KR20170024773A - Smart walking system and method for operating smart walking system - Google Patents

Abstract

A smart walking system and a method for operating the smart walking system are disclosed. The smart walking system according to an embodiment of the present invention comprises: an obtaining unit for obtaining body data related to a user, who is walking using the walking device, as the walking device is operated for a predetermined first time; an calculation unit for calculating a standard calorie according to the body data, and determining a target calorie, by adjusting the standard calorie based on at least one history data about the user; and a controller for setting customized walking information for consuming the target calorie, and controlling operation of the walking device according to the customized walking information.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart walking system and a smart walking system,

The present invention relates to a smart device that can control the operation of the walking device in accordance with personal data of a user using a walking device and personalized walking information set based on at least one medical history data, A walking system, and a smart walking system.

The present invention also provides a smart walking system and a smart walking system operating method capable of detecting whether the walking is actually performed in accordance with the set personalized walking information and correcting the walking of the user deviating from the personalized walking information, .

Recently, as the importance of exercise for diet and health care has become more important, there are more and more people who exercise together such as health, bicycle, swimming and mountain climbing in busy life.

As a part of the universalization project for sports culture facilities, a cultural center equipped with various sports facilities has been established, and many people have been able to select various exercises suitable for their inclination and hobbies in a relatively nearby place in their leisure time. However, Walking '(' Walking ') is recommended by many experts as it is a health-effective exercise without giving the crowd.

Walking is one of the most basic exercises that anyone can do regardless of time and place. Especially, it is one of the most popular exercise for patients who are discomforted by surgery.

As mentioned above, the importance of walking is recognized by everyone, but in the case of a screening institution, it is merely recommended to walk a lot and exercise a lot, and the guide for the proper walking is not presented to the user. The walking is performed by setting the target such as the time or the distance, the course, and the number of times of walking (for example, twice a week).

On the other hand, a product has been developed and commercialized to monitor and monitor the calories, steps, walking distance, and time consumed during walking so that users can adjust their own momentum by themselves. However, , But this also could not tell us how to walk according to the user's health condition.

Accordingly, there is a demand for a technique capable of inducing a user to take a proper walking in consideration of the health condition of the user.

The embodiment of the present invention determines the target calories to be consumed by walking using the walking device based on the body data related to the user using the walking device and at least one medical history data, And the walking of the user is controlled by controlling the operation of the walking device in accordance with the user's health condition.

Further, in the embodiment of the present invention, an abnormal symptom is detected from a user's walking state information collected through a sensor installed in a walking device and visualized or aloud by voice to determine whether the actual walking is performed in accordance with the set customized walking information, And corrects the user's walking that deviates from the personalized walking information, thereby inducing a correct walking.

It is another object of the present invention to provide a walker that is operated in accordance with the personalized walking information, thereby inducing accurate and sustainable walking by a user to help maintain health and improve obesity.

The smart walking system according to an embodiment of the present invention includes an obtaining unit that obtains body data related to a user who walks using the walking device as the walking device is operated for a predetermined first time, Calculating a standard calorie according to at least one history data related to the user and determining the target calorie by adjusting the standard calorie based on at least one history data about the user, and setting the personal gait information for consuming the target calorie, And a control unit for controlling the operation of the walking device according to the walking information.

According to another aspect of the present invention, there is provided a method for operating a smart walking system, comprising the steps of: acquiring body data related to a user who is walking using the walking device as the walking device is operated for a first predetermined time; Determining a target calorie by calculating a standard calorie according to body data and adjusting the standard calorie based on at least one history data related to the user, and setting customized walking information for consuming the target calorie And controlling the operation of the walking device in accordance with the personalized walking information.

According to an embodiment of the present invention, a target calorie to be consumed through walking using the walking device is determined based on body data related to a user using the walking device and at least one medical history data, By controlling the operation of the walking device in accordance with the personal walking information, it is possible to induce a walking suitable for the health state of the user.

According to an embodiment of the present invention, an abnormal symptom is detected from a user's walking state information collected through a sensor installed in a walking device, visualized or aloud by voice, so that walking is actually performed in accordance with the set personal walking information It is possible to correct the walking of the user who deviates from the personalized walking information to induce a correct walking.

According to an embodiment of the present invention, a walking device operated according to the personalized walking information can induce accurate and sustainable walking by the user, thereby helping maintain health and improve obesity.

1 is a diagram showing the overall connection relationship between a smart walking system and a walking device, a user terminal, and an EMR system according to an embodiment of the present invention.
2 is a block diagram illustrating an internal configuration of a smart walking system according to an embodiment of the present invention.
3 is a diagram showing an example of determining a target calorie to be consumed by using a walking device according to a health state of a user.
4 is a diagram showing an example of setting the personal walking information for consuming the target calorie.
Fig. 5 is a view showing an example of detecting an abnormal symptom from the walking state information collected through the sensor installed in the walking device and an example of the walking device.
FIG. 6 is a table showing a motion angle and a motion type according to a heart rate.
FIG. 7 is a table showing a method of exercise according to the exercise intensity according to the exercise self-angle.
8 is a flowchart illustrating a procedure of a smart walking system operating method according to an embodiment of the present invention.

