KR20110115880A - Apparutus and system for physical status monitoring - Google Patents

Abstract

The present invention relates to a portable biometric information monitoring device and a biometric information monitoring system using the same, wherein the portable biometric information monitoring device is a portable biometric information monitoring device which measures / stores biometric information and athletic information of a user during exercise, and is configured as a portable type. Measure / store at least one exercise information of the user's moving distance, movement time, and moving speed, and measure / store at least one or more biometric information among physical activity, heart rate, respiratory rate, skin temperature, posture, and heart rate variability. It is a portable biometric information monitoring device,
Biometric Information Monitoring System The above-mentioned portable biometric information monitoring device comprising: a portable biometric information monitoring device for outputting measured exercise information and biometric information to a connected user terminal; A user terminal connected to the portable biometric information monitoring device and receiving exercise information and biometric information output from the monitoring device to analyze an exercise record; And receiving / saving exercise information and biometric information transmitted from the user terminal, and using at least one of exercise prescription information, nutrition prescription information, predictive exercise record information, and cardiac abnormality information using the received user's exercise information and biometric information. Biometric information monitoring system comprising a management server for generating the above information and transmitting to the user terminal.
According to the present invention, by providing a lot of exercise-related information conveniently and easily, you can more easily understand their own movement, check the presence or absence of heart disease, monitor hyperactivity disorder and sleep disorder monitoring of children For all ages, both men and women are not burdened, and exercise data has the advantage of providing information on exercise prescription and nutrition prescription so that they can easily be interested in health.

Description

Portable bioinformation monitoring device and bioinformation monitoring system using same {Apparutus and System for Physical Status Monitoring}

The present invention relates to a portable biometric information monitoring device and a monitoring system using the same. More particularly, the present invention relates to a portable biometric information monitoring device and a monitoring system using the same. (Biological information including physical activity, heart rate, respiratory rate, skin temperature, posture, heart rate variability, and exercise information including location, time, altitude, and walking speed), and exercise prescription and nutrition prescription based on the exercise information record. It is a portable bioinformation monitoring device and bioinformation monitoring system using the same, which can provide heart rate variability observation and lossless arrhythmia record, predictive exercise record, and hiking record.

As interest in health increases, various services are provided to maintain health, and one of such services measures exercise information and biometric information during exercise, and measures exercise and nutrition by using measured exercise information and biometric information. The service of presenting a back is in the spotlight.

Visit your hospital or sports medical center to obtain these measurements in the past and exercise cardiographs (for heart rate and target heart rate and early diagnosis of angina or cardiac infarction) and exercise-load respiratory gas metabolism analyzers (based on maximum oxygen uptake) Capacity tests, lung function, respiratory rate) and physical activity measurements with accelerometers.

These measurements were made with treadmills and ergometers in a fixed space, not in the field. The exercise-loaded electrocardiogram and exercise-loaded respiratory gas metabolism analysis were accurate, but the individual was not able to test frequently and the field test was more difficult to receive.

Moreover, it was difficult to analyze by wearing a mask to perform a respiratory rate test, and to measure heart variability, an autonomic nervous system test or a halter electrocardiogram had to be used in a hospital. In addition, in order to measure body temperature during exercise, a separate attachment thermometer was attached in a place such as a hospital, causing inconvenience to the subject.

The present invention utilizes a GPS module, a digital altimeter, physical activity meter, heart rate monitor, temperature thermometer, respiratory rate meter in order to solve the problems of the prior art as described above, a comprehensive exercise information and hiking record Portable bioinformation monitoring device capable of measuring / recording heart rate variability, measuring / recording heart rate variability, and calculating / providing recorded data using a web service for exercise prescription, nutritional prescription, predictive exercise record, heart abnormality, etc. An object of the present invention is to provide a biometric information monitoring system.

In order to achieve the above object, according to a preferred embodiment of the present invention, in the biological information monitoring device for measuring / storing the user's biometric information and exercise information during exercise, it is configured as a portable type, the user's moving distance, Portable biometric information comprising measuring / storing at least one or more exercise information among movement time and movement speed, and measuring / storing at least one or more biometric information among physical activity, heart rate, respiratory rate, skin temperature, posture, and heart rate variability A monitoring device is provided.

