JP6794485B2 - Warning output device, warning output method, and warning output program - Google Patents

Description

The present invention relates to a warning output device , a warning output method, and a warning output program, and more specifically, to a warning output device , a warning output method, and a warning output program that output a warning prompting the user to stand up.

Conventionally, as a device for measuring and displaying the amount of activity of a user, for example, the momentum measuring device of Patent Document 1 is known. This momentum measuring device is equipped with an acceleration sensor, and the user is in any of "sleeping", "sitting", "standing", "walking", and "running" based on the signal obtained from the acceleration sensor. After determining whether or not the energy consumption is determined, the energy consumption is calculated based on the determined state.

Japanese Unexamined Patent Publication No. 8-131425

The conventional device is provided as a dedicated device whose main function is to measure the amount of activity. However, such a dedicated device is troublesome to wear and carry for a user who has a weak desire to measure his / her own activity amount, which hinders the use.

On the other hand, mobile phones in recent years have evolved into multifunctional mobile terminals called smartphones. The telephone function is only one function provided in the smartphone, and various functions can be executed by running an arbitrary program on the smartphone in addition to the telephone function.

In recent years, smartphones are often equipped with sensing devices such as acceleration sensors and gyro sensors, which can be used to use smartphones as activity measuring devices. In this form, it is not necessary to wear a dedicated device separately only by installing the program, so that it can be disseminated to users who find it troublesome to carry the above-mentioned dedicated device.

The present invention is a warning output that outputs a warning prompting the user to stand up when the user continues to be in the sitting position based on the posture of the user determined by using the above-mentioned smartphone, a conventional activity measuring device, or the like. Its purpose is to provide a device , a warning output method, and a warning output program.

The warning output device according to the present invention, which is made for the purpose of solving the above-mentioned problems, is mounted on a mobile terminal, and when a user who works in a sitting position or a standing position continues the work in the sitting position for a predetermined time or longer. a warning output unit that outputs a warning to prompt the standing of the user, and posture estimation unit that estimates a posture of the user, based on the attitude, which is estimated by the posture estimating unit, of the user in a predetermined period A measuring unit that measures the amount of activity or calories burned and the cumulative time of the user standing in the predetermined period, a state related to the amount of activity or calories burned by the user in the predetermined period, and the state in the predetermined period. a display unit for displaying a cumulative time of operations of standing of the user, wherein when said locus state with respect to the user's posture is estimated to continue the predetermined time or more, the warning said display unit It is provided with a warning output unit that outputs to.

In the warning output method according to the present invention, which has been made for the purpose of solving the above-mentioned problems, a user who works in a sitting position or a standing position using a mobile terminal provided with a display unit performs the work in the sitting position for a predetermined time or more. It is a warning output method that outputs a warning prompting the user to stand up when the user continues, and in a predetermined period based on the posture estimation step for estimating the posture of the user and the posture estimated by the posture estimation step . A measurement step for measuring the amount of activity or calories burned by the user and the cumulative time of the user standing in the predetermined period , and a state relating to the amount of activity or calories burned by the user during the predetermined period . a display step of displaying the, and cumulative time of standing of the user in the predetermined time period on the display unit, the posture determination step by the locus with respect to the posture of the user state is estimated to continue the predetermined time or longer If that is, and a warning output step of outputting the warning on the display unit.

The warning output program according to the present invention, which is made for the purpose of solving the above-mentioned problems, is
A warning output program that outputs a warning prompting the user to stand up when a user who works in a sitting or standing position continues the work in the sitting position for a predetermined time or longer on a mobile terminal provided with a display unit. user to estimate whether the posture of the sitting position, based on the attitude to be estimated, and the user of the activity or calorie expenditure during a predetermined period, the standing of the cumulative time of the user in the predetermined time period If the measures, the status related activity amount or calorie consumption of the user in a predetermined period, and a cumulative time of standing of the user in the predetermined time period is displayed on the display unit, the user If the state of the locus is estimated to continue the predetermined time or more with respect to posture, to output the warning on the display unit.

According to the present invention, it is possible to output a warning prompting the user to stand up when the user continues the sitting posture based on the posture of the user.

