JP2012220287A - Basal body temperature measuring device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a basal body temperature measuring device by which a basal body temperature and information having an influence on a basal body temperature can be easily recorded.SOLUTION: A temperature sensor 8 measures a body temperature when a measurement timing has come. A human sensor 11 detects movement of a person during a detection period from a detection start timing to a body temperature measurement timing. A CPU 2 stores a body temperature measured by the temperature sensor 8 and detection information detected by the human sensor 11 indicating the movement of the person, in association with each other in a database 15.

Description

  The present invention relates to a basal body temperature measuring apparatus that measures and records a person's basal body temperature.

  If the basal body temperature of a healthy woman is measured continuously every day, it can be seen that there are two periods, a period when the body temperature is low (low temperature period) and a period when the body temperature is high (high temperature period). The period of these two periods is closely related to the menstrual period, and the low temperature period and the high temperature period are repeated with the menstrual period. In a general woman, the high temperature period and the low temperature period are alternately repeated at a cycle of about 14 days. Menstruation begins when the high temperature period ends and the low temperature period begins. Therefore, women can know their menstrual cycle by recording the basal body temperature every day and knowing the low and high temperature periods.

  If the basal body temperature is not accurately measured, the exact menstrual cycle cannot be known. In order to accurately measure the basal body temperature, it is necessary to measure at a certain time every morning. However, it is a burden for the user to wake up at a certain time every morning to measure and record the body temperature.

  In view of such circumstances, Patent Document 1 describes a portable terminal capable of measuring basal body temperature. The user can measure body temperature with a temperature sensor of the portable terminal. Also, body temperature measurement can be started at a time determined every day by the timer of the portable terminal.

JP 2004-138439 A

  By the way, in order to measure the basal body temperature more accurately, in addition to performing measurement at a certain time every day, it is necessary to perform measurement after sleeping for a certain time or more. However, there are cases where the user wakes up in the middle of sleep and sleeps again after moving. In such a case, it is desirable to leave a record of waking up and moving because there is a possibility that the basal body temperature measured at the time of subsequent waking up may be affected. However, it is troublesome for the user himself to record that he / she has moved up, and there is a possibility that he / she has forgotten that he / she moved up.

  An object of the present invention is to provide a basal body temperature measuring device capable of easily recording basal body temperature and information affecting the basal body temperature.

The basal body temperature measuring device according to the present invention is:
A body temperature measurement timing storage unit for storing body temperature measurement timing indicating timing for measuring body temperature;
A detection start timing storage unit that stores a detection start timing indicating a timing to start detecting a person's movement;
When the body temperature measurement timing comes, a body temperature measuring unit that measures body temperature;
In a detection period indicating a period from the detection start timing to the body temperature measurement timing, a detection unit that detects a person's movement;
A data storage unit that stores the measured body temperature and the detected information indicating the detected movement of the person in association with each other;
It is characterized by providing.

  According to the present invention, basal body temperature and information that affects basal body temperature can be easily recorded.

It is a block diagram which shows the structural example of the portable terminal which concerns on Embodiment 1 of this invention. It is an external view of the portable terminal which concerns on Embodiment 1 of this invention. It is a block diagram of the database of Embodiment 1. (A) is a figure which shows the example of a display which notifies that a basal body temperature measurement is ON, (b) is a figure which shows the example of a display which prompts to set time to an alarm clock, (c) is a figure (D) is a diagram illustrating a display example for warning that measurement cannot be started, and (e) is a diagram illustrating a display example for notifying that the measurement has been completed. In Embodiment 1, it is a flowchart which shows the process of CPU until it measures a basal body temperature and records it on a database. It is a flowchart following the flowchart shown in FIG. In Embodiment 1, it is a figure which shows the example of a display which graphed the basal body temperature data recorded on the database. In Embodiment 1, it is a figure which shows the example of a display which plotted the basal body temperature data recorded on the database on the basis of the day which becomes a high temperature period. In Embodiment 1, it is a figure which shows the example of a display which made the basal body temperature data recorded on the database into a graph based on the day which becomes a low temperature period. (A) is a figure which shows the example of a display when the latest menstrual scheduled date is described on the calendar in Embodiment 1, (b) is the example of a display when the menstrual scheduled date several months ahead is described on the calendar. FIG. (A) is a figure which shows the sensing range of the human sensor of Embodiment 1, (b) is a figure which shows the sensing range of the human sensor of Embodiment 2.