Here, the above-described portable biometric information monitoring device, the input unit for receiving a user's operation to output a control signal; An exercise information measuring unit configured to measure a user's location and altitude, and measure / store a moving distance, a moving time, and a moving speed of the user by using the measured location information and altitude information; A biometric information measuring unit which measures / stores biometric information of a user during exercise using a sensor; A display unit which outputs related information in a process of measuring / storing exercise information and biometric information; And a storage unit in which measured exercise information and biometric information are stored.

In addition, more preferably the above-described exercise information measuring unit, the GPS module for measuring the location information of the user using the GPS system; A digital altimeter for measuring altitude information of the user; And an exercise information measuring module that calculates / stores a moving distance, a moving time, and a moving speed of the user by using the position information output from the GPS module and the altitude information output from the digital altimeter according to the control signal output from the input unit. Include,

The above-mentioned biometric information measuring unit includes: a physical activity measuring device which measures and outputs a physical activity of a user; A heart rate meter for measuring and outputting a heart rate of the user; A thermometer that detects and outputs a user's body temperature using an infrared sensor; A respiratory rate detector for detecting and outputting a respiratory rate of a user using a respiration sensor; And biometric information for measuring / storing physical activity information, heart rate information, body temperature information, respiratory rate information by controlling the physical activity measuring device, the heart rate measuring device, the body temperature monitor, and the respiratory rate measuring device according to a control signal output from the input unit. It may be configured to include a measurement module.

At this time, the above-described biometric information measuring module may be configured to calculate and store heart rate variability information and lossless arrhythmia information using the measured heart rate information.

On the other hand, in order to achieve the above object, according to another preferred embodiment of the present invention, a portable biometric information monitoring device having the above characteristics, a portable outputting the measured exercise information and the biometric information to the connected user terminal Biological information monitoring apparatus; And a user terminal connected to the portable biometric information monitoring device and receiving the exercise information and the biometric information output from the monitoring device and analyzing the exercise record.

Here, the aforementioned user terminal transmits the input exercise information and the biometric information to the management server through a network, and at least one of exercise prescription information, nutrition prescription information, predicted exercise record information, and cardiac abnormality information transmitted from the management server. Receiving and outputting the above information, the above-mentioned biometric information monitoring system receives and stores the exercise information and the biometric information transmitted from the user terminal, using the exercise information and biometric information of the user received exercise prescription information, nutrition prescription It may be configured to further include a management server for generating at least one or more information of the information, predictive exercise record information, cardiac abnormality information and transmitting to the user terminal.

In this case, the above-described user terminal may be implemented as a mobile communication terminal.

As described above, according to the portable bioinformation monitoring device and the bioinformation monitoring system using the same according to the present invention, a person who enjoys exercise can check the health he pursues once again while exercising rather than a general and daily exercise. It can provide interesting information and induce more people's movements based on this system, which has the advantage of positively affecting national health promotion.

In addition, according to the present invention, by providing a lot of exercise-related information conveniently and easily, you can more easily understand their own movement, can check the presence of heart disease, monitor hyperactivity disorder and sleep disorder monitoring of children. High and low pressure for all ages, and exercise data has the advantage that it can lead to easy attention to health by providing information on exercise prescription and nutrition prescription.

1 is a block diagram of a biological information monitoring system using a portable biometric information monitoring apparatus according to an embodiment of the present invention.
Figure 2a is an exemplary diagram conceptually showing the measurement information of the biometric information monitoring system using a portable biometric information monitoring apparatus according to an embodiment of the present invention.
Figure 2b is a state diagram used in the portable biometric information monitoring apparatus according to an embodiment of the present invention.
Figure 3 is a flow chart showing the operation of the biometric information monitoring system using a portable biometric information monitoring apparatus according to an embodiment of the present invention.
4 is a diagram illustrating a result of measuring a heart rate of a user by a heart rate monitor according to an exemplary embodiment of the present invention.
5 is a conceptual view illustrating a method of measuring heart rate for explaining the operation of the heart rate monitor according to an embodiment of the present invention.
6 is an illustration of an electrocardiogram graph.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the portable biometric information monitoring device and the biometric information monitoring system using.