It is a figure which shows the screen transition in an example of the Embodiment of this invention. It is a figure which shows the structure of the setting screen in the same embodiment. It is a figure which shows the structure of the target calorie screen in the same embodiment. It is a figure which shows the structure of the activity amount screen in the same embodiment, (a) is the structure in the case of working hours, (b) is the structure in the case of not working hours. It is a figure which shows the structure of the calorie graph screen in the same embodiment. It is a figure which shows the structure of the performance level screen in the same embodiment. It is a figure which shows the structure of the grade screen in the same embodiment. It is a figure which shows the structure of the menu screen in the same embodiment. In the same embodiment, it is a conceptual diagram which shows the flow of the process of measuring the inclination and acceleration of a smartphone and discriminating the posture. It is a conceptual diagram which shows the detailed flow of the posture discrimination process in FIG. It is a figure which shows the result of having measured the change of the activity of the sympathetic nerve when the sitting position and the standing position were continued.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the present specification and Kakuzu, the same elements as those described above with respect to the above-mentioned figures are designated by the same reference numerals, and detailed description thereof will be omitted as appropriate.

Both the posture determination method and the activity amount measurement method according to the present invention can be provided as a program for causing a smartphone to execute the method. In the present invention, the smartphone is a mobile terminal on which a program can be installed and executed, and does not necessarily have a function as a telephone.

FIG. 1 is a diagram showing screen transitions of a program according to an embodiment of the present invention.
As shown in FIG. 1, the program according to the embodiment of the present invention is composed of a start screen W11, a setting screen W21, W22, an activity amount screen W31, a calorie graph screen W41, a performance level screen W51, and a grade screen W61. There is.

The startup screen W101 is a screen that is first displayed on the smartphone when the program according to the present embodiment is started.
The start-up screen W101 in the present embodiment is a so-called splash screen that transitions to the next screen after a predetermined process or a certain period of time without receiving input from the user.
When the startup screen W101 is displayed on the screen, the program according to the present embodiment performs initialization processing of the program and then transitions to the setting screen W201 or the activity amount display screen W301.

The setting screen W201 is a screen for the user to make necessary settings for using the program according to the present embodiment. When the above-mentioned startup screen W101 is displayed, for example, at the time of initial startup, if necessary settings have not been completed, the screen transitions to the main setting screen W201.

As shown in FIGS. 2A and 2B, the setting screen W201 includes a weight setting form 210, a careful setting form 220, an age setting form 230, a gender setting form 240, a job type setting form 250, and a working time setting. It is composed of a form 260, a work day setting form 270, and a setting completion button 280.

The weight setting form 210 is a form for setting the weight of the user, and includes a label 211 indicating a setting target, an input form 212 indicating the current setting value, a decrease button 213 for reducing the value of the input form 212, and an input form. It consists of an increase button 214 that increases the value of 212.

When the user presses the decrease button 213 or the increase button 214, the value of the input form 212 increases or decreases based on the pressed button. The user operates this to set his / her own weight on the weight setting form 210. The set weight is recorded in the program according to the present embodiment when the setting completion button 280 described later is pressed.

The height setting form 220 is a form for setting the height of the user, and includes a label 221 indicating a setting target, an input form 222 indicating the current setting value, a decrease button 223 for reducing the value of the input form 222, and an input form. It consists of an increase button 224 that increases the value of 222.

When the user presses the decrease button 223 or the increase button 224, the value of the input form 222 increases or decreases based on the pressed button. The user operates this to set his / her height on the height setting form 220. The set height is recorded in the program according to the present embodiment when the setting completion button 280 described later is pressed.

The age setting form 230 is a form for setting the height of the user, and includes a label 231 indicating a setting target, an input form 232 indicating the current setting value, a decrease button 233 for reducing the value of the input form 232, and an input form. It consists of an increase button 234 that increases the value of 232.

When the user presses the decrease button 233 or the increase button 234, the value of the input form 232 increases or decreases based on the pressed button. The user operates this to set his / her age on the age setting form 230. The set age is recorded in the program according to the present embodiment when the setting completion button 280 described later is pressed.

