WO2010089827A1 - 体重管理装置、体重管理方法、および体重管理プログラム - Google Patents
体重管理装置、体重管理方法、および体重管理プログラム Download PDFInfo
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- WO2010089827A1 WO2010089827A1 PCT/JP2009/006453 JP2009006453W WO2010089827A1 WO 2010089827 A1 WO2010089827 A1 WO 2010089827A1 JP 2009006453 W JP2009006453 W JP 2009006453W WO 2010089827 A1 WO2010089827 A1 WO 2010089827A1
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- weight
- measurement value
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- weight measurement
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G19/00—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
- G01G19/44—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons
- G01G19/50—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons having additional measuring devices, e.g. for height
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/48—Other medical applications
- A61B5/4833—Assessment of subject's compliance to treatment
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G23/00—Auxiliary devices for weighing apparatus
- G01G23/18—Indicating devices, e.g. for remote indication; Recording devices; Scales, e.g. graduated
- G01G23/38—Recording and/or coding devices specially adapted for weighing apparatus
- G01G23/42—Recording and/or coding devices specially adapted for weighing apparatus electrically operated
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/05—Detecting, measuring or recording for diagnosis by means of electric currents or magnetic fields; Measuring using microwaves or radio waves
- A61B5/053—Measuring electrical impedance or conductance of a portion of the body
- A61B5/0537—Measuring body composition by impedance, e.g. tissue hydration or fat content
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/48—Other medical applications
- A61B5/4869—Determining body composition
Definitions
- the present invention relates to a weight management apparatus, a weight management method, and a weight management program for managing the weight of a user who fluctuates within a day, for example.
- the body weight is measured with a scale to check whether the weight is increasing or decreasing.
- the body weight increases from waking up to bedtime, and that there is a daily fluctuation that decreases from bedtime to waking up. For this reason, if the measurement time is different, there is a problem that it cannot be accurately determined whether the weight is increasing or decreasing due to the influence of daily fluctuation.
- This health condition determination device sets a reference value based on measurement values measured at approximately the same time among the weight values in a plurality of past days in which measurement of the weight value was performed a plurality of times within one day. The reference value is compared with the current value to determine whether or not there is a tendency to lose weight.
- each device can only grasp the past history and current situation, and it was not possible to set a short-term target based on the measurement result.
- JP 2005-218582 A Japanese Patent No. 3818488
- the present invention provides a weight management apparatus that allows a user to check a daily target indicating how much weight fluctuation during the day should be kept.
- the purpose is to be able to systematically manage fluctuations and improve user satisfaction.
- the present invention includes weight acquisition means for acquiring a weight measurement value of a user, standard daily fluctuation amount acquisition means for acquiring a standard daily fluctuation amount indicating a standard daily fluctuation of the user's weight, and the standard daily fluctuation amount. Based on the above, it becomes a target when measuring the sleeping side weight measurement value at the second timing on the sleeping side with respect to the rising side weight measurement value measured at the first timing on the rising side among the user's rising to sleeping time It is a weight management apparatus provided with the calculating means which calculates a daily target value.
- the weight acquisition means can be configured by an appropriate device that acquires weight, such as a load detection device such as a load detection unit having a load cell, or a communication device that receives weight measurement value data.
- a load detection device such as a load detection unit having a load cell
- a communication device that receives weight measurement value data.
- the standard daily fluctuation amount is a bedtime weight fluctuation amount based on a body weight fluctuation amount from a sleeping side weight measurement value to a wake-up weight measurement value, a daily fluctuation amount obtained from a basal metabolism amount, or a predetermined constant value, etc.
- the value can be set appropriately.
- the standard daily fluctuation amount obtaining means is a computing means for obtaining a weight fluctuation amount from night weight to morning weight for a plurality of days and calculating an average value of the plurality of weight fluctuation amounts, based on a user's physical information and impedance. It can be configured by an appropriate means such as a computing means for calculating metabolism and calculating a daily fluctuation amount, or an information processing means for reading a predetermined constant value from the storage unit.
- the first timing may be a timing within a time period in which a general person is likely to get up, and a predetermined time is added, and is preferably from the time of getting up to breakfast.
- the second timing may be a timing other than the first timing, or a timing measured within a time period in which a general person may go to bed and a predetermined time is added, preferably dinner. To bedtime.
- the daily target value is the target weight value at bedtime, or the target value of the difference between the weight at bedtime and the weight at bedtime, and how much the weight at bedtime relative to the weight at bedtime during the day It can be set as the value which can recognize whether it should be set as a measured value of.
- the weight management device is composed of a weight scale that measures body weight, a weight body composition meter that measures body weight and body composition, or an information processing device that acquires information from the weight scale or body composition meter. be able to.
- the information processing apparatus can be configured by a portable or desktop apparatus that performs information processing, such as a personal computer, a PDA (Personal Digital Assistant), or a mobile phone.
- This invention makes it possible for the user to confirm a daily target indicating how much weight fluctuation during the day should be kept. Therefore, the user can systematically manage the daily weight fluctuation.
- an output means for outputting the daily target value and the calculating means outputs the daily target value to the output means when the weight acquisition means acquires the wake-up weight measurement value. It can be.
- the output means may be constituted by means for outputting a daily target value, such as a display device that displays images such as letters, numbers, and figures, a light emitting device such as a light emitting LED or a lamp, or a communication device that transmits data. it can.
- a daily target value such as a display device that displays images such as letters, numbers, and figures, a light emitting device such as a light emitting LED or a lamp, or a communication device that transmits data.
- the daily target value can be output.
- the storage unit stores the wake-up side weight measurement value
- the calculation unit acquires the bedside weight measurement value by the weight acquisition unit, and the bedside weight measurement value and the daytime
- a configuration for executing a target achievement determination process for determining whether or not a daily target has been achieved based on the target value and the wake-up side weight measurement value, and outputting the determination result of the target achievement determination process to the output means; can do.
- the determination is in the direction of increasing weight, it is determined whether or not the target value has been increased. If the determination is in the direction of decreasing the weight, whether or not the target value has been decreased. If the determination is to determine the direction in which the body weight is maintained, it can be configured by a determination process relating to the achievement of the target, such as determining whether the target value is the same as or within a predetermined range from the target value.
- the determination result can be composed of an appropriate result such as a result of whether or not it has been achieved and a result of how much the achievement has been achieved. This aspect allows the user to clearly recognize whether or not the goal has been achieved.
- the calculation means includes the standard daily fluctuation based on a plurality of sleeping weight fluctuations that are a difference between a sleeping bed weight measurement value measured in the past for a plurality of days and a wakeup weight measurement value on the next day. It can be set as the structure which calculates quantity.