1 is a block diagram of a biometric information monitoring system using a portable biometric information monitoring apparatus according to an exemplary embodiment of the present invention. FIG. 2A is a biometric information monitoring system using a portable biometric information monitoring apparatus according to an exemplary embodiment of the present invention. Figure 2 is an exemplary view conceptually showing the measurement information, Figure 2b is a state diagram of the use of the portable biometric information monitoring apparatus according to an embodiment of the present invention. Hereinafter, the configuration and function of the biometric information monitoring system using the portable biometric information monitoring apparatus according to the present invention will be described in detail with reference to FIGS. 1 and 2.

As shown in FIG. 1, a biometric information monitoring system using a portable biometric information monitoring apparatus according to an exemplary embodiment of the present invention may include a portable biometric information monitoring device (hereinafter, referred to as a “measurement device”) 100, a user terminal, and the like. It may include a management server (130).

As shown in FIG. 2B, the measuring device 100 according to the present invention is attached to the user's body (the chest where the heart is located) and measures the exercise information and the body information of the user during exercise, as shown in FIG. 2A. As such, the user's location information, height information, movement distance, movement speed, movement time, and other movement information, and biometric information such as heart rate, respiratory rate, skin temperature, and physical activity are measured and recorded.

In order to perform such a function, the measuring device 100 according to the present invention may include an input unit, an exercise information measuring unit, a biometric information measuring unit, a display unit, and a storage unit.

The input unit receives a user's manipulation and outputs a control signal, and may be implemented by using various well-known input means (keypad, touch pad, etc.) that are commonly used. The display unit outputs related information in the process of measuring / storing exercise information and biometric information, and the storage unit stores the measured exercise information and biometric information. Since the input unit, the display unit, and the storage unit adopt a known technology, a detailed description thereof will be omitted.

The exercise information measuring unit measures the location and altitude of the user, and measures / stores the moving distance, the moving time, and the moving speed of the user by using the measured position information and the altitude information. More preferably, the exercise information measuring unit according to the present invention may include a GPS module, a digital altimeter, and an exercise information measuring module.

The GPS module measures the user's location information using the GPS system and outputs the measured location information to the exercise information measuring module.The digital altimeter measures the user's altitude information and outputs the measured altitude information to the exercise information measuring module. Done.

The exercise information measuring module calculates the user's moving distance, moving time and moving speed by using the position information output from the GPS module and the altitude information output from the digital altimeter according to the control signal output from the operating program and the input unit. The exercise information is stored in the storage unit (). More preferably, the exercise information measuring module according to the present invention converts the user's exercise information measured using the aforementioned GPS module and the digital altimeter into X, Y, and Z axes to generate three-dimensional exercise information to display the display unit. It can be configured to output through. The motion information measuring module may be physically implemented through hardware or logically through software.

The biometric information measuring unit measures / stores biometric information of the user during exercise using the sensor. In order to perform such a function, the biometric information measuring unit may include a physical activity measuring device, a heart rate measuring device, a temperature thermometer, a respiratory rate measuring device, and a biometric information measuring module.

The physical activity measuring device measures the amount of physical activity of the user and outputs it to the biometric information measuring module. The heart rate measuring device measures the heart rate of the user and outputs it to the biometric information measuring module.

The temperature detector detects the body temperature of the user and outputs it to the biometric information measuring module, and more preferably, may be implemented using an infrared sensor. If the thermometer is implemented with an infrared sensor, there is an advantage that the user's body temperature can be conveniently measured during exercise.

The respiratory rate measuring device detects the respiratory rate of the user and outputs the biometric information measuring module. The respiratory rate measuring device according to the present invention may be more preferably implemented using a respiration sensor. As described above, according to the prior art, there is a problem in that the test should be performed in a state in which a mask is worn for the respiratory rate test, but the present invention has a degree to which the mask is not worn by employing a respiration sensor. It is configured to enable the detection of respiratory rate which can be reliable.

The biometric information measuring module controls the physical activity meter, heart rate monitor, thermometer and respiratory rate meter according to the control signal outputted from the operating program and the input unit to measure / store physical activity information, heart rate information, body temperature information and respiratory rate information. do. More preferably, the biometric information measuring module according to the present invention may be configured to calculate and store heart variability information and lossless arrhythmia information using the measured heart rate information.

