature data, and here, it is determined whether or not the skin temperature is higher than the external temperature ( S3). That is, assuming that the temperature data measured by the skin temperature sensor 21 is the skin temperature data, it is compared with the external temperature data measured by the external temperature sensor 22, and thus whether the skin temperature sensor 21 is in contact with the skin 71. Can be determined.

Although the above comparison process is performed by picking up the skin temperature data at a certain temporary point and the external temperature data, it is also possible to pick up and compare the skin temperature data at two or more points.

Further, the temperature data erasing process in S2 and the comparison process in S3 do not ask the order, and the erasing process in S2 may be performed after the comparison process S3.

In the above S3, when the skin temperature is higher than the external temperature, as shown in FIG. 4 (B), they are recognized as regular skin temperature data and external temperature data (S4A). Similar to the skin temperature data and the external temperature data shown in FIG. 6 (A), they are certified as legitimate as shown in FIG. 6 (B).

On the other hand, when the skin temperature is lower than the external temperature, the relationship is as shown in FIG. 6 (C), and as shown in FIG. 4 (C), the compared external temperature data is used as the normal skin temperature data. , The compared skin temperature data is certified as regular external temperature data (S4B). That is, the skin temperature data and the outside are determined so that the external temperature sensor 22 is located on the skin 71 side and the skin temperature sensor 21 is located on the clothing 72 side, and the relationship shown in FIG. 6B is established. The temperature data is certified as the opposite temperature data.

Subsequently, in the processing of S4A or S4B, the skin temperature is determined by using Fourier's law from the normal skin temperature data other than the erased temperature data, the external temperature data, the body temperature measuring device, and the coefficient value obtained from the heat conductivity of the skin. The data is corrected and specified as body temperature (S5).

The correction of the skin temperature using Fourier's law by the process of S5 will be described with reference to FIG. 7. Here, the corrected skin temperature (body temperature) is Ti, the coefficient value obtained from the body temperature measuring device and the heat conductivity of the skin is K, the skin temperature is Ts, and the external temperature is Ta. Let λ1 be the thermal conductivity up to the temperature sensor 21, and λ2 be the thermal conductivity from the skin 71 to the external temperature sensor 22.

Therefore, when the heat flux (q) is applied to the body temperature measuring device 11 by using Fourier's law (q = λ (dt / dx)) that the heat flux (q) is proportional to the temperature gradient (dt / dx) and the thermal conductivity λ,
From q = λ1 (Ti-Ts), q = λ2 (Ts-Ta) to Ti = Ts + K (Ts-Ta) (Equation 1)
(K is a coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin, and K = λ2 / λ1)
The corrected skin temperature Ti is derived by the formula of.

The coefficient value K obtained from the body temperature measuring device and the heat conductivity of the skin can be calculated by calculation, but it is the best value in the relationship between the body temperature measuring device and the body (there is almost no physical difference). ) Can be determined by experience, and if the skin temperature sensor 21 side and the external temperature sensor 22 side have the same structure, the coefficient value K can be kept constant. It is possible to improve the accuracy by setting each of the coefficient values K of.

Then, by determining the coefficient value K in advance, the body temperature can be measured and displayed in real time at each measurement interval. In this case, the temperature until the follow-up may be displayed or not displayed, and can be arbitrarily determined. For example, it can be applied to measure and display body temperature during exercise, work, and the like.

Further, when it is desired to specify the representative temperature from the temperature data in the predetermined time range, as an example, in FIG. 5 (A), the average value of the predetermined time range (measured time range) with respect to the specified body temperature (corrected skin temperature). The temperature data obtained by calculating the above can be specified as a representative temperature (S6A). Alternatively, as shown in FIG. 5B, temperature data obtained by calculating an approximate value of a predetermined time range (measured time range) with respect to the specified body temperature (corrected skin temperature) can be specified as a representative temperature. (S6B). That is, the average value (ave) or an approximate value of the body temperature (corrected skin temperature) for each time corrected based on the skin temperature data and the external temperature data of FIG. 6B can be calculated and specified as the representative temperature. It can be done.

An example of comparison of the identified body temperature due to the incorrect wearing of the body temperature measuring device 11 is shown in FIG. FIG. 8 shows the case where the skin temperature sensor 21 does not perform the certification process for determining which is the skin temperature data, the case where the certification process is performed, and the case where the skin temperature sensor 21 is normally worn, after 30 minutes and after 60 minutes. , It is recognized that there is a difference in the corrected skin temperature, which is the body temperature. That is, in the case of reverse mounting in FIG. 8, the corrected skin temperature in the case where the determination process of which is the skin temperature data is not performed as in the present invention is such that the above formula (1) is Ti = Ta + K (Ta−Ts). It will be replaced with and it will not be possible to measure the temperature accurately. On the other hand, theoretically, it is assumed that the skin temperature is higher than the external temperature, and when the temperature data in which the external temperature is higher than the skin temperature is erased by reverse mounting, the temperature of the target to be calculated by the above (Equation 1) at this time. The result is no data because the data no longer exists. Although the corrected skin temperature is shown as an average value in FIG. 8, the same applies even if it is an approximate value.