  Embodiments of the present invention will be described below. However, the following embodiments are for explanation and do not limit the scope of the present invention. Therefore, those skilled in the art can employ embodiments in which these elements are replaced with equivalent ones, and these embodiments are also included in the scope of the present invention.

  As a portable terminal in which the basal body temperature measuring device according to the present invention can be realized, for example, a portable phone or a portable terminal provided with a touch panel can be cited.

(Embodiment 1)
Hereinafter, the configuration of the mobile terminal 1 according to the present embodiment will be described with reference to FIGS. The mobile terminal 1 of the present embodiment is a foldable mobile terminal composed of a casing CA and a casing CB.

  The mobile terminal 1 includes a CPU (Central Processing Unit) 2, a communication unit 3, a voice unit 4, a display unit 5, a timer function unit 6, a memory 7, a temperature sensor 8, an acceleration sensor 9, a magnetic sensor 10, a human sensor 11, An operation key 12 and a prediction unit 13 are included.

  The CPU 2 is connected to the above components of the mobile terminal 1 and exchanges control signals and data with these components. Further, the CPU 2 executes application software 14 stored in the memory 7.

  The communication unit 3 performs data communication with a communication unit of another mobile terminal according to a predetermined protocol. The communication unit 3 can be connected to a communication network such as the Internet via a predetermined access point. In this case, the communication unit 3 performs communication according to a protocol based on a wireless LAN (Local Area Network).

  The sound unit 4 outputs predetermined sound effects, sounds, and the like under the control of the CPU 2. The audio unit 4 includes a DAC (Digital to Analog Converter), an amplifier, a speaker, and the like, and is provided on the upper portion of the display unit 5 of the housing CA as shown in FIG.

  The display unit 5 displays a predetermined image under the control of the CPU 2. The display unit 5 is composed of an LCD (Liquid Crystal Display) or the like, and is provided on the surface of the casing CA (the surface facing when the mobile terminal 1 is bent) as shown in FIG.

  The timer function unit 6 shown in FIG. 1 manages time and date. Specifically, the timer function unit 6 has a function of displaying a calendar on the display unit 5 and a function of setting an alarm clock time (a wake-up timing indicating a wake-up timing). The timer function unit 6 has a function of notifying the CPU 2 of the current date and time in response to a request from the CPU 2, a function of counting a preset time (period), and notifying the CPU 2.

  The memory 7 stores data such as application software 14 and database 15, programs, and the like. The database 15 associates date information indicating the date (date and time) acquired from the timer function unit 6 with the temperature (basal body temperature) measured by the temperature sensor 8 and memo information 71 described later as basal body temperature data as shown in FIG. Remember me as shown. The application software 14 is software executed by the CPU 2 to realize the functions of the mobile terminal 1.

  The temperature sensor 8 measures the temperature and notifies the CPU 2 of the measured value. In the present embodiment, the temperature sensor 8 is provided on the back surface of the housing CB of the mobile terminal 1. The resolution of the temperature sensor 8 is desirably 0.1 degrees or more.

  When the mobile terminal 1 moves, the acceleration sensor 9 detects the acceleration at the time of movement and the movement in the triaxial direction, and notifies the CPU 2 of it. The CPU 2 calculates the movement distance of the portable terminal 1 from the movement direction and acceleration direction of the portable terminal 1 notified from the acceleration sensor 9 and the time during which the movement acquired from the timer function unit 6 was detected.

  The magnetic sensor 10 detects a state such as a direction and an angle where the mobile terminal 1 is placed, and notifies the CPU 2 of the detected state.

  The human sensor 11 is provided on the back surface of the casing CA of the mobile terminal 1, detects that a high-temperature object (human body) has moved by infrared rays, and notifies the CPU 2. Thereby, CPU2 discriminate | determines whether the person moved.

  The operation key 12 includes a key switch or the like disposed on the surface of the casing CB of the mobile terminal 1 and supplies an operation signal corresponding to a user operation to the CPU 2. The prediction unit 13 will be described later.

  Here, an example of processing when the basal body temperature is measured by the mobile terminal 1 is shown in the display examples of the display unit 5 of the mobile terminal 1 shown in FIGS. 4A to 4E and FIGS. 5 and 6. This will be described with reference to the flowchart shown.

  First, the user operates the predetermined operation key 12 to instruct to start the application software 14 described above. In response to the user's operation instruction, the CPU 2 executes the application software 14 and turns on basal body temperature measurement (step S51). Specifically, the CPU 2 displays on the display unit 5 that the basal body temperature measurement is on (ON) as shown in FIG. Subsequently, the CPU 2 determines whether or not the time of the alarm clock is set by inquiring whether or not the time of the alarm clock is set to the timer function unit 6 (step S52).

