JP2013215347A - Instrument and method for measuring quantity of motion - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a quantity-of-motion measuring instrument or the like for determining the proper content or the like of a motion from the attribute or the like of a sportsman and showing whether the motion is proper.SOLUTION: In a quantity-of-motion measuring instrument 10, the target quantity-of-motion degree data being the target degree data of the degree data of the quantity-of-motion data of a target person and target quantity-of-motion execution time data being execution target time data are stored, target quantity-of-motion degree data by attribute different according to the attributes of the target person is provided and the target quantity-of-motion degree data by attributes of the target person is determined on the basis of the attributes of the target person. When the quantity-of-motion degree data corresponding to the quantity-of-motion data of the target person does not correspond to the target quantity-of-motion degree data by attribute, the execution time of the quantity-of-motion not corresponding to the target quantity-of-motion degree data by attribute is cumulated and stored as non-target quantity-of-motion execution time data. When the cumulated time of the non-target quantity-of-motion execution time data reaches a reference time, the state not reaching the target quantity-of-motion degree data by attribute is displayed on a display part 13.

Description

  The present invention relates to a momentum measuring apparatus and a momentum measuring method for measuring a person's momentum, for example.

  2. Description of the Related Art Conventionally, a device that detects the movement of a human body and calculates the calorie consumption thereof has been proposed (for example, Patent Document 1).

JP 2008-295746 A

However, exercise appropriate for the human body cannot be uniquely determined based on the calorie consumption. In other words, it is necessary that the content of the exercise is appropriate and exercise with an appropriate content is performed for a predetermined time. In addition, the content of the appropriate exercise differs depending on attributes such as the age of the person who performs the exercise.
For this reason, in order to measure whether or not the exercise is favorable for the human body, the exercise content and time are determined in detail according to the attributes of the person performing the exercise, and whether or not the actual exercise content or time is achieved. It is necessary to show.
However, it is difficult to perform such measurement, and it is also difficult to indicate whether or not the actual exercise has achieved preferable contents.

  Accordingly, an object of the present invention is to provide an exercise amount measuring apparatus and an exercise amount measuring method that can determine appropriate exercise contents and the like from the attributes of the person who exercises, and can indicate whether or not the exercise is appropriate. To do.

  In the present invention, the above object has an acceleration information detection unit that detects the exercise amount information of the subject as acceleration information, and the target exercise amount is the target degree information of the exercise amount information that is the degree information of the exercise amount information. Information and target exercise amount execution time information that is execution target time information of the target exercise amount degree information, and at least the target exercise amount degree information is attributed target exercise amount that differs depending on the attribute of the subject. The amount of exercise amount corresponding to the amount of exercise information executed by the subject, and the target amount of exercise amount by attribute of the subject is determined based on the input attribute of the subject. It is determined whether the information corresponds to the attribute-specific target exercise amount information, and if not, the information does not correspond to the attribute-specific target exercise amount information. The exercise time information is accumulated and stored as non-target exercise amount execution time information, and when the accumulated time of the non-target exercise amount execution time information reaches a reference time, the exercise amount information is displayed on the display unit as the attribute-specific target exercise amount. This is achieved by a momentum measuring device characterized by displaying that the degree information has not been reached.

According to the above configuration, the degree information of the subject's exercise amount is indicated by using, for example, exercise amount degree information such as METs, and the appropriate degree of exercise amount of the subject person is stored as target exercise amount degree information such as medium intensity METs.
Moreover, the target exercise amount degree information is attribute-specific target exercise amount information such as different medium strength METs based on the attribute information such as the age of the subject, and based on the input attributes of the subject, It is the structure which defines the target exercise amount degree information according to attributes, such as intensity METs.
Accordingly, it is possible to select target-specific exercise amount information such as medium intensity METs suitable for attributes such as the age of the subject, and to set target exercise amount information such as medium-intensity METs that is optimal for the subject. .

Furthermore, it has target exercise amount execution time information which is execution target time information of the target exercise amount degree information.
For this reason, whether or not the amount of exercise corresponding to the attribute-specific target exercise amount information such as medium intensity METs suitable for the attributes such as the age of the subject has been executed corresponding to the time corresponding to the target exercise amount execution time information, etc. Can be judged.
In the above configuration, the execution time of the momentum information not corresponding to the attribute-specific target momentum information is accumulated and stored as non-target exercise amount execution time information, and when the accumulated time of the non-target exercise amount execution time information reaches the reference time, The display unit displays that the exercise amount information has not reached the attribute-specific target exercise amount information.
For this reason, by visually recognizing this display unit, the subject can quickly grasp that his / her momentum is not appropriate from his / her own age and other attributes, and can quickly change his / her momentum, etc. it can.

  Preferably, the meal-related time information storage unit that stores the meal-related time information of the target person, and the meal-related time information arrival presence determination unit that determines whether the meal-related time information has arrived, When time information arrives, exercise start information is displayed on the display unit.

  According to the said structure, when the said meal related time information comes, exercise start information is displayed on a display part. Therefore, it is possible to prompt the subject to exercise during the time period most effective for exercise.

  Preferably, when the meal-related time information arrives, the exercise start information is displayed on the display unit on condition that the subject has input meal execution information.

  According to the said structure, exercise | movement start information is displayed on a display part on the condition that the meal execution information was input from the said subject. Therefore, it is possible to accurately grasp the most effective time zone for exercise.

  Preferably, the exercise amount information corresponding to the exercise amount information executed by the subject corresponds to the attribute-specific target exercise amount information, and the acceleration information detection unit detects a horizontal state of the exercise amount measuring device. In this case, the corresponding signal display unit is in a display state.

According to the above configuration, the momentum degree information corresponding to the momentum information executed by the target person corresponds to the attribute-specific target momentum degree information, and the acceleration information detection unit detects the horizontal state of the momentum measurement apparatus. Sometimes, the corresponding signal display section is displayed as a display state.
For this reason, the target person visually recognizes the display unit of the momentum measuring device, and therefore, only when the momentum measuring device is in a horizontal state, the corresponding signal display that the own momentum information corresponds to the target amount of exercise information by attribute The part can be displayed. Therefore, when the subject does not visually recognize the display unit of the momentum measuring device, even if his / her own exercise amount information corresponds to the target exercise amount information by attribute, the corresponding signal display unit is not in a display state, and is a wasteful display. Can be suppressed, and power can be saved.