Hereinafter, an apparatus and method for updating an application program according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

1 is a diagram showing the overall connection relationship between a smart walking system and a walking device, a user terminal, and an EMR system according to an embodiment of the present invention.

Referring to FIG. 1, the smart walking system 100 according to an embodiment of the present invention includes a walking device 110 and a walking device 110. The walking device 110 is operated for a predetermined first time (e.g., 5 minutes) The body data of the user who is walking can be obtained.

Here, the first time is a time during which the preparatory gait is performed before starting the full-scale gait using the gait device 110, for example, fixed within '5 minutes' from the start of operation of the gait device 110 Or may be flexibly selected from the time of starting the operation to the time from when the user requests a walking start. In addition, the first time may be selected as a time at which the user's first step (e.g., 'left foot') is performed from the operation start time, and the second step after the first step (e.g., 'Right foot') may be selected.

The smart walking system 100 may be configured to provide the smart walking system 100 with the user's body data (e.g., height, weight, muscle mass, etc.) and personal data (e.g., From a user terminal 120 connected via a short-range wireless communication (eg, Bluetooth communication, Wi-Fi communication, etc.).

In addition, the smart walking system 100 may obtain at least one history data about the user from an EMR (Electronic Medical Record) system 130. Here, the EMR system 130 may be a system for computerizing, managing, and storing all the information of the patient such as personal information, history, health status, diagnosis, hospitalization and discharge record recorded on a paper chart in a medical institution.

The smart walking system 100 may calculate the standard calories according to the body data and determine the target calories by adjusting the standard calories to suit the health condition of the user based on at least one history data about the user have.

For example, the smart walking system 100 calculates an obesity degree (BMI) '28.4 'using' height 157cm 'and' body weight 70kg 'in the body data and calculates a standard calorie' 600 kcal ' can do. At this time, the smart walking system 100 preliminarily calculates a standard calorie corresponding to each obesity degree to prepare a table as shown in (iii) of FIG. 3, and obtains a standard calorie '600 kcal' corresponding to the obesity degree '28.4 ' .

Here, the standard calorie may be a standard value that is calculated on the basis of a normal person who has no history having an obesity degree of '28.4', which is a calorie value recommended to be consumed by walking using the walking device 110.

The smart walking system 100 adjusts the standard calorie to a predetermined value of '200 kcal' considering the history data 'mild obesity' and adjusts the standard calorie to a predetermined value '100 kcal' considering the history data 'hypertension' and 'arthritis' The target calorie '500 kcal' to be consumed by walking using the walking device 110 can be determined in accordance with the health state of the user.

At this time, the smart walking system 100 may determine that the user's exercise capacity is relatively high, and adjust the standard calorie value to a predetermined value '50 kcal' if the user's age is '20 vs. male' through the personal data .

The smart walking system 100 includes at least one of a total walking distance, a walking speed, a walking time (second time), a stride and a walking posture (arm operation) as customized walking information for consuming the target calorie , And the operation of the walking device 110 can be controlled in accordance with the personalized walking information.

The smart walking system 100 may collect the walking state information about the user who is walking using the walking device 110 for the second time period through the sensor installed in the walking device 110, It is possible to determine whether or not the actual walking is performed in accordance with the personalized walking information.

For example, in the smart walking system 100, if the stride in the walking state information is narrower than the stride in the personal walking information, the walking speed in the walking state information is lower than the walking speed in the personal walking information, The abnormality can be detected from the walking state information when the walking pattern is different from the walking pattern by a predetermined number of times or when the pressures of both feet of the user in the walking state information are different from each other.

The smart walking system 100 may control the walking device 110 to calibrate the user to visualize the walking state information in which the abnormality is detected, or to notify by voice.

For example, the smart walking system 100 visualizes the walking state information "decrease stride: increase stride by 10 cm" in which an abnormality is detected in a display module provided in the walking device 110, Quot; the pressure of both feet is different "through the speaker provided in the driver ' s ' 110. Alternatively, the smart walking system 100 may blink a sensor or the like installed on the sensor to visually inform the walking state information "decrease in stride " in which an abnormal symptom is detected.

In addition, the smart walking system 100 grasps a walking habit (gait pattern) from the walking state information of the user who has walked using the walking device 110 during the first time, It can help to correct the wrong walking habits of the user.