4 is a diagram illustrating a result of measuring a heart rate of a user by a heart rate monitor according to an exemplary embodiment of the present invention, and FIG. 5 is a view illustrating a heart rate for describing an operation of the heart rate monitor according to an exemplary embodiment of the present invention. It is a conceptual diagram for demonstrating a measuring method, and FIG. 6 is an illustration of an electrocardiogram graph.

According to the present invention, the biometric information measuring module may be configured only to measure / record only the heart rate of the user and transmit the measured heart rate information to the management server 130 through the user terminal 110 or the user terminal 110. Alternatively, the device may be configured to generate heart rate variability information and arrhythmia information based on the measured heart rate and provide the same to the user. When the measuring device 100 itself is configured to generate related information by using the heart rate information, it is necessary to install additional software in the measuring device 100.

Since the number of occurrences of the RR of the ECG waveform per minute in the ECG waveform shown in FIG. 5 becomes the heart rate, the heart rate variation can be analyzed in detail using software, and the approximate ECG waveform can be inferred, so that the heart state is somewhat reliable. Can be determined and provided in such a way. In particular, when referring to the electrocardiogram graph shown in FIG. 6, the lossless arrhythmia means ± 20% of the RR waveform, and the pause signal means that the time between RRs is 2 seconds or more. Based on the heart rate measured using the device 100, a schematic diagnosis of the lossy arrhythmia is possible.

On the other hand, the measuring device 100 may be configured to be connected to the user terminal 110 to output the measured and stored user's exercise information and biometric information to the connected user terminal 110. When the measuring device 100 is implemented in this manner, the measuring device 100 includes a communication unit or an interface unit connected to the user terminal 110 to perform wired or wireless data communication.

The user terminal 110 may be one of a personal information communication device such as a personal computer, a laptop, a mobile communication terminal is adopted and used, it is connected to the measurement device 100 by wire or wireless to the measurement device 100 The user's exercise information and biometric information are output from the user.

In the overall system according to the present invention, the user terminal 110 may be used as two functions. The first function is to analyze the user's exercise record when the exercise record analysis program that can analyze the user's exercise information and biometric information input from the measuring device 100 on the user terminal 110, the user analyzed the result It may be configured to provide to. Of course, there is a need to install a dedicated program in order to perform such a function, and the user can use the function by accessing the management server 130 to install and receive a dedicated program by operating the user terminal 110.

The second function of the user terminal 110 is to relay data communication between the measuring device 100 and the management server 130. That is, when the measuring device 100 is not separately provided with a communication unit () capable of performing data communication by connecting to the management server 130 through the Internet, the user terminal 110 is input from the measuring device 100. It performs the function of transmitting the exercise record to the management server 130, and receives the exercise prescription information, nutrition prescription information, predicted exercise record information, cardiac abnormality information calculated based on the exercise record and transmitted from the management server 130 It performs the function of printing and providing to the user. Of course, if the measuring device 100 itself is configured to support a communication function via the Internet, the user terminal 110 may be unnecessary. Hereinafter, the measurement device 100 will be described based on the embodiment in which the communication function through the Internet is not provided, but the measurement device 100 is included in the scope of the present invention even when the communication function through the Internet is provided. It will be apparent to those skilled in the art.

In order to perform such a function, the user terminal 110 according to the present invention includes an input unit, a display unit, a central processing unit, a communication unit, a storage unit, and the like. More preferably, the user terminal 110 according to the present invention may be implemented using a smart phone, the above-described dedicated program may be implemented to be supplied in the application form of the smart phone,

The management server 130 receives / stores the exercise information and the biometric information transmitted from the measuring device 100 or the user terminal 110, and uses the received user's exercise information and the biometric information to prescribe exercise information and nutritional prescription information. Predictive exercise record information and cardiac abnormality information are generated and transmitted to the user terminal 110 or the measuring device 100.

Looking at the algorithm and calculation method for analyzing the exercise record of the user transmitted from the measuring device 100 to the management server 130 according to the present invention as follows.

First, the criteria for the analysis of exercise record, exercise prescription, and nutrition prescription are defined as follows, and the maximum heart rate, target heart rate, calorie consumption, METs, and maximum oxygen intake are calculated using the defined formula.

* The maximum heart rate is calculated using Equation 1 below.

[Equation 1]

Max HR = 220-Age

The maximum HR is a standard maximum heart rate formula, but it can be observed in detail by time zone, maximum during exercise, and a specific section.It can be higher than the maximum heart rate and lower, but it can be displayed as a percentage of the maximum heart rate. There is also.