  According to the present invention, the object includes an acceleration information detection unit that detects exercise amount information of a subject as acceleration information, and target exercise amount degree information that is target degree information of exercise amount degree information that is degree information of the exercise amount information. And the target exercise amount execution time information that is the execution target time information of the target exercise amount degree information is stored, and at least the target exercise amount degree information is attribute-specific target exercise amount degree information that varies depending on the attributes of the subject. The amount-of-exercise amount information corresponding to the amount-of-moment information executed by the subject person is determined based on the attribute of the subject-subject input Determines whether or not it falls under the attribute-specific target momentum information, and if not, before it does not fall into the attribute-specific target momentum information The execution time of the momentum information is accumulated and stored as non-target exercise amount execution time information, and when the accumulated time of the non-target exercise amount execution time information reaches the reference time, the exercise amount information is about the attribute-specific target exercise amount This is achieved by a method of measuring momentum characterized by displaying that information has not been reached.

  As described above, according to the present invention, there is provided a momentum measuring apparatus and a momentum measuring method that can determine appropriate exercise contents and the like from the attributes of the person performing the exercise and indicate whether or not the exercise is appropriate. The purpose is to provide.

1 is a schematic diagram showing an activity amount measuring system, for example, an activity amount measuring system according to the present invention, for example, an activity amount measuring system and a terminal device, for example, an exercise amount measuring system having a doctor side terminal and a subject side terminal. It is the schematic which shows the active mass meter of FIG. It is a schematic block diagram which shows the main structures of the active mass meter of FIG. It is a schematic block diagram which shows the main structures of the 1st various information storage part of FIG. It is a schematic block diagram which shows the main structures of the 2nd various information storage part of FIG. It is a schematic block diagram which shows the main structures of the 3rd various information storage part of FIG. It is a schematic block diagram which shows the main structures of the 4th various information storage part of FIG. It is a schematic block diagram which shows the main structures of the 5th various information storage part of FIG. It is a schematic flowchart which shows the main operation | movement etc. of the active mass meter concerning this Embodiment. It is another schematic flowchart which shows the main operation | movement etc. of the active mass meter concerning this Embodiment. It is another schematic flowchart which shows the main operation | movement etc. of the active mass meter concerning this Embodiment. FIG. 5 is a schematic explanatory diagram showing information on gender medium strength METs ranges and the like stored in advance in a gender medium strength METs range information storage unit of FIG. 4. It is the schematic which shows the state where the banzai mark was displayed and the OK mark was lit. It is a schematic explanatory drawing which shows the information which can be displayed on the active mass meter side display of an active mass meter. It is a schematic explanatory drawing which shows the state which expanded the display dot of "METs" of displays, such as Mets. It is a schematic flowchart which shows the process of encouraging a subject to exercise. It is a schematic flowchart which shows the correction process of object person sex medium intensity | strength METs range information. It is another schematic flowchart which shows the correction process of object person sex medium intensity | strength METs range information. It is a schematic flowchart which shows the process etc. which transmit the various information of an active mass meter to a doctor side terminal and a subject side terminal. It is the schematic which shows the example of a screen of 1 hour unit medium intensity | strength METs accumulated time information etc. which were received from the active mass meter.

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
The embodiments described below are preferred specific examples of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. Unless otherwise stated, the present invention is not limited to these embodiments.

FIG. 1 is an exercise amount measuring apparatus according to the present invention, for example, an activity meter 10 and a terminal device, for example, an exercise amount measuring system having a doctor side terminal 100 and a subject side terminal 200. FIG.
The activity meter 10 shown in FIG. 1 is a device that measures the amount of activity (exercise amount) of a human body. When the subject who wants to measure possesses it, the activity meter 10 moves along with the movement of the subject's body, and the amount of exercise is measured. It is configured to measure.

  Specifically, an X-axis, Y-axis, and Z-axis acceleration sensor (so-called triaxial acceleration sensor) is included therein, and the acceleration information detected by these acceleration sensors is, for example, X-axis acceleration data, Y-axis acceleration. The average triaxial acceleration data is detected from the data and the Z-axis acceleration data, and the momentum is measured from the acceleration data.

Traditionally, walking is considered good for health, and 10,000 steps per day were recommended, but in recent years it has been important to improve lifestyle-related diseases through exercise. Activity. This “medium intensity” activity is a quick walk in walking, but it is difficult to grasp the amount of exercise.
Therefore, in recent years, there is “METs” as a standard of the amount of exercise (physical activity) determined by the Ministry of Health, Labor and Welfare and the like, and it is trying to objectively measure the amount of exercise with this Met.
This “Met” is an example of “exercise level information”. For example, Met is classified from 0.9 Met to 15 Met, and “0.9 Met” is the amount of exercise in sleep or the like, “1.0 Met”. "" Is the amount of exercise when listening to music, watching movies, etc., "2.0 mets" is the amount of exercise in cooking, "3.0 mets" is the amount of exercise such as car washing, "4.0 mets" is the amount of exercise during garden cleaning, etc. .0 Mets ”is defined as the amount of exercise when playing with children.

The above-mentioned “medium-level activity” based on this Met's standard differs depending on the gender, age, and other attributes of the target person (user of the activity meter 10). For example, in the case of “3 Mets” It becomes the momentum that the person continues “car wash” for “20 minutes”.
However, human exercises and activities do not necessarily perform the exercises exemplified in the Mets standards. In addition, “medium intensity exercise” is a concept that varies depending on the gender, age, etc. of the subject. For this reason, the number of mets corresponding to “medium intensity exercise” differs depending on the gender, age, etc. of the subject. become.

  For example, as will be described later, the “medium number of mets” in the case of “male” and “under 45 years old” is “5 to 7 mets”. In the case of “above”, “2 to 5 mets” is obtained, and the same “medium intensity exercise” is obtained even with a much smaller amount of exercise than the former “under 45 years old”.

Therefore, in the present embodiment, it is determined whether or not the exercise of the subject possessing the activity meter 10 is within the metz range corresponding to the “medium intensity activity” determined from the attribute, etc. These are displayed.
Thereby, the subject who possesses the active mass meter 10 can easily determine whether or not his / her exercise or the like is a preferable exercise amount for improving lifestyle-related diseases.

FIG. 2 is a schematic diagram showing the activity meter 10 of FIG. Hereinafter, the main configuration of the activity meter 10 shown in FIG. 2 will be described.
As shown in FIG. 2, the activity meter 10 of the present embodiment has, for example, an activity meter-side display 11 that is a display unit made up of a substantially circular LED or the like at the center.
As shown in FIG. 2, the activity meter-side display 11 includes a time display 12 for displaying time data, a mets data for displaying the above-described mets data for every two minutes of a measurement subject (hereinafter referred to as “subject”), and the like. A display 13 is provided.

In addition to the mets data, the mets etc. display 13 is configured to be able to display “Banzai mark”, “OK mark”, etc. by character display when the target is achieved.
The activity meter-side display 11 also has a flame display 14 that is displayed when the above-described “medium intensity” Met's movement is achieved.

