KR102038055B1 - System and method for monitoring heart rehabilitation exercize using wireless electrocardiogram sensor - Google Patents

Abstract

A cardiac rehabilitation exercise monitoring system and method using a wireless ECG sensor is provided. A method of monitoring an electrocardiogram of a user using a step-based exercise device, by the ECG monitoring device, includes: receiving a user identification value from the step-based exercise device; Determining a heart rate band suitable for the user based on the user identification value; Receiving electrocardiogram sensing information sensed from a wireless ECG sensor connected to the step-based exercise device from the step-based exercise device in real time; Constructing an electrocardiogram monitoring screen based on the received electrocardiogram sensing information and the determined heart rate band; And changing a configuration of the ECG monitoring screen based on the number of devices connected to the ECG monitoring device.

Description

SYSTEM AND METHOD FOR MONITORING HEART REHABILITATION EXERCIZE USING WIRELESS ELECTROCARDIOGRAM SENSOR}

The present disclosure relates to a system and method for monitoring cardiac rehabilitation exercise using a wireless electrocardiogram sensor, and more particularly, to a system and method for monitoring cardiac rehabilitation exercise based on sensing information of a wireless electrocardiogram sensor.

As society becomes highly industrialized, the prevalence and morbidity of cardio-cerebral vascular diseases including atherosclerosis are gradually increasing as people's dietary life changes and life expectancy increases.

As the incidence of cardiovascular and vascular diseases increases, it is important for people exposed to cardiovascular and vascular diseases to improve their self-management ability and to perform regular exercise continuously in order to prevent and prevent recurrence.

Accordingly, there is a growing interest in exercise prescription and exercise prescription management that induce regular and appropriate exercise for disease prevention and chronic disease management, and provide the user with a suitable exercise prescription according to the user's physical characteristics or health condition, There is a need for a technology for inducing and managing a user to perform an exercise suitable for exercise prescription.

KR 10-2003-0012836 A

Some embodiments utilize sensing information generated by a wireless electrocardiogram sensor worn by a user to effectively monitor the current state of the user and induce a smooth rehabilitation exercise while preventing a dangerous situation. A rehabilitation exercise monitoring system and method can be provided.

In addition, some embodiments may provide a cardiac rehabilitation exercise monitoring system and method using a wireless ECG sensor, which can manage a plurality of users' exercise states while effectively managing specificities of a user wearing the wireless ECG sensor. .

In addition, some embodiments provide a system and method for monitoring cardiac rehabilitation exercise using a wireless ECG sensor that can effectively manage a user's exercise state in consideration of a case where a user wearing the wireless ECG sensor leaves the exercise device. can do.

As a technical means for achieving the above technical problem, a first aspect of the present disclosure, the step of receiving a user identification value from the step-based exercise device; Determining a heart rate band suitable for the user based on the user identification value; Receiving electrocardiogram sensing information sensed from a wireless ECG sensor connected to the step-based exercise device from the step-based exercise device in real time; Constructing an electrocardiogram monitoring screen based on the received electrocardiogram sensing information and the determined heart rate band; And changing a configuration of the ECG monitoring screen based on the number of devices connected to the ECG monitoring device. The ECG monitoring device may provide a method of monitoring an ECG of a user who uses a step-based exercise device. .

In addition, a second aspect of the present disclosure, the communication unit for communicating with the step-based exercise device; A storage unit storing at least one instruction for monitoring an electrocardiogram of a user; By executing the at least one instruction, receiving a user identification value from the step-based exercise device, determining a heart rate band suitable for the user based on the user identification value, and communicating with the step-based exercise device a wireless electrocardiogram The number of devices connected to the ECG monitoring device, configured to receive ECG sensing information sensed from a sensor in real time from the step-based exercise device, configure an ECG monitoring screen based on the received ECG sensing information and the determined heart rate band And a processor for changing a configuration of the ECG monitoring screen based on the ECG monitoring apparatus.