* The target heart rate is calculated using Equation 2 below.

[Equation 2]

Target heart rate = maximum heart rate / 85

In general, the target heart rate is set in a hospital, because people with heart disease can be considered dangerous. This function is to monitor your exercise record, to remember the exercise intensity of your target heart rate and to induce safe exercise.

* Calorie consumption is calculated using the following equation (3).

&Quot; (3) "

kcal / min = 0.00094 x counts / min + 0.1346 x body mass in kg-7.37418

It can be calculated using the accelerometer's count value, weight and constant, which is called Freedson's equation. This formula allows you to find calories burned per minute and calories burned during exercise.

* METs are calculated using the following equation (4).

&Quot; (4) "

kcal / min = METs x 3.5 (constant) x body weight in kg / 200 (constant)

This is a common way to get calories burned.

In order to calculate calorie consumption, the present invention uses an accelerometer sensor, but the Mets value can be obtained through this formula to calculate the Mets value.

* Maximum oxygen intake is calculated using the following equation (5).

[Equation 5]

VO2max (ml / kg / min) = Mets x 3.5

The anaerobic threshold (AT) is calculated using Equation 6 below.

&Quot; (6) "

AT = 0.7 (Max HR-Rest HR) + Rest HR

Where Max HR stands for 220-age and Rest HR stands for the lowest heart rate after the start of exercise (except HR at bedtime)

Aerobic threshold (AeT) is calculated using Equation 7 below.

[Equation 7]

AT = 0.5 (Max HR-Rest HR) + Rest HR

Where Max HR stands for 220-age and Rest HR stands for the lowest heart rate after the start of exercise (except HR at bedtime)

Next, the detailed criteria of the exercise intensity defined in the management server 130 according to the present invention are as follows, these criteria are used in the exercise record analysis, exercise prescription and the like.

* Very strong: Physical activity meter counter above 9498 or above 9.0 Mets

* Strong: Physical Activity Meter Counter 5725 ~ 9498 or 6.0 ~ 8.99 Mets

* Normal: Physical Activity Counter 1953 ~ 5724 or 3.0 ~ 5.99 Mets

* Light weight: Physical activity meter counter 101 ~ 1952 or below 2.99 Mets

* Very light: less than 100 physical activity counter

The exercise level result is then calculated as follows.

The measured maximum oxygen uptake (VO2 max) value is compared based on the data published by the National Sports Promotion Agency, and is displayed in an easy-to-understand manner based on age group, age group and gender. Table 1 and Table 2 are the maximum oxygen intake standards (Vo2 Max) published by the National Institute of Sports Science (Vo2 Max) (unit: ml / kg / min).

man Very bad Bad usually good Very good -19 years old 36.1 or less 36.2-39.7 39.8-46.7 46.8-54.2 54.3 or higher 20's 35.5 or less 35.6-42.0 42.1-49.3 49.4-56.4 56.4 or higher 30s 33.8 or less 33.9-38.5 38.6-44.0 44.1-49.7 49.8 or more 40 spaces 32.1 or less 32.3-36.7 36.8-42.3 42.4-47.3 47.4 or later 50 spaces 28.8 or less 28.9-33.8 33.9-39.8 39.9-44.7 44.8 or more 60s 23.1 or less 23.2-27.8 27.9-33.3 33.4-35.4 35.5 or more

Woman Very bad Bad usually good Very good -19 years old 24.9 or less 25.0-30.4 30.5-35.5 35.6-40.9 41.0 or more 20's 29.5 or less 29.6-33.1 32.2-38.2 38.3-44.4 44.5 or more 30s 27.7 or less 27.8-31.4 31.5-35.6 35.7-40.1 40.2 or more 40 spaces 25.8 or less 25.9-29.6 29.7-33.8 33.9-37.9 38.0 or more 50 spaces 23.4 or less 23.5-27.3 27.4-31.2 31.3-35.5 35.6 or more 60s 20.5 or less 20.6-23.4 23.5-28.6 28.7-30.7 30.8 or more

* AT Peak Vo2

70 and above: Athletes, 50-60: Normal, 50 and below: Poor

* METs: ÷ 3.5

Furthermore, the management server according to the present invention may be configured to set a target exercise zone through the user's maximum oxygen intake value, and provide it to the user. Target exercise area is calculated based on heart rate and calories burned per hour.