In addition, the activity meter side display 11 includes an achievement gauge 15 that is an achievement degree information display unit that displays an achievement degree with respect to a target such as a medium intensity activity time arranged in an arc shape. The achievement gauge 15 is configured such that the progress until the goal is achieved is displayed by lighting or the like. Details of these display contents will be described later.
In addition, the activity meter 1 of FIG. 2 is provided with a setting change button 16 and a memory call button 17 which are function buttons on the outside thereof.

As shown in FIG. 1, the activity meter 10 of the present embodiment includes, for example, a non-contact IC (integrated circuit) card 18 that is a communication device. The non-contact type IC card 18 communicates with the doctor-side terminal 100 such as a doctor in charge at the hospital of the subject who uses the activity meter 10 or the subject-side terminal 200 used by the subject at home or the like. Possible doctor-side terminal lead / writers 103 and subject-side terminal lead / writers 203 are respectively arranged.
When the non-contact type IC card 18 of the activity meter 10 is brought close to the doctor-side terminal lead / writer 103 or the subject-side terminal lead / writer 203, a carrier is transmitted from the doctor-side terminal lead / writer 103, etc. Power is supplied to the non-contact type IC card 18 by induction, and communication can be performed between each other by modulation of the carrier.
In such data communication, for example, non-contact communication means at a short distance of about 10 cm (for example, power saving IC communication technology of ISO / IEC 14443, communication technology of ISO / IEC 18092, FeliCa (Sony Corporation) Registered trademark)) communication technology. Via this communication unit 280, communication is performed with an RFID reader / writer installed in a hospital or the like and connected to a dedicated terminal handled by a doctor or the like. In the communication technology of FeliCa, communication is performed using radio waves of 13.56 MHz, and communication of 100 to 400 kbps is performed in a very short distance up to about 10 cm without contact.

  For this reason, as described later, data in the activity meter 10 can be transmitted to the doctor terminal 100 and the subject terminal 200, and information can be transmitted from the doctor terminal 100 or the like to the activity meter 10. It has a configuration that can.

  As shown in FIG. 1, the doctor side terminal 100 includes a doctor side terminal display 101 that displays various types of information and a doctor side terminal input device 102 that inputs various types of information. The subject side terminal display 201 and the subject side terminal input device 202 are provided.

  The active mass meter 10, the doctor-side terminal 100, and the subject-side terminal 200 shown in FIG. 1 have a computer, and the computer includes a CPU (Central Processing Unit), a RAM (Random Access Memory), and a ROM (Read Only Memory). Etc.) and these are connected via a bus.

FIG. 3 is a schematic block diagram showing the main configuration of the activity meter 10 of FIG.
As shown in FIG. 3, the activity meter 10 has an “activity meter control unit 19”. The activity meter 19 includes a “timer 20” that generates time information, a “step counter 21” that counts the number of steps of the target person, and an acceleration information detection unit that generates average acceleration data of the movement of the target. For example, the “average acceleration data generating device 22” is controlled.
As shown in FIG. 3, the average acceleration data generation device 22 includes an “X-axis acceleration sensor 22a”, a “Y-axis acceleration sensor 22b”, and a “Z-axis acceleration sensor 22c”. “Average acceleration data (m / s ² )” is generated.

Moreover, the active mass meter control part 19 controls the active mass side display 11 shown in FIG. 2, as shown in FIG. For this reason, the time display 12, the Mets etc. display 13, the flame display 14, the achievement gauge 15 and the like shown in FIG. 3 are also controlled by the activity meter control unit 19.
The activity meter control unit 19 controls the “setting change button 16” and the “memory call button 17” shown in FIGS. 2 and 3, and the “non-contact type IC card 18” shown in FIGS. Also controls.

Furthermore, the activity meter control unit 19 includes the “first various information storage unit 30”, the “second various information storage unit 50”, the “third various information storage unit 70”, and the “fourth information” shown in FIG. The "various information storage unit 80" and "fifth various information storage unit 90" are also controlled.
4 to 8 are respectively “first various information storage unit 30”, “second various information storage unit 50”, “third various information storage unit 70”, and “fourth various information storage unit”. 80 ”and“ fifth various types of information storage unit 90 ”are schematic block diagrams illustrating the configurations, which will be described later.

  9 to 11 are schematic flowcharts showing main operations and the like of the activity meter 10 according to the present embodiment. Hereinafter, the operation and the like of the activity meter 10 will be described along the flowcharts of FIGS. 9 to 11 and the configurations of FIGS. 1 and 8 will be described.

First, a subject who wishes to measure his / her exercise amount, activity amount, etc. (hereinafter referred to as “exercise amount”) carries the activity meter 10 shown in FIG. 1 and turns on the power source of the activity meter 10. Then, the active mass meter 1 is put into an operating state.
In the present embodiment, the activity meter 10 automatically sets “medium intensity METs” that are the amount of exercise appropriate for the subject based on attributes such as sex and age of the subject who uses the activity meter 10. Since it is a defined configuration, input of predetermined information is required before use.

Specifically, in step ST (hereinafter referred to as “ST”) 1 in FIG. 9, “date of input”, “age of subject (years)”, “weight of subject (kg)”, “ For example, “target person's height (m)”, “subject's gender (male, female)”, and target step count information such as “target step count (steps) of subject” are input.
In addition, the scheduled meal end time, which is the scheduled end time of meals such as breakfast, lunch, and dinner, is also entered. This “scheduled meal end time” is an example of meal related time information.

Specifically, the subject or the like operates the setting change button 16 or the like in FIGS. 2 and 3 to input each data. The input data is “first various input information storage” in FIG. Stored in the “subject input information storage unit 31” of the “part 30”.
Therefore, the “subject input information storage unit 31” is an example of a “meal-related time information storage unit”.

When the input of each data is completed in ST1, the process proceeds to ST2. In ST2, BMI (Body Mass Index) information of the subject person is generated from the height (m) and weight (kg) data of the subject person, and “subject BMI information storage unit 32” in FIG. Remember me.
This BMI information is an index for measuring a so-called “obesity degree”. In the present embodiment, since the BMI information is used as a parameter when determining the optimum “medium strength METs” range of the subject, it is obtained in ST2.

  Specifically, the “subject BMI information generation processing unit (program) 71” of the “third various information storage unit 70” in FIG. 6 operates, and the formula “weight (kg) / height (m) of the BMI information” The data of the height (m) and the weight (kg) of the subject in the “subject input information storage unit 31” in FIG.

Next, the process proceeds to ST3. In ST3, a “range of medium strength METs” suitable for the user is determined.
Specifically, the “subject gender medium strength METs range etc. information generation processing section (program) 72” of FIG. 6 operates, and the “subject input information storage section 31” of FIG. And “target person's age information” and “subject BMI information” are acquired from the “subject BMI information storage unit 32”. Then, refer to “Gender Medium Strength METs Range etc. Information Storage Unit 33” in FIG.