Here, the walking device 110 is an apparatus that operates in accordance with the control of the smart walking system 100 to guide the user to a proper walking, and may be, for example, a form of various mechanisms such as a walking aiding device, . ≪ / RTI > The walking device 110 may be manufactured in the form of a foot plate as shown in FIG. 5 (i) or may be made of a wearable device (for example, shoes) and set according to the foot dimensions of the user.

The smart walking system 100 searches the database for a walking route corresponding to the total walking distance in the personalized walking information starting from the user's residence data and provides it to the user terminal 120, May be recommended to the user terminal 120. [0064] FIG.

As described above, according to the embodiment of the present invention, by controlling the operation of the walking device in accordance with the user's body data using the walking device and the customized walking information set based on the at least one history data, The user can be guided to a suitable walking.

2 is a block diagram illustrating an internal configuration of a smart walking system according to an embodiment of the present invention.

2, the smart walking system 200 according to an exemplary embodiment of the present invention may include an acquisition unit 210, an operation unit 220, and a control unit 230. Referring to FIG. Also, according to the embodiment, the smart walking system 200 can be configured by adding the sensing unit 240 and the database 250, respectively.

The acquiring unit 210 acquires body data related to the user who is walking using the walking device as the walking device is operated for the first predetermined time. Here, the walking device is a device for inducing a user to walk properly, and may be implemented in various forms such as a walking aiding device, a walking correction device, or a fitness device.

That is, the acquiring unit 210 can acquire the body data for setting the personalized walking information of the user during the first time (for example, '5 minutes') during which the preparation for walking using the walking device is performed. Here, the first time may be selected as the time at which the user's first step (e.g., 'left foot') is performed from the start time of the operation of the walking device.

For example, the acquiring unit 210 acquires, from the user terminal (e.g., smart phone or the like) connected through short-range wireless communication (e.g., Bluetooth communication, Wi-Fi communication, etc.) At least one of body height, body weight, body fat, muscle mass, body water content and skeletal body mass of the subject can be obtained.

In addition, the acquiring unit 210 may acquire at least one history data regarding the user from the EMR system. Here, the EMR system can be a system for computerizing and managing and storing all the patient's information such as personal information, history, health status, diagnosis, hospitalization and discharge record recorded on a paper chart in a medical institution.

The calculating unit 220 calculates a standard calorie according to the body data, and determines the target calorie by adjusting the standard calorie based on at least one history data about the user.

For example, when the at least one chronic disease of hypertension, diabetes and arthritis is identified as the history data, the calculating unit 220 may calculate the standard calorie based on the degree of obesity calculated using the body data, The target calorie can be determined by adjusting the standard calorie by adjusting the severity of the disease.

Specifically, the calculating unit 220 calculates an obesity degree (BMI) by using the height and weight in the body data, and calculates a standard calorie to be consumed by walking using the walking device 110 in accordance with the obesity degree have. The calculating unit 220 can previously calculate a standard calorie corresponding to each degree of obesity and prepare a table as shown in (iii) of FIG.

For example, referring to FIG. 3, the calculation unit 220 calculates an obesity degree (BMI) '28.4 'using' height 157cm 'and' body weight 70kg 'in body data, and calculates a standard calorie' 600 kcal 'can be identified in the table.

At this time, the calculating unit 220 can determine the target calorie by adjusting the standard calorie calculated on the basis of the healthy normal healthy person having no medical history, according to the health state of the user based on the medical history data. In addition, when the obesity is confirmed as the history data, the arithmetic unit 220 can increase the standard calorie according to the degree of obesity and determine the target calorie by adjusting the standard calorie.

For example, the operation unit 220 adjusts the standard calorie '600 kcal' to a predetermined value '200 kcal' in consideration of the history data 'hypertension' and 'arthritis', and adjusts the standard calorie according to the 'obesity' The target calorie '500 kcal' can be confirmed by adjusting the constant value '100 kcal'.

According to the embodiment, when more personal data about the user is obtained from the user terminal through the acquisition unit 210, the operation unit 220 may further calculate the movement capacity based on the age and sex of the user in the personal data And the target calorie can be determined by adjusting the standard calorie.

For example, when the user's age is '20 vs. male' through the personal data, the controller 230 determines that the user's exercise capacity is relatively high, and adjusts the standard calorie by a predetermined value '50 kcal' Calories can be confirmed.

The control unit 230 sets the personal walking information for consuming the target calorie, and controls the operation of the walking device in accordance with the personal walking information.

For example, the control unit 230 may include at least one of a total walking distance for consuming the target calorie, a walking speed according to the total walking distance, and a second time (walking time) for continuing the walking, Walk information can be set.

At this time, when the 'walking' is selected by the user, the controller 230 decreases the walking speed to a designated value, increases the second time to satisfy the total walking distance, Can be set. Alternatively, when 'power-walking' is selected by the user, the control unit 230 may increase the walking speed to a specified value, decrease the second time to satisfy the total walking distance, The personal walking information can be set.