- the sleeping weight fluctuation amount can be calculated based on a plurality of sleeping weight fluctuation amounts such as an average value, a median value, or a mode value of the sleeping weight fluctuation amounts. This calculation can be performed using a predetermined number (for example, one week or two weeks) of sleeping weight fluctuation from the latest for every measurement, or using all sleeping weight fluctuations.
- the standard daily fluctuation amount can be calculated based on the actually measured weight fluctuation of the user.
- the quasi-day fluctuation amount is calculated using the weight fluctuation during sleeping, the standard daily fluctuation amount can be obtained without being influenced by this even if the body weight tends to increase or decrease.
- the weight fluctuation from the wake-up weight measurement to the bedtime weight measurement for the day is calculated, if the weight tends to increase, it is larger than the original daily fluctuation by the weight gain.
- the amount of change will be the amount of change within the standard day, this can be prevented by using a change in body weight during sleep that is not affected by an increase or decrease in weight.
- the apparatus further includes a basal metabolism obtaining unit that obtains a basal metabolism of the user based on physical information related to the user's body and the impedance of the user's body, The standard daily fluctuation amount can be calculated based on the basal metabolic rate.
- the basal metabolic rate acquisition means includes physical information acquisition means for acquiring physical information related to the user's body, impedance acquisition means for acquiring impedance of the user's body, and the use based on the physical information and impedance. It is possible to configure with an appropriate means such as a calculation means for calculating a person's basal metabolism or a communication means for receiving basal metabolism information.
- the physical information may be composed of the user's sex, age, and height, or these and weight.
- the physical information acquisition means can be composed of an operation input means for receiving an operation input by a user, a communication means for receiving physical information, a measurement means for measuring body weight, or a plurality of these.
- the impedance acquisition means can be configured by means for acquiring impedance, such as impedance detection means for detecting impedance by flowing current from the electrode to the user.
- the standard daily fluctuation amount can be calculated based on the basal metabolic rate. Therefore, even if the body weight tends to increase or decrease, the standard daily fluctuation amount can be obtained without being affected by this.
- the calculating means remeasures the weight within a predetermined time from the first timing at which the measurement of the wake-up side weight measurement value is performed, and the re-measured weight measurement value is the wake-up side.
- the wake-up weight measurement value update process for updating the wake-up weight measurement value to the re-measured weight measurement value can be executed.
- the predetermined time from the first timing can be set as appropriate, for example, 30 minutes or 1 hour. This predetermined time is preferably set to a time when the possibility of weight loss due to exercise is low.
- the wake-up side weight measurement value update process overwrites and updates the wake-up side weight measurement value already stored with the re-measured weight measurement value, or is re-measured with the wake-up side weight measurement value already stored.
- the final wake-up weight measurement value such as a process of storing both the measured weight measurement value and adding a flag or information indicating that it is a wake-up weight measurement value to the re-measured weight measurement value Can be configured to store the information so that it can be recognized.
- the weight decreased by the stool can be used as the wake-up weight measurement value. Therefore, the weight after the stool can be used as the wake-up weight measurement value, and the wake-up weight measurement value can be stabilized.
- renewable remeasurement is limited to a predetermined time, it is possible to reduce the possibility of remeasurement after losing weight by performing exercise or the like after the measurement.
- the calculating means uses the weight measurement value measured last within the predetermined time as the sleeping time. It can be set as the structure which performs the sleeping side weight measurement value determination process employ
- the predetermined time to be recognized as the bedtime weight measurement value can be appropriately determined such as a time outside the time range recognized as the wakeup side weight measurement value or a time that can be assumed after dinner.
- the predetermined time is preferably a time that does not overlap with the time range recognized as the wake-up weight measurement value.
- the bedside weight measurement value determination process is a process of overwriting and updating the bedside weight measurement value already stored on the remeasured weight measurement value, or is remeasured with the bedside weight measurement value already stored.
- the final bedside weight measurement value such as a process of storing both the measured weight values and adding a flag or information indicating that it is a bedside weight measurement value to the remeasured weight measurement value Can be configured to store the information so that it can be recognized.
- the final weight measurement value before going to bed can be set as the bedside weight measurement value. Therefore, the user can measure the body weight at any time without being conscious of being stored as the bedside weight measurement value, and can use without losing convenience.
- the calculation means calculates the daily target increase / decrease amount by dividing the long-term target increase / decrease amount, which is the target weight increase / decrease amount, by the target number of days until the target is achieved.
- the daily target value can be determined based on the increase / decrease amount and the standard daily fluctuation amount.
- the long-term target increase / decrease amount can be the increase / decrease amount input by the operation input means, or can be a predetermined increase / decrease amount.
- Input by the operation input means can be received by an appropriate method such as numerical input or selection input from a plurality of candidates.
- the target number of days can be the number of days input by the operation input means or a predetermined number of days.
- Input by the operation input means can be received by an appropriate method such as numerical input or selection input from a plurality of candidates.
- the user can set a long-term increase / decrease target and know how much the daily weight increase / decrease amount should be in order to achieve the long-term increase / decrease target. Therefore, for example, when dieting, weight can be managed by recognizing the achievement / non-achievement of the target on a daily basis, and the weight can be managed finely so that the long-term target can be achieved.
- the first timing may be from the user's getting up to before breakfast
- the second timing may be from after the user's dinner until before going to bed.
- an input device or a display device may be used to selectively input measurement before waking up and before breakfast, measurement after dinner and before going to bed.
- the present invention further includes weight acquisition means for acquiring a weight measurement value of a user, information processing means for performing information processing, and display means for displaying a screen, wherein the information processing means includes the weight acquisition means. If the acquired weight measurement value of the user is the wake-up weight measurement value measured at the first wake-up timing from the user's wake-up to bedtime, the wake-up weight display screen is displayed on the display means, If it is a bedside weight measurement value measured at the second timing on the side, a bedside weight display screen different from the wake-up side weight display screen may be displayed on the display means.
- the information processing means may be configured to execute a timing determination process for determining the measurement timing of the weight measurement value of the user.
- the timing determination process may be configured to determine one of the first timing and the second timing, or to determine whether the timing is the first timing, the second timing, or any other timing. it can.
- the wake-up-side weight display screen may include any one of the following (1) to (7).
- a graph (a line graph, a bar graph, etc.) or a meter showing an increasing / decreasing tendency of the measured weight value at the first timing and the measured weight value at the second timing.
- the bedside weight display screen can include any one of the following (1) to (7).