When it is determined that the time of the alarm clock has not been set (step S52; No), the CPU 2 displays a notification prompting the user to set the time of the alarm clock on the display unit 5, as shown in FIG. 4B. Then, the sound unit 4 is caused to output a notification sound (step S53). Thereby, the user sets the time (wake-up timing) of the alarm clock.
Specifically, the user operates the operation key 12 to instruct to store the wake-up timing. The CPU 2 stores the input wake-up timing in the memory 7 in response to a user operation instruction.
Thereafter, the CPU 2 returns the process to step S52, and determines again whether or not the alarm clock is set.

After setting the time of the alarm clock, the user places the mobile terminal 1 near the user so that the human sensor 11 of the mobile terminal 1 faces upward. The CPU 2 operates the human sensor 11 before a predetermined time (standard sleep period indicating a standard period of sleep required for measuring the basal body temperature) at a time set in the alarm clock (step S54). Since it is desirable to measure the basal body temperature after sleeping for at least 4 hours or more, in this embodiment, the predetermined time (standard sleep period) is set to 4 hours. The standard sleep period is stored in advance in the memory 7.
Specifically, the CPU 2 calculates a detection start timing indicating a timing to start detecting a human movement by subtracting the standard sleep period stored in the memory 7 from the wake-up timing stored in the memory 7. And stored in the memory 7. The CPU 2 determines whether or not the current date and time acquired from the timer function unit 6 is the detection start timing stored in the memory 7. When it is determined that the current date and time is the detection start timing, the human sensor 11 is activated.

  When the human sensor 11 detects the movement of the user, the CPU 2 stores the date and the memo information 71 including the moved information in association with each other in the database 15 (step S55). The moved information (detection information) includes the time when the user moved and the number of times moved.

Next, the CPU 2 makes an inquiry to the timer function unit 6 to determine whether or not it is a predetermined time before the time set in the alarm clock (step S56). The predetermined time (standard measurement period) mentioned here is a standard period required for the temperature sensor 8 to measure the body temperature, and varies depending on the performance of the temperature sensor 8. In this embodiment, as an example, the predetermined time (standard measurement period) is 5 minutes. The standard measurement period is stored in the memory 7 in advance.
Specifically, the CPU 2 calculates the body temperature measurement timing indicating the timing for measuring the body temperature by subtracting the standard measurement period stored in the memory 7 from the wake-up timing stored in the memory 7 and stores the body temperature measurement timing in the memory 7. To do. Then, the CPU 2 determines whether or not the current date and time acquired from the timer function unit 6 is the body temperature measurement timing stored in the memory 7.

  When the CPU 2 determines that it is not five minutes before the time set in the alarm clock (step S56; No), the CPU 2 returns the process to step S55 and continues to monitor the movement of the user. If the CPU 2 determines that it is five minutes before the time set in the alarm clock (step S56; Yes), the process proceeds to step S57.

  As shown in FIG. 4C, the CPU 2 displays a notification for prompting measurement on the display unit 5 and causes the voice unit 4 to output a notification sound for prompting measurement. Further, the human sensor 11 is stopped, and the magnetic sensor 10, the acceleration sensor 9, and the temperature sensor 8 are activated (step S57).

  In order to determine whether or not the user has picked up the mobile terminal 1 for basal body temperature measurement, the CPU 2 determines whether or not the mobile terminal 1 has moved based on notifications from the magnetic sensor 10 and the acceleration sensor 9. (Step S58). When it is determined that the mobile terminal 1 is not moving (step S58; No), the process returns to step S58, and the CPU 2 continues the notification that prompts the measurement performed in step S57.

  When it is determined that the mobile terminal 1 has moved (step S58; Yes), the CPU 2 detects the moving direction, acceleration, and movement acquired from the timer function unit 6 notified from the magnetic sensor 10 and the acceleration sensor 9. Based on this, the moving distance of the mobile terminal 1 is calculated, and it is determined whether or not the moving distance is equal to or less than a preset distance (threshold value L) (step S59). In this embodiment, as an example, the threshold value L is 2 meters. Note that the user can operate the operation key 12 to instruct to store the threshold value L in advance. The CPU 2 stores the input threshold value L in the memory 7 in response to a user operation instruction.