Further, the third aspect of the present disclosure can provide a computer readable recording medium for executing the method of the first aspect on a computer.

1 is a diagram illustrating an example of a cardiac rehabilitation monitoring system using a wireless electrocardiogram sensor in accordance with some embodiments.
FIG. 2 is a diagram illustrating a method of monitoring an electrocardiogram of a user using a step-based exercise device, according to some embodiments.
3 is a flowchart illustrating a method of providing exercise content in consideration of a health state of a user in a cardiac rehabilitation monitoring system using a wireless electrocardiogram sensor according to some embodiments and providing a guide to a user's exercise.
4 is a flowchart illustrating a method for guiding a user to resume rest and exercise according to an ECG state of a user in a cardiac rehabilitation monitoring system using a wireless ECG sensor, according to an exemplary embodiment.
5 is a flowchart of a method of providing an alarm to a user and managing a user's exercise when the user leaves the step-based exercise device in the cardiac rehabilitation monitoring system using the wireless ECG sensor, according to some embodiments.
6 is a diagram illustrating an example in which an ECG monitoring apparatus displays an ECG monitoring screen for managing an exercise state of a user wearing a wireless ECG sensor, according to an exemplary embodiment.
7 is a diagram illustrating an example in which an ECG monitoring apparatus divides a display screen and displays a plurality of ECG monitoring screens.
8 to 10 are views illustrating an example of displaying, by an electrocardiogram monitoring apparatus, information on managing an electrocardiogram and resuming exercise on a electrocardiogram monitoring screen according to some embodiments.
11 is a diagram illustrating an example of an information table for managing a user's exercise type and exercise intensity according to a user's disease, according to some embodiments.
12 and 13 are views illustrating an example of displaying, by the step-based exercise device, a screen for guiding a user to rest and resume exercise according to some embodiments.
14 and 15 illustrate a hardware configuration of a step-based exercise device, according to some embodiments. FIG. 16 illustrates a scaffold input unit of the step-based exercise device, according to some embodiments.
17 is a block diagram of an electrocardiogram monitoring device, according to some embodiments.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element in between. . In addition, when a part is said to "include" a certain component, which means that it may further include other components, except to exclude other components unless otherwise stated.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an example of a cardiac rehabilitation monitoring system using a wireless electrocardiogram sensor in accordance with some embodiments.

Referring to FIG. 1, a cardiac rehabilitation monitoring system according to some embodiments may include at least one wireless ECG sensor 3000 worn by a user using the at least one step-based exercise device 1000 and the step-based exercise device 1000. , And electrocardiogram monitoring device 2000.

In the cardiac rehabilitation monitoring system, the user may exercise in the step-based exercise apparatus 1000 while wearing the wireless electrocardiogram sensor 3000, and the step-based exercise apparatus 1000 wirelessly transmits electrocardiogram sensing information about the electrocardiogram of the user. The ECG may be received in real time from the ECG sensor 3000 and provided to the ECG monitoring apparatus 2000. The electrocardiogram monitoring apparatus 2000 may receive electrocardiogram sensing information of a plurality of users from the plurality of step-based exercise apparatuses 1000 and may manage the movements of the plurality of users.

If the user wearing the wireless ECG sensor 3000 leaves the step-based exercise device 1000 while exercising, the ECG monitoring device 2000 may consider that the user has left the step-based exercise device 1000 to the user. Guide your workout.

In addition, the ECG monitoring apparatus 2000 may receive various types of information related to the user's health from the health information management server 4000 that manages the user's health information. You can guide. In this case, the health information management server 4000 may be operated by one or a plurality of servers. For example, the health information management server 4000 may include an exercise device management server and a medical information management server. The exercise device management server may manage information necessary for operating the step-based exercise device 1000, and the medical information management server may manage medical information related to a user's health. However, the server that may be included in the health information management server 4000 is not limited thereto, and may include various types of servers that manage information necessary to provide a user with a suitable exercise. For example, the health information management server 4000 may include a server that manages exercise information of a user provided in a fitness center where the user exercises.