- a graph (a line graph, a bar graph, etc.) or a meter showing an increasing / decreasing tendency of the measured weight value at the first timing and the measured weight value at the second timing.
- the user can confirm the target of the day with the weight measurement value at the first timing on the wake-up side, and can clearly confirm whether the target has been achieved with the weight measurement value at the second timing on the sleeping side. it can.
- the display contents according to the measurement timing in this way, for weight management of a living body in which it is difficult to grasp a short-term weight increase / decrease trend due to daily fluctuations, the weight increase / decrease trend is clearly shown to improve the convenience of weight management Can be made.
- the user can appropriately compare with the measured weight value of the previous day, compare the measured weight value within the day, recognize the target, or It is possible to check whether or not the goal has been achieved.
- the present invention obtains a weight measurement value of the user by the weight acquisition means, acquires a standard daily fluctuation amount indicating a standard daily fluctuation of the user weight by the standard daily fluctuation amount acquisition means, and Based on the amount, a target for measuring the bedside weight measurement value at the second timing on the sleeping side with respect to the weight measurement value on the wakeup side measured at the first timing on the wakeup side from the user's wakeup to bedtime It can be set as the weight management method which calculates a daily target value with a calculating means.
- the present invention also includes a computer, a weight acquisition means for acquiring a user's weight measurement value, a standard daily fluctuation amount acquisition means for acquiring a standard daily fluctuation amount indicating a standard daily fluctuation of the user's weight,
- a weight management program which functions as a calculation means which calculates the daily target value used as the target.
- the user can confirm the daily target indicating how much the weight gain during the day should be kept, and can manage the daily weight fluctuation systematically. Thereby, a user's satisfaction can be improved.
- the perspective view which shows the external appearance of a body composition meter The block diagram which shows the structure of a body composition meter and a server. The block diagram of the various data memorize
- FIG. 1 is a perspective view showing an appearance of a body weight / body composition meter 3
- FIG. 2 shows a weight management system 1 including a body weight / body composition meter 3 and a server 5 that can communicate with the body weight / body composition meter 3. It is a block diagram which shows a structure.
- the body weight / body composition meter 3 is mainly composed of a display operation unit 10 that is a first housing held by a user and a weight measurement unit 30 that is a second housing on which the user rides. It is configured.
- the display operation unit 10 includes a communication unit 11, a storage unit 12, a timekeeping unit 13, an operation unit 14, a display unit 15, a constant current circuit unit 16, a power supply unit 17, a control unit 18, a double integral AD.
- the unit 19, the impedance detection unit 20, and the electrode unit 21 are provided.
- the communication unit 11 is connected to the control unit 18 and communicates with the server 5 in accordance with a control signal from the control unit 18.
- the communication unit 11 is not limited to the server 5, and is an appropriate device that communicates with other biological information acquisition devices such as a pedometer, or communicates with a personal computer or a portable information terminal (such as a PDA or a cellular phone). You may make it the structure which communicates with.
- the storage unit 12 is configured by a device capable of storing information such as a non-volatile memory and a hard disk, and reads and writes information according to a control signal of the connected control unit 18.
- the timekeeping unit 13 (timer means) is a device that measures time such as the current date and time, and sends the time to the control unit 18 as necessary.
- the operation unit 14 includes a plurality of buttons (see FIG. 1) to be pressed, and input information that is pressed by the user, such as input of physical information of the user such as gender, age, height, and weight. The data is sent to the control unit 18.
- the display unit 15 is configured by a display device such as a liquid crystal screen (see FIG. 1), and displays images such as characters and graphics in accordance with image signals sent from the control unit 18.
- the constant current circuit unit 16 causes a high-frequency (alternating current) current supplied from the power supply unit 17 to flow in one direction through the electrode unit 21 for current application based on the control of the control unit 18.
- the power supply unit 17 supplies operating power to each unit including the control unit 18.
- the control unit 18 includes a CPU, a ROM, a RAM, or a microcomputer (microcomputer), and executes a control operation and a calculation operation of each unit according to a program stored in the ROM or the like. As this program, a weight management program is stored.
- the double integration AD unit 19 is a double integration type AD (analog / digital) conversion unit that converts an analog signal supplied from the impedance detection unit 20 into a digital signal.
- the impedance detection unit 20 detects the impedance of the user based on the potential difference between the electrode unit 36 provided in the body weight measurement unit 30 and the electrode unit 21 provided in the display operation unit 10.
- the electrode unit 21 is provided on the surface of the grip portion (see FIG. 1) of the display operation unit 10 held by the user's hand, and the high frequency power supplied from the power supply unit 17 to the palm of the user holding the grip portion. (AC) current is applied.
- the body weight measurement unit 30 includes an operation unit 31, a battery 32, a load detection unit 33, and an electrode unit 36.
- the operation unit 31 functions as an input switch for switching power ON / OFF, and sends the input signal to the control unit 18.
- the battery 32 supplies power to each unit with the power supply unit 17 at the center.
- the load detection unit 33 has a built-in load cell 34, and measures the weight of a user who rides on an upper surface cover unit 35 (see FIG. 1) that also serves as an upper surface cover of the housing. The weight measured at this time is sent to the double integration AD unit 19.
- the electrode unit 36 is provided on the surface of the upper surface portion (see FIG. 1) of the weight measuring unit 30 on which the user rides, and is an electrode for current measurement that receives a current flowing from the sole of the user. .
- This electrode part 36 is comprised by four electrodes of a user's left toe side, left toe side, right toe side, and right toe side.
- the server 5 includes a communication unit 51, a control unit 52, an operation unit 53, a display unit 54, and a storage unit 55.
- the communication unit 51 transmits / receives data to / from the body weight / body composition meter 3 according to the control of the control unit 52.
- the control unit 52 includes a CPU, a ROM, and a RAM, and executes a control operation and a calculation operation of each unit in accordance with a program stored in the ROM or the like.
- the operation unit 53 includes an operation input device such as a keyboard and a mouse, and sends an input signal input by the operation to the control unit 52.
- the display unit 54 includes a display device such as a liquid crystal display or a CRT display, and performs display according to a control signal from the control unit 52.
- the storage unit 55 is configured by a storage device such as a hard disk, and includes various body related data such as body composition data (body fat data and weight data) measured by the weight / body composition meter 3 and personal information such as a user's name and address. Is stored.
- the body weight management system 1 is composed of the body composition meter 3 and the server 5 configured as described above.
- FIG. 3 is a configuration diagram of various data stored in the storage unit 12.
- the measurement data 40 shown in FIG. 3A stores the measured body weight together with the measurement date and time.