The gender setting form 240 is a form for setting the gender of the user, and specifically, it is composed of a label 241 indicating a setting target, a male button 242, and a female button 243.

The male button 242 and the female button 243 are buttons for setting the gender, and when the user presses the button 242 or 243 corresponding to his / her gender, the pressed button 242 or 243 is highlighted (not shown). .. When the setting completion button 280, which will be described later, is pressed in this state, the set gender is recorded in the program according to the present embodiment.

The job type setting form 250 is a form for setting the job type of the user, and is composed of a label 251 indicating a setting target and an input form 252 indicating the current setting value.

The currently selected job type is displayed on the input form 252, and when the input form 252 is pressed, the job type list dialog 253 shown in FIG. 2C is displayed. When the user's job type is selected from the job type list dialog 253 and the setting completion button 280 described later is pressed, the set job type is recorded in the program according to the present embodiment.

The working time setting form 260 is a form for setting the working hours of the user, and includes a label 261 indicating the setting target, a time axis 262 extending in the horizontal direction of the screen, and a start time label 263 displaying the set value of the start time. , The end time label 264 for displaying the set value of the end time, the start time slider 265 for setting the start time, and the end time slider 266 for setting the end time.

The start time slider 265 and the end time slider 266 can be moved by the user along the time axis 262, thereby setting the working hours of the user. The set start time and end time are displayed on the start time label 263 and the end time label 264, respectively, and the set value is recorded in the program according to the present embodiment by pressing the setting completion button 280 described later.

The work day setting form 270 is a form for setting the work day of the user, and is composed of a label 271 indicating a setting target and day buttons 272 to 278 corresponding to Sunday to Saturday arranged in the horizontal direction of the screen.

When the user presses the day of the week buttons 272 to 278 corresponding to his / her working day, the pressed button is inverted. When the setting completion button 280, which will be described later, is pressed, the set working day is recorded in the program according to the present embodiment.

The setting completion button 280 is a button for confirming the set value. When the user presses the setting completion button 280, the set values of the weight setting form 210 to the working day setting form 270 are recorded in the program according to the present embodiment, and the next screen, the target calorie screen W22, is displayed.

The target calorie screen W22 is a screen that displays the daily target calorie consumption calculated based on the set value input on the setting screen W21, and as shown in FIG. 3, the target calorie screen W22 starts with the target calorie 291. It consists of button 292.

The target calorie 291 is a target value of calories burned during the working day of the user, which is calculated based on the setting contents of the setting screen W21.

When the start button 292 is pressed, the program according to the present embodiment transitions to the activity amount screen W31. If the setting has already been completed, such as starting the second time or later, the start screen W11 automatically transitions to the activity amount screen W31, and the setting screen W21 and the target calorie screen W22 do not transition.

The activity amount screen W31 is a screen that displays the current activity amount during the working hours of the user. As shown in FIG. 4A, the activity amount screen W31 is composed of a posture area 310, a total calorie consumption area 320, a cost area 330, a performance level area 340, a grade area 350, and a menu area 360.

The posture area 310 is an area for displaying the current posture of the user and the amount of activity in the posture, and the posture icon 311, the posture name 312, the activity level 313, and the activity level icon 314 are displayed.

The posture icon 311 is an image in which the user's current posture is divided into three types of standing, sitting, and walking, and the name of the corresponding posture is displayed in the posture name 312.

The activity amount level 313 displays the activity amount in each posture of the user consisting of standing, sitting, and walking. In this embodiment, Metabolic EquiValents (hereinafter referred to as METS) is used as a unit indicating the amount of activity in the posture region 313. Further, based on the activity amount level 313, the activity amount icon 314 indicating the magnitude of the activity amount in three stages is displayed.

The total calorie consumption area 320 is an area for displaying the total calorie consumption during the working hours of the user, and the total calorie consumption 321 and the label 322 are displayed. In the present embodiment, the working time is the time from the working start time to the working end time set from the working time setting form on the above-mentioned setting screen W21. The total calorie consumption displayed is in kilocalorie units.