1. Low exercise intensity (fat burning): In this zone, the body uses aerobic energy sources completely. This zone is best for local combustion. The heart and lungs easily supply the oxygen needed for activity. (Before Rest HR ~ AeT)

2. Normal exercise intensity (endurance): This zone increases the intensity of exercise, the body increases the amount of anaerobic energy required. The body can stay at this level for a long time until fatigue occurs (AeT to AT).

3. High exercise intensity (heart strengthening): In this zone, the body depends heavily on anoxic energy sources. You will quickly build up a debt of oxygen to your body. You won't be able to maintain this intense level of activity for a long time (AT-above target heart rate).

On the other hand, looking at the criteria, algorithms, calculation formulas, etc. for providing a permanent prescription in the management server 130 according to the present invention, as follows.

The formula of basal metabolic rate in nutritional prescription is calculated using Equation 8 below.

[Equation 8]

Men: 66.47 + (13.75 x Weight) + (5 x Height)-(6.76 x Age)

Woman: 655.1 + (9.56 x Weight) + (1.85 x Height)-(4.68 x Age)

When the user manipulates the user terminal 110 using Equation 8 and transmits the diet ingested that day to the management server 130, the management server 130 uses the same to calculate the daily calorie consumption and the basic metabolic amount of the user. Prescribe nutrition on grounds. Of course, the next day can also be configured to prescribe the recommended diet to the user. In order to perform this function, related information such as calorie information for each food is provided in the management server 130 as a database.

In addition, the management server 130 according to the present invention can provide the user with the weight loss zone and weight maintenance zone prescription through the energy balance results. That is, the weight management zone is set according to the calorie intake based on the estimated basal metabolism.

'Base metabolism (A) + daily calorie consumption (B) = total calorie consumption (C) per day', where daily calorie consumption is calculated for each activity (e.g., cleaning, laundry, walking for several minutes, badminton) When the chart is provided to the user and the user selects an activity corresponding to the user from the provided list by manipulating the user terminal 110, the management server 130 calculates the total calorie consumption of the user using the same.

The calorie intake (D) is calculated based on the diet eated that day, and as described above, if the management server 130 provides the food list to the user, and the user selects the food corresponding to the diet he ingested from the provided list, Using this method, the management server 130 calculates the calorie intake of the user.

The following is an example of the weight management zone classification determined according to the criteria as described above and provided to the user and the information actually provided to the user.

1.weight gain zone (C <D)

 "The weight gain zone can confuse you. When you eat too much, your metabolism moves too hard to burn off that excess calorie. As a result, your weight will build up very slowly. You may be able to maintain this excess weight by eating much more.When you try to lose weight, you may need to lose a large amount of calories as usual to reach the weight loss zone across the weight maintenance zone. There is."

2. Weight maintenance zone (C = D or CD)

"Ingestion in weight-holding zones teaches you what it feels like to" eat to your metabolism. "It should be a very comfortable and satisfying lifestyle, and it's about learning how to get the nutrients exactly as your body requires I mean. "

3. Weight loss zone (C> D)

"The weight loss zone means you can eat more, but you lose weight by consuming nutrients in your body. Your body will be healthy, happy and satisfied. When your diet feels so good, Imagine your success! "

As described above, the management server 130 according to the present invention is a 'physical activity index graph display', 'heart rate variability graph display', 'lossy arrhythmia display', 'respiratory variability graph' to the user through the above-described process Display ',' Show temperature change graph ',' Monitoring calorie consumption hourly '' Monitoring hyperactivity disorder of children (method of activity analysis) ',' Monitoring sleep disorder (method of sleep activity analysis) ',' Total It provides the number of steps, and at the same time provide exercise prescription information and nutrition prescription information to the user to function to achieve a comprehensive and multi-faceted health care.

3 is a flowchart illustrating an operation process of a biometric information monitoring system using a portable biometric information monitoring apparatus according to an exemplary embodiment of the present invention. With reference to the accompanying Figure 2 will be described in detail the operation of the biometric information monitoring system using a portable biometric information monitoring apparatus according to an embodiment of the present invention.

First, the inspector (user) attaches the measuring device 100 according to the present invention to a designated position before starting the exercise such as hiking (S200).