Meanwhile, the wireless ECG sensor 3000, the plurality of step-based exercise apparatuses 1000, and the ECG monitoring apparatus 2000 may be connected to the health information management server 4000. In this case, electrocardiogram sensing information of the wireless electrocardiogram sensor 3000 and information on the exercise state of the user in the plurality of step-based exercise apparatus 1000 may be analyzed and managed by the health information management server 4000. . In addition, various data managed by the health information management server 4000 may be provided to the ECG monitoring apparatus 2000. In this case, the exercise management of the user is substantially performed in the health information management server 4000, the ECG monitoring device 2000 outputs information for exercise management and receives a user input of the administrator to receive the health information management server 4000 It can also play a role provided by.

Meanwhile, although the ECG monitoring device 2000 and the health information management server 4000 are depicted as separate devices in FIG. 1, the present invention is not limited thereto. The ECG monitoring device 2000 described herein may be implemented as a predetermined server. Alternatively, at least part of the functions of the ECG monitoring apparatus 2000 described herein may be executed by the health information management server 4000.

The step-based exercise apparatus 1000 may execute exercise game content that induces the user's exercise, recommends recommended exercise content suitable for the user's physical condition, health condition, and exercise prescription to the user, and exercises based on the recommended exercise content. You can play the game. The executed exercise game may be displayed on the screen of the step-based exercise device 1000. In addition, the step-based exercise apparatus 1000 may sequentially display objects (eg, arrows) for guiding a button on the scaffold input which the user should step on, on the screen in accordance with the recommended exercise content.

The wireless electrocardiogram sensor 3000 may be attached to the user's body, generate electrocardiogram sensing information by sensing the electrocardiogram of the user in real time, and transmit the generated electrocardiogram sensing information to another device through wireless communication.

In addition, the components of FIG. 1 may be connected to each other through a network, and the network may include a local area network (LAN), a wide area network (WAN), a value added network (VAN), a mobile communication network. (mobile radio communication network), a satellite communication network and a combination thereof, and is a comprehensive data communication network that allows each network component shown in Figure 1 to communicate smoothly with each other, wired Internet, wireless Internet And a mobile wireless communication network. In addition, the wireless communication is, for example, wireless LAN (Wi-Fi), Bluetooth, Bluetooth low energy (ZiBee), Zigbee, WFD (Wi-Fi Direct), UWB (ultra wideband), infrared communication (IrDA, infrared) Data Association), Near Field Communication (NFC), and the like, but are not limited thereto.

In addition, in the present specification, the ECG monitoring apparatus 2000 is described as managing the user's exercise in association with the step-based exercise apparatus 1000, but may not be limited thereto. Connected to the wireless electrocardiogram sensor 3000 and the electrocardiogram monitoring device 2000, various information for transmitting and receiving information for guiding the electrocardiogram state and the user's movement with the wireless electrocardiogram sensor 3000 and the electrocardiogram monitoring device 2000 An exercise device (not shown) may be utilized in the cardiac rehabilitation monitoring system using the wireless ECG sensor 3000.

FIG. 2 is a diagram illustrating a method of monitoring an electrocardiogram of a user using a step-based exercise device, according to some embodiments.

In operation S200, the EKG monitoring apparatus 2000 may receive a user identification value. The user may log in to the step-based exercise apparatus 1000, and the ECG monitoring apparatus 2000 may receive identification information of the logged-in user from the step-based exercise apparatus 1000. Alternatively, the user may log in to the ECG monitoring apparatus 2000.

In operation S210, the EKG monitoring apparatus 2000 may determine a heart rate band based on the user's health information. The electrocardiogram monitoring apparatus 2000 may receive information about a user's health state and a health prescription from the health information management server 4000 using the user identification value. In addition, the ECG monitoring apparatus 2000 may determine a heart rate band recommended to the user when the user exercises using the step-based exercise apparatus 1000 based on the received health state and the information about the health prescription. The ECG monitoring apparatus 2000 may display a heart rate band set as a default based on information on a user's health state and a health prescription, and may modify the heart rate band set as a default based on a user input.