When the user selects the total calorie consumption area 320 by tapping or the like, the program according to the present embodiment transitions to the calorie graph screen W41.

The Cost area 330 is an area for displaying the continuous sitting time of the user (Continuous Sitting Time, hereinafter referred to as CoST), and the Cost 331, the label 332, and the warning icon 333 are displayed. The warning icon 333 is displayed when the user's CoST exceeds a predetermined set value.

The performance area 340 is an area in which work efficiency is estimated based on the posture of the user and the time during which the posture is continuously taken, and displayed as a performance level. In the performance area 340, an icon 341 indicating the work efficiency of the user as four performance levels of stages I to IV and a label 342 are displayed.

When the user selects the performance area 340 by tapping or the like, the program according to the present embodiment transitions to the performance level screen W51.

The grade area 350 is an area for displaying the degree of achievement of the user's goal as a grade, and an icon 351 and a label 352 indicating the degree of achievement of the goal as four grades of White, Bronze, Silver, and Gold are displayed.

When the user selects the grade area 350 by tapping or the like, the program according to the present embodiment transitions to the grade screen W61.

The menu area 360 is an area for transitioning to the menu screen W71 for setting the program according to the present embodiment, and the icon 361 and the label 362 are displayed.

When the user selects the menu area 360 by tapping or the like, the program according to the present embodiment transitions to the menu screen W71.

The activity amount screen corresponds to the working day set by the user on the setting screen W21, and when it is within the working hours, the posture area 310, the total calorie consumption area 320, and the cost area 330 are as shown in FIG. 4A. , Performance level area 340 and grade area 350 display the cumulative measured values at present or during working hours. On the other hand, when it does not correspond to a working day or when it is outside working hours, as shown in FIG. 4B, measurement is performed in each area of total calorie consumption area 320, CoST area 330, performance level area 340, and grade area 350. The value is not displayed, and the posture area 310 is displayed to the effect that the program is not operating.

In the present embodiment, the tilt and acceleration of the smartphone are periodically acquired by using the gyro sensor and the acceleration sensor of the smartphone, and the user walks using the acquired tilt and acceleration samples every time the sample becomes a certain amount. Judge whether the posture is standing or sitting.
FIG. 9 is a schematic view showing the above processing flow.

As shown in FIG. 9, the present embodiment repeats the process of measuring the inclination and the acceleration using the gyro sensor and the acceleration sensor at predetermined time intervals (steps S110 to S710). In this embodiment, the predetermined time is 200 milliseconds. In addition, the gyro sensor and acceleration sensor used are those provided by the smartphone.

When the number of times of measured inclination and acceleration satisfies a certain number (S210), the present embodiment executes a process of determining the posture of the user using the number of times of measured inclination and acceleration (S220). In this embodiment, the fixed number is set to 32.

If the posture of the user cannot be determined in step S220, the process of steps 410 to S620, which will be described later, is not performed, and the process of steps S110 to S710 is performed again after step S710 (step S310). In this way, in the present embodiment, the measurement-discrimination process is repeated until the posture of the user can be discriminated.

On the other hand, when it is determined that the posture of the user is walking, standing, or sitting, the processes of steps S410 to S620 are performed.

In this case, it is determined whether or not the task is executed as a foreground task of the smartphone (step S410), and in the case of the foreground task, the posture determined in step S220 is the immediately preceding determination result, that is, the step in the process of the previous steps S110 to S710. It is compared whether or not it is the same as the determination result of S220 (step S420). If the result is not the same as the previous determination result, the subsequent steps S510 to S620 are not performed, and the process of the next steps S110 to S710 is repeated through step S710 (step S420). In this embodiment, the comparison in step S420 is performed only when the determination result in S220 is standing or sitting. That is, in the determination of the standing position or the sitting position in the present embodiment, when the posture is executed as the foreground task of the smartphone, the posture of the user is determined when it can be determined that the posture is the same two or more times in a row. Confirmed as.

When the posture is confirmed, or when it is not a foreground task, that is, when it is executed as a background task, it is determined whether or not the time point is within the working hours of the user, and if it is outside the working hours, step S110. The processing of ~ S710 is completed (steps S510 and S520).

