KR20190081941A - System and method for heart rehabilitation exercize using mobile device and wireless electrocardiogram sensor - Google Patents

Abstract

Provided are a cardiac rehabilitation exercise system and a method thereof using a wireless electrocardiogram sensor and a mobile device. A method, in which a mobile device provides exercise content by using a step-based exercise apparatus and a wireless electrocardiogram sensor, includes: a step of connecting nearfield wireless communication and a step-based exercise apparatus communicatively coupled to a wireless electrocardiogram sensor; a step of connecting nearfield wireless communication and a wireless electrocardiogram sensor communicatively coupled to the step-based exercise apparatus; a step of receiving exercise content based on health state of a user from a server managing cardiac rehabilitation exercise of the user; a step of receiving user input information from the step-based exercise apparatus to perform the received exercise content; a step of receiving electrocardiogram sensing information generated by the wireless electrocardiogram sensor from the wireless electrocardiogram sensor in real time; a step of providing the received electrocardiogram sensing information to the server; a step of receiving exercise content modified by the server based on the provided sensing information from the server; and a step of performing the modified exercise content. The present invention may effectively monitor current state of the user, prevent a dangerous situation, and induce smooth rehabilitation exercise.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cardiac rehabilitation exercise system and method using a wireless electrocardiographic sensor and a mobile device,

The present disclosure relates to a cardiac rehabilitation exercise system and method using a wireless electrocardiogram sensor and a mobile device, and more particularly, to a system and method for managing a cardiac rehabilitation exercise of a user based on sensing information of a wireless electrocardiographic sensor and processing of a mobile device .

As society becomes more and more industrialized, people's diet and average life expectancy increase, the prevalence and morbidity of cerebrovascular diseases including atherosclerosis are increasing.

As the incidence of cerebrovascular disease increases, it is important that persons exposed to cardiovascular diseases improve self - management ability and perform regular exercise continuously to prevent the prevention and recurrence of cerebrovascular diseases.

Accordingly, there is an increasing interest in exercise prescription and exercise prescription management that induces regular and appropriate exercise for disease prevention and chronic disease management, and provides exercise prescription suitable for the user's body characteristics or health condition, There is a demand for a technique for inducing and managing a user to perform exercise suitable for exercise prescription by using a mobile device.

KR 10-2003-0012836 A

Some embodiments relate to a cardiac rehabilitation exercise system using a wireless electrocardiographic sensor and a mobile device, which can guide a user's exercise by effectively reflecting a state of a user's electrocardiogram by interlocking with a wireless electrocardiogram sensor, a mobile device, Method can be provided.

In addition, some embodiments provide a wireless electrocardiogram sensor and a wireless card which can effectively monitor the current state of a user and guide a smooth rehabilitation exercise while preventing a dangerous situation by utilizing sensed information generated by a wireless electrocardiogram sensor worn by a user A cardiac rehabilitation exercise system and method using a mobile device can be provided.

In some embodiments, a cardiac rehabilitation exercise system and method using a wireless electrocardiograph sensor and a mobile device that can effectively manage a user's exercise state in consideration of a case where a user wearing a wireless ECG sensor leaves the exercise apparatus Can be provided.

As a technical means for achieving the above-mentioned technical object, a first aspect of the present disclosure relates to a wireless communication device, comprising: a short-range wireless communication connection with a step-based exercise device communicatively coupled to a wireless electrocardiograph sensor; Connecting the wireless electrocardiogram sensor communicatively coupled to the step-based exercise device to a near field wireless communication; Receiving exercise content based on the health state of the user from a server managing a cardiac rehabilitation exercise of the user; Receiving user input information from the step-based exercise device and executing the received exercise content; Receiving in real time the electrocardiogram sensing information generated by the wireless ECG sensor from the wireless ECG sensor; Providing the received electrocardiogram sensing information to the server; And receiving from the server the exercise content modified by the server based on the provided sensing information; And performing the modified exercise content, wherein the mobile device provides a method of providing exercise content using a step-based exercise device and a wireless electrocardiograph sensor.

Further, a second aspect of the present disclosure is a display device comprising: a display; A communication unit for establishing communication with an external device; A storage for storing at least one instruction for executing exercise content for a cardiac rehabilitation exercise of a user; Based exercise device in communication with a wireless electrocardiograph sensor by connecting to a wireless electrocardiograph sensor communicating with the step-based exercise device and short-range wireless communication by connecting the step-based exercise device communicating with the wireless electrocardiograph sensor by executing the at least one instruction, Based on the user's health state, receiving user input information from the step-based exercise device and executing the received exercise content from a server managing the cardiac rehabilitation exercise of the cardiac rehabilitation exercise, Receives the electrocardiogram sensing information generated by the server in real time from the wireless ECG sensor and provides the received ECG sensing information to the server and outputs the exercise content modified by the server to the server based on the provided sensing information And the modified luck Processor for executing the content; containing, there can be provided a mobile device for providing motion-based content using a step-motion device and a wireless electrocardiogram sensor.

The third aspect of the present disclosure can also provide a computer-readable recording medium for causing a computer to execute the method of the first aspect.