Subsequently, in FIG. 5A, the temperature data of the specified body temperature (representative temperature) is associated with the date of the measurement date and stored in the storage unit 63 (S7). Then, in the body temperature measurement processing device 41, according to an operation (not shown), the stored body temperature data of the body temperature is read out within a predetermined period range, displayed, and displayed on the display unit 64 (S8). For example, 30 days is designated as a predetermined period range, and the body temperature data for the 30 days is displayed as a graph and displayed on the display unit 64. This makes it possible to recognize the body temperature fluctuation of the measurer. In addition, every time the body temperature (representative temperature) is specified, it may be displayed in real time.

As described above, the body temperature can be accurately specified even with the temperature data measured by the skin temperature sensor 21 and the external temperature sensor 22 due to the incorrect mounting of the body temperature measuring device 11.

By the way, the body temperature measurement processing program according to the present invention may be stored in a storage medium such as an optical disk, or may be freely downloaded using a net such as the Internet as a medium.

Further, since it is possible to accurately identify the body temperature by a simple calculation process by the body temperature measurement processing program, the body temperature measurement processing device 41 is provided with the processing program of S8 in FIG. 5 and other means. The body temperature measurement processing program may be provided in the body temperature measuring device 11. Further, the body temperature measuring device 11 may be provided with a display unit and provided with a body temperature measuring processing program that performs all the processing of FIGS. 4 and 5.

The body temperature measurement processing program of the present invention, a body temperature measuring device provided with this program, and a body temperature measuring processing system are manufactured, sold, used, etc. It can be used in the industrial field.

11 Body temperature measuring device 12 Housing 13 Skin side housing surface 14 External housing surface 15 Skin temperature sensor hole 16 External temperature sensor hole 21 Skin temperature sensor 22 External temperature sensor 22A Void area 31 Electronic circuit 31A Electronic circuit board 41 Body temperature measurement processing device 51, 61 Processing unit 52 Measuring unit 53, 63 Storage unit 54 Transmission unit 55 Operation input unit 62 Reception unit 64 Display unit 71 Skin 71A Deep body 72 Clothing

Claims (3)

It is equipped with a skin temperature sensor that is worn on the body and is provided on the surface of a predetermined housing to measure the skin temperature in contact with the skin, and an external temperature sensor that is provided on a surface other than the surface of the housing and measures the external temperature. A body temperature measurement process for identifying the body temperature from the stored skin temperature data and external temperature data for a body temperature measuring device in which the skin temperature data and the external temperature data measured at each predetermined time elapse are stored in the storage means. It ’s a program,
Of the stored skin temperature data and external temperature data, the skin temperature data at at least one time point is compared with the external temperature data, and if the compared skin temperature data is high, each is a regular skin temperature data. And a means to certify as external temperature data, and if the external temperature data is high, use the compared external temperature data as regular skin temperature data, and certify the compared skin temperature data as regular external temperature data.
A means for correcting the skin temperature from the normal skin temperature data and the external temperature data and the coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin to obtain the body temperature.
A body temperature measurement processing program characterized by including. A body temperature measuring device that is worn on the body, measures skin temperature and external temperature, and specifies body temperature based on at least elapsed time and measured temperature data.
A skin temperature sensor provided on the surface of a predetermined housing to measure the skin temperature by contacting the skin,
An external temperature sensor provided on a surface other than the housing surface to measure the external temperature,
At least, a storage unit that stores the skin temperature data measured by the skin temperature sensor and the external temperature data measured by the external temperature sensor in association with the elapsed measurement time.
At least, among the stored skin temperature data and external temperature data, at least the skin temperature data at one time point and the external temperature data are compared, and if the compared skin temperature data is high, each is a normal skin temperature. It is certified as data and external temperature data, and if the external temperature data is high, the compared external temperature data is used as the regular skin temperature data, and the compared skin temperature data is certified as the regular external temperature data. A processing unit that is equipped with a program that corrects the skin temperature from the regular skin temperature data and external temperature data, the device, and the coefficient value obtained from the thermal conductivity of the skin, and identifies it as the body temperature.
A body temperature measuring device comprising a body temperature measuring processing program. A body temperature measurement processing system that measures the skin temperature and external temperature of the body and specifies the body temperature based on at least the elapsed time and the measured temperature data.
Are those Ru is worn on the body, and skin temperature sensor for measuring the skin temperature in contact with the skin is provided in a predetermined housing surface, an external measuring the external temperature is provided on a surface other than the housing surface A body temperature measuring device including a temperature sensor, and at least a storage unit that stores skin temperature data measured by the skin temperature sensor and external temperature data measured by the external temperature sensor in association with the elapsed measurement time.
From the body temperature measuring device, the skin temperature data and the external temperature data associated with the stored measurement elapsed time are acquired, and among the skin temperature data and the external temperature data, the skin temperature data at at least one time point and the outside are obtained. Compare with the temperature data, if the compared skin temperature data is high, certify each as regular skin temperature data and external temperature data, and if the external temperature data is high, the compared external temperature data is regular In addition to using skin temperature data, the compared skin temperature data is recognized as regular external temperature data, and the regular skin temperature data and external temperature data and the coefficient value obtained from the body temperature measuring device and the thermal conductivity of the skin are used. A body temperature measurement processing device including a processing unit provided with a program for correcting the skin temperature and specifying it as the body temperature, and a body temperature measuring processing device.
A body temperature measurement processing system characterized by having.

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