- the measurement data 40 also stores a morning / night flag indicating whether it is morning weight measured in the morning (wake-up side) or night weight measured in the night (sleeping side).
- the measurement data 40 may be configured to store one week or two weeks, or may be configured to store for a longer period.
- the standard daily fluctuation data 41 shown in FIG. 3B stores the standard daily fluctuation quantity of the user.
- the standard daily fluctuation amount is calculated based on the past measurement data 40 (for one week or two weeks). This calculation may be performed as follows.
- the weight fluctuation amount during sleep indicating the weight changed during sleep is calculated, and the weight fluctuation amount during sleep is calculated for a plurality of days and the average value is calculated.
- the average value can be used as the standard daily fluctuation amount.
- daytime is defined as a day from the user's getting up to bedtime. Therefore, strictly speaking, even when the user measures the night weight after 24 hours and goes to bed, it is preferable to treat it as the night weight within the same day instead of the night weight of the next day.
- the basal metabolic rate obtained from the impedance of the user detected by the impedance detection unit 20 can be used.
- the body composition such as the basal metabolic rate is determined by a known method. calculate.
- the body composition calculated at this time is not limited to the basal metabolic rate, and may include body fat percentage, BMI, visceral fat level, skeletal muscle percentage, body age, and the like.
- calorie consumption during sleep can be calculated using a known method to calculate the amount of fluctuation in body weight during sleep. Can do.
- the standard daily fluctuation amount is calculated by these methods, even if the user's body weight tends to increase or decrease, the standard daily fluctuation amount that is assumed to be stable without any increase or decrease in weight can be obtained. .
- the standard daily fluctuation amount may be a simple configuration in which the standard daily fluctuation amount is fixed to a predetermined ordinary daily fluctuation amount.
- the target setting date data 42 shown in FIG. 3C stores the date when the user inputs and sets the weight increase / decrease target using the operation unit 14.
- the long-term target increase / decrease amount data 43 shown in FIG. 3D stores the target value of the weight increase / decrease amount input and set by the user through the operation unit 14. For example, a negative value is input and set if it is desired to lose weight by diet, 0 is input and set if it is desired to maintain weight, and a positive value is input and set if it is desired to increase weight.
- the target achievement period data 44 shown in FIG. 3F stores the target achievement period input and set by the user through the operation unit 14.
- the target achievement period is a period indicating how long the achievement of the long-term target increase / decrease amount is to be realized.
- the daily increase / decrease amount which is a daily quota obtained by dividing the long-term target increase / decrease amount by the number of days of the target achievement period, falls within a predetermined range. And when it determines with it being outside a predetermined range by appropriate determination, it is good to perform the process of displaying an error on the display part 15, or prohibiting registration. Thereby, an unreasonable diet or the like that places a burden on the body can be suppressed.
- the daily target increase / decrease amount data 45 shown in FIG. 3 (G) a value obtained by dividing the target weight increase / decrease amount by the target achievement period is set. From this daily target increase / decrease amount data 45, it is possible to confirm whether or not weight increase / decrease is progressing in accordance with the target, and to calculate the target weight for the night of the day.
- FIG. 4 is a flowchart showing an operation performed by the control unit 18 of the body weight / body composition meter 3.
- the control unit 18 is activated in response to power ON by the user (step S1), and measures the weight of the user riding on the upper surface cover unit 35 (see FIG. 1) by the load detection unit 33 (step S2). At this time, the control unit 18 also measures the body composition by the impedance detection unit 20 (see FIG. 2) through the electrode unit 36 provided in the body weight measurement unit 30 and the electrode unit 21 provided in the display operation unit 10. Execute.
- the control unit 18 executes storage / analysis processing (step S3), turns off the power (step S4), and ends the processing.
- FIG. 5 is a flowchart showing the operation of the storage / analysis process executed by the control unit 18 of the body weight / body composition meter 3.
- the control unit 18 acquires the current date and time, which is the date and time when the weight is measured in the above-described step S2, from the time measuring unit 13, and determines whether or not the current date and time corresponds to morning time (step S21).
- the morning time is from 4 am to 11:59 am, and the other time is from 12:00 pm to 3:59 am the next morning.
- step S21 the control unit 18 refers to the storage unit 12 to check whether or not today's morning weight is already stored (step S22). For this confirmation, for example, the measurement date and time is stored together with the weight, and it is determined whether or not it is morning weight from the measurement date and time, and the morning weight flag indicating whether or not it is morning weight is stored together with the weight. Or by determining an address of the storage unit 12 for storing the morning weight and setting the weight stored at this address as the morning weight.
- step S22 If the morning weight is not stored (step S22: Yes), the control unit 18 stores the weight measured in step S2 in the storage unit 12 as the morning weight (step S23). At this time, the measurement date and time are also stored. A morning weight flag indicating whether or not the stored weight is the morning weight may be stored together, or an address of the storage unit 12 that stores the morning weight may be determined and stored at this address.
- the control unit 18 calculates a night weight target (step S24). This target calculation is performed based on the measured body weight stored in the storage unit 12 as the morning weight, the standard daily fluctuation data 41 and the daily target increase / decrease data 45 stored in the storage unit 12, and based on them. .
- a target daily fluctuation amount indicating how many grams of daily weight fluctuation amount should be set, or a target night weight indicating how many kilograms of night weight should be obtained.
- the target daily fluctuation amount can be obtained by adding the daily target increase / decrease amount of FIG. 3 (G) to the standard daily fluctuation amount of FIG. 3 (B).
- the target night weight can be obtained by adding the standard daily fluctuation amount of FIG. 3B and the daily target increase / decrease amount of FIG. 3G to the morning weight.
- the control unit 18 displays the morning measurement display screen A including the calculated night weight target and the measured weight measured in step S2 on the display unit 15 (step S25).
- This morning measurement display screen A includes a morning weight title display 61 indicating morning weight, a measured weight display 62 indicating morning weight measurement values, a target display 63 indicating night weight target values, and a night weight. And a target title display 64 indicating that the target value is.
- the target night weight is displayed as the night weight target.
- step S22 When the morning weight of today is stored in the storage unit 12 in step S22 (step S22: No), the control unit 18 determines whether or not it is within a predetermined time from the first measurement of today's morning weight (step S22). S26). This predetermined time may be set to a time that does not affect the weight so much even if exercise, for example, 30 minutes or 1 hour. If it is within the predetermined time (step S26: Yes), it will be within the body weight of today's morning. Then, it is determined whether or not the measurement value is the lightest (step S27). This can be determined, for example, by comparing the morning weight data stored in the storage unit 12 as today's morning weight with the measured weight data in step S2.