1 is a diagram illustrating an example of a health management system using a wireless ECG sensor according to some embodiments.
FIG. 2 is a flowchart of a method for a mobile device according to some embodiments to manage a movement of a user in cooperation with a wireless electrocardiograph sensor, a step-based exercise device, and a health information management server 2000.
3 is a detailed flowchart of a method of guiding a user's movement in real time using wireless electrocardiographic sensing information in a health management system according to some embodiments.
4 is a flowchart of a method for guiding a user's rest and exercise resumption in accordance with a user's electrocardiogram state in a health management system according to some embodiments.
FIG. 5 is a flow diagram of a method by which a mobile device 3000 in accordance with some embodiments determines whether a user is disengaging.
6 is a flow chart of a method in a health care system according to some embodiments, in which a mobile device 3000 warns a user wearing a wireless electrocardiograph sensor to leave the step-based exercise device.
FIGS. 7 and 8 are views showing an example in which the mobile device 3000 according to some embodiments displays a screen for guiding the rest and movement of the user.
9 and 10 are views showing an example in which the mobile device 3000 according to some embodiments displays guidance information for preventing communication disconnection from the wireless electrocardiogram sensor 4000. [
11 is a diagram showing an example of questionnaire information for use by a mobile device according to some embodiments to diagnose a user's health condition.
12 is a diagram illustrating an example of an information table for managing a user's type of exercise and exercise intensity according to a user's disease according to some embodiments.
13 is a block diagram of a mobile device 3000 in accordance with some embodiments.
14 and 15 are diagrams illustrating a step-based exercise device 1000 according to some embodiments.
16 is a block diagram of a health information management server according to some embodiments.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another part in between . Also, when an element is referred to as "comprising ", it means that it can include other elements as well, without departing from the other elements unless specifically stated otherwise.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an example of a health management system using a wireless ECG sensor according to some embodiments.

Referring to FIG. 1, the health management system may include a step-based exercise device 1000, a health information management server 2000, a mobile device 3000, and a wireless electrocardiograph sensor 4000.

In the healthcare system, the user may exercise on the step-based exercise device 1000 according to the exercise content provided through the mobile device 3000 with the wireless electrocardiograph sensor 4000 attached thereto, and the mobile device 3000 It is possible to receive the electrocardiographic sensing information related to the electrocardiogram of the user from the wireless electrocardiogram sensor 4000 in real time and provide it to the health information management server 2000.

The health information management server 2000 receives the user's electrocardiographic sensing information from the mobile device 3000 and can manage the movement of the user and the mobile device 3000 receives the information provided from the health information management server 2000 The information for guiding the movement of the user can be displayed on the screen. The mobile device 3000 may manage the movement of the user in cooperation with the health information management server 2000. However, the mobile device 3000 is not limited to this, and may manage the movement of the user himself / herself by using the information received from the health information management server 2000 You may.

If the user wearing the wireless electrocardiogram sensor 4000 moves out of the step-based exercise device 1000 during the exercise, the mobile device 3000 determines that the user has left the step-based exercise device 1000, To provide an alarm and guide the user's movement.

In addition, the step-based exercise device 1000 may be a predetermined input device and may be in communication with the mobile device 3000 to allow the user to depress the step-based exercise device 1000 by stepping on the step- And provide the generated input information to the mobile device 3000.

The wireless electrocardiogram sensor 4000 is attached to a user's body, and can generate electrocardiographic sensing information by sensing a user's electrocardiogram in real time, and can transmit the generated electrocardiographic sensing information to another device through wireless communication.

The health information management server 2000 can provide the mobile device 3000 with information on the user's body and exercise prescription information so that the user can perform appropriate exercise. The mobile device 3000 may execute exercise content that induces a user's exercise and may recommend exercise content suitable for the user's physical condition, health condition, and exercise prescription, and may exercise the exercise game.

The mobile device 3000 may interoperate with the step-based exercise device 1000, the health information management server 2000 and the wireless electrocardiogram sensor 4000 and may be a smart phone, a tablet PC, a PC, a smart TV, , A personal digital assistant (PDA), a laptop, a media player, a microserver, a global positioning system (GPS) device, an electronic book terminal, a digital broadcast terminal, a navigation device, a kiosk, an MP3 player, a digital camera, Computing device, but is not limited thereto. In addition, the mobile device 3000 may be a wearable device such as a watch, a pair of glasses, a hair band, and a ring having a communication function and a data processing function. However, the present invention is not limited to this, and the mobile device 3000 may include all kinds of devices capable of transmitting and receiving data through the network with the step-based exercise device 1000, the health information management server 2000, and the wireless electrocardiogram sensor 4000 .

1 may be connected to each other through a network. The network may be a local area network (LAN), a wide area network (WAN), a value added network (VAN), a mobile communication network a mobile radio communication network, a satellite communication network, and a mutual combination thereof, and is a data communication network in a comprehensive sense that allows each of the network constituent members shown in FIG. 1 to communicate smoothly with each other. And a mobile wireless communication network. In addition, the wireless communication may be performed by a wireless communication system such as Wi-Fi, Bluetooth, Bluetooth low energy, ZigBee, Wi-Fi Direct, UWB, Data Association, Near Field Communication (NFC), and the like.

1, the wireless electrocardiograph sensor 4000 and the step-based exercise device 1000 are described as being connected to the health information management server 2000 via the mobile device 3000, but the present invention is not limited thereto. At least one of the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000 may be directly communicated with the health information management server 2000. [ In this case, the health information management server 2000 receives the user's electrocardiogram sensing information from the wireless electrocardiogram sensor 4000, and the health information management server 2000 transmits information about the user's motion progress state to the step-based exercise device 1000 As shown in Fig.