  When it is determined that the moving distance of the mobile terminal 1 has exceeded 2 meters (step S59; No), the CPU 2 displays a notification for prompting measurement again on the display unit 5 as shown in FIG. The notification sound that prompts the unit 4 to start measurement is output (step S60). This is because the user may have forgotten the measurement of the basal body temperature and moved.

  When it is determined that the moving distance of the mobile terminal 1 is 2 meters or less (step S59; Yes), the CPU 2 stops the notification for prompting the measurement (step S61). Subsequently, the CPU 2 determines whether or not the portable terminal 1 is stationary at a preset angle (set angle) based on notifications from the magnetic sensor 10 and the acceleration sensor 9 (step S62). Here, the set angle (apparatus direction during body temperature measurement) is the angle (orientation) of the mobile terminal 1 when performing basal body temperature measurement, and is set by the user in advance on the mobile terminal 1. In the present embodiment, for example, the user places the portable terminal 1 on the abdomen and measures the basal body temperature. When the portable terminal 1 is measured on the belly, the temperature sensor 8 of the portable terminal 1 must face downward, so the angle of the portable terminal 1 in that state is set as the set angle. The user can operate the operation key 12 to instruct to store the set angle (the device direction during body temperature measurement) in advance. In response to the user's operation instruction, the CPU 2 stores the input set angle (the body temperature measurement device direction) in the memory 7.

  When it is determined that the mobile terminal 1 is not stationary at the set angle (step S62; No), the CPU 2 displays a warning that the measurement cannot be started on the display unit 5 as shown in FIG. The unit 4 is caused to output a warning sound (step S63).

  When it is determined that the mobile terminal 1 is stationary at the set angle (step S62; Yes), the CPU 2 determines that the temperature notified from the temperature sensor 8 is within a predetermined temperature range set in advance (in this embodiment, as an example) It is determined whether the temperature range is 30 ° C. or higher and 45 ° C. or lower (step S64). The user can operate the operation key 12 to instruct to store a predetermined temperature range in advance. The CPU 2 stores the input predetermined temperature range in the memory 7 in response to a user operation instruction.

  When it is determined that the temperature notified from the temperature sensor 8 is not within the predetermined temperature range (step S64; No), the CPU 2 warns the display unit 5 that the measurement cannot be started, as shown in FIG. While displaying, the sound part 4 is made to output a warning sound (step S65). This is because, when the measured temperature is far from the body temperature, the mobile terminal 1 may be placed in a place other than on the belly, such as on a futon.

  When it is determined that the temperature notified from the temperature sensor 8 is within the predetermined temperature range (step S64; Yes), the CPU 2 starts measuring the basal body temperature (step S66). During the measurement time, the CPU 2 determines whether or not the mobile terminal 1 has moved or changed its posture based on notifications from the magnetic sensor 10 and the acceleration sensor 9 (step S67).

  When it is determined that the mobile terminal 1 has moved or changed its posture (step S67; No), the CPU 2 displays a notification for prompting measurement on the display unit 5 as shown in FIG. 4 is caused to output a notification sound (step S68). This is because the user may have moved accidentally during the measurement of the basal body temperature. After the notification for prompting the measurement, the CPU 2 starts the measurement again after a predetermined time (in the present embodiment, after a few seconds as an example). If it is determined that there is no movement or change in posture of the mobile terminal 1 (step S67; Yes), the CPU 2 determines that the measurement is performed correctly and continues the measurement.

  When the measurement is completed, as shown in FIG. 4E, the CPU 2 displays a measurement end notification on the display unit 5 and causes the audio unit 4 to output a measurement end notification sound (step S69). By notifying the user in this way, it is possible to wake up at the time set in the alarm clock even when the user falls asleep during measurement. This is because the time at which the measurement ends is the same as the time set in the alarm clock. After the measurement end notification, the CPU 2 stores the date acquired from the timer function unit 6 and the memo information 71 including the basal body temperature as the measurement result, the notification performed at the time of measurement, the warning, and the like in the database 15 in association with each other. (Step S70). Note that if no notification or warning is given during measurement, the memo information 71 is empty (NULL).