After attaching the measuring device, when the tester starts to exercise (S210), the measuring device 100 measures the user's heart rate, respiratory rate, skin temperature, physical activity, position, altitude, distance, speed, and travel time during the exercise. (S220 to S238).

When the examiner ends the exercise, the measuring device stores the measured exercise information and the biometric information and ends the process once (S240). The exercise information and the biometric information may be stored in a large number by the tester's exercise date and time, and after the exercise is finished, the user may load and view the stored exercise record.

In addition, as described above, the measurement apparatus 100 may be connected to the user terminal 110 to transmit the stored exercise record, and the exercise record may be analyzed or monitored through the user terminal 110 (S250).

In addition, if the exercise record stored in the measuring device 100 is transmitted to the management server 130 by the measuring device 100 itself or the user terminal 110, the management server 130 based on the received exercise record exercise Performs the process of prescription, nutrition prescription, exercise plan establishment, and transmits the exercise prescription information, nutrition prescription information, exercise plan information, etc. calculated as a result of the process to the user terminal 110 to provide to the user (S260 to S266) ).

It will be apparent to those skilled in the relevant art that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. The appended claims are to be considered as falling within the scope of the following claims.

100: measuring device 110: user terminal
120: administrator server

Claims (7)

In the biometric information monitoring device for measuring and storing the biometric information and the exercise information of the user during exercise,
It is portable and measures / saves at least one or more exercise information of the user's moving distance, moving time, and moving speed, and measures at least one or more biometric information among physical activity, heart rate, respiratory rate, skin temperature, posture, and heart rate variability. Portable biometric information monitoring device characterized in that the storage.
The method of claim 1,
The portable biometric information monitoring device,
An input unit configured to receive a user's operation and output a control signal;
An exercise information measuring unit configured to measure a user's location and altitude, and measure / store a moving distance, a moving time, and a moving speed of the user by using the measured location information and altitude information;
A biometric information measuring unit which measures / stores biometric information of a user during exercise using a sensor;
A display unit which outputs related information in a process of measuring / storing exercise information and biometric information; And
Portable biometric information monitoring device comprising a storage unit for storing the measured exercise information and biometric information.
The method of claim 2,
The exercise information measuring unit,
A GPS module for measuring location information of a user using a GPS system;
A digital altimeter for measuring altitude information of the user; And
And an exercise information measuring module configured to calculate / store a moving distance, a moving time, and a moving speed of the user by using the position information output from the GPS module and the altitude information output from the digital altimeter according to the control signal output from the input unit. ,
The biometric information measuring unit,
A physical activity measuring device which measures and outputs a physical activity of a user;
A heart rate meter for measuring and outputting a heart rate of the user;
A thermometer that detects and outputs a user's body temperature using an infrared sensor;
A respiratory rate detector for detecting and outputting a respiratory rate of a user using a respiration sensor; And
Measuring biometric information to measure / store physical activity information, heart rate information, body temperature information, respiratory rate information by controlling the physical activity measuring device, the heart rate measuring device, the temperature monitor, and the respiratory rate measuring device according to a control signal output from the input unit. Portable biometric information monitoring device comprising a module.
The method of claim 3,
The biometric information measuring module uses the measured heart rate information to calculate and store heart rate variability information and lossless arrhythmia information.
A portable biometric information monitoring device according to any one of claims 1 to 4, comprising: a portable biometric information monitoring device for outputting measured exercise information and biometric information to a connected user terminal; And
And a user terminal connected to the portable biometric information monitoring device and receiving exercise information and biometric information output from the monitoring device and analyzing the exercise record.
The method of claim 5,
The user terminal transmits the input exercise information and the biometric information to the management server through a network, and transmits at least one or more information of exercise prescription information, nutrition prescription information, predictive exercise record information, and cardiac abnormality information transmitted from the management server. Receive and output,
The biometric information monitoring system,
Receives / stores exercise information and biometric information transmitted from the user terminal, and uses at least one of exercise prescription information, nutrition prescription information, predicted exercise record information, and cardiac abnormality information using the received user's exercise information and biometric information. And a management server for generating information and transmitting the generated information to the user terminal.
The method according to claim 5 or 6,
The user terminal is a biological information monitoring system, characterized in that the mobile communication terminal.

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