FIG. 2 is a flowchart of a method for a mobile device according to some embodiments to manage a movement of a user in cooperation with a wireless electrocardiograph sensor, a step-based exercise device, and a health information management server 2000.

In operation S200, the mobile device 3000 can communicate with the wireless electrocardiograph sensor 4000 in communication. The mobile device 3000 may execute a motion management application for the user's motion and may log in to the executed motion management application. Also, the mobile device 3000 can connect the communication with the wireless electrocardiograph sensor 4000 through short-range communication using the function of the exercised exercise management application. For example, the mobile device 3000 can communicate with the wireless electrocardiogram sensor 4000 through BLE communication, NFC communication, and Bluetooth communication, but is not limited thereto. The mobile device 3000 can search the wireless electrocardiogram sensor 4000 and form a communication with the wireless electrocardiographic sensor based on the user's selection input.

In operation S210, the mobile device 3000 can communicate with the step-based exercise device 1000 in communication. The mobile device 3000 may communicate with the step-based exercise device 1000 using a motion management application for the user's motion. The mobile device 3000 can use the functions of the exercise management application to connect communications with the step-based exercise device 1000 through short-range communication. For example, the mobile device 3000 may communicate with the step-based exercise device 1000 through BLE communication, NFC communication, and Bluetooth communication, but is not limited thereto.

In operation S220, the mobile device 3000 may execute the exercise content received from the health information management server 2000. [ The mobile device 3000 can provide the user ID to the health information management server 2000, receive the exercise guide information from the health information management server 2000, and receive the predetermined exercise content based on the received exercise guide information Can be executed. The exercise content may be executed by the exercise management application.

In operation S230, the mobile device 3000 may receive user input information from the step-based exercise device 1000. [ The mobile device 3000 may receive the user's step input for the progress of the exercise content from the step-based exercise device 1000 while executing the exercise content. A predetermined user input signal may be generated when the user steps on the step-based exercise device 1000 on the step-based exercise device 1000 and the mobile device 3000 transmits the generated user input signal to the step-based exercise device 1000 As shown in Fig.

In operation S240, the mobile device 3000 may receive the electrocardiographic sensing information from the wireless electrocardiogram sensor 4000. [ The wireless electrocardiogram sensor 3000 can measure the electrocardiogram of the user in real time and provide the measured electrocardiogram sensing information to the mobile device 3000. [

In operation S250, the mobile device 3000 may provide the received health information to the health information management server 2000, such as the received electrocardiogram sensing information and the user's exercise progress status information. The user's motion progress status information may include information about how much the user performed the exercise through the exercise content, information on the input operation inputted by the user during the exercise, and the like.

In operation S250, the mobile device 3000 may receive the modified exercise guide information from the health information management server 2000. [ The health information management server 2000 may modify the exercise guide information for guiding the user's exercise based on the electrocardiographic sensing information and the exercise progress status information received from the mobile device 3000. [ The mobile device 3000 can also receive the exercise guide information modified by the health information management server 2000 from the health information management server 2000. [

3 is a detailed flowchart of a method of guiding a user's movement in real time using wireless electrocardiographic sensing information in a health management system according to some embodiments.

At operation S300, the mobile device 3000 performs user login and displays the questionnaire information used to diagnose the health status of the user. The mobile device 3000 may execute an exercise application for managing a user's exercise using the electrocardiograph sensing information, and may perform a user login through the exercised exercise application. Further, as the exercise application is executed, the mobile device 3000 can display the questionnaire information for diagnosing the health state of the user as shown in FIG. 11, and receive the answer input of the user responding to the questionnaire.

In step S305, the mobile device 3000 communicates with the wireless electrocardiographic sensor 4000. In step S310, the step-based exercise device 1000 and the wireless ECG sensor 4000 communicate with each other. In step S315, (3000) can communicate with the step-based exercise device (1000). The mobile device 3000 may include a communication connection between the mobile device 3000 and the wireless ECG sensor 4000, a communication connection between the mobile device 3000 and the step-based exercise device 1000 and a wireless ECG sensor 4000 and a step- A GUI for communication connection between the devices 1000 can be displayed on the screen. In addition, the mobile device 3000 can control the mobile device 3000, the wireless electrocardiograph sensor 4000 and the step-based exercise device 1000 such that the communications are formed according to user input through the GUI displayed on the screen have.

Meanwhile, the communication connection between the wireless electrocardiograph sensor 4000 and the step-based exercise device 1000 may be omitted. In this case, the implementation of the present disclosure for managing the user's movement based on the communication connection between the mobile device 3000 and the wireless ECG sensor 4000, and the communication connection between the mobile device 3000 and the step- Examples can be implemented.

It is further contemplated that the communication connection between the mobile device 3000 and the wireless ECG sensor 4000, the communication connection between the mobile device 3000 and the step-based exercise device 1000 and the wireless ECG sensor 4000 and the step- The communication connection between the base station and the base station can be performed through short-range wireless communication.