  When the user wants to view the basal body temperature data after the measurement is completed, the user operates the operation key 12 to instruct that effect. As shown in FIG. 7, the CPU 2 graphs the basal body temperature data stored in the database 15 in the period specified by the user in response to the operation instruction of the user and displays it on the display unit 5. The CPU 2 displays the contents of the memo information 71 in response to the date in the graph being designated by the operation key 12. In the memo information 71, in addition to the information that the person has moved during the sleep acquired by the human sensor 11 stored in step S 55, the contents and frequency of the notification and warning at the time of body temperature measurement stored in step S 70 are used as the memo information 71. Including. In addition, the user operates the operation key 12 to instruct the memo information 71 that the user inputs information by himself / herself in addition to the information automatically acquired by the portable terminal 1 at the time of body temperature measurement. it can. In response to the user's operation instruction, the CPU 2 updates the database 15 by adding the input information to the memo information 71 corresponding to the specified date. This is because the mental state such as the user's mood and illness have a great influence on the basal body temperature, so it is desirable to add this information as well.

The mobile terminal 1 performs a characteristic operation of predicting the day when menstruation starts based on the basal body temperature data accumulated in this way.
Hereinafter, an operation in which the prediction unit 13 of the mobile terminal 1 predicts a day when menstruation starts will be described with reference to FIGS. 8 and 9. Hereinafter, in order to facilitate understanding, in response to a request from the user, the CPU 2 sets the day when the high temperature period (high temperature period start timing) as shown in FIG. 8 based on the past basal body temperature data. An example will be described in which the day when menstruation is predicted after the base graph is displayed on the display unit 5. The CPU 2 predicts the day when menstruation starts by predicting the day when the low temperature period starts at the current date indicated by the point 81 in FIG.
Specifically, when it is desired to predict the day when menstruation starts, the user operates the operation key 12 to instruct that effect. In response to the user's operation instruction, the CPU 2 as the predicting unit 13 moves from the past basal body temperature data to the low temperature period after the high temperature period starts (when the body temperature falls by a predetermined threshold T or more). Select the basal body temperature data with the shortest number of days and the basal body temperature data with the longest days.

  CPU2 displays the graph which shows the selected basal body temperature data on the display part 5, as shown with the broken line extended from the point 81 in FIG. In the example shown in FIG. 8, the user can expect that the low temperature period will start 7 to 11 days after the current date, that is, menstruation will start, by referring to the displayed graph.

  On the other hand, when it is desired to predict the day when ovulation starts, the user operates the operation key 12 to instruct that effect. In response to the user's operation instruction, the CPU 2 as the predicting unit 13 moves from the past basal body temperature data to the high temperature period after the low temperature period starts (when the body temperature rises by a predetermined threshold T or more). Select the basal body temperature data with the shortest number of days and the basal body temperature data with the longest days. As shown in FIG. 9, the CPU 2 displays a graph showing the selected basal body temperature data based on the date when the past basal body temperature data is in the low temperature period (low temperature period start timing). In the example shown in FIG. 9, the user can expect that the high temperature period will start 8 to 11 days after the current date, that is, ovulation will start, by referring to the displayed graph.

Further, the prediction unit 13 can treat the basal body temperature data on the day with the memo information 71 as a reference value so as not to affect the prediction of the day when menstruation starts or the date of ovulation. In FIG. 7, there is a body temperature rise of about 0.5 degrees on the day with the memo information 71, but the previous day and the next day of the day with the memo information 71 remain low in temperature. It can be determined that the information is temporary due to the information 71. Therefore, when the difference between the basal body temperature of the day with the memo information 71 and the basal body temperature of the day before and after the memo information 71 is equal to or higher than the predetermined temperature, the prediction unit 13 sets the basal body temperature of the day with the memo information 71 to the high temperature period. The forecast range of the day when the low temperature period starts is obtained without including it as the base point of. The same applies to obtaining the predicted range of the day when the high temperature period begins.
Specifically, the CPU 2 refers to a record in which the memo information 71 of the database 15 is empty (NULL) when predicting a day when menstruation starts in response to a user's operation instruction. The basal body temperature data with the shortest number of days from the start of the period to the low temperature period and the basal body temperature data with the longest time are selected, and the selected basal body temperature data is displayed on the display unit 5. Note that when the memo information 71 is empty (NULL), it means that no human motion is detected by the human sensor 11.
On the other hand, the CPU 2 refers to a record in which the memo information 71 of the database 15 is empty (NULL) when predicting the day when ovulation starts in response to the user's operation instruction, and from this, the low temperature period starts. The basal body temperature data with the shortest number of days until the transition to the high temperature period and the basal body temperature data with the longest day are selected, and the selected basal body temperature data is displayed on the display unit 5.