The health information of the user may be information about a user's body and health condition. The health information may include, for example, questionnaire response information regarding gender, age, height, weight, body mass index (ratio of height and weight), fitness level, disease, occupation group, and physical activity of the individual, This is not restrictive. The health information also includes, for example, at least one of heart rate, activity, exercise, location-based lifestyle patterns, body composition (moisture, protein, minerals, body fat, skeletal muscle-fat ratio, body fat rate, and sleep time). The amount of activity may be based on the calories consumed by the user moving for life in daily life, and the amount of exercise may refer to the amount of exercise performed by the user at a certain level of exercise intensity for the purpose of exercising.

The exercise prescription information may include information about an exercise to be performed by the user for the user's health. Exercise prescription information may indicate the characteristics of the exercise prescribed to the user, for example, the user's health condition, the amount of calories the user needs to consume during a particular time period, the amount of exercise suitable for the user, the number of exercises, the intensity of the exercise, and the recommended heart rate. And the like may be included.

In operation S220, the ECG monitoring apparatus 2000 may configure an ECG monitoring screen and display an ECG monitoring screen based on the heart rate band. The electrocardiogram monitoring apparatus 2000 may configure a monitoring screen including a graph for monitoring an electrocardiogram and a heart rate of a user and health information necessary for monitoring a health state of a user who is exercising. In addition, the ECG monitoring apparatus 2000 may adjust the scale of the graph for monitoring the electrocardiogram and heart rate of the user. The health information necessary for monitoring the health condition of the user may include, for example, information about a disease name of the user, a recommended exercise intensity of the user, exercise precautions considering the user's disease, and the like.

In operation S230, the EKG monitoring apparatus 2000 may receive ECG sensing information of the user in real time. The wireless electrocardiogram sensor 3000 may measure the user's electrocardiogram in real time and provide the measured electrocardiogram sensing information to the step-based exercise apparatus 1000, and the electrocardiogram monitoring apparatus 2000 may provide the electrocardiogram sensing information to the step-based exercise apparatus. It may receive from the 1000 in real time.

In operation S240, the EKG monitoring apparatus 2000 may change the EKG monitoring screen based on the number of connected devices. When another user uses the different step-based exercise device 1000, the ECG monitoring apparatus may divide the display screen into a plurality of screens and display the screens for ECG monitoring on the divided screens. As the display screen is divided, the ECG monitoring screen may be reduced and displayed. In this case, some of the user's health information may be deleted, and only the user's health information that needs to be managed with particular care during the user's exercise may be displayed on the ECG monitoring screen.

3 is a flowchart illustrating a method of providing exercise content in consideration of a health state of a user in a cardiac rehabilitation monitoring system using a wireless electrocardiogram sensor according to some embodiments and providing a guide to a user's exercise.

In operation S300, the user may log in to the step-based exercise apparatus 1000, and in operation S305, the wireless ECG sensor 3000 may communicate with the step-based exercise apparatus 1000. The step-based exercise apparatus 1000 may connect communication with the wireless ECG sensor 3000 based on a user input. For example, the step-based exercise apparatus 1000 may communicate with the wireless ECG sensor 3000 through BLE communication.

In operation S310, the step-based exercise apparatus 1000 may provide a user ID to the ECG monitoring apparatus 2000, and in operation S315, the ECG monitoring apparatus 2000 may obtain health information and exercise prescription information of the user. The user ID may be an ID registered by the user in the health information management server 4000 operating the step-based exercise device 1000 in order to receive a service through the step-based exercise device 1000. The user ID may include, for example, a predetermined string, an e-mail address, a phone number, and the like, but is not limited thereto. The ECG monitoring apparatus 2000 may receive the user's health information and exercise prescription information from the health information management server 4000 based on the user ID. The health information of the user may include, for example, information about a disease of the user and precautions related to the disease of the user. In addition, the exercise prescription information may indicate the characteristics of the exercise prescribed to the user, for example, the user's health condition, the amount of calories the user needs to consume during a certain period of time, the exercise time suitable for the user, the number of exercise and the intensity of exercise It may contain information about.