For example, referring to FIG. 4, the controller 230 determines '7 km' as a total walking distance for consuming the target calorie '500 kcal', and changes the walking speed and the second time to 7 km / h ',' 1 hour ', and the personalized walking information can be set.

At this time, when 'walking' is selected by the user, the controller 230 lowers the walking speed to the designated value '5 km / h', and adjusts the second time to ' 1 hour, 25 minutes' to set the personalized walking information.

If the user selects 'power walking', the controller 230 raises the walking speed to the designated value '7 km / h' and sets the second time to '1' to satisfy the total walking distance Time " to set the personalized walking information.

Also, the controller 230 may determine the stride length in consideration of at least one of the walking speed and the user's height, sex, and age, and may include the personal walking information. At this time, the control unit 230 can increase or decrease the stride rate based on the exercise capacity according to the user's sex and age.

For example, when 'walking' is selected and the walking speed is' 5 km / h ', the controller 230 calculates the stride by subtracting the designated value '95 cm' from the user's height '157 cm' 62 cm ', or when the' power walking 'is selected and the walking speed is' 7 km / h', the stride is calculated by subtracting the specified value '90 cm' from the user's height '157 cm' '67 cm' can be determined.

In addition, the control unit 230 may include the correct walking posture (arm operation, foot land, body balance, etc.) in the customized walking information.

According to the embodiment, the control unit 230 determines the stride suitable for the user in consideration of the height and foot dimensions of the user in the body data of the user using the walking device, and selects the stride and the 'walking' or 'power walking' The walking speed can be determined accordingly. When the stride and the walking speed are determined, the controller 230 can determine the total walking distance by determining the second time (walking time) for continuing the walking in consideration of the age (age range) of the user. The control unit 230 may set the personal walking information including the determined stride, walking speed, second time, and total walking distance.

For example, the control unit 230 may determine the second time as '30 to 32 minutes' when the user is in the twenties, and may determine the value obtained by multiplying the second time by the walking speed as the total walking distance. Alternatively, the control unit 230 may determine the second time as '18 to 22 minutes' when the user is 50, and may determine the value obtained by multiplying the second time by the walking speed as the total walking distance. At this time, the control unit 230 may determine the total walking distance excluding the prepared walking distance.

The control unit 230 can control the operation of the walking device according to the personalized walking information, thereby guiding the user to the optimal walking state using the walking device.

According to an embodiment, the smart walking system 200 may further include a sensing unit 240.

The sensing unit 240 collects the walking state information about the user through a sensor installed on the walking device and detects an abnormal symptom from the walking state information based on the personal walking information.

The walking device may be manufactured, for example, as a wearable device in the form of a shoe, or may be manufactured in a stepped shape.

For example, referring to FIG. 5 (ii), a walking device 500 manufactured in a stepped shape is provided with a plurality of horizontal line sensors 504, 505, and 506 for detecting whether the user is walking in accordance with the step width of the personalized walking information And a plurality of vertical line sensors 509, 510 for detecting whether the user's foot is moving forward without a widening or the walking posture is not inclined. A pressure sensor may be installed in the space between the vertical line sensors 509 and 510 to detect whether the pressure applied from both feet of the user is balanced.

The sensing unit 240 quantitatively measures whether or not the user is normally walking based on the personal walking information through the sensors provided on the walking device so that the stride in the walking state information becomes narrower than the walking width of the personal walking information, (For example, "five times") or the pressure of both feet of the user in the walking state information is different from each other, or the walking speed is lower than the walking speed in the personal walking information, If it is different, an abnormal symptom can be detected from the walking state information.

The control unit 230 may control the walking device to calibrate the user to visualize the walking state information in which the abnormality is detected, or notify by voice.

For example, the control unit 230 may display the walking state information "decrease stride: increase the stride by 10 cm " in which an abnormality is detected in the display module provided in the walking device, Blinking, and visually informing the user of the walking state information "decrease stride" in which an abnormal symptom is detected.

Further, the controller 230 outputs the voice of the walking state information "the pressure of both feet is different ", which is detected by the speaker provided in the walking device, or blinks the corresponding vertical line sensor installed on the walking device, It is possible to visually notify that the user's walking posture is inclined because the pressure of both feet is different due to the detected walk condition information.

In addition, according to the embodiment, the sensing unit 240 senses whether the shape of the user's body or foot is different from the vertical line sensor, and when the control unit 230 is different from the vertical line sensor a plurality of times The operation of the walking device may be stopped.

5 (iii), the sensing unit 240 may be configured such that the left leg of the user leaves the vertical line sensor 509 and the right leg of the user is out of the vertical line sensor 510 It can detect whether or not it is. The control unit 230 can control to stop the operation of the walking device when it is different, for example, five or more times.