Next, when the present embodiment is executed as a background task of the smartphone, the program is stopped for a predetermined period (steps S610 and S620), and the process of the next steps S110 to S710 is repeated through step S710.

FIG. 10 is a conceptual diagram showing a detailed processing flow of step S220 in FIG. As shown in FIG. 10, in step S220, it is determined whether or not the user holds the smartphone, that is, holds it in his / her hand, from the inclination of the smartphone measured in step S110 (step S810).

Next, in step S820, the sum and variance of the horizontal acceleration and the sum and variance of the gravity direction acceleration are obtained by calculation from the acceleration measured in step S110, respectively. Depending on the value of the acceleration sensor used in the calculation, the above calculation may be subjected to various processing. For example, when using an acceleration sensor that acquires a negative value as the measured acceleration value, when calculating the sum, first obtain the absolute value of the acceleration sensor value, and then calculate the sum of the absolute values. You may ask. In the present embodiment, since the posture is determined every 32 times of measurement in step S110 as described above, in step 820, the sum and variance are calculated from the measured values for the 32 times.

After acquiring the value to be determined in steps S810 and S820 described above, the processes of steps S831 to S891 for determining whether the user is in a walking, standing, or sitting posture are performed. Steps S831 to S891 include a first determination process (steps S831, S841), a second determination process (steps S841, S842), a third determination process (steps S861, S862), and a fourth determination process. It is composed of (steps S871 and S872) and a five-step determination process of the fifth determination process (steps S881 to S891).

The first determination process is a process of determining whether or not the user is walking from the sum of the horizontal acceleration and the gravitational acceleration. Specifically, when the sum of the horizontal acceleration and the sum of the gravitational acceleration both exceed a predetermined threshold value, it is determined to be a walking posture (steps S831 and S832). In this embodiment, 2 (unit is gravitational acceleration) is used as the threshold value.

If the first determination process described above does not determine walking, the second determination process determines whether or not the user is in a sitting posture. Specifically, the sitting posture is determined when both the dispersion of the horizontal acceleration and the dispersion of the gravity direction acceleration are less than a predetermined threshold value (steps S841 and S842). In this embodiment, 0.0000003 is used as the threshold value.

If the posture of the user cannot be determined by the above-mentioned first and second determination processes, the posture of the user cannot be determined depending on whether or not the horizontal acceleration is within a predetermined range in steps S851 and S852. Judge whether or not. In this embodiment, −0.1 to 0.1 (unit is gravitational acceleration) is used as the predetermined range, and if the acceleration measured in step S110 is outside the above range, it is determined that the posture cannot be determined. ..

If it is not determined that the determination is impossible in step S851 described above, it is determined by the third determination process whether or not the user is in the sitting posture. Specifically, when the sum of the horizontal acceleration and the sum of the gravitational acceleration are less than a predetermined threshold value, the user determines that the posture is in the sitting position. In this embodiment, 0.05 is used as the threshold value for horizontal acceleration and 0.28 is used as the threshold value for gravitational acceleration (both units are gravitational acceleration).

If the posture of the user cannot be determined by the third determination process described above, it is determined by the fourth determination process whether or not the user is in a standing posture (steps S871 and S872). In steps S871 and S872, in addition to the sum of the horizontal and gravitational accelerations, the determination result of step S810, that is, whether or not the user is holding the smartphone is used to determine whether or not to stand. .. In the present embodiment, the total horizontal acceleration exceeds the threshold value of 0.08 (unit is gravitational acceleration), and the total sum of gravitational acceleration is less than the threshold value of 0.2 (unit is gravitational acceleration). If there is, and the user is not holding the smartphone, it is determined to be standing.

If the posture of the user cannot be determined by the fourth determination process described above, the present embodiment determines the posture of the user by the fifth determination process (steps S881 to S891). The fifth determination process branches depending on the determination result in step S810 described above, that is, whether or not the user holds the smartphone (step S881).