In operation S320, the mobile device 3000 provides questionnaire information including a user ID and a user's answer to the health information management server 2000. In operation S325, the health information management server 2000 transmits the questionnaire information of the user, Health information and exercise prescription information. The user ID may be an ID registered by the user in the health information management server 2000 in order to receive the exercise management service. The user ID may include, but is not limited to, for example, a predetermined character string, an e-mail address, and a telephone number. The health information management server 2000 can acquire health information and exercise prescription information of the user stored in the DB based on the user ID. The health information of the user may include, for example, information about the user's disease and the precautions related to the user's illness. In addition, the exercise prescription information may indicate a feature of a prescribed exercise to a user and may include, for example, a user's health condition, a calorie amount that the user should consume for a specific period, exercise time suitable for the user, And the like.

In addition, the health information management server 2000 can generate motion guide information for guiding a user's motion using health information, exercise prescription information, and questionnaire information of the user.

In operation S330, the health information management server 2000 may provide the mobile device 3000 with exercise guide information. For example, the health information management server 2000 may provide the mobile device 3000 with information on the exercise content to recommend to the user to guide the user's exercise. In addition, for example, the health information management server 2000 may provide information to the mobile device 3000 to adjust exercise intensity during exercise of the exercise content. In addition, for example, the health information management server 2000 may provide the mobile device 3000 with information on the user's disease and precautions related to the user's exercise.

At operation S335, the mobile device 3000 may execute exercise content suitable for the user based on the exercise guide information. The mobile device 3000 can select and execute one of the recommended exercise contents from the health information management server 2000 based on the exercise guide information, and can adjust the exercise intensity of the exercise content.

Alternatively, the mobile device 3000 may receive the user's health information and exercise prescription information from the health information management server 2000, and the mobile device 3000 may determine the recommended exercise content and determine the exercise intensity.

The bit information of the music or moving picture used in the exercise content can be determined according to the exercise intensity and the mobile device 3000 can exercise the exercise game based on the determined bit information. The bit information may include a bit per minute (BPM) information of a music or a moving picture. The bit information may include, for example, information on how the bits of the music change according to the playing time of the music. The bit information may include, for example, information on the bit rate of each music reproduction section. In addition, the bit information may include information on the step rate that varies with the reproduction section of the music as the music is reproduced. In addition, the intensity of the exercise of each piece of music can be determined based on the speed of each bit of each section included in the bit information.

In operation S340, the health information management server 2000 can determine the heart rate band related to the user's motion based on the health information of the user and the exercise prescription information. The health information management server 2000 can determine the exercise intensity of the exercise to be performed by the user based on the user's disease and the exercise prescription diagnosed by the user. In addition, the health information management server 2000 can determine the heart rate band that the user should maintain during exercise based on the determined exercise intensity.

In operation S345, the wireless electrocardiogram sensor 3000 may provide the electrocardiograph sensing information to the mobile device 3000 in real time. In operation S350, the mobile device 3000 transmits the received electrocardiogram sensing information to the health information management server 2000 Can be provided in real time. The health information management server 2000 can display the received electrocardiogram sensing information on the electrocardiogram monitoring screen and manage the exercise of the user.

In operation S355, the health information management server 2000 can monitor the electrocardiogram of the user based on the heart rate band. The health information management server 2000 can configure the electrocardiogram monitoring screen based on the heart rate band. The electrocardiogram monitoring screen displays a graph for managing at least one of the electrocardiogram and the heart rate, the current heart rate of the user, And information about the items to be managed with care. Accordingly, the manager of the health information management server 2000 can effectively check the user's exercise condition.

Meanwhile, the health information management server 2000 can automatically monitor the electrocardiogram of the user according to a predetermined criterion, apart from providing the electrocardiogram monitoring screen. In this case, a criterion for monitoring the electrocardiogram of the user based on the health information of the user, the exercise guide information, the electrocardiogram sensing information of the user, or the like may be preset through a predetermined algorithm.

In operation S360, the health information management server 2000 may modify the exercise guide information based on the electrocardiogram of the user. The health information management server 2000 can modify the exercise guide information so that the user can finish the exercise safely and efficiently based on the electrocardiograph sensing information and the exercise progress information received in real time.

For example, the health information management server 2000 may include information for changing the recommended exercise content, information for adjusting the exercise intensity of the user, guide information for providing notes to the user, heart rate guide information, Guide information for inducing the rest of the exercise guide information may be included in the modified exercise guide information. The heart rate guide information may be information for guiding the user to check his / her current heart rate during exercise and adjust the exercise according to the current heart rate state. The heart rate guide information may include, for example, information for guiding the user whether to exercise with a higher intensity, a lower intensity, or to take a rest.

In operation S365, the health information management server 2000 provides the modified motion guide information to the mobile device 3000, and in operation S370, the mobile device 3000 can adjust the exercise intensity based on the modified motion guide information. The mobile device 3000 may display at least some of the modified motion guide information on the screen and may adjust the exercise intensity of the currently performed exercise content based on the modified motion guide information.

In operation S375, the health information management server 2000 may inform the mobile device 3000 of a heart rate warning. The health information management server 2000 may request the mobile device 3000 to output a warning in order to provide an alarm to the user when the heart rate of the user or the condition of the electrocardiogram is poor. The health information management server 2000 may request the mobile device 3000 to output a warning when the heart rate of the user or the state of the electrocardiogram exceeds the heart rate band.

In operation S380, the mobile device 3000 may output heart rate warning information. The mobile device 3000 may display information for warning the heart rate condition on the screen or output a predetermined alarm sound. Accordingly, the user can leave the step-based exercise device 1000 to temporarily stop the exercise and take a rest.

4 is a flowchart of a method for guiding a user's rest and exercise resumption in accordance with a user's electrocardiogram state in a health management system according to some embodiments.