In operation S320, the EKG monitoring apparatus 2000 may provide exercise guide information to the step-based exercise apparatus 1000. For example, the ECG monitoring apparatus 2000 may provide information on exercise content to be recommended to the user in order to guide the user's exercise. Also, for example, the ECG monitoring apparatus 2000 may provide the step-based exercise apparatus 1000 with information for adjusting the exercise intensity during the execution of the exercise content. In addition, for example, the ECG monitoring apparatus 2000 may provide the step-based exercise apparatus 1000 with information about a disease of the user and precautions related to the exercise of the user.

In operation S325, the step-based exercise apparatus 1000 may execute exercise content suitable for the user. The step-based exercise apparatus 1000 may select and execute one of the exercise contents recommended from the electrocardiogram monitoring apparatus 2000 based on the exercise guide information, and adjust the exercise intensity of the executed exercise content.

Alternatively, the step-based exercise apparatus 1000 may receive the user's health information and exercise prescription information from the ECG monitoring apparatus 2000, and the step-based exercise apparatus 1000 may determine the recommended exercise content and determine the exercise intensity.

The bit information of the music or the video used in the exercise content may be determined according to the exercise intensity, and the step-based exercise apparatus 1000 may execute the exercise game based on the determined bit information. The bit information may include bit per minute (BPM) information of music or video. The bit information may include, for example, information about how the bit of the music changes according to the playing time of the music. The bit information may include, for example, information about the speed of the bit for each playback period of the music. In addition, the bit information may include information regarding a step speed which is changed for each playback section of the music as the music is played. In addition, based on the speed of the bits per playback section included in the bit information, the exercise intensity for each playback section of the music may be determined.

In operation S330, the EKG monitoring apparatus 2000 may determine a heart rate band of the user's exercise, based on the user's health information and the exercise prescription information. The ECG monitoring apparatus 2000 may determine the exercise intensity of the exercise to be performed by the user based on the disease of the user and the exercise prescription diagnosed by the user. In addition, the ECG monitoring apparatus 2000 may determine a heart rate band that the user should maintain during the exercise based on the determined exercise intensity.

In operation S335, the EKG monitoring apparatus 2000 may configure an EKG monitoring screen based on the heart rate band. The ECG monitoring apparatus 2000 may determine the scale of the axis of the graph for managing at least one of the ECG and the heart rate based on the heart rate band. In addition, the ECG monitoring apparatus 2000 may include information on items to be carefully managed during exercise of the user in the ECG monitoring screen. The electrocardiogram monitoring apparatus 2000 may adjust the scale of the axis of the graph for managing at least one of the electrocardiogram and the heart rate based on the amount of precaution information during the user exercise displayed on the electrocardiogram monitoring screen. In addition, the ECG monitoring apparatus 2000 may adjust the size of the graph itself for managing at least one of an electrocardiogram and a heart rate.

In operation S340, the wireless ECG sensor 3000 may provide ECG sensing information to the step-based exercise apparatus 1000 in real time, and in operation S345, the step-based exercise apparatus 1000 may transmit the received ECG sensing information to an ECG monitoring apparatus ( 2000) in real time. The electrocardiogram monitoring apparatus 2000 may display the received electrocardiogram sensing information on the electrocardiogram monitoring screen and manage a user's exercise.