FIG. 12 is a schematic explanatory diagram showing “gender medium strength METs range etc. information 33a” stored in advance in “gender medium strength METs range etc. information storage unit 33”.
The “gender medium strength METs range information 33a” shown in FIG. 12 is first gender-specific data (FIG. 12 is data for “male”), and the range of the METs depends on the age and BMI information. It is fixed.
Among these, the “medium intensity” mets is an example of the target exercise amount information that the subject should make the exercise amount target.

Then, a range of “low strength” and “high strength” is defined across the range of “medium strength”. The range of “low intensity” is a range where the subject has a small amount of exercise, and the range of “high intensity” is a case where the amount of exercise is excessive.
Thus, an appropriate amount of exercise is not appropriate if it is too much or too little, and it is important to continue exercise within the “medium intensity” METs range.
Note that the “medium intensity” METs range, etc., classified by each age and BMI in FIG. 12 is an example of attribute-specific target exercise amount information.

  Therefore, in ST3, the “subject gender medium strength METs range etc. information generation processing unit (program) 72” obtains “subject gender information”, “subject age information” and “subject” as described above. Based on the “BMI information”, “gender medium intensity METs range etc. information 33a” is referred to, and “intermediate intensity METs range information” (an example of attribute-specific target exercise amount information) of the subject is determined.

  For example, when the age of the subject is “65 years or older” and “BMI is less than 25”, the range of “medium strength METs range information 33a” to “medium strength METs” in FIG. 6 METs ”is stored in the“ subject gender medium strength METs range information storage unit 34 ”in FIG.

Next, the process proceeds to ST4. In ST4, based on the target step count information input by the subject in ST1, the execution time of the amount of exercise in the range of “medium strength METs” of the subject is determined.
Specifically, the “subject person medium strength METs time information identification processing unit (program) 73” in FIG. 6 operates, and “target step count” data in the “subject input information storage unit 31” in FIG. Step data is acquired, and the “step count corresponding medium intensity METs range time information storage unit 35” in FIG. 4 is referred to.
The “number of steps corresponding medium intensity METs range time information storage unit 35” stores exercise time information (for example, 20 minutes) of “medium intensity METs” corresponding to the number of steps information (8000 steps).

  Therefore, the “target person medium strength METs time information specifying processing unit (program) 73” refers to the “step count corresponding medium strength METs range time information storage unit 35” and corresponds to the acquired “target step count” data (8000 steps). Exercise time information (an example of step number-corresponding medium intensity METs range time information and target exercise amount execution time information) (20 minutes) is acquired and stored in the “subject medium intensity METs time information storage unit 36” in FIG.

  This completes the preparation before the subject uses the activity meter 10. That is, the range of “medium strength METs” of the subject is set as “3 to 6 METs” and stored in the “subject gender medium strength METs range information storage unit 34” of FIG. 4 and corresponds to the step count information (8000 steps). The exercise time information (for example, 20 minutes) of “medium strength METs” to be stored is stored in the “number of steps corresponding medium strength METs range time information storage unit 35”.

Next, the process proceeds to ST5. In ST5, it is determined whether the “average acceleration data generation device 22” in FIGS. 1 and 3 has acquired acceleration (momentum) data (m / s ² ). That is, it is determined whether the subject has carried the activity meter 10 and started exercise such as walking.

When it is determined in ST5 that the subject has started walking or the like, the process proceeds to ST6. In ST6, the “step counting device 21” in FIG. 3 operates, counts the number of steps of the subject based on the data of the “average acceleration data generating device 22”, etc., and refers to the “timing device 20” with reference to FIG. In the "cumulative step count information storage unit 42", the cumulative step count information is stored as "time-related cumulative step count information" together with the time information.
Therefore, the activity meter 10 can obtain cumulative step count information with time information.

On the other hand, when it is determined in ST5 that the subject has started walking or the like, the process proceeds to ST7. In ST7, it is determined whether or not a predetermined time, for example, 2 minutes has elapsed, with reference to “timer 20”.
As will be described later, the activity meter 10 according to the present embodiment is configured so that the METs, which is the reference for the amount of exercise, is displayed in units of a predetermined time, for example, 2 minutes, corresponding to the predetermined elapsed time. 2 and “Mets et al. Display 13” in FIG.

In ST7, when 2 minutes have passed, the process proceeds to ST8. In ST8, “every two minutes (every predetermined time) METs information generation processing unit (program) 74” of FIG. 6 operates. Then, with reference to the “acceleration METs value storage unit 37” in FIG. 4 in which information of METs values (for example, 1 METs to 8 METs) corresponding to the acceleration values of the “average acceleration data generation device 22” is stored, the “average The METs value of the average value of the acceleration data for 2 minutes which is the predetermined time of the acceleration data generation device 22 ”is specified.
Then, the specified METs value is stored in the “every 2 minutes METs value information storage unit 38” in association with the time information of the “timing device 20”.

Next, the process proceeds to ST9. In ST9, the METs values (1 to 8) stored in the “METs value information storage unit 38 every 2 minutes (every predetermined time)” are displayed on the “Mets etc. display 13” of FIG.
Specifically, it is represented by the number of blocks on the display 13 such as Mets in FIG. As shown in FIG. 2, when the number of blocks is one, it is 1 METs, and when it is eight, it is 8 METs.

  Next, the process proceeds to ST10. In ST10, the “medium strength METs range determination processing unit (program) 75” in FIG. 6 operates, and the “range of medium strength METs” in the “subject gender medium strength METs range information storage unit 34” in FIG. With reference to 3METs to 6METs, it is determined whether or not the METs value every 2 minutes in the “every 2 minutes METs value information storage unit 38” is within the range of the medium strength METs.

When it is determined in ST10 that the METs value every 2 minutes (every predetermined time) in the “every 2 minutes METs value information storage unit 38” is within the range of the medium strength METs, the process proceeds to ST11. Also in ST11, the “medium strength METs range determination processing unit (program) 75” in FIG. 6 operates, refers to “timer 20”, and stores “2 minutes (in the middle strength METs accumulated time storage unit 39” in FIG. Predetermined time) "is stored together with the time information.
Thereby, the active mass meter 10 can acquire the accumulation time etc. which performed the exercise | movement of the "medium intensity | strength METs value" which is an exercise amount appropriate for the said subject.

Next, the process proceeds to ST12. In ST12, the “activity meter level determination processing unit (program) 85” of FIG. 7 operates, and the average acceleration data generation device 22 of the activity meter 10 of FIG. Judge whether or not.
In other words, the “activity meter level determination processing unit (program) 85” is based on the average acceleration data generation device 22, and the subject using the activity meter 10 displays the activity meter-side display 11 of FIG. In order to visually recognize, it is determined whether the activity meter 10 is held and the activity meter-side display 11 is arranged on the upper surface.