In operations S400, S405, and S410, the step-based exercise device 1000, the wireless electrocardiograph sensor 4000, and the mobile device 3000 can communicate with each other.

In operation S415, the mobile device 3000 may output heart rate warning information. The mobile device 3000 may display information for warning the heart rate condition on the screen or output a predetermined alarm sound. The heart rate warning information may include, but is not limited to, information for notifying the user that rest is necessary, for example.

In operation S420, the mobile device 3000 may detect that the user leaves the step-based exercise device 1000. [ The user may leave the step-based exercise device 1000 to temporarily stop the exercise and take a rest, and the mobile device 3000 may not be able to perform step-based exercise as the user is weakened or disconnected from the wireless electrocardiogram sensor 4000 It can be discriminated that it has left the exercise device 1000.

The step-based exercise device 1000 may also identify a user's departure and provide information to the mobile device 3000 that the user has left the step-based exercise device 1000. For example, if the user wearing the wireless electrocardiograph sensor 4000 leaves the step-based exercise device 1000 with the mobile device 3000, the step-based exercise device 1000 senses the user's departure And informs the mobile device 3000 of this.

In this case, the step-based exercise device 1000 may determine that the user is detached from the step-based exercise device 1000, for example, using a predetermined sensor in the step-based exercise device 1000. [ Alternatively, for example, if the step-based exercise device 1000 determines that there is no user input action for a predetermined time in the step-based exercise device 1000, it may determine that the user is detached from the step- Based on the signal strength with the wireless electrocardiograph sensor 3000, the step-based exercise device 1000 may also determine that the user is disengaged from the step-based exercise device 1000. [

In operation S425, the mobile device 3000 can notify the health information management server 2000 of the user's departure, and in operation S430, the mobile device 3000 can suspend the execution of the exercise content.

In operation S435 and operation 440, the electrocardiograph sensing information may be transmitted from the wireless ECG sensor 3000 to the health information management server 2000 in real time via the mobile device 3000. [

In operation S445, the health information management server 2000 can monitor the user's electrocardiogram recovery state. The health information management server 2000 can continuously receive the user's electrocardiograph sensing information through the mobile device 3000 after the user leaves the step-based exercise device 1000. [ Accordingly, the health information management server 2000 can continuously monitor the ECG state of the user who is resting even after the user leaves the step-based exercise device 1000, thereby monitoring the ECG recovery state of the user.

In operation S450, the health information management server 2000 may request the mobile device 3000 to output an alarm for restarting the exercise. In operation S455, the mobile device 3000 may instruct the user to restart the exercise Can be output.

FIG. 5 is a flow diagram of a method by which a mobile device 3000 in accordance with some embodiments determines whether a user is disengaging.

In operation S500, the mobile device 3000 can monitor the communication strength between the mobile device 3000 and the wireless ECG sensor. The mobile device 3000 can measure the communication intensity between the mobile device 3000 and the wireless ECG sensor according to a predetermined period.

In operation S510, the mobile device 3000 may monitor the communication strength between the mobile device 3000 and the step-based exercise device 1000. [ The mobile device 3000 can measure the communication intensity between the mobile device 3000 and the step-based exercise device 1000 according to a predetermined period.

In operation S520, the mobile device 3000 may receive information on the communication strength between the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000. [ The mobile device 3000 can receive information on the communication strength between the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000 from the step-based exercise device 1000 according to a predetermined period.

In operation S530, the mobile device 3000 may determine whether the user has left the step-based exercise device 1000. [

If the user leaves the step-based exercise device 1000 with the mobile device 3000 installed in the vicinity of the step-based exercise device 1000, the mobile device 3000 can move the mobile device 3000, Based on the communication intensity between the sensors, it is possible to determine whether or not the user is disengaged from the exercise.

If the user removes the installed mobile device 3000 and leaves the step-based exercise device 1000 while staying in the user's body, the mobile device 3000 moves the mobile device 3000 and the step-based exercise device 1000 Based on the communication strength between the user and the user.

In addition, the user can determine whether the user is disengaged from the exercise based on the information about the communication strength between the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000 received from the step-based exercise device 1000. [

6 is a flow chart of a method in a health care system according to some embodiments, in which a mobile device 3000 warns a user wearing a wireless electrocardiograph sensor to leave the step-based exercise device.

In the operations S600, S605 and S610, the step-based exercise device 1000, the wireless electrocardiographic sensor 4000, and the mobile device 3000 can communicate with each other.

In operation S615, the wireless electrocardiogram sensor 4000 can provide the mobile device 3000 with electrocardiographic sensing information in real time.

In operation S615, the mobile device 3000 can detect that the communication intensity with the wireless electrocardiogram sensor 4000 is weaker than a predetermined value. If the user moves away from the step-based exercise device 1000 and moves away from the step-based exercise device 1000, the communication strength between the mobile device 3000 and the wireless ECG sensor 3000 may be weaker than a predetermined value.

In operation S625, the mobile device 3000 may output a first warning that the wireless electrocardiogram sensor 4000 is likely to be out of the communication range. The user can maintain wireless communication between the wireless electrocardiogram sensor 4000 and the mobile device 3000 even if the user leaves the step-based exercise device 1000 for rest. Accordingly, the mobile device 3000 can continuously monitor the electrocardiograph state of the user even during a break of the user.