The determination process when the user is holding the smartphone is steps S882 to S888. When the user is holding the smartphone, it is first determined whether or not the previous determination result is walking (S882). When the previous determination result is walking, it is determined that the user is in the sitting posture (S883).

On the other hand, when the previous determination result is not walking, the sum of the horizontal acceleration and the sum of the gravity acceleration is compared with a predetermined threshold value to determine whether or not the user is in the sitting position (step S884). , S885). In the present embodiment, the sum of horizontal acceleration is less than the threshold value of 0.2 (unit is gravitational acceleration), and the sum of gravity direction acceleration is the threshold value of 0.22 (unit is gravitational acceleration). ), It is judged that the user is in the sitting position.

If the sitting position cannot be determined in step S884 described above, the total horizontal acceleration and the total gravitational acceleration are compared with a predetermined threshold value to determine whether or not the user is in a standing position. (Steps S886 to S888). In the present embodiment, the total horizontal acceleration is larger than the threshold value of 0.16 (unit is gravitational acceleration), and the total sum of gravitational acceleration is 0.26 (unit is gravitational acceleration). If it is less than, it is judged to be standing, and if it cannot be judged to be standing, it is judged to be undecidable.

If the user is not holding the smartphone, the posture of the user is determined by the processes of steps S889 to S891. In this case, if this embodiment is executed as a foreground task of a smartphone, it is determined that the posture determined last time is continued, and if it is executed as a background task, it cannot be determined. Judge.

The above is the flow of the process for determining the posture of the user in this embodiment. In the present embodiment, the posture of the user is determined only by using the inclination measured by the gyro sensor and the acceleration measured by the acceleration sensor, but even if a value measured by another device is added to this. Good. In addition, the above-mentioned threshold value may be appropriately selected depending on the usage status of the smartphone, the behavior pattern of the user, and the like.

In the program according to the present embodiment, the amount of activity in each posture is measured as calories burned based on the set value input on the setting screen W21 and the posture determined by the above process. The measured calorie consumption is displayed in the posture area 310 as a value in METS units, and the cumulative value of calories burned during working hours is displayed in the total calorie consumption area 320 as a value in kilocalories.

In the present embodiment, the above-mentioned activity amount is measured only based on the posture, but in carrying out the present invention, complex activity amount measurement may be performed using information other than this. For example, a beacon device capable of wireless communication with a smartphone is placed in advance in a place where it is expected that the person is in a posture or exercise other than walking, standing, or sitting, such as a specific room or stairs. When the beacon device is detected, the activity amount may be measured based on the location of the beacon device. In this case, the beacon device is preferably a Bluetooth® device.

Further, in the program according to the present embodiment, the display of the CoST area 330 and the performance level area 340 changes based on the time during which one posture is continued. When the sitting posture is continued, the duration is displayed as CoST in the CoST area 330. At this time, if the duration exceeds a predetermined threshold value, the warning icon 333 is displayed. The time during which the sitting or standing position is continued is used for measuring the performance level described later.

The calorie graph screen W41 is a screen that displays the calorie consumption of the user during working hours in a graph format, and is a screen that transitions by tapping or the like from the activity amount screen W31 to the total calorie consumption area 320. As shown in FIG. 5, the calorie graph screen W41 is composed of a date area 410 and a graph area 420.

The date area 410 is an area for displaying which date the graph displayed in the graph area 420 is the measurement result of which date, and the date label 411, the previous day button 412, and the next day button 413 are displayed.

The date label 411 is a label indicating which date the measurement result of the graph displayed in the graph area 420 is. The graph displayed in the graph area 420 can be changed by pressing the previous day button 412 or the next day button 413.

The graph area 420 is a screen for displaying the measurement result of the day displayed in the date area 420, and is a calorie graph 421, a target value 422, a posture graph 423, a sitting icon 424, a sitting time 425, a standing icon 426, and a standing position. The time 427, the walking icon 428, and the walking time 429 are displayed.