- the morning weight data of the previous value stored in the storage unit 12 is updated to the measured weight data measured in step S2 and overwritten and stored (step S28).
- the weight measurement value of the lighter one is memorized as the body weight in the morning, for example, when the weight is measured immediately after getting up, and immediately after stool and remeasured, the weight of the lighter one is adopted. This is because the minimum weight of the day is used as the standard weight in the morning. As a result, the reference morning weight can be stabilized, and it is possible to prevent the morning weight from being registered in a state lower than the original due to exercise or the like by limiting to a predetermined time.
- control unit 18 After updating the body weight in the morning in this way, the control unit 18 executes steps S24 to S25 described above.
- step S26: No When a predetermined time has elapsed from the measurement time of the first morning weight of the day in step S26 (step S26: No), or when the remeasured weight is not the lightest (step S27: No), the control unit 18 displays the measured weight display screen B shown in FIG. 6B on the display unit 15 (step S29). On the measured weight display screen B, a measured weight title display 71 indicating that the measured weight is displayed and a measured weight display 72 for displaying the measured weight are displayed.
- step S21 When it is determined in step S21 that it was not morning time (it was night time) (step S21: No), the control unit 18 confirms whether or not the night weight data of the day is stored in the storage unit 12. (Step S30).
- step S30: Yes the control unit 18 newly stores the measured weight acquired in step S2 in the storage unit 12 as the night weight (step S31). If night weight data is stored (step S30: No), the control unit 18 updates the night weight stored in the storage unit 12 to the measured weight acquired in step S2 and stores it overwritten (step S32). . This ensures that the last measured weight before going to bed is stored as a night weight and stabilizes the night weight.
- the control unit 18 refers to the storage unit 12 and calculates an achievement level (step S33).
- the degree of achievement is calculated by subtracting the standard daily fluctuation amount from the daily weight fluctuation amount obtained by subtracting the morning weight from the night weight, and further subtracting the daily target increase / decrease amount. It can be calculated depending on whether it is negative.
- the control unit 18 displays the goal achievement result screen C shown in FIG. 6C on the display unit 15 (step S35).
- This goal achievement result screen C includes a night weight title display 81 indicating night weight, a measured weight display 82 indicating the measured night weight, and a difference indicating the difference between the target night weight and the actual night weight. It has a display 83 and a target achievement result display 84 indicating whether or not the target has been achieved.
- the difference display 83 and the target achievement result display 84 indicate that the weight was 0.3 kg lighter than the target night weight and that the target was achieved.
- step S34 the control unit 18 displays the target achievement result screen D shown in FIG. 6D on the display unit 15 (step S36). Since this goal achievement result screen D displays the same items as the goal achievement result screen C, the same items are denoted by the same reference numerals, and detailed description thereof is omitted.
- the difference display 83 and the target achievement result display 84 indicate that the weight was 0.2 kg heavier than the target night weight and that the target was not achieved.
- the user can confirm the daily goal indicating how much the daily weight fluctuation should be maintained, and systematically manage the daily weight fluctuation to achieve this goal. Can be done. Therefore, for example, when dieting, it can be determined whether or not the diet is proceeding smoothly in a very short period of one day.
- the standard daily fluctuation amount is calculated by subtracting the morning weight from the night weight to calculate the sleeping weight fluctuation amount, and calculating the average value of the sleeping weight fluctuation amount for a plurality of days.
- the standard daily fluctuation amount can be determined based on the actual weight increase / decrease amount.
- this calculation method it is possible to determine the correct standard daily fluctuation amount regardless of whether the body weight tends to increase or decrease. That is, since the weight fluctuation during sleep is only a fluctuation due to basal metabolism, a stable daily fluctuation amount can be obtained regardless of the increase or decrease in body weight.
- the weight of a person increases from morning to night and decreases from night to morning.
- the user can manage the increase / decrease of the weight on a daily basis by knowing the target of how much the increase from the morning weight measured in the morning to the night weight should be suppressed. it can. That is, conventionally, when the body weight measured at night is higher than the body weight measured in the morning, the user can only recognize that the body weight has increased even if the body weight is actually decreasing. However, by specifying the night weight target in consideration of the daily fluctuation as described above, even if the night weight is higher than the morning weight, if the morning weight should be reduced if measured the next morning, The user can know that the weight tends to decrease.
- the morning weight can be updated to the decreased body weight measurement value, so that it can be stabilized as the post-stool weight.
- the morning weight will vary, but by using the measured weight after the stool as morning weight as much as possible, the morning weight variation will be suppressed. can do.
- the weight measurement value measured outside the morning time is adopted, and the latest weight measurement value is taken as the night weight every time there is a remeasurement, so the user does not have any special awareness.
- the weight measurement value at the time closest to bedtime can be adopted. Therefore, the night weight can be obtained stably and accurately.
- the weight / body composition meter 3 performs all calculations, but the server 5 may be configured to perform various calculations and outputs.
- the weight / body composition meter 3 may be configured to transmit the weight measurement value to the server 5 together with the measurement date and time in step S3.
- the control unit 52 of the server 5 receives the weight measurement value and the measurement date / time from the weight / body composition meter 3, the control unit 52 acquires the weight measurement value including the morning weight and the night weight from the weight / body composition meter 3, and steps S21 to S36.
- the processing may be executed, storage may be performed by the storage unit 55, and display may be performed by the display unit 54.
- control unit 52 of the server 5 may be configured to transmit information to be displayed on the screen of the display unit 54 to the body weight / body composition meter 3 in steps S25, S29, S35, and S36.
- the body weight / body composition meter 3 may be configured to receive this information and display any one of the morning measurement display screen A, the measured weight display screen B, and the target achievement result screens C and D on the display unit 15. Even in this case, it is possible to calculate the target of daily weight increase / decrease and notify the user or the like.
- an instructor or the like can confirm and advise the user.
- a configuration may be adopted in which the user selects and inputs the morning / night button with the operation unit 14 between step S1 and step S2. In this case, it is possible to determine whether to measure morning weight or night weight by input. For this reason, even a user who lives a reverse day and night can use it.
- the display content may be changed depending on whether the morning / night button is pressed, such as displaying only the weight without displaying the target or the like. As a result, forgetting to press the morning / night button can be prevented.
- the contents displayed on the morning measurement display screen A, the measured weight display screen B, the target achievement result screen C, and the target achievement result screen D are not limited to the above-described examples, and can be varied.
- the target night weight is displayed on the target display 63, but the difference between the night weight and the morning weight may be displayed as the target value.
- the goal achievement result screens C and D indicate whether or not the goal has been achieved by the difference display 83 and the goal achievement result display 84.