When the activity meter 10 determines in ST12 that the activity meter 10 has been leveled based on the data of the average acceleration data generation device 22, the process proceeds to ST13. In ST13, for example, the “flame display 14” that is a character display, which is the corresponding signal display unit in FIGS. 2 and 3, is lit or blinks.
Thus, the subject can know that his / her exercise is appropriate, and can use it as a guideline for the subsequent exercise.
Thus, in the present embodiment, only when the target person who is the user of the activity meter 10 places the activity amount 10 in a horizontal state in order to view the activity meter-side display 11, “flame” The display 14 "is turned on or blinking, and is otherwise not turned on or blinking.
That is, the “flame display 14” is not lit or blinked when the subject does not visually recognize the “flame display 14” of the activity meter 10.
For this reason, even if it is determined in ST11 that the subject's momentum is within the range of the medium strength METs, the subject visually recognizes whether the momentum is within the range of the middle strength METs. When the action for confirming (the activity meter 10 is set in the horizontal state) is not taken, the “flame display 14” is not lit or blinked. Therefore, the active mass meter 10 can suppress wasteful display and save power.

On the other hand, when it is determined in ST10 that the METs value every 2 minutes in the “every 2 minutes METs value information storage unit 38” is not within the range of the medium strength METs, the process proceeds to ST14. Also in ST14, the “medium strength METs range determination processing unit (program) 75” in FIG. 6 operates, refers to the “timer 20”, and stores “2 minutes in the“ non-medium strength METs cumulative time storage unit 43 ”in FIG. Is stored together with the time information.
The time information stored in the “non-medium intensity METs cumulative time storage unit 43” is an example of “non-target exercise amount execution time information”.

Next, the process proceeds to ST15. In ST15, the “non-medium strength METs cumulative time determination processing unit (program) 84” in FIG. 7 operates, and the “non-medium strength METs cumulative time storage unit 43” in FIG. Reference time information of the METs reference accumulated time storage unit 44 "is referred to.
That is, the reference time information of the “non-medium strength METs reference cumulative time storage unit 44” is that the subject accumulates a motion outside the range of the medium strength METs, that is, a motion that is not appropriate for the subject for a certain time (reference time). It is time to warn the subject.
Therefore, in ST15, the “non-medium strength METs cumulative time determination processing unit (program) 84” in FIG. 7 determines that the cumulative time of the “non-medium strength METs cumulative time storage unit 43” in FIG. It is determined whether or not the reference time information (predetermined time information) in the strength METs reference cumulative time storage unit 44 ”has been exceeded, and whether or not the subject should be warned is determined.

When it is determined in ST15 that the accumulated time of the “non-medium strength METs cumulative time storage unit 43” of FIG. 4 exceeds the reference time information of the “non-medium strength METs reference cumulative time storage unit 44”, A warning that “the effect of the exercise is small” (not shown) is displayed in characters or characters on the “Met's display 13”.
Therefore, the subject using the activity meter 10 can know that his / her own exercise is not appropriate, and can quickly change to an appropriate exercise.

In ST12, when the active mass meter 10 is not in a horizontal state or after ST13 or ST16, the process proceeds to ST17 in FIG. In ST17, the “calorie consumption value calculation processing unit (program) 76” in FIG. 6 operates, and the METs value and the time information (for example, 2 minutes) in the “every 2 minutes METs value information storage unit 38” in FIG. And “weight (kg) information of the subject in the“ subject input information storage unit 31 ”is obtained.
The processing unit (program) 76 refers to the “calorie consumption formula storage unit 40” in FIG. 4 and obtains the calorie consumption formula (calorie consumption = METs value × exercise time × weight (kg) × 1.05). Then, the above acquired information is substituted into this equation, and the “calorie consumption value” is calculated.
The “calorie consumption value” obtained by this calculation is stored in the “cumulative calorie consumption value storage unit 41” of FIG. 4 together with the time information.
Therefore, the activity meter 10 can obtain a calorie consumption value and cumulative information for each hour.

Thus, in this Embodiment, the active mass meter 10 can acquire the calorie consumption information which is an important parameter | index which evaluates a subject's exercise | movement.
Further, the target person can refer to the information after the fact, and can grasp “calorie consumption information” which is an important index for the evaluation of the amount of exercise.

Next, the process proceeds to ST18. In ST18, “achievement gauge display information” to be displayed on the achievement gauge 15 of FIGS. 2 and 3 is generated.
That is, the “achievement gauge display information generation display processing unit (program) 81” in FIG. 7 operates and acquires the following information.
1) “cumulative step count information” in “cumulative step count information storage section 42” in FIG. 4 and “target step count (for example, 8000 steps)” in “target person input information storage section 31”.
2) “Medium strength METs cumulative time” of “Medium strength METs cumulative time storage unit 39” in FIG. 4 and “Target medium strength METs time information” (for example, 20 minutes) of “Target medium strength METs time information storage unit 36” ) "
Based on the information of 1) and 2), “achievement gauge display information” to be displayed on the achievement gauge 15 is generated.

In the above 1), the achievement degree of the target step count can be grasped by comparing the “cumulative step count information” that the subject actually walked and the “target step count (for example, 8000 steps)”.
Further, in the above 2), the “medium intensity METs accumulated time” which is the actual exercise time of the medium intensity METs is compared with “target medium intensity METs time information (for example, 20 minutes)”, The degree of achievement of the target execution time of the subject's medium-strength METs exercise can be grasped.

Therefore, in the present embodiment, for example, it is achieved (100%) with 8000 steps and 20 minutes of medium strength METs exercise, and 10% of them is 800 steps and 2 minutes of medium strength METs exercise.
That is, when both the step count and the medium strength METs exercise time are 10%, the achievement gauge 15 is lit or blinked by 10% so as to correspond to the 10%, and the achievement gauge 15 indicates the achievement degree. Display information ”is generated and displayed on the achievement gauge 15.

  As shown in FIG. 2, the achievement gauge 15 has an arcuate shape as a whole, and the arcuate portion is lit according to the degree of achievement.

Therefore, in the above example, when both the step count and the medium strength METs exercise time have achieved 10% of the target, the achievement gauge 15 is associated with the achievement gauge 15 corresponding to 10% of the achievement gauge 15 (for example, 10% from the left end of FIG. 2 is lit or blinks.
In addition, when the subject has achieved the target number of steps and the target medium strength METs exercise time, the achievement gauge 15 is configured to light up as a whole and indicate that 100% has been achieved.
In the present embodiment, the achievement of 100% of the target is “achievement”, but 50% of the target may be displayed as achievement.