FIGS. 10A and 10B are examples in which the scheduled date of menstruation is displayed in circles on the display unit 5 in conjunction with the calendar of the timer function unit 6 of the mobile terminal 1. It is possible to confirm the scheduled menstrual date several months ahead in Fig. 10 (b) from the most recent scheduled menstrual date in Fig. 10 (a), and check and consider the physical condition at that time when planning a trip etc. can do.
In this case, the CPU 2 selects the basal body temperature data having the shortest number of days from the start of the high temperature period to the low temperature period and the basal body temperature data having the longest period from the past basal body temperature data. Based on the number of days, the longest number of days, and the current date acquired from the timer function unit 6, a scheduled date on which menstruation starts is calculated, and the calculated scheduled date is supplied to the timer function unit 6. The timer function unit 6 displays a calendar by changing the display mode of the scheduled date when menstruation supplied from the CPU 2 starts from a normal display mode (for example, represented by a circled number).

  As described above, according to the present embodiment, information affecting the basal body temperature can be easily recorded together with the basal body temperature, so that more accurate basal body temperature data can be easily collected. Moreover, the measurement is not forgotten by using the timer of the portable terminal 1. Furthermore, since notification or warning is performed until the measurement is normally completed, it is possible to avoid failure of the basal body temperature measurement.

(Embodiment 2)
A second embodiment will be described with reference to FIG. The difference from the first embodiment is the configuration of the human sensor 11, and other configurations are the same as those of the first embodiment. In the first embodiment, a human motion is detected by the human sensor 11 of the mobile terminal 1. However, if the human sensor 11 is configured to sense all directions of 360 degrees, if a person 111 other than the user is sleeping nearby, whether the user 112 has moved, or other than the user There are cases where it is not possible to distinguish whether the human 111 has moved.

  Therefore, in this embodiment, the opening of the human sensor 11 is narrowed to narrow the sensing range 113 of the human sensor 11 so as to have directivity, and only when the user 112 moves is recorded. In this case, the user 112 needs to sleep in the sensing range 114 of the human sensor 11.

  According to the present embodiment, since the human sensor 11 has directivity, even when a person 111 other than a plurality of users is sleeping near the user 112, it is limited to the case where the user 112 moves. Basal body temperature data can be recorded.

(Other embodiments)
The present invention is not limited to the first and second embodiments, and various modifications and applications are possible.

For example, the moving information can include the moving time (period) in addition to the number of times moved and the time moved. The moving time is the time from when the user starts to move until the user finishes moving. This can be obtained by interlocking the timer function unit 6 and the human sensor 11.
Specifically, the CPU 2 notifies the timer function unit 6 of the timing when the user starts moving and the timing when the user stops moving (no longer detected) based on the notification from the human sensor 11, Periods (movement periods) with these timings as the start and end are acquired from the timer function unit 6. The CPU 2 associates the current date acquired from the timer function unit 6 with the basal body temperature measured by the temperature sensor 8 and the memo information 71 including the movement period acquired from the timer function unit 6 in a database. 15 stores.

  In each embodiment, the movement and posture of the mobile terminal 1 are detected by the magnetic sensor 10 and the acceleration sensor 9. Instead, the movement and posture of the mobile terminal 1 are detected by the acceleration sensor 9 and the tilt sensor. May be. Further, the temperature sensor 8 can be separated from the portable terminal 1 and can be sandwiched between the armpits or the mouth.

  In addition to displaying characters on the display unit 5 and notifying and warning, a picture such as an icon display is displayed. In addition to the display unit 5, a separate LED or the like is provided on the surface of the mobile terminal 1 to light it. Thus, the measurement state may be notified.

  In each embodiment, the CPU 2 causes the sound unit 4 to output a notification sound and a warning sound. However, instead of this, a vibration function possessed by most general portable terminals may be used.

  In addition, the setting of the basal body temperature measurement in step S51 of the flowchart of FIG. 5 may be set by the user himself as in each embodiment, but it is the same every day by setting in the timer function unit 6 in advance. The basal body temperature measurement may be turned on at the time.

  In addition, after step S68, in each embodiment, the remeasurement is automatically started several seconds after the notification for prompting the measurement is performed, but the user himself / herself operates the mobile terminal 1 to start the remeasurement. Also good. For example, when the display unit 5 is notified of measurement, re-measurement can be started when the user presses one of the operation keys 12. Moreover, it is good also as a structure which a user starts a remeasurement by shaking the portable terminal 1. FIG. For example, when the display unit 5 is notified of the measurement, the acceleration sensor 9 or the magnetic sensor 10 senses that the user has swung the mobile terminal 1, and remeasurement is started. Alternatively, the re-measurement may be started after the portable terminal 1 is opened and closed.