In operation S350, the EKG monitoring apparatus 2000 may change the EKG monitoring screen based on the number of connected devices. When another step-based exercise device 1000 is additionally connected to the ECG monitoring device 2000, the ECG monitoring device 2000 divides the display screen based on the number of devices connected to the ECG monitoring device 2000. can do. In addition, the ECG monitoring apparatus 2000 may reduce an ECG monitoring screen for monitoring a user's exercise and edit information to be displayed on the reduced monitoring screen. For example, the ECG monitoring apparatus 2000 may modify a size of a graph for managing at least one of an electrocardiogram and a heart rate, a scale of a graph axis, and information to be careful about when a user exercises.

In operation S355, the EKG monitoring apparatus 2000 may provide the heart rate guide information to the step-based exercise apparatus 1000. The heart rate guide information may be information for guiding the user to check his / her current heart rate and adjust the exercise according to the current heart rate during the exercise. The electrocardiogram monitoring apparatus 2000 may generate heart rate guide information based on electrocardiogram sensing information, user's health information, and exercise prescription information received in real time, and provide the generated heart rate guide information to the step-based exercise apparatus 1000. Can be. The heart rate guide information may include, for example, information for guiding whether the user should exercise at a higher intensity, exercise at a lower intensity, or take a break. Also, for example, the heart rate guide information may include data for adjusting the exercise intensity of the step-based exercise device 1000.

In operation S360, the step-based exercise apparatus 1000 may display the heart rate guide information on the screen, and in step S365, the step-based exercise apparatus 1000 may adjust the exercise intensity.

In operation S370, the EKG monitoring apparatus 2000 may output heart rate warning information. While monitoring the heart rate of the user, the ECG monitoring apparatus 2000 may display information for warning the heart rate of the user on a screen or output a predetermined alarm sound.

In operation S375, the EKG monitoring apparatus 2000 may request the step-based exercise apparatus 1000 to output a warning. The ECG monitoring apparatus 2000 may request the step-based exercise apparatus 1000 to output an alert in order to provide an alarm to the user when the user's heart rate or the ECG state is not good. The ECG monitoring apparatus 2000 may request the step-based exercise apparatus 1000 to output a warning when the user's heart rate or the ECG state is out of the heart rate band.

In operation S380, the step-based exercise apparatus 1000 may output heart rate warning information. The step-based exercise apparatus 1000 may display information for warning the heart rate state on the screen or output a predetermined alarm sound. Accordingly, the user may leave the step-based exercise device 1000 in order to pause the exercise and rest.

4 is a flowchart illustrating a method for guiding a user to resume rest and exercise according to an ECG state of a user in a cardiac rehabilitation monitoring system using a wireless ECG sensor, according to an exemplary embodiment.

In operation S400, the step-based exercise apparatus 1000 may output heart rate warning information, and in operation S405, the ECG monitoring apparatus 2000 may output heart rate warning information. The step-based exercise apparatus 1000 and the electrocardiogram monitoring apparatus 2000 may display information for warning the heart rate state on the screen or output a predetermined alarm sound. The heart rate alert information may include, for example, information for notifying the user that rest is necessary, but is not limited thereto.

In operation S410, the step-based exercise apparatus 1000 may detect that the user deviates from the step-based exercise apparatus 1000. The user may leave the step-based exercise device 1000 in order to stop the exercise and rest for a while, and the step-based exercise device 1000 may detect that the user is separated from the step-based exercise device 1000.

For example, the step-based exercise apparatus 1000 may determine that the user is separated from the step-based exercise apparatus 1000 by using a predetermined sensor in the step-based exercise apparatus 1000. Or, for example, if it is determined that there is no user input operation for a predetermined time in the step-based exercise apparatus 1000, the step-based exercise apparatus 1000 may determine that the user is separated from the step-based exercise apparatus 1000. In addition, the step-based exercise apparatus 1000 may determine that the user is separated from the step-based exercise apparatus 1000 based on the signal strength with the wireless ECG sensor 3000. In addition, the step-based exercise apparatus 1000 may pause the running exercise content as it is identified that the user has left.