- the present invention is not limited to this. Or, it is possible to display appropriately, such as displaying either the goal achievement mark or the goal failure mark.
- the display timing is not limited to displaying both the measured weight in the morning and the target value at the same time, and displaying the measured weight in the evening and the target achievement result at the same time.
- the measured weight may be displayed when the weight measurement is completed, and then the display may be switched to the target display or the target achievement result display at a timing such as when a predetermined time elapses or the user gets off the upper surface cover 35. Even in this case, the target of the day can be confirmed by the morning measurement, and the result of whether or not the target has been achieved can be confirmed by the night measurement.
- the weight management device of the present invention corresponds to the weight body composition meter 3 or the server 5 of the embodiment
- the storage means corresponds to the storage unit 12 or the storage unit 55
- the physical information acquisition means corresponds to the control unit 18 read from the storage unit 12 or the control unit 52 read from the storage unit 55
- the output unit and the display unit correspond to the display unit 15 or the display unit 54
- the computing means corresponds to the control unit 18 or the control unit 52
- the standard daily fluctuation value acquisition means corresponds to the control unit 18 or the control unit 52 that reads the standard daily fluctuation amount in step S24
- the impedance acquisition means corresponds to the impedance detection unit 20
- the weight acquisition means corresponds to the load detection unit 33 or the communication unit 51
- the standard daily fluctuation value corresponds to the standard daily fluctuation data 41
- the long-term target increase / decrease amount corresponds to the long-term target increase / decrease amount data 43
- the target number of days corresponds to the target achievement period data 44,
- the daily daily fluctuation value corresponds
- the bedside weight measurement value determination process corresponds to steps S30 to S32.
- the goal achievement determination process corresponds to step S34,
- the first timing corresponds to morning time
- the second timing corresponds to night time
- the wake-up weight measurement corresponds to the morning weight
- the bedside weight measurement corresponds to the night weight
- Physical information corresponds to gender, age, height and weight
- the present invention can be used in the field of managing the weight of a living body, and can be used not only for humans but also for animal weight management.
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Abstract
Description
この態様により、日内目標値を出力することができる。
この態様により、利用者に目標を達成できたか否か明確に認識させることができる。
前記身体情報取得手段は、利用者の操作入力を受け付ける操作入力手段、身体情報を受信する通信手段、体重などを測定する測定手段、あるいはこれらの複数で構成することができる。
(1)当日の第1タイミングの測定体重値と、当日の第2タイミングの目標体重値。
(2)当日の第1タイミングの測定体重値と、当日の起床時から就寝時までの体重の差分の目標値。
(3)当日の第1タイミングの測定体重値と、前日の第1タイミングの測定体重値。
(4)当日の第1タイミングの測定体重値と、前日の第2タイミングから当日の第1タイミングまでの体重減少値。
(5)当日の第1タイミングの測定体重値と、前日の第2タイミングから当日の第1タイミングまでの体重減少値と、前日の第1タイミングから前日の第2タイミングまでの体重増加値。
(6)当日の第1タイミングの測定体重値と、前日の第2タイミングから当日の第1タイミングまでの体重減少値と、当日の第1タイミングから第2タイミングまでの体重の差分の目標値。
(7)第1タイミングの測定体重値と第2タイミングの測定体重値の増減傾向を示すグラフ(折れ線グラフや棒グラフ等)あるいはメータ。
(1)当日の第2タイミングの測定体重値と、当日の第1タイミングの測定値体重。
(2)当日の第2タイミングの測定体重値と、当日の目標を達成したか否かを示す達成確認表示(達成確認表示は、グラフやメータ、あるいは達成可否表示など、適宜の表示とすることができる)。
(3)当日の第2タイミングの測定体重値と、前日の第2タイミングの測定体重値。
(4)当日の第2タイミングの測定体重値と、当日の第1タイミングから当日の第2タイミングまでの体重増加値。
(5)当日の第2タイミングの測定体重値と、当日の第1タイミングから当日の第2タイミングまでの体重増加値と、前日の第2タイミングから当日の第1タイミングまでの体重減少値。
(6)当日の第2タイミングの測定体重値と、当日の第1タイミングから当日の第2タイミングまでの体重増加値と、当日の目標を達成したか否かを示す達成確認表示。
(7)第1タイミングの測定体重値と第2タイミングの測定体重値の増減傾向を示すグラフ(折れ線グラフや棒グラフ等)あるいはメータ。
図1は、体重体組成計3の外観を示す斜視図であり、図2は、体重体組成計3と、該体重体組成計3と通信可能なサーバ5とで構成する体重管理システム1の構成を示すブロック図である。
操作部14は、押下操作される複数のボタン(図1参照)により構成されており、性別、年齢、身長、体重といった利用者の身体情報の入力など、利用者に押下操作された入力情報を制御部18へ送る。
定電流回路部16は、制御部18の制御に基づいて、電源部17から供給される高周波(交流)電流を電流印加用の電極部21に一方向に流す。