The communication connection between the wireless electrocardiograph sensor 4000 and the step-based exercise device 1000 may be disconnected in operation S630 and the communication connection between the wireless electrocardiograph sensor 4000 and the step-based exercise device 1000 may be disconnected in operation S635 have. When the user wearing the wireless electrocardiogram sensor 4000 moves away from the step-based exercise device 1000 and the mobile device 3000, the communication between the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000, (4000) and the mobile device (3000) may be disconnected.

In operation S640, the mobile device 3000 may output a second warning informing that the wireless electrocardiogram sensor 4000 is out of the communication range. Accordingly, after the user leaves the step-based exercise device 1000 for a rest, communication with the mobile device 3000 is disconnected, thereby minimizing the duration of a situation in which the user's electrocardiogram sensing information is not monitored.

The communication connection between the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000 can be resumed in step S645 and the communication between the wireless electrocardiogram sensor 4000 and the step-based exercise device 1000 can be resumed in step S650 . After that, the health information management server 2000 and the mobile device 3000 can manage the movement of the user in consideration of the communication disconnection period with the wireless ECG sensor 4000.

FIGS. 7 and 8 are views showing an example in which the mobile device 3000 according to some embodiments displays a screen for guiding the rest and movement of the user.

7, the mobile device 3000 receives a warning from the health information management server 2000 and displays the text " Excessive exercise intensity is required and rest is required " As shown in FIG. Through this, the mobile device 3000 can guide the user in motion to the need for rest.

8, the mobile device 3000 receives a request to resume exercise from the health information management server 2000 and, in order to guide the user to resume exercise, the heart rate has stabilized. Please restart the exercise "text on the screen. Through this, the mobile device 3000 can inform the resting user that the exercise needs to be resumed.

9 and 10 are views showing an example in which the mobile device 3000 according to some embodiments displays guidance information for preventing communication disconnection from the wireless electrocardiogram sensor 4000. [

9, if it is determined that the user with the wireless electrocardiogram sensor 4000 moves away from the mobile device 3000 and the possibility of the wireless electrocardiogram sensor 4000 to deviate from the communication range with the mobile device 3000, The device 3000 can display on the screen the text " the user is moving away from the step-based exercise device " in order to prevent communication disconnection between the wireless electrocardiogram sensor 4000 and the mobile device 3000. [ In addition, the mobile device 3000 may output a sound indicating that the wireless electrocardiogram sensor 4000 is likely to be out of the communication range with the mobile device 3000.

10, when the user with the wireless electrocardiogram sensor 4000 moves away from the mobile device 3000 and it is determined that the wireless electrocardiogram sensor 4000 is out of the communication range with the mobile device 3000, Quot; has lost communication with the wireless electrocardiograph sensor " in order to reconnect the communication between the wireless electrocardiogram sensor 4000 and the mobile device 3000. [ Please return to the exercise equipment "text on the screen. Also, the mobile device 3000 can output a sound informing that the wireless electrocardiogram sensor 4000 is out of the communication range with the mobile device 3000.

11 is a diagram showing an example of questionnaire information for use by a mobile device according to some embodiments to diagnose a user's health condition.

Referring to FIG. 11, the mobile device 3000 may perform a user login through an exercise application, and may display the questionnaire information as shown in FIG. 11 on the screen after user login. In addition, the mobile device 3000 may receive the input of the user's response to the questionnaire information, and may provide the questionnaire information including the user's answer to the health information management server 2000.

12 is a diagram illustrating an example of an information table for managing a user's type of exercise and exercise intensity according to a user's disease according to some embodiments.

Referring to FIG. 12, information on a user's disease information, information on exercise intensity suitable for a user, and information on a user's exercise precautions may be included in the table. The health information management server 2000 can determine exercise content, exercise intensity, heart rate band, etc. suitable for the user based on the information included in the table of FIG. The mobile device 3000 may use the information of FIG. 12 to determine suitable exercise content, exercise intensity, heart rate band, and the like for the user.

13 is a block diagram of a mobile device 3000 in accordance with some embodiments.

Referring to FIG. 13, a mobile device 3000 according to some embodiments includes an input unit 110, a display 120, a communication unit 130, a memory 140, a speaker 150, an interface unit 160, a processor 170, a sensor unit 190, and a battery 180. However, some of the components shown in FIG. 13 may not be essential components for implementing the mobile device 3000, and the mobile device 3000 may be provided by more components than the components shown in FIG. 13 The mobile device 3000 may be embodied or implemented by fewer components than those shown in FIG.

The input unit 110 may receive a user input for controlling the operation of the mobile device 3000. [ For example, the input unit 110 may include a user input for turning on / off the power, a user input for setting various functions of the mobile device 3000, And the like.

The input unit 110 may include a touch input unit (e.g., a touch sensor, a touch key, a mechanical key, and the like) for sensing a user's touch and a microphone But is not limited thereto.

The display 120 may display and output information processed in the mobile device 3000. [ The display 120 may display a GUI for various operations for executing the exercise content, an execution screen of the exercise game content, and the like.

In the case where the display 120 and the touch pad have a layer structure and are configured as a touch screen, the display 120 may be used as an input device in addition to the output device. The display 120 may be a liquid crystal display, a thin film transistor-liquid crystal display, an organic light-emitting diode, a flexible display, a three-dimensional display display, and electrophoretic display.