In operation S415, the step-based exercise apparatus 1000 may inform the ECG monitoring apparatus 2000 of the user's departure. In operation S420 and operation 425, the ECG sensing information may be transmitted from the wireless ECG sensor 3000. Via, it may be transmitted to the electrocardiogram monitoring device 2000 in real time. Accordingly, the ECG monitoring apparatus 2000 may continuously monitor the ECG state of the user even after the user leaves the step-based exercise apparatus 1000.

In operation S430, the EKG monitoring apparatus 2000 may display the resting state of the user in the EKG monitoring screen. The administrator who manages the user's exercise may check that the user has separated from the step-based exercise device 1000 through the ECG monitoring screen. In addition, the ECG monitoring apparatus 2000 may adjust the exercise intensity of the user, etc. based on the ECG state of the user after the user leaves the step-based exercise apparatus 1000, and at the time of the user's exercise displayed on the ECG monitoring screen. The information on the precautions of the user can be modified.

In operation S435, when the ECG of the user recovers, the ECG monitoring apparatus 2000 may output an alarm for resuming the exercise of the user. The electrocardiogram monitoring apparatus 2000 continuously monitors the electrocardiogram state after the user leaves the step-based exercise apparatus 1000 and outputs information for notifying the user to resume the exercise when it is determined that the user's electrocardiogram has recovered. can do.

In operation S440, the ECG monitoring apparatus 2000 may request the step-based exercise apparatus 1000 to output an alarm for resuming exercise. In operation S445, the step-based exercise apparatus 1000 notifies the user of restarting the exercise. You can output an alarm to resume your workout.

5 is a flowchart of a method of providing an alarm to a user and managing a user's exercise when the user leaves the step-based exercise device in the cardiac rehabilitation monitoring system using the wireless ECG sensor, according to some embodiments.

In operation S500, the wireless ECG sensor 3000 may provide the ECG sensing information to the step-based exercise apparatus 1000 in real time.

In operation S505, the step-based exercise apparatus 1000 may detect that the communication strength with the wireless ECG sensor 3000 is weaker than a preset value. When the user leaves the step-based exercise apparatus 1000 and moves away from the step-based exercise apparatus 1000, the communication strength between the step-based exercise apparatus 1000 and the wireless ECG sensor 3000 may be weakened to a predetermined value or less. have.

In operation S510, the step-based exercise apparatus 1000 may inform the ECG monitoring apparatus 2000 that the wireless ECG sensor 3000 may be out of the communication range. In operation S515, the ECG monitoring apparatus 2000 may notify the ECG of alarm information. It can be displayed on the monitoring screen. The electrocardiogram monitoring apparatus 2000 may include information indicating that the wireless electrocardiogram sensor 3000 may be out of the communication range on the electrocardiogram monitoring screen. Accordingly, the manager who manages the user's exercise may guide the user so that the user is located near the step-based exercise device 1000.

In operation S520, communication between the step-based exercise apparatus 1000 and the wireless ECG sensor 3000 may be disconnected. When the user leaves the step-based exercise apparatus 1000 and continues to move away from the step-based exercise apparatus 1000, the communication between the step-based exercise apparatus 1000 and the wireless ECG sensor 3000 may be cut off.

In operation S525, the step-based exercise apparatus 1000 may inform the ECG monitoring apparatus 2000 that the wireless ECG sensor 3000 is out of a communication range, and in operation S530, the ECG monitoring apparatus 2000 monitors ECG alarm information. Can be displayed on the screen. The electrocardiogram monitoring apparatus 2000 may include information indicating that the communication between the step-based exercise apparatus 1000 and the wireless electrocardiogram sensor 3000 is disconnected on the electrocardiogram monitoring screen.

In operation S535, the communication connection between the step-based exercise apparatus 1000 and the wireless ECG sensor 3000 may be resumed. When the user who has left the step-based exercise device 1000 approaches the step-based exercise device 1000 again, communication between the step-based exercise device 1000 and the wireless ECG sensor 3000 may be reconnected.