The calorie graph 421 is a two-dimensional line graph in which the horizontal axis is working hours and the vertical axis is total calories burned. The program according to the present embodiment measures the posture of the user at regular time intervals and the calories burned based on the posture, and displays the measurement result on the day displayed in the date area 420 as a two-dimensional graph. When displaying the measurement result of the day, the calorie graph 421 displays the cumulative value at the time of display as shown in FIG. In addition, the total calories burned are displayed in kilocalories at the top of the line graph.

The target value 422 is the target calorie in the working hours of the day calculated based on the set value of the user input on the setting screen W21, and the value displayed on the target calorie 291 of the target calorie screen W22 is the calorie graph 421. It is the one displayed above.

Further, in the program according to the present embodiment, the range of calories burned displayed on the calorie graph 421 is set so that the target calorie 422 is at the position of 7/8 on the vertical axis. The display range of the calorie graph 421 is not limited to this, and may be set as appropriate.

The posture graph 423 displays in a bar graph format which posture was used in which time zone on the horizontal axis of the calorie graph 421, that is, during the working hours of the user. In the posture graph 423, the posture of the user consisting of standing, sitting, and walking is color-coded, and the start time to the end time of each posture is the same color as the sitting icon 424, standing icon 426, and walking icon 428, which will be described later. Display separately.

The sitting icon 424 and the sitting time 425 display the cumulative total of time that the user has been determined to be in the sitting posture during working hours, and the standing icon 426 and the standing time 427, the walking icon 428, and the walking time 249. Similarly, the cumulative total of time determined to be a standing or walking posture is displayed.

The performance level screen W51 is a screen that displays the standing or sitting posture of the user and the work efficiency measured based on the continuous time in four stages of stages I to IV. As shown in FIG. 6, the performance level screen W51 is composed of a stage icon 510, a performance level description 520, a graph area 530, and a stage description 540.

The stage icon 510 displays the work efficiency of the user as a performance level consisting of four stages I to IV, and the performance level description 520 displays a sentence explaining the performance level. is there.

The graph area 530 is an area for displaying a two-dimensional graph in which the horizontal axis is time and the vertical axis is work efficiency, and is a sitting position graph 531 showing a change in work efficiency when work in a sitting position is continuously performed. , A standing graph 532 showing a change in work efficiency when the work in the standing position is continuously performed is displayed. Further, in the vertical axis of the graph area 530, that is, in the work efficiency, the range of 60% to 140% when the work efficiency when the work in each posture is started is approximately 100% is set to stages I to IV every 20%. Is set as, and a sentence for explaining the stages I to IV is displayed in the stage explanatory text 540.

FIG. 11 is a diagram showing the results of measuring changes in sympathetic nerve activity LF / HF depending on the duration of the posture when the person continues the standing or sitting posture. In FIG. 11, the LF / HF at the start of measurement in each of the standing and sitting postures is set to 100%.

As shown in FIG. 11, it was found that the LF / HF peaked 20 to 30 minutes after the start of measurement regardless of the standing or sitting posture, and then decreased with the lapse of time. .. Further, in the standing position, the rise of LF / HF itself becomes larger than that in the sitting position, while the LF / HF decreases rapidly after the peak, and in the sitting position, about 70 minutes from the start of measurement, 60 at the start of measurement. It was found that LF / HF decreased to about%, whereas in the sitting position, LF / HF decreased to about 60% in about 50 minutes from the start of measurement.

Focusing on the fact that the above-mentioned change in sympathetic nerve activity LF / HF is related to the change in human work efficiency, the sitting position displayed in the graph area 530 is the change in LF / HF replaced with the change in work efficiency. It is a graph 531 and a standing graph 532. In the graph area 530, when the work efficiency at the time when the work is started in the standing and sitting postures is 100%, 80% or less is stage I, 80% to 100% is stage II, and 100% to 120. It is divided into four performance levels, with% as stage III and 120% or more as stage VI.

The stage icon 510 displayed on the performance level screen W51 is the above-mentioned four-stage performance level, that is, the work efficiency based on the above-mentioned sympathetic nerve activity LF / HF.

The grade screen W61 is a screen that displays the degree of achievement of the user's target calorie consumption in four stages, and as shown in FIG. 7, grade areas 611 to display grades in four stages of White, Bronze, Silver, and Gold. It is composed of 614 and a result display 621 that displays the results of an arbitrary period.