制御部18は、CPUとROMとRAMあるいはマイコン(マイクロコンピュータ)により構成されており、ROM等に記憶されているプログラムに従って各部の制御動作や演算動作を実行する。このプログラムとしては、体重管理プログラムの記憶されている。
操作部31は、電源のON/OFFを切り替えるための入力スイッチとして機能し、入力された入力信号を制御部18へ送る。
荷重検知部33は、ロードセル34を内蔵しており、筐体の上面カバーを兼ね備える上面カバー部35(図1参照)の上に乗った利用者の体重を測定する。このとき測定した体重は、二重積分AD部19へ送られる。
通信部51は、制御部52の制御に従って体重体組成計3とデータの送受信を行う。
制御部52は、CPUとROMとRAMにより構成されており、ROM等に記憶されているプログラムに従って各部の制御動作や演算動作を実行する。
表示部54は、液晶ディスプレイやCRTディスプレイといった表示装置で構成されており、制御部52の制御信号に従って表示を行う。
このように構成された体重体組成計3とサーバ5とによって体重管理システム1が構成されている。
図3(A)に示す測定データ40は、測定体重を測定日時と共に記憶する。この測定データ40には、朝(起床側)に測定された朝体重か夜(就寝側)に測定された夜体重かを示す朝夜フラグも共に記憶する。測定データ40としては、1週間分や2週間分を記憶できるように構成すればよく、さらに長期間記憶できるように構成してもよい。
制御部18は、利用者による電源ONを受けて起動し(ステップS1)、上面カバー部35(図1参照)に乗った利用者の体重を荷重検知部33により測定する(ステップS2)。このとき、制御部18は、体重測定部30に設けられている電極部36と表示操作部10に設けられている電極部21を通じて、インピーダンス検知部20(図2参照)による体組成の測定も実行する。
制御部18は、前述のステップS2で体重測定した日時である現在日時を計時部13から取得し、現在日時が朝時間に該当するか否か判定する(ステップS21)。この実施例では、午前4時から午前11時59分までを朝時間とし、それ以外の時間である午後12時から翌朝3時59分までを夜時間としている。
目標夜体重は、朝体重に図3(B)の標準日内変動量と図3(G)の日内目標増減量を加算することで求めることができる。
所定時間内であれば(ステップS26:Yes)、本日の朝体重内で最軽量の測定値か否かを判定する(ステップS27)。これは、例えば本日の朝体重として記憶部12に記憶されている朝体重データとステップS2での測定体重データとを比較して判定できる。
測定体重表示画面Bには、測定体重を表示していることを示す測定体重タイトル表示71と、測定体重を表示する測定体重表示72とが表示されている。
この目標達成結果画面Cは、夜体重であることを示す夜体重タイトル表示81と、夜体重の測定値を示す測定体重表示82と、目標夜体重と実際の夜体重との差分体重を示す差分表示83と、目標を達成したか否かを示す目標達成結果表示84とを有している。この例では、目標夜体重よりも0.3kg軽かったこと、目標を達成したことを差分表示83および目標達成結果表示84により示している。
この目標達成結果画面Dは、目標達成結果画面Cと同一項目を表示するため、同一項目に同一符号を付してその詳細な説明を省略する。図示の例では、目標夜体重よりも0.2kg重かったこと、目標未達成であったことを差分表示83および目標達成結果表示84により示している。
この場合でも、一日の体重増減の目標を計算することができ、利用者などに通知することができる。またこのようにサーバ5を用いる場合は、例えばインストラクターなどが確認し、利用者にアドバイスするといった利用も可能になる。
この発明の体重管理装は、実施形態の体重体組成計3またはサーバ5に対応し、
以下同様に、
記憶手段は、記憶部12または記憶部55に対応し、
身体情報取得手段は、記憶部12から読み出す制御部18または記憶部55から読み出す制御部52に対応し、
出力手段および表示手段は、表示部15または表示部54に対応し、
演算手段は、制御部18または制御部52に対応し、
標準日内変動値取得手段は、ステップS24で標準日内変動量を読み出す制御部18または制御部52に対応し、
インピーダンス取得手段は、インピーダンス検知部20に対応し、
体重取得手段は、荷重検知部33または通信部51に対応し、
標準日内変動値は、標準日内変動量データ41に対応し、
長期目標増減量は、長期目標増減量データ43に対応し、
目標日数は、目標達成期間データ44に対応し、
日内目標増減量は、日内目標増減量データ45に対応し、
日内目標値は、目標表示63に示す夜体重の目標値に対応し、
判定結果は、目標達成結果表示84に表示する結果に対応し、
起床側体重測定値更新処理は、ステップS26~S28に対応し、
就寝側体重測定値決定処理は、ステップS30~S32に対応し、
目標達成判定処理は、ステップS34に対応し、
第1タイミングは、朝時間に対応し、
第2タイミングは、夜時間に対応し、
起床側体重測定値は、朝体重に対応し、
就寝側体重測定値は、夜体重に対応し、
身体情報は、性別、年齢、身長、体重に対応するが、
この発明は、上述の実施形態の構成のみに限定されるものではなく、多くの実施の形態を得ることができる。
Claims (12)
- 利用者の体重測定値を取得する体重取得手段と、
利用者の体重の標準的な日内変動を示す標準日内変動量を取得する標準日内変動量取得手段と、
前記標準日内変動量に基づいて、利用者の起床から就寝までのうち起床側の第1タイミングで測定した起床側体重測定値に対して就寝側の第2タイミングで就寝側体重測定値を測定する際の目標となる日内目標値を算出する演算手段とを備えた
体重管理装置。 - 前記日内目標値を出力する出力手段を備え、
前記演算手段は、
前記体重取得手段により前記起床側体重測定値を取得すると、前記日内目標値を前記出力手段に出力する構成である
請求項1記載の体重管理装置。 - 前記起床側体重測定値を記憶する記憶手段を備え、
前記演算手段は、
前記体重取得手段により前記就寝側体重測定値を取得し、該就寝側体重測定値と前記日内目標値と前記起床側体重測定値とに基づいて、日内の目標を達成したか否か判定する目標達成判定処理を実行し、該目標達成判定処理の判定結果を前記出力手段に出力する構成である
請求項2記載の体重管理装置。 - 前記演算手段は、
過去に複数日測定した就寝側体重測定値と翌日の起床側体重測定値との差である複数の就寝中体重変動量に基づいて前記標準日内変動量を算出する構成である
請求項1記載の体重管理装置。 - 前記利用者の身体に関する身体情報と該利用者の身体のインピーダンスとに基づく該利用者の基礎代謝量を取得する基礎代謝量取得手段を備え、
前記演算手段は、前記基礎代謝量に基づいて前記標準日内変動量を算出する構成である
請求項1記載の体重管理装置。 - 前記演算手段は、
前記起床側体重測定値の測定が行われた第1タイミングから所定時間内に体重が再測定され、この再測定された体重測定値が前記起床側体重測定値よりも低い場合、前記起床側体重測定値を再測定された体重測定値に更新する起床側体重測定値更新処理を実行する構成である
請求項1記載の体重管理装置。 - 前記演算手段は、
前記就寝側体重測定値として認定する所定時間内に複数回体重が測定された場合、該所定時間内で最後に測定された体重測定値を前記就寝側体重測定値として採用する就寝側体重測定値決定処理を実行する構成である
請求項1記載の体重管理装置。 - 前記演算手段は、
目標とする体重増減量である長期目標増減量を、該目標を達成するまでの目標日数で除算して日内目標増減量を算出し、
該日内目標増減量と前記標準日内変動量とに基づいて前記日内目標値を定める
請求項1記載の体重管理装置。 - 前記第1タイミングは、利用者の起床から朝食前までとし、
前記第2タイミングは、利用者の夕食後から就寝前までとすることを特徴とする
請求項1記載の体重管理装置。 - 利用者の体重測定値を取得する体重取得手段と、
情報処理を行う情報処理手段と、
画面の表示を行う表示手段とを備え、
該情報処理手段は、
前記体重取得手段により取得した利用者の体重測定値が、利用者の起床から就寝までのうち起床側の第1タイミングで測定した起床側体重測定値であれば起床側体重表示画面を前記表示手段に表示し、就寝側の第2タイミングで測定した就寝側体重測定値であれば前記起床側体重表示画面と異なる就寝側体重表示画面を前記表示手段に表示する構成である
体重管理装置。 - 利用者の体重測定値を体重取得手段により取得し、
利用者の体重の標準的な日内変動を示す標準日内変動量を標準日内変動量取得手段により取得し、
前記標準日内変動量に基づいて、利用者の起床から就寝までのうち起床側の第1タイミングで測定した起床側体重測定値に対して就寝側の第2タイミングで就寝側体重測定値を測定する際の目標となる日内目標値を演算手段で算出する
体重管理方法。 - コンピュータを、
利用者の体重測定値を取得する体重取得手段と、
利用者の体重の標準的な日内変動を示す標準日内変動量を取得する標準日内変動量取得手段と、
前記標準日内変動量に基づいて、利用者の起床から就寝までのうち起床側の第1タイミングで測定した起床側体重測定値に対して就寝側の第2タイミングで就寝側体重測定値を測定する際の目標となる日内目標値を算出する演算手段として機能させる
体重管理プログラム。
Priority Applications (5)