Thus, the achievement gauge 15 considers not only the medium strength METs exercise time but also the number of steps when displaying the achievement level, so even if the number of steps and the medium strength METs exercise time reach the target, the number of steps is set as the target. If it does not reach it, it will not be achieved.
Accordingly, since “step information” that is important in evaluating an appropriate exercise is also taken into account, the activity meter 10 of the present embodiment can evaluate the exercise state of the subject with extremely high accuracy.

  Next, the process proceeds to ST19. In ST19, the “achievement gauge determination processing unit (program) 82” of FIG. 7 operates to determine whether or not the achievement gauge 15 is 100%. If 100%, the process proceeds to ST20. In ST20, the “Banzai mark” which is the character display is displayed on the “Mets etc. display 13” in FIGS. 2 and 3, and the “OK” mark is lit or blinked.

FIG. 13 is a schematic diagram showing a state where the “Banzai mark” is displayed and the “OK” mark is lit or blinking.
Therefore, the target person can quickly and easily know that his / her exercise has achieved the goal by visually recognizing the display of the “Mets display 13” on the activity meter 10.

Thus, in the present embodiment, an appropriate METs value of “medium strength METs range” that matches attributes such as sex and age of the subject who uses the activity meter 10 is automatically determined. The target time of the medium strength METs exercise can be automatically determined from the target step count information input by the person.
Further, the achievement level is also shown in a state that can be easily grasped by the achievement gauge 15, and the achievement judgment is judged by taking into account the number of steps information that is made up of only the time information of the medium strength METs exercise.
Therefore, the activity meter 10 is capable of evaluating the exercise amount and the like with extremely high accuracy.

FIG. 14 is a schematic explanatory diagram showing information that can be displayed on the activity meter-side display 11 of the activity meter 10.
As shown in FIG. 14, the activity meter side display 11, for example, “Mets etc. display 13” has a configuration in which the displayed information can be changed by pressing an operation button or the like. Yes.

That is, when the operation button or the like is pressed in the state where the “2 minute METs value graph” shown in FIG. 2 is displayed, “medium strength METs accumulated time”, “cumulative step count”, “distance (calculated based on the step count). Information) ”and“ cumulative calorie consumption value ”are displayed in the order of change.
Therefore, the target person or the like can arbitrarily display various necessary information by operating the operation buttons or the like that are function buttons.

Further, in this embodiment, when the display dot indicating the numerical value of “METs” displayed on the “Mets etc. display 13” of FIG. 2 is small for the subject in ST9 of FIG. Dots can be enlarged.
FIG. 15 is a schematic explanatory diagram showing a state where display dots of “METs” on the display 13 such as Mets are enlarged.
As shown in FIG. 15, by operating the setting change button 16 in FIG. 3, the subject can enlarge the “METs” display on the display 13 such as the Mets, as shown in FIG. The “METs” value can be easily understood.
Therefore, in particular, when the subject whose visual acuity is reduced uses the activity meter 10 of the present embodiment, the display can be easily seen, and the activity meter 10 is easy to use.

In general, exercise is preferably performed after meals. For this reason, in this Embodiment, when the subject's meal end time arrives, it has the structure which accelerates | stimulates an exercise | movement.
FIG. 16 is a schematic flowchart showing a process of prompting the subject to exercise. Hereinafter, the process will be described with reference to FIG.

First, in ST31, the “meal ending scheduled time arrival judgment processing unit (program) 86” in FIG. 7 operates to operate “timer 20” in FIG. 3 and “target person input information storage unit 31” in FIG. With reference to “scheduled meal end time”, it is determined whether or not the scheduled meal end time of the subject has arrived.
For this reason, the “meal end time arrival determination processing unit (program) 86” is an example of a meal related time information arrival presence determination unit.

  When it is determined in ST31 that the scheduled meal end time for the subject has arrived, the process proceeds to ST32. In ST32, a question “whether or not the meal is finished” is displayed on the “Mets display 13” in FIG.

  Next, the process proceeds to ST33. In ST33, the “meal end information input presence / absence determination processing unit (program) 87” of FIG. 7 operates, and it is determined whether or not the information indicating that “meal has ended”, which is an example of meal execution information, has been input by the subject. to decide.

If the subject inputs information indicating that the meal has ended in ST33, the process proceeds to ST34. In ST34, “exercise of starting exercise”, for example, “exercise start of exercise” is displayed on the “Mets display 13” in FIG.
Therefore, in this embodiment, the subject can be encouraged to exercise after meals, which is the most preferable time zone, and the subject's efficient exercise can be promoted.

By the way, as described above, the activity meter 10 according to the present embodiment refers to the “gender medium strength METs range information 33a” in FIG. The “range of strength METs value” is uniquely determined and stored in the “subject gender medium strength METs range information storage unit 34” of FIG.
However, the optimal “medium intensity METs value range” of the subject may be different even at the same age or the like.
Therefore, in this embodiment, the “medium strength METs value range” once determined and stored in the “subject gender medium strength METs range information storage unit 34” in FIG. 4 is modified to more closely match the subject. And the like.

FIG. 17 and FIG. 18 are schematic flowcharts showing the correction process of “subject gender medium strength METs range information”.
Hereinafter, the process will be described with reference to the flowcharts of FIGS. 17 and 18.
First, in ST21, the “information accumulation judgment processing unit (program) 83” in FIG. 7 operates, and the “medium strength METs cumulative time storage unit 39”, “cumulative step count information storage unit 42”, and “cumulative calorie consumption” in FIG. Referring to the value storage unit 41 ”, it is determined whether or not data has been accumulated for a certain period (for example, one week).

  If it is determined in ST41 that each data has been accumulated for a certain period, the process proceeds to ST42. In ST42, the “average value information calculation processing unit (program) 92” of FIG. 7 operates, and the “medium intensity METs cumulative time storage unit 39”, “cumulative step count information storage unit 42”, and “cumulative consumption calorie value storage unit 41”. The average value per day of the data for a certain period of time, for example, for one week, is calculated as “medium intensity METs average time information”, “step number average information” and “calorie consumption value average information”, respectively. , And stored in the “average value information storage unit 51” in FIG.

  Next, the process proceeds to ST43. In ST43, the “standard information comparison / change processing unit (program) 93” in FIG. 9 operates, and “medium intensity METs average time information”, “step number average information”, and “step number average information” in the “average value information storage unit 51” in FIG. The “calorie consumption value average information” is compared with the information in the “standard average value information storage unit 52” in FIG.

  In the “standard average value information storage unit 52” in FIG. 5, standard numerical values for each rank (“65 years old or older, less than BMI 25”, etc.) of the “sex middle strength METs range information 33a” in FIG. That is, in the rank, “standard medium intensity METs average time information”, “standard step count average information”, and “standard calorie consumption average information” which are values assumed in advance are stored.