At this time, the control unit 230 may transmit the walking state information, in which the personal walking information and the anomaly signs are detected, to the user terminal, and visualize the walking state information through the walking application executed by the user terminal.

In addition, when the heart rate data received from the wearable device (e.g., heart rate monitor) worn by the user exceeds a predetermined level, the controller 230 determines that the walking is an anaerobic exercise, The walking speed in the personal walking information can be lowered.

For example, referring to the table 600 shown in FIG. 6, when the received heart rate data '145' of the received user exceeds a certain level '140', the controller 230 determines that the current walking of the user is anaerobic And the walking device can be controlled according to the lowered walking speed by reducing the walking speed in the personal walking information to 7 km / h to 3.5 km / h in order to switch to the aerobic exercise.

In addition, the controller 230 controls the walking (walking) of the user based on the RPE (Rating of Perceived Exertion) indicating the degree of difficulty of the user walking at the walking speed of '6 km / h' If it is judged that the anaerobic exercise is performed, the walking speed can be lowered to 3 km / h for the conversion to aerobic exercise, and the walking device can be controlled according to the lowered walking speed.

In addition, when the user uses the walking device different from the walking device, the controller 230 acquires the personalized walking information stored in the user terminal through the obtaining unit 210, and controls the operation of the walking device Control.

According to an embodiment, the smart walking system 200 may further include a database 250. [ The control unit 230 retrieves a walking route corresponding to the total walking distance in the personalized walking information, from which the user's residence data is based, from the database 250 in which information on the walking route is maintained, .

For example, the control unit 230 retrieves from the database 250 a recommendation and a recommendation to the user terminal by searching the database 250 for the walking path 'walking path' corresponding to the user's residence data 'Gwanak-gu Cheonglim-dong' and the total walking distance '9 km' , It is possible to induce the user to walk or power walk the walking path that can be expected to have a walking effect close to the target calorie at the time of walking using the walking device.

At this time, the control unit 230 further provides the contents related to the walking route to the user terminal, thereby visualizing the contents along with the walking route through the walking application in the user terminal. Thus, Shops, food and beverages, etc. can be easily recommended.

Also, the control unit 230 may share the personalized walking information with other terminals, and provide a walking path recommended by the other terminals to the user terminals.

Specifically, the control unit 230 maintains information on the walking path requested to be shared by the other terminals in the database 250, and calculates a walking distance in the vicinity of the user's residence data as a total walking distance in the customized walking information And provide it to the user terminal.

In addition, the controller 230 may share information on the personalized walking information of the user and information on the walking path actually routed by the user with other terminals, and participate in the group ranking by using the information on the personalized walking information and the walking path.

As described above, according to the embodiment of the present invention, the target calories to be consumed by walking using the walking device based on the body data related to the user using the walking device and the at least one medical history data are determined, It is possible to induce walking suitable for the health state of the user by controlling the operation of the walking device in accordance with the personalized walking information set in accordance with the information.

According to an embodiment of the present invention, an abnormal symptom is detected from a user's walking state information collected through a sensor installed in a walking device, visualized or aloud by voice, so that walking is actually performed in accordance with the set personal walking information It is possible to correct the walking of the user who deviates from the personalized walking information to induce a correct walking.

According to an embodiment of the present invention, a walking device operated according to the personalized walking information can induce accurate and sustainable walking by the user, thereby helping maintain health and improve obesity.

According to the embodiment, the smart walking system 200 according to the embodiment of the present invention acquires body data related to a user who is walking using the walking device as the walking device is operated for a predetermined first time An arithmetic unit 220 for calculating a standard gait value according to the body data, and an adjustment unit 220 for setting custom gait information for consuming the standard gait value, based on at least one history data about the user, And a controller 230 for controlling the operation of the walking device according to the personal walking information.

3 is a diagram showing an example of determining a target calorie to be consumed by using a walking device according to a health state of a user.

Referring to FIG. 3, as the preparatory walking using the walking device is performed for the first time (for example, '5 minutes'), the smart walking system displays user information including body data, 3 (i).

The smart walking system calculates the obesity index (BMI) '28.4 'as shown in (ii) of FIG. 3 using' height 157cm 'and' body weight 70kg 'in the body data and calculates the standard calorie' 600 kcal Can be identified in the table for the standard calories calculated corresponding to the respective degrees of obesity shown in (iii) of FIG.

At this time, the smart walking system can determine the target calorie by adjusting the standard calorie calculated on the basis of the healthy normal person without a medical history to suit the health condition of the user based on the history data.

That is, the smart walking system adjusts the standard calorie '600 kcal' to a certain value '200 kcal' in consideration of the history data 'hypertension' and 'arthritis', and adjusts the standard calorie to a certain value according to the 'obesity' 100 kcal ', and the target calorie' 500 kcal 'can be confirmed.

4 is a diagram showing an example of setting the personal walking information for consuming the target calorie.