The menu screen W71 is a screen for making various settings of the program according to the present embodiment. As shown in FIG. 8, the menu screen W71 is composed of a personal data item 710, a company registration item 720, a privacy policy item 730, and a help item 740.

In the program according to the present embodiment, when the setting is not completed, such as at the time of initial startup, the transition from the startup screen W11 to the setting screen W21, and when the setting is completed, the transition from the startup screen W11 to the activity amount screen W31. To do. Here, when the user wants to change the setting, tap the menu area 360 of the activity amount screen W31 and select it, and tap the personal data item 710 on the transition destination menu screen W71 to select the selection screen W21. Transition. The current setting value is displayed on each input form 210-270 on the transition destination selection screen W21, and the user can change this.

Although the description of the present embodiment has been described above, the embodiment of the present invention is not limited to this.
For example, in the program according to the present embodiment, weight, height, age, gender, occupation, working hours, and working days are used as setting items on the setting screen W21, but other items may be added. Further, although the posture area 310 of the activity amount screen W31 displays the activity amount of the user in METS units, this may be the same kilocalorie unit as the total calorie consumption area 320. The other specific configurations are not limited to the above-described embodiments, and various changes can be made without departing from the spirit of the present invention.

W11 Start screen W21 Setting screen W22 Target calorie screen W31 Activity amount screen W41 Calorie graph screen W51 Performance level screen W61 Grade screen W71 Menu screen 210 Weight setting form 220 Height setting form 230 Age setting form 240 Gender setting form 250 Job type setting form 260 Work Time setting form 270 Working day setting form 280 Setting complete button 291 Target calorie 292 Start button 310 Attitude area 320 Total calorie consumption area 330 Cost area 340 Performance level area 350 Grade area 360 Menu area 410 Date area 420 Graph area 510 Stage icon 520 Performance Level description 530 Graph area 540 Stage description 611-614 Grade area 621 Achievements

Claims (3)

A warning output device mounted on a mobile terminal that outputs a warning prompting the user to stand up when the user who works in the sitting or standing position continues the work in the sitting position for a predetermined time or longer .
Posture estimation unit that estimates the user's posture and
A measuring unit that measures the amount of activity or calories burned by the user in a predetermined period and the cumulative standing time of the user in the predetermined period based on the posture estimated by the posture estimating unit.
Status related activity amount or calorie consumption of the user in the predetermined time period, a display unit for displaying a cumulative time of operations of standing of the user in the predetermined time period,
Wherein when the locus of states with respect to the user's posture is estimated to continue the predetermined time or more, a warning output unit for outputting the warning on the display unit,
A warning output device equipped with. It is a warning output method that outputs a warning prompting the user to stand up when a user who works in a sitting position or a standing position continues the work in the sitting position for a predetermined time or longer by using a mobile terminal provided with a display unit. ,
Posture estimation step to estimate the user's posture and
A measurement step that measures the amount of activity or calories burned by the user in a predetermined period and the cumulative standing time of the user in the predetermined period based on the posture estimated by the posture estimation step.
Status related activity amount or calorie consumption of the user in the predetermined time period, a display step of displaying the, and cumulative time of standing of the user in the predetermined time period on the display unit,
When said posture determination step by the locus with respect to the posture of the user state is estimated to continue the predetermined time or more, a warning output step of outputting the warning on the display unit,
To prepare
Warning output method. A warning output program that outputs a warning prompting the user to stand up when a user who works in a sitting or standing position continues the work in the sitting position for a predetermined time or longer on a mobile terminal provided with a display unit.
Estimate whether the user is in a sitting position,
Based on the estimated posture and activity level or calorie consumption of the user in a predetermined period, and a cumulative time of standing of the user in the predetermined time period is measured,
The display unit displays the state of the user's activity amount or calorie consumption during the predetermined period and the cumulative time of the user's standing position during the predetermined period .
When said user of the seat position relative posture state is estimated to continue the predetermined time or more, a warning output program for outputting the warning on the display unit.