  Therefore, in ST43, these “standard medium strength METs average time information”, “standard step count average information” and “standard calorie consumption value average information”, and “medium strength METs average of“ average value information storage unit 51 ”in FIG. The “time information”, “step number average information”, and “calorie consumption value average information” are compared, and it is determined whether or not the numerical value of the target person approximates the value assumed in advance.

  Specifically, for example, when the current rank of the subject person in FIG. 12 is “65 years old or older and less than BMI 25”, the “average strength METs average” in the “average value information storage unit 51” in FIG. "Time information", "Step count average information" and "Calories consumed average information" are referred to as "Standard medium strength METs average time information", "Standard steps average information" and "Standard calories consumed average information" corresponding to the rank. Compare.

  Then, the process proceeds to ST44. In ST44, “medium intensity METs average time information”, “step number average information” and “calorie consumption value average information” correspond to the “standard medium intensity METs average time information”, “standard step number average information” and “ It is determined whether or not the standard calorie consumption value average information exceeds a certain value (departure or not).

And when exceeding, it progresses to ST45. In ST44, when each data of the subject exceeds a certain level from the standard, it is estimated that the subject has better physical strength than the standard. Therefore, in ST45, the following processing is performed.
That is, the “numerical range of medium strength METs” stored in the “subject gender medium strength METs range information storage unit 34” of FIG. 4 is changed to “gender medium strength METs range information 33a” of FIG. Refer to the above and change to “1 rank” younger side.

In the above example, the current rank is “65 years old or older and less than BMI 25”, and “the numerical range of the medium strength METs” is “3 to 6 METs”. Therefore, this rank is changed to one rank younger side, that is, a rank of “45 years old or older and under 65 years old”, and “4-7 METs”, which is the “numerical range of medium strength METs” defined in the rank, is a new numerical value. The range is stored in the “subject gender medium strength METs range information storage unit 34” in FIG.
As a result, the “numerical range of the medium strength METs” of the subject becomes more appropriate, and it is possible to carry out correspondence according to the characteristics of the individual subject more than the unambiguous judgment based on the criteria such as age.

  On the other hand, if it is not determined in ST44 that each data of the subject exceeds a certain level from the standard, the process proceeds to ST46. In ST46, “medium intensity METs average time information”, “step number average information” and “calorie consumption value average information” correspond to the “standard medium intensity METs average time information”, “standard step number average information” and “ It is determined whether or not the standard calorie consumption value average information is below a certain level (departure or not).

And when it is below, it progresses to ST47. In ST47, when each data of the subject is below a certain level from the standard, it is estimated that the subject is inferior in physical strength or the like than the standard. Therefore, in ST47, the following processing is performed.
That is, the “numerical range of medium strength METs” stored in the “subject gender medium strength METs range information storage unit 34” of FIG. 4 is changed to “gender medium strength METs range information 33a” of FIG. Referring to, change to “1 rank” old age side.

In the above example, the current rank is “65 years old or older and less than BMI 25”, and “the numerical range of the medium strength METs” is “3 to 6 METs”. Therefore, this rank is changed to one rank old age side, that is, “65 years old or older, BMI 25 or higher” rank, and “2-5 METs”, which is the “numerical strength METs numerical range” defined in the rank, is a new numerical range. Is stored in the “subject gender medium strength METs range information storage unit 34” in FIG.
As a result, the “numerical range of the medium strength METs” of the subject becomes more appropriate, and it is possible to carry out correspondence according to the characteristics of the individual subject more than the unambiguous judgment based on the criteria such as age.

In the present embodiment, as shown in FIG. 1, the activity meter 10 includes a subject-side terminal 200 of the subject, or a medical staff such as a doctor in charge when the subject is diabetic, for example. It is configured to be able to communicate with the doctor side terminal 100.
Specifically, as described above, communication is performed between the “non-contact type IC card 18” of the activity meter 10 and the “doctor-side terminal reader / writer 103” or the “subject-side terminal reader / writer 203”. It has a possible configuration.

Therefore, in this Embodiment, the various information which the active mass meter 10 accumulate | stored can be transmitted not only to the subject side terminal 200 of the said subject but to the doctor side terminal 100 in charge.
In particular, when the subject is diabetic or the like, and is receiving guidance or the like from the doctor in charge about exercise etc., various information stored in the activity meter 10 of the subject person is stored in the doctor side terminal of the doctor in charge. By transmitting to 100, the doctor can quickly acquire detailed information, and can quickly and accurately determine the medical condition and the like.

FIG. 19 is a schematic flowchart showing a process of transmitting various kinds of information of the activity meter 10 to the doctor side terminal 100 and the subject side terminal 200.
Hereinafter, along with the flowchart of FIG. 19, a usage form of information of the activity meter 10 such as the doctor-side terminal 100 will be described.

For example, a description will be given using an example in which a subject with diabetes is instructed by a doctor in charge regarding exercise.
First, the subject who receives the guidance of the doctor in charge brings the active mass meter 10 already used on the examination day of the doctor in charge, and as shown in FIG. 100 “doctor side terminal reader / writer 103”.
Then, communication is started between both sides, and the process proceeds to ST51 in FIG. In ST51, the activity meter 10 determines whether or not there is an information transmission request from the connected doctor-side terminal 100. If there is a request, the activity meter 10 proceeds to ST52.

  In ST52, the “one hour unit information generation processing unit (program) 91” of FIG. 8 operates, and “medium intensity METs cumulative time storage unit 39”, “cumulative step count information storage unit 42”, and “cumulative consumption calorie value storage unit”. 41 "is referred to, and for each," hourly medium strength METs cumulative time information "," hourly cumulative step count information "and" hourly cumulative calorie consumption information "are hourly data. And is stored in the “one hour unit information storage unit 53” of FIG.

  Next, the process proceeds to ST53. In ST53, the activity meter 10 determines that “1 hour unit (predetermined time unit) medium intensity METs accumulated time information”, “1 unit of time (predetermined time unit) information storage unit 53” in FIG. "Time unit (predetermined time unit) accumulated step count information" and "1 hour (predetermined time unit) unit accumulated calorie value information" are transmitted to the doctor terminal 100.

Next, in ST54, the “1-hour unit (predetermined time unit) medium strength METs accumulated time information” received from the activity meter 10 is displayed on the doctor-side terminal display 101 of FIG.
FIG. 20 is a schematic diagram illustrating a screen example such as “1 hour unit medium strength METs accumulated time information” received from the activity meter 10.
As shown in FIG. 20, “Medium strength METs time”, “Steps”, and “Calories consumed” are displayed on the doctor side terminal display 103 in units of one hour. Can be grasped accurately.
That is, the subject doctor in charge can grasp whether the subject has performed “exercise of medium-strength METs” at what time and with how many steps, and the subject's exercise quickly The state can be grasped.