The communication unit 130 may include one or more components for making wired / wireless communication with an external device. For example, the communication unit 130 may include at least one of a local communication unit (not shown), a mobile communication unit (not shown), and a broadcast receiving unit (not shown). For example, the communication unit 130 may be a communication unit such as a Global System for Mobile communication (GSM), a Code Division Multi Access (CDMA), a High Speed Downlink Packet Access (HSDPA), a High Speed Uplink Packet Access (HSUPA) ), Wireless LAN (Wi-Fi), Wi-Fi (Wireless Fidelity) Direct, DLNA (Digital Living Network Alliance), WiBro Broadband), and WiMAX (World Interoperability for Microwave Access). For example, the communication unit 130 can communicate with the wireless electrocardiogram sensor 3000 through BLE communication. In addition, the communication unit 130 can transmit and receive data to and from the health information management server 2000 through wireless communication.

13, the step-based exercise device 1000 is described as being connected to the interface unit 110 of the mobile device 3000. However, the present invention is not limited thereto, and the communication unit 130 may be connected to the step- Communication can be connected.

The memory 140 may store programs for processing and control of the processor 170 and may be provided by the mobile device 3000 to provide recommended exercise content to the user and may be provided to the wireless electrocardiograph sensor 3000 and the health information management server 2000 And can store various data necessary for guiding and managing the movement of the user. The memory 140 may store data input to or output from the mobile device 3000. The memory 140 may be a flash memory type, a hard disk type, a multimedia card micro type, a card type memory (e.g., SD or XD memory), a RAM (Random Access Memory) SRAM (Static Random Access Memory), ROM (Read Only Memory), EEPROM (Electrically Erasable Programmable Read-Only Memory), PROM (Programmable Read-Only Memory) , An optical disc, and the like. The memory 140 may be a web storage that performs a storage function of the memory 140 on the Internet. Programs stored in the memory 140 can be classified into a plurality of modules according to their functions, for example, a UI module, a touch screen module, a notification module, and the like.

The sensor unit 190 includes at least one sensor and can sense at least one of the heart rate, blood pressure, sleeping time, body composition, and indoor / outdoor position of the user. For example, the sensor unit 190 may include at least one of a heart rate sensor, a blood pressure sensor, a water surface sensor, a body composition sensor, and a position recognition sensor.

The mobile device 3000 may include a speaker 150 for outputting sounds and an interface unit 160 for receiving step input information sensed by a footstep input device 400 for sensing a step input of a user.

The processor 170 typically controls the overall operation of the mobile device 3000. For example, the processor 170 may include an input unit 110, a display 120, a communication unit 130, a memory 140, a speaker 150, an interface unit 160 ), The sensor unit 190, the battery 180, and the like. The processor 170 may control the operation of the mobile device 3000 in Figures 1-12 by executing programs stored in the memory 140. [

Processor 170 may be any of a variety of devices, including application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs) micro-controllers, microprocessors, and other electronic units for performing other functions.

14 and 15 are diagrams illustrating a step-based exercise device 1000 according to some embodiments.

14, the step-based exercise device 1000 may include a cradle 470 and a footstep input device 400 and may include a footstep input device 400 for controlling the operation of the step- A processor (not shown), a step input unit (not shown), and a communication unit (not shown). However, the present invention is not limited thereto, and the step-based exercise device 1000 may be implemented in a form that does not include the cradle 470 as shown in FIG. The footstep input device 400 may correspond to the body of the step-based exercise device 1000.

The cradle 470 can be provided with a space in which the mobile device 3000 can be placed and the user can climb on the scaffold input device 400 so that the user can input a predetermined step input to the step- have.

A step input unit (not shown) may be connected to a processor (not shown) to provide step input information to a processor (not shown). The step input information may be information regarding the step input of the user, and may include at least one of the number of steps, the step position, and the step strength, for example. The step input information may be transmitted to the mobile device 3000 and analyzed as exercise information. In addition, as pressure is applied to the button on the footstep input device 400 through the user's foot, the exercise content for consuming the calories of the user can proceed.

Referring to FIG. 15, the footstep input device 400 may be implemented in a mat shape. A step input unit (not shown) may sense a step input from the footstep input device 400 to the footstep input device 400, Specifically, it is possible to detect a step input stepping in a forward step, a left step, and a diagonal direction in place. In addition, the step input unit (not shown) may include at least one sensor for detecting the user's step. A step input unit (not shown) can sense a user's step input when the user performs a step movement through the exercise contents.

In addition, the footstep input device 400 absorbs the step input applied by the user through the resilient member, and can be utilized in the room without vibration and noise, and the impact applied to the user's joint can be minimized.

A step input unit (not shown) of the foot input device 400 includes a center button 410 for detecting an in-step step and eight direction buttons 420 for detecting a step in the diagonal direction in the front, back, And the footstep input device 400 may further include a suspension support 430 for absorbing a step impact.

The communication unit (not shown) of the step-based exercise device 1000 may communicate with the mobile device 3000 and the wireless electrocardiograph sensor 4000 and the processor (not shown) of the step- Based motion device 1000 in FIGS. 1 through 12 by controlling the components of the apparatus 1000. [0041] FIG.

16 is a block diagram of a health information management server according to some embodiments.

16, the health information management server 2000 may include a communication unit 2100, a processor 2200, and a DB 2300. The DB 2300 includes an exercise content information DB 2310 and a health information DB 2310. [ (Not shown).