Moreover, you may make it the structure which transmits the calendar by which the menstrual scheduled date shown in FIG. 10 (a), (b) or the scheduled ovulation date was described to the specific other party via the communication part 3 of the portable terminal 1. FIG. . Thereby, information can be shared between women or couples. This is especially useful for couples who want children.
The portable terminal 1 of the present invention does not need to use a dedicated device and can be realized by a normal computer. For example, a program and data for causing a computer to execute each process described above are recorded on a recording medium (CD-ROM or the like), distributed, installed, and executed on an OS (Operating System). Mobile terminal 1 can be realized. Further, the distribution of the program and data is not limited to the CD-ROM or the like, and may be performed via a communication line or the like.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
A body temperature measurement timing storage unit for storing body temperature measurement timing indicating timing for measuring body temperature;
A detection start timing storage unit that stores a detection start timing indicating a timing to start detecting a person's movement;
When the body temperature measurement timing comes, a body temperature measuring unit that measures body temperature;
In a detection period indicating a period from the detection start timing to the body temperature measurement timing, a detection unit that detects a person's movement;
A data storage unit that stores the measured body temperature and the detected information indicating the detected movement of the person in association with each other;
A basal body temperature measuring device comprising:

(Appendix 2)
A wake-up timing storage unit for storing a wake-up timing indicating a wake-up timing;
Based on the wake-up timing, the body temperature measurement timing is determined, and the body temperature measurement timing determination unit that stores the body temperature measurement timing in the body temperature measurement timing storage unit;
A detection start timing determination unit that determines the detection start timing based on the wake-up timing and stores the detection start timing in the detection start timing storage unit;
The basal body temperature measuring device according to appendix 1, further comprising:

(Appendix 3)
A standard measurement period storage unit for storing a standard measurement period indicating a standard period required for the body temperature measurement unit to measure body temperature;
Further comprising
The body temperature measurement timing determination unit
The timing before the standard measurement period of the wake-up timing is determined as the body temperature measurement timing, and stored in the body temperature measurement timing storage unit.
The basal body temperature measuring device according to supplementary note 1 or 2, characterized in that.

(Appendix 4)
When the body temperature measurement timing is reached, a body temperature measurement timing notification unit for notifying that effect,
The basal body temperature measuring device according to any one of appendices 1 to 3, further comprising:

(Appendix 5)
A moving distance measuring unit for measuring a moving distance indicating a distance moved by the basal body temperature measuring device;
After the body temperature measurement timing, a first warning notification unit that notifies a warning when the measured moving distance is equal to or greater than a predetermined threshold;
The basal body temperature measuring device according to appendix 4, further comprising:

(Appendix 6)
A body temperature measurement device direction storage unit for storing a body temperature measurement device direction indicating the orientation of the basal body temperature measurement device when measuring body temperature;
An orientation detector for detecting the orientation of the basal body temperature measuring device;
After the body temperature measurement timing, when the detected orientation of the basal body temperature measuring device is different from the body temperature measuring device direction, a second warning notification unit that notifies a warning;
The basal body temperature measuring device according to appendix 4 or 5, further comprising:

(Appendix 7)
A body temperature range storage unit for storing a body temperature range indicating a body temperature range;
After the body temperature measurement timing, when the measured body temperature does not belong to the body temperature range, a third warning notification unit that notifies a warning;
The basal body temperature measuring device according to any one of appendices 4 to 6, further comprising:

(Appendix 8)
A body temperature change timing prediction unit that predicts a body temperature change time indicating a time when the body temperature changes more than a predetermined threshold based on the body temperature corresponding to the detection information indicating that there was no movement of a person;
An output unit for outputting the predicted body temperature change time;
The basal body temperature measuring device according to any one of appendices 1 to 7, further comprising:

(Appendix 9)
When the body temperature measurement unit finishes measuring body temperature, a body temperature measurement end notification unit that notifies that fact,
The basal body temperature measuring device according to any one of appendices 1 to 8, further comprising:

(Appendix 10)
A body temperature change time notification unit for notifying other devices of the body temperature change time;
The basal body temperature measuring device according to any one of appendices 1 to 9, further comprising:

(Appendix 11)
A body temperature measurement step for measuring body temperature when the body temperature measurement timing indicating the timing for measuring body temperature is reached;
In the detection period indicating the period from the detection start timing indicating the timing to start detecting the movement of the person to the body temperature measurement timing, a detection step of detecting the movement of the person,
A data storage step for storing the measured body temperature and the detected information indicating the detected movement of the person in association with each other;
A basal body temperature measurement method comprising:

(Appendix 12)
On the computer,
A body temperature measurement procedure for causing the body temperature measurement unit to measure the body temperature when the body temperature measurement timing indicating the timing for measuring the body temperature is reached;
In the detection period indicating the period from the detection start timing indicating the timing to start detecting the movement of the person to the body temperature measurement timing, a detection procedure for causing the detection unit to detect the movement of the person
A data storage procedure for storing the measured body temperature and the detected information indicating the detected movement of the person in association with each other in a storage unit;
A program characterized by having executed.

1 Mobile terminal 2 CPU
3 Communication unit 4 Audio unit 5 Display unit 6 Timer function unit 7 Memory 8 Temperature sensor 9 Acceleration sensor 10 Magnetic sensor 11 Human sensor 12 Operation key 13 Prediction unit 14 Application software 15 Database 71 Memo information 81 Current time (high temperature period)
91 Current time (low temperature period)
101 scheduled menstruation date 111 non-user 112 user 113 sensing range (human sensor of the first embodiment)
114 Sensing range (human sensor of embodiment 2)

Claims (10)

A body temperature measurement timing storage unit for storing body temperature measurement timing indicating timing for measuring body temperature;
A detection start timing storage unit that stores a detection start timing indicating a timing to start detecting a person's movement;
When the body temperature measurement timing comes, a body temperature measuring unit that measures body temperature;
In a detection period indicating a period from the detection start timing to the body temperature measurement timing, a detection unit that detects a person's movement;
A data storage unit that stores the measured body temperature and the detected information indicating the detected movement of the person in association with each other;
A basal body temperature measuring device comprising: A wake-up timing storage unit for storing a wake-up timing indicating a wake-up timing;
Based on the wake-up timing, the body temperature measurement timing is determined, and the body temperature measurement timing determination unit that stores the body temperature measurement timing in the body temperature measurement timing storage unit;
A detection start timing determination unit that determines the detection start timing based on the wake-up timing and stores the detection start timing in the detection start timing storage unit;
The basal body temperature measuring device according to claim 1, further comprising: A standard measurement period storage unit for storing a standard measurement period indicating a standard period required for the body temperature measurement unit to measure body temperature;
Further comprising
The body temperature measurement timing determination unit
The timing before the standard measurement period of the wake-up timing is determined as the body temperature measurement timing, and stored in the body temperature measurement timing storage unit.
The basal body temperature measuring device according to claim 1 or 2. When the body temperature measurement timing is reached, a body temperature measurement timing notification unit for notifying that effect,
The basal body temperature measuring device according to any one of claims 1 to 3, further comprising: A moving distance measuring unit for measuring a moving distance indicating a distance moved by the basal body temperature measuring device;
After the body temperature measurement timing, a first warning notification unit that notifies a warning when the measured moving distance is equal to or greater than a predetermined threshold;
The basal body temperature measuring device according to claim 4, further comprising: A body temperature measurement device direction storage unit for storing a body temperature measurement device direction indicating the orientation of the basal body temperature measurement device when measuring body temperature;
An orientation detector for detecting the orientation of the basal body temperature measuring device;
After the body temperature measurement timing, when the detected orientation of the basal body temperature measuring device is different from the body temperature measuring device direction, a second warning notification unit that notifies a warning;
The basal body temperature measuring device according to claim 4 or 5, further comprising: A body temperature range storage unit for storing a body temperature range indicating a body temperature range;
After the body temperature measurement timing, when the measured body temperature does not belong to the body temperature range, a third warning notification unit that notifies a warning;
The basal body temperature measuring device according to any one of claims 4 to 6, further comprising: A body temperature change timing prediction unit that predicts a body temperature change time indicating a time when the body temperature changes more than a predetermined threshold based on the body temperature corresponding to the detection information indicating that there was no movement of a person;
An output unit for outputting the predicted body temperature change time;
The basal body temperature measuring device according to any one of claims 1 to 7, further comprising: When the body temperature measurement unit finishes measuring body temperature, a body temperature measurement end notification unit that notifies that fact,
The basal body temperature measuring device according to any one of claims 1 to 8, further comprising: A body temperature change time notification unit for notifying other devices of the body temperature change time;
The basal body temperature measuring device according to any one of claims 1 to 9, further comprising:

Images