Referring to FIG. 4, the smart walking system sets the total walking distance '7 km' as the personal walking information for consuming the target calorie '500 kcal', sets the walking speed '7 km / h' The time can be set to include '1 hour'.

In this case, when the 'walking' is selected by the user, the smart walking system lowers the walking speed to the designated value '5 km / h' and adjusts the second time to '1 hour' to satisfy the total walking distance ' 25 minutes' to set the personalized walking information.

Also, when 'power walking' is selected by the user, the smart walking system raises the walking speed to the designated value '7 km / h', and the second time is set to '1 hour' to satisfy the total walking distance And the personal walking information can be set.

In the case of 'Walking' is selected and the walking speed is' 5 km / h ',' 65 cm ', which is the subtraction calculation value of the designated value '95 cm' at the user's height '157 cm' cm ', or when the' power walking 'is selected and the walking speed is' 7 km / h', the value '90 cm' designated at the user's height '157 cm' You can set the stride by subtracting '67 cm '.

In addition, the smart walking system can include the right walking posture (arm operation, footing site, body balance, etc.) in the personalized walking information.

Fig. 5 is a view showing an example of detecting an abnormal symptom from the walking state information collected through the sensor installed in the walking device and an example of the walking device.

Referring to FIG. 5, the smart walking system can control the walking device 500, which is manufactured in the form of footsteps, according to the personal walking information, thereby guiding the walking according to the user's health condition.

In one embodiment, the walking device 500 may be manufactured in a size of "width: 60 to 65 cm, length 150 to 180 cm, height 15 to 20 cm" as shown in (i) of FIG. 5, And can be set in consideration of the foot dimensions of the user.

A plurality of horizontal line sensors 504, 505, and 506, a plurality of vertical line sensors 509 and 510, and a pressure sensor may be installed in the walking device 500.

Each of the horizontal line sensors 504, 505, and 506 can detect whether the user is actually walking in accordance with the set walking width of the personalized walking information.

Each of the vertical line sensors 509 and 510 can detect whether the user's legs are moving forward without widening and whether the walking posture is not tilted.

The pressure sensor is installed in a space where a user's foot is located between the vertical line sensor 509 and the vertical line sensor 510 and detects whether the pressure is balanced from the two feet 502, Function.

The smart walking system includes a horizontal line sensor 504 on which both feet 501 of the user are stepped on while occupying the walking device 500 and a horizontal line sensor 504 on which the horizontal lines 502, The stride of the user can be sensed by using the sensors 505 and 506. That is, the smart walking system senses the preparation stride 507 at an interval between the horizontal line sensor 504 and the horizontal line sensor 505 and detects the preparation stride 507 at an interval between the horizontal line sensor 505 and the horizontal line sensor 506 508).

The smart walking system compares whether the walking stride 508 matches the stride in the personal walking information, and can detect whether the user is walking normally. At this time, the smart walking system determines that the user's foot, which is to be walked by the horizontal line sensors 504, 505, and 506 while walking, exceeds a distance of about 3.5 cm from the corresponding horizontal line sensors 504, 505 and 506, , An abnormal symptom related to an increase in stride can be detected.

In this case, the smart walking system visually informs the user of an abnormal symptom related to an increase in stride by blinking the corresponding horizontal line sensor in which an abnormal symptom is detected, and notifies the user of an abnormal symptom through a speaker.

FIG. 6 is a table showing a motion angle and a motion type according to a heart rate.

Referring to FIG. 6, when the heart rate data received from a wearable device (e.g., heart rate monitor) worn by a user exceeds a predetermined level, the smart walking system determines that the user's walking is an anaerobic exercise, It is possible to control the walking device so as to lower the walking speed.

For example, referring to the table 600 showing the kinetic perception angle (RPE) and the exercise type according to the heart rate, the smart walking system calculates the heart rate of the user according to the received heart rate data '145' , The current walking of the user is determined to be an anaerobic exercise, and the walking speed in the personal walking information is decreased to 7 km / h, to 3.5 km / h in order to switch to the aerobic exercise, Can be controlled.

In addition, if the walking of the user is determined to be an anaerobic exercise as the exercise self-angle representing the degree of difficulty of the user to walk in the table 600 exceeds the reference value '14' in the table 600, The walking speed can be lowered from '6 km / h' to '3 km / h', and the walking device can be controlled according to the lowered walking speed.

FIG. 7 is a table showing a method of exercise according to the exercise intensity according to the exercise self-angle.

Referring to the table 700 showing the exercise method according to the exercise intensity according to the exercise angle shown in FIG. 7, the smart walk system calculates the exercise amount of the user using the walking device when the exercise self- It can be judged as a high intensity motion. Accordingly, in order to lower the motion angle of the user to '10 to 12' at the time of low intensity exercise, the smart walking system calculates the walking speed in the customized walking information, the walking speed 3 'corresponding to the' slow walking ' To ~ 3.5 km / h 'to control the walking device.