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---|---|---|---|
DE112009004258T DE112009004258T5 (de) | 2009-02-09 | 2009-11-28 | Gewichtsmanagementvorrichtung, gewichtsmanagementverfahren undgewichtsmanagementprogramm |
CN200980156487XA CN102308188A (zh) | 2009-02-09 | 2009-11-28 | 体重控制装置、体重控制方法以及体重控制程序 |
EP09839605.4A EP2431717A4 (en) | 2009-02-09 | 2009-11-28 | BODY WEIGHT CONTROL DEVICE, BODY WEIGHT CONTROL METHOD, AND BODY WEIGHT CONTROL PROGRAM |
RU2011137164/28A RU2011137164A (ru) | 2009-02-09 | 2009-11-28 | Устройство для управления весом, способ управления весом и программа для управления весом |
US13/184,121 US20110301916A1 (en) | 2009-02-09 | 2011-07-15 | Weight management device, weight management method, and weight management program |
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JP2009027502A JP2010181377A (ja) | 2009-02-09 | 2009-02-09 | 体重管理装置、体重管理方法、および体重管理プログラム |
JP2009-027502 | 2009-02-09 |
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US13/184,121 Continuation US20110301916A1 (en) | 2009-02-09 | 2011-07-15 | Weight management device, weight management method, and weight management program |
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WO2010089827A1 true WO2010089827A1 (ja) | 2010-08-12 |
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PCT/JP2009/006453 WO2010089827A1 (ja) | 2009-02-09 | 2009-11-28 | 体重管理装置、体重管理方法、および体重管理プログラム |
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US (1) | US20110301916A1 (ja) |
EP (1) | EP2431717A4 (ja) |
JP (1) | JP2010181377A (ja) |
CN (1) | CN102308188A (ja) |
DE (1) | DE112009004258T5 (ja) |
RU (1) | RU2011137164A (ja) |
WO (1) | WO2010089827A1 (ja) |
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JP2012055558A (ja) * | 2010-09-10 | 2012-03-22 | Omron Healthcare Co Ltd | 婦人用体重管理装置 |
CN102688037A (zh) * | 2011-03-23 | 2012-09-26 | 松下电器产业株式会社 | 生物体信息测量装置 |
WO2012166662A1 (en) | 2011-05-27 | 2012-12-06 | Pet Wireless, Llc | Systems, methods and computer program products for monitoring the behavior, health, and/or characteristics of an animal |
CN103270532A (zh) * | 2011-02-16 | 2013-08-28 | 欧姆龙健康医疗事业株式会社 | 体重管理装置 |
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JP5320691B2 (ja) * | 2007-06-11 | 2013-10-23 | オムロンヘルスケア株式会社 | 体重計 |
US10098584B2 (en) * | 2011-02-08 | 2018-10-16 | Cardiac Pacemakers, Inc. | Patient health improvement monitor |
DE102011014220A1 (de) * | 2011-03-17 | 2012-09-20 | Universität Zu Köln | Blasendruckmesssystem |
JP5853533B2 (ja) | 2011-09-26 | 2016-02-09 | オムロンヘルスケア株式会社 | 体重管理装置 |
JP5853534B2 (ja) | 2011-09-26 | 2016-02-09 | オムロンヘルスケア株式会社 | 体重管理装置 |
DE102011118998A1 (de) * | 2011-11-14 | 2013-05-16 | Seca Ag | Verfahren und Vorrichtung zur Ermittlung des Körpergewichtes einer Person |
CN102607684B (zh) * | 2012-04-16 | 2014-03-12 | 天津九安医疗电子股份有限公司 | 一种体重管理信息控制系统及体重管理信息显示方法 |
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JP2015109891A (ja) * | 2013-12-06 | 2015-06-18 | セイコーエプソン株式会社 | 情報処理装置及び情報処理方法 |
WO2016067499A1 (ja) * | 2014-10-28 | 2016-05-06 | ウエルネスデータ株式会社 | 減量支援方法、減量支援プログラム、及び減量支援装置 |
DE102014222393A1 (de) * | 2014-11-03 | 2016-05-04 | BSH Hausgeräte GmbH | Verfahren zur Gewichtsanzeige bei einer Gewichtsmesseinrichtung |
WO2016124454A1 (en) * | 2015-02-03 | 2016-08-11 | Koninklijke Philips N.V. | Apparatus and method for monitoring changes in user weight |
WO2019053891A1 (ja) * | 2017-09-15 | 2019-03-21 | 株式会社キュア・アップ | 生体情報管理のためのプログラム、装置、システム及び方法 |
CN108548597A (zh) * | 2018-04-18 | 2018-09-18 | 英华达(上海)科技有限公司 | 穿戴式体重检测系统 |
CN112924007B (zh) * | 2021-01-19 | 2022-08-05 | 重庆火后草科技有限公司 | 基于目标睡眠的体重测量方法 |
CN113974567B (zh) * | 2021-11-09 | 2024-03-26 | 重庆火后草科技有限公司 | 睡眠过程的代谢率的计算方法 |
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Also Published As
Publication number | Publication date |
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EP2431717A1 (en) | 2012-03-21 |
JP2010181377A (ja) | 2010-08-19 |
DE112009004258T5 (de) | 2012-07-19 |
CN102308188A (zh) | 2012-01-04 |
US20110301916A1 (en) | 2011-12-08 |
RU2011137164A (ru) | 2013-03-20 |
EP2431717A4 (en) | 2013-09-25 |
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