  Moreover, this screen example can be similarly displayed on the subject side terminal display 201 of the subject side terminal 200 of FIG. That is, the target person transmits the data of the activity meter 10 to the target person side terminal 200 at home at night and displays the contents on the target side terminal display 201 as shown in FIG. It is possible to easily and quickly grasp the state of exercise.

  In the present embodiment, the “one hour unit” information is generated on the activity meter 10 side and transmitted to the doctor terminal 100 or the like. However, the present invention is not limited to this. The configuration may be such that the meter 10 transmits to the doctor-side terminal 100 or the like, and then the doctor-side terminal 100 or the like generates these pieces of information as “one hour unit” information.

  Further, in the present invention, the doctor-side terminal 100 is provided with a “subject person medium-strength METs range information change processing unit (program) (not shown)”, and the change signal is sent from the doctor-side terminal 100 by operating this. It is transmitted to the activity meter 10, and the range of the value of the medium strength METs in the “subject gender medium strength METs range information storage unit 34” in FIG. 4 can be changed.

  Therefore, when the doctor or the like who visually recognizes the data in FIG. 20 determines that it is necessary to change the “range value of the medium strength METs” of the subject who is the patient based on the symptom or the like, FIG. By operating the doctor side terminal input device 102 and transmitting a change signal to the activity meter 10, it can be changed to an appropriate “range value of medium strength METs” as instructed by the doctor. .

  DESCRIPTION OF SYMBOLS 1 ... Activity amount measuring system, 10 ... Activity meter, 11 ... Activity meter side display, 12 ... Time display, 13 ... Mets etc. display, 14 ... Flame display, 15 ... Achievement gauge, 16 ... Change setting button, 17 ... Recall memory button, 18 ... Non-contact IC card, 19 ... Activity meter controller, 20 ... Time measuring device, 21 ... Step counting device, 22 ... Average acceleration data generating device, 22a ... X-axis acceleration sensor, 22b ... Y-axis acceleration sensor, 22c ... Z-axis acceleration sensor, 30 ... first Various information storage units, 31 ... subject input information storage unit, 32 ... subject BMI information storage unit, 33 ... information storage unit such as gender medium strength METs range, 33a ... gender medium strength METs Range information 34 ..Target subject sex medium strength METs range information storage unit, 35... Step count corresponding medium strength METs range time information storage unit, 36... Target subject medium strength METs time information storage unit, 37. Storage unit, 38... METs value information storage unit every 2 minutes, 39... Medium strength METs cumulative time storage unit, 40... Consumption calorie expression storage unit, 41. ... Accumulated step count information storage unit, 43 ... Non-medium strength METs cumulative time storage unit, 44 ... Non-medium strength METs reference cumulative time storage unit, 50 ... Second various information storage units, 51 ..Average value information storage unit, 52... Standard average value information storage unit, 53... 1 hour unit information storage unit, 70... Third various information storage unit, 71. Generation processing unit (program), 72... Person gender medium strength METs range etc. information generation processing unit (program), 73... Target medium strength METs time information specifying processing unit (program), 74... Every 2 minutes METs information generation processing unit (program), 75 ... Medium strength METs range determination processing unit (program), 76 ... Calculated calorie value calculation processing unit (program), 80 ... fourth various information storage unit, 81 ... achievement gauge display information generation display Processing unit (program), 82... Achievement gauge determination processing unit (program), 83... Information accumulation determination processing unit (program), 84... Non-medium strength METs accumulated time determination processing unit (program), 85 ... Activity meter levelness determination processing unit (program), 86 ... Meal end time arrival determination processing unit (program), 87 ... Meal end information input presence determination processing unit ( Program), 90... Fifth various information storage unit, 91... 1 hour unit information generation processing unit (program), 92... Average value information calculation processing unit (program), 93. Comparative change processing unit (program), 100 ... doctor side terminal, 101 ... doctor side terminal display, 102 ... doctor side terminal input device, 103 ... doctor side terminal reader / writer, 200 ... Target person side terminal, 201 ... Target person side terminal display, 202 ... Target person side terminal input device, 203 ... Target person side terminal reader / writer

Claims (5)

It has an acceleration information detector that detects the amount of exercise information of the subject as acceleration information,
It is configured to store target momentum degree information that is target degree information of the momentum degree information that is degree information of the momentum information, and target exercise amount execution time information that is execution target time information of this target momentum degree information,
At least the target exercise amount degree information has attribute-specific target exercise amount degree information that differs depending on the attributes of the subject,
Based on the input attributes of the subject, the target specific amount of exercise information for the subject is determined,
Determining whether or not the exercise amount information corresponding to the exercise amount information executed by the subject corresponds to the attribute-specific target exercise amount information;
When not applicable, the execution time of the exercise amount information not corresponding to the attribute-specific target exercise amount degree information is accumulated and stored as non-target exercise amount execution time information,
When the accumulated time of the non-target exercise amount execution time information reaches a reference time, the exercise amount measuring device displays on the display unit that the exercise amount information has not reached the attribute-specific target exercise amount information. . A meal-related time information storage unit that stores meal-related time information of the subject;
A meal-related time information arrival / absence determination unit that determines whether or not the meal-related time information has arrived, and
The exercise amount measuring apparatus according to claim 1, wherein when the meal-related time information arrives, exercise start information is displayed on the display unit.   The said exercise | movement start information is displayed on the said display part on the condition that the input of the meal execution information was received from the said subject when the said meal related time information arrived, The said display part is characterized by the above-mentioned. Momentum measuring device.   When the momentum degree information corresponding to the momentum information executed by the subject corresponds to the attribute-specific target momentum degree information, and the acceleration information detection unit detects a horizontal state of the momentum measuring device. 4. The exercise amount measuring apparatus according to claim 1, wherein the corresponding signal display unit is in a display state. It has an acceleration information detector that detects the amount of exercise information of the subject as acceleration information,
It is configured to store target momentum degree information that is target degree information of the momentum degree information that is degree information of the momentum information, and target exercise amount execution time information that is execution target time information of this target momentum degree information,
At least the target exercise amount degree information has attribute-specific target exercise amount degree information that differs depending on the attributes of the subject,
Based on the input attributes of the subject, the target specific amount of exercise information for the subject is determined,
Determining whether or not the exercise amount information corresponding to the exercise amount information executed by the subject corresponds to the attribute-specific target exercise amount information;
When not applicable, the execution time of the exercise amount information not corresponding to the attribute-specific target exercise amount degree information is accumulated and stored as non-target exercise amount execution time information,
When the accumulated time of the non-target exercise amount execution time information reaches a reference time, the exercise amount measurement method is characterized in that the display unit displays that the exercise amount information has not reached the attribute-specific target exercise amount information. .

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