Hereinafter, the work flow of the smart walking system 200 according to the embodiments of the present invention will be described in detail with reference to FIG.

8 is a flowchart illustrating a procedure of a smart walking system operating method according to an embodiment of the present invention.

The smart walking system operating method according to the present embodiment can be performed by the smart walking system 200 described above.

Referring to FIG. 8, in step 810, the smart walking system 200 acquires body data related to a user who is walking using the walking device as the walking device is operated for a predetermined first time.

For example, the smart walking system 200 may perform short-range wireless communication (e.g., Bluetooth communication, Wi-Fi communication, etc.) due to the operation of the walking device during a first time (e.g., 5 minutes) Body data of at least one of the user's height, body weight, body fat, muscle mass, body water amount and skeleton amount, and age, sex, residence data, telephone number, and membership of the user from a user terminal (e.g., smart phone or the like) At least one piece of personal data of the number can be obtained. In addition, the smart walking system 200 may obtain at least one history data about the user from the EMR system.

In step 820, the smart walking system 200 computes a standard calorie according to the body data and determines the target calories by adjusting the standard calories based on at least one history data about the user.

For example, referring to FIG. 3, the smart walking system 200 calculates an obesity degree (BMI) '28.4 'using' height 157cm 'and' weight 70kg 'in body data, and calculates the standard calorie '600 kcal' can be calculated.

The smart walking system 200 can determine the target calorie by adjusting the standard calorie calculated on the basis of the physical healthy normal person without a medical history to suit the health condition of the user based on the medical history data.

For example, the smart walking system 200 adjusts the standard calorie '600 kcal' to a predetermined value '200 kcal' in consideration of the history data 'hypertension' and 'arthritis' You can fix the target calorie '500 kcal' by adjusting the calorie value to '100 kcal'.

In step 830, the smart walking system 200 sets the personal walking information for consuming the target calorie, and controls the operation of the walking device in accordance with the personal walking information.

For example, the smart walking system 200 includes at least one of a total walking distance for consuming the target calorie, a walking speed according to the total walking distance, and a second time (walking time) for continuing the walking, The personalized walking information can be set.

For example, referring to FIG. 4, the smart walking system 200 determines '7 km' as a total walking distance for consuming the target calorie '500 kcal', and sets the walking speed and the second time to 7 km / h ', and' 1 hour ', so that the personalized walking information can be set.

At this time, when the 'walking' is selected by the user, the smart walking system 200 lowers the walking speed to the designated value '5 km / h' and the second time to satisfy the total walking distance '7 km' 1 hour, 25 minutes', and the personalized walking information can be set. In addition, when 'power walking' is selected, the smart walking system 200 raises the walking speed to a designated value '7 km / h' and decreases the second time to '1 hour' to satisfy the total walking distance , And can set the personalized walking information.

In addition, the smart walking system 200 may determine the stride length in consideration of the walking speed and at least one of the user's height, sex, and age, and may include the personal walking information. At this time, the smart walking system 200 may determine the pace by increasing or decreasing the pace on the basis of the exercise capacity according to the user's sex and age.

In addition, the smart walking system 200 can include a correct walking posture (arm operation, footing, body balance, etc.) in the personalized walking information.

In step 840, the smart walking system 200 collects the walking state information about the user through the sensor installed on the walking device. In step 850, the smart walking system 200 acquires the personal walking information , It is determined whether an abnormal symptom is detected from the walking state information.

For example, the smart walking system 200 quantitatively measures whether or not the user is normally walking based on the personal walking information through the sensors provided on the walking device, so that the stride in the walking state information becomes narrower than the walking width of the personal walking information , The moving speed in the walking state information is lower than the walking speed in the personalized walking information or the number of times the user's foot touches the sensor is equal to or greater than the predetermined number (for example, five times) When the pressures of the feet are different from each other, an abnormal symptom can be detected from the walking state information.

As a result of the determination in step 850, if an abnormal symptom is detected, the smart walking system 200 controls the walking device to calibrate the user's walking, visualizes the walking state information in which an abnormal symptom is detected, And notifies by voice (step 860).

For example, the smart walking system 200 may display the walking state information "decrease stride: increase the stride by 10 cm " in which an abnormality is detected in the display module provided in the walking device, By flashing the sensor, it is possible to visually notify the walking state information "decrease stride" in which an abnormal symptom is detected.

In addition, the smart walking system 200 outputs the voice of the walking state information "the pressure of both feet is different ", which is detected by the speaker provided in the walking device, or blinks the corresponding vertical line sensor installed on the walking device , It is possible to visually notify that the user's walking posture is inclined because the pressure of both feet is different due to the walk condition information in which an anomaly is detected.