The communication unit 2100 may include one or more components for making wired / wireless communication with an external device.

The DB 2300 may store a program for processing and controlling the processor 2200. The health information management server 2000 may determine suitable exercise content and exercise intensity for the user and monitor the exercise status of the user Various types of data can be stored. DB 2300 may register a user using the step-based exercise device 1000 and may store various information related to the health and exercise of the registered user.

The exercise content information DB 2310 may store information necessary for operating an electrocardiogram monitoring service for cardiac rehabilitation exercise. For example, the exercise content information DB 2310 may include user information using the step-based exercise device 1000, information about exercise content provided to the mobile device 3000, Information for function management of the device 3000, and the like.

The health information DB 2320 may store information related to the health of the user. For example, the health information DB 2320 may be operated by a medical institution and may store information on a user's health status, medical records, medical prescription records, and exercise prescriptions. In addition, the health information DB 2320 can be operated by an exercise organ, and can store information on a user's exercise ability, a user's exercise history, a user's exercise prescription, and the like.

The processor 2200 typically controls the overall operation of the health information management server 2000. For example, the processor 2200 can generally control an input unit (not shown), a display (not shown), a communication unit 2100, a DB 2300, etc. by executing programs stored in the DB 2300. The processor 2200 can control the operation of the health information management server 2000 in FIGS. 1 to 12 by executing programs stored in the DB 2300. [ The processor 2200 may be implemented as an integrated circuit (IC), such as application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs) micro-controllers, microprocessors, and other electronic units for performing other functions.

 Some embodiments may also be implemented in the form of a recording medium including instructions executable by a computer, such as program modules, being executed by a computer. Computer readable media can be any available media that can be accessed by a computer and includes both volatile and nonvolatile media, removable and non-removable media. In addition, the computer-readable medium may include both computer storage media and communication media. Computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. A communication medium typically includes computer readable instructions, data structures, program modules, or other data transmission mechanisms for data signals, including any information delivery media.

Also, in this specification, the term " part " may be a hardware component such as a processor or a circuit, and / or a software component executed by a hardware component such as a processor.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present disclosure is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

Claims (11)

A method of providing a movement content using a step-based exercise device and a wireless electrocardiograph sensor, the method comprising:
Connecting a short range wireless communication with a step-based exercise device communicatively coupled to a wireless electrocardiogram sensor;
Connecting the wireless electrocardiogram sensor communicatively coupled to the step-based exercise device to a near field wireless communication;
Receiving exercise content based on the health state of the user from a server managing a cardiac rehabilitation exercise of the user;
Receiving user input information from the step-based exercise device and executing the received exercise content;
Receiving in real time the electrocardiogram sensing information generated by the wireless ECG sensor from the wireless ECG sensor;
Providing the received electrocardiogram sensing information to the server; And
Receiving from the server the exercise content modified by the server based on the provided sensing information;
Executing the modified motion content;
/ RTI > The method according to claim 1,
Determining that the user is leaving the step-based exercise device; And
Providing the server with departure announcement information indicating that the user is leaving the step-based exercise device;
Further comprising:
Wherein the modified movement content is modified by the server based on release notice information provided to the server. 3. The method of claim 2,
Providing the server with electrocardiographic sensing information received in real time from the wireless electrocardiographic sensor after the user leaves the step-based exercise device;
Further comprising:
Wherein the modified motion content is modified by the server, taking into account the rest of the user after the user leaves the step-based exercise device. 3. The method of claim 2,
Wherein the step of determining that the user leaves the step-
Based exercise device by receiving information from the step-based exercise device that indicates that communication between the wireless electrocardiograph sensor and the step-based exercise device is disconnected from the step-based exercise device. 3. The method of claim 2,
Pausing the running exercise content as it is determined that the user has disengaged from the step-based exercise device;
≪ / RTI > 3. The method of claim 2,
Wherein the step of determining that the user leaves the step-
Based movement device is disconnected from the step-based exercise device as the communication between the wireless electrocardiographic sensor and the mobile device is disconnected. The method according to claim 1,
Wherein the communication connection between the wireless electrocardiographic sensor and the step-based exercise device is performed by control of the mobile device. The method according to claim 1,
Wherein the modified exercise content is adjusted in exercise intensity by the server based on the electrocardiographic sensing information. The method according to claim 1,
Receiving alarm data for inducing rest of the user from the server; And
Displaying a message on the screen to guide the user to rest based on the received data;
≪ / RTI > A mobile device for providing exercise content using a step-based exercise device and a wireless electrocardiograph sensor,
A display unit;
A communication unit for establishing communication with an external device;
A storage for storing at least one instruction for executing exercise content for a cardiac rehabilitation exercise of a user;
By executing the at least one instruction,
A step-based exercise device connected to the step-based exercise device in communication with the wireless electrocardiogram sensor, a short-range wireless communication device connected to the wireless electrocardiograph sensor communicatively connected to the step-based exercise device, Based exercise device based on the health state of the user, receiving user input information from the step-based exercise device, executing the received exercise content, and storing the electrocardiogram sensing information generated by the wireless electrocardiograph sensor Receiving the modified exercise content from the server in real time from the wireless electrocardiograph sensor, providing the received electrocardiogram sensing information to the server, receiving the exercise content modified by the server based on the provided sensing information, A processor executing;
And a mobile device. A computer-readable recording medium for executing the method of claim 1 in a computer.

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