In addition, according to the embodiment, the smart walking system 200 senses whether or not the user's body or foot is different from the shape of each vertical line sensor. When the shape of the user is different from the vertical line sensor plural times, You can also control to stop the operation.

5 (iii), the smart walking system 200 may be configured such that the left foot of the user leaves the vertical line sensor 509, and the form in which the right foot of the user leaves the vertical line sensor 510 It is possible to detect whether or not the vehicle is different, and to control the operation of the walking device to be stopped when the difference is five or more, for example.

As described above, according to the embodiment of the present invention, the target calories to be consumed by walking using the walking device based on the body data related to the user using the walking device and the at least one medical history data are determined, It is possible to induce walking suitable for the health state of the user by controlling the operation of the walking device in accordance with the personalized walking information set in accordance with the information.

The method according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

200: Smart walking system
210: acquiring unit 220:
230: Control section 240:
250: Database

Claims (16)

An obtaining unit that obtains body data related to a user who is walking using the walking device as the walking device is operated for a first predetermined time;
An arithmetic unit operable to calculate a standard calorie according to the body data and to determine a target calorie by adjusting the standard calorie based on at least one history data about the user; And
A control unit for setting the personal walking information for consuming the target calorie and controlling the operation of the walking device in accordance with the personalized walking information,
The system comprising: The method according to claim 1,
Wherein the obtaining unit comprises:
Body data of at least one of the height, weight, body fat, muscle mass, body mass and skeleton of the user from the user terminal connected through short-range wireless communication as the walking device is operated for the first time
Smart walking system. The method according to claim 1,
The operation unit,
Calculating the standard calories based on the degree of obesity calculated using the body data,
Wherein when the chronic disease of at least one of hypertension, diabetes, and arthritis is identified as the history data, the target calorie is determined by adjusting the standard calorie according to the severity of the chronic disease
Smart walking system. The method of claim 3,
As the history data, when obesity is confirmed,
The operation unit,
And the target calorie is determined by adjusting the standard calorie according to the degree of obesity
Smart walking system. The method according to claim 1,
When more personal data about the user is obtained through the acquiring unit,
The operation unit,
Determining the target calorie by adjusting the standard calorie based on the exercise capacity according to the age and sex of the user in the personal data
Smart walking system. The method according to claim 1,
Wherein,
And setting at least one of a total walking distance for consuming the target calorie, a walking speed according to the total walking distance, and a second time for continuing the walking,
Smart walking system. The method according to claim 6,
Wherein,
Determining a stride length in consideration of the walking speed and at least one of an elongation, a sex and an age of the user,
Smart walking system. The method according to claim 6,
When 'walking' is selected by the user,
Wherein,
Lowering the walking speed to a specified value, increasing the second time to satisfy the total walking distance, and setting the personalized walking information
Smart walking system. The method according to claim 6,
When 'Power Walking' is selected by the user,
Wherein,
Raising the walking speed to a specified value, decreasing the second time to satisfy the total walking distance, and setting the personalized walking information
Smart walking system. The method according to claim 1,
And a controller for collecting gait information about the user through a sensor provided in the gait device and detecting an abnormal symptom from the gait state information on the basis of the personal gait information,
Further comprising:
Wherein,
Controlling the walking device to calibrate the user's walking, visualizing the walking state information in which the abnormality is detected,
Smart walking system. 11. The method of claim 10,
Wherein,
The walking state information in which the personal walking information and the anomaly are detected is transmitted to the user terminal and visualized through the walking application executed by the user terminal
Smart walking system. The method according to claim 1,
When the heart rate data received from the wearable device worn by the user exceeds a certain level,
Wherein,
Determining the walking as an anaerobic exercise and lowering the walking speed in the personalized walking information for switching to aerobic exercise
Smart walking system. The method according to claim 1,
Wherein,
Searches the database for a walking route corresponding to the total walking distance in the personalized walking information, from which the user's residence data is the starting point,
Smart walking system. Acquiring body data related to a user who is walking using the walking device as the walking device is operated for a first predetermined time;
Calculating a standard calorie according to the body data and establishing a target calorie by adjusting the standard calorie based on at least one history data about the user; And
Setting the personal walking information for consuming the target calorie and controlling the operation of the walking device in accordance with the personalized walking information
The method comprising: 15. The method of claim 14,
Wherein the step of controlling the operation of the walking device comprises:
Setting at least one of a total walking distance for consuming the target calorie, a walking speed according to the total walking distance, and a second time for continuing the walking,
The method comprising: 15. The method of claim 14,
Collecting gait information about the user through a sensor installed on the gait device and detecting an abnormal symptom from the gait information based on the personalized gait information; And
Controlling the walking device to calibrate the user's walking, visualizing the walking state information in which an abnormal symptom is detected, or notifying by voice
Further comprising the steps of:

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