In operation S540, the step-based exercise apparatus 1000 may notify the ECG monitoring apparatus 2000 that the communication connection between the step-based exercise apparatus 1000 and the wireless ECG sensor 3000 has been resumed, and in operation S545, the ECG monitoring apparatus 2000. In consideration of the communication disconnection of the wireless ECG sensor, the movement of the user may be managed. The electrocardiogram monitoring apparatus 2000 considers the electrocardiogram sensing information received during the exercise by the user, the electrocardiogram sensing information received by the user during the break, and the electrocardiogram sensing information received by the user during the resting time, but the predetermined time has been received. You can modify the intensity.

Therefore, the wireless ECG sensor 3000 may be prevented from moving out of the wireless communication range, and the ECG state of the user may be continuously monitored even when the user leaves the step-based exercise apparatus 1000. In addition, it is possible to manage the user's exercise in consideration that the ECG sensing information is not received during a predetermined time while the user is resting.

6 is a diagram illustrating an example in which an ECG monitoring apparatus displays an ECG monitoring screen for managing an exercise state of a user wearing a wireless ECG sensor, according to an exemplary embodiment.

Referring to FIG. 6, the ECG monitoring screen may include a tab indicating a type of an exercise device, a graph indicating a heart rate of a user, a graph indicating a state of an electrocardiogram of a user, an object indicating a current heart rate of a user, and the like.

In addition, the EKG monitoring screen may include information regarding matters to be managed carefully by the user. For example, information on a user's disease name, exercise intensity, and exercise precautions may be included in the ECG monitoring screen. Information on matters to be managed with caution by the user may be different for each user. In addition, among the information on matters to be managed carefully by the user exercising, particularly important information may be preferentially included in the ECG monitoring screen.

7 is a diagram illustrating an example in which an ECG monitoring apparatus divides a display screen and displays a plurality of ECG monitoring screens.

Referring to FIG. 7, when four exercise apparatuses are connected to the ECG monitoring apparatus 2000, the ECG monitoring apparatus 2000 may divide the display screen into four segments. In addition, the ECG monitoring apparatus 2000 may reduce the ECG monitoring screen and display the reduced ECG monitoring screen in the divided display screen area. In FIG. 7, the reduced ECG monitoring screen of FIG. 6 is displayed in the lower left region among the four divided regions.

In addition, the ECG monitoring apparatus 2000 may reduce the size of the graph indicating the heart rate of the user and the graph indicating the ECG state of the user, and reduce the scale of the graph while reducing the ECG monitoring screen. In addition, the ECG monitoring apparatus 2000 may remove some of information on matters to be managed carefully by the user, which is included in the ECG monitoring screen. The ECG monitoring apparatus 2000 may delete the information to be included in the ECG monitoring screen based on the importance of the information regarding the matter to be managed carefully by the user.

8 to 10 are views illustrating an example of displaying, by an electrocardiogram monitoring apparatus, information on managing an electrocardiogram and resuming exercise on a electrocardiogram monitoring screen according to some embodiments.

Referring to FIG. 8, the ECG monitoring apparatus 2000 may display a text on the ECG monitoring screen indicating that the user needs to rest based on ECG sensing information, exercise prescription information, and heart rate band received in real time. For example, “Heart rate is outside the recommended intensity of exercise. Please guide the user to rest ”may be displayed on the ECG monitoring screen.

Referring to FIG. 9, when the user leaves the step-based exercise apparatus 1000, the step-based exercise apparatus 1000 may notify the ECG monitoring apparatus 2000 of the user's departure, and the ECG monitoring apparatus 2000 may determine the user's departure. The departure time can be counted. In addition, the ECG 2000 may display information indicating the departure state and the departure time of the user on the ECG monitoring screen, such as “during user rest: 2 minutes 35 seconds”.

Referring to FIG. 10, the ECG monitoring apparatus 2000 may display information for guiding a user to resume exercise on the ECG monitoring screen. The ECG monitoring apparatus 2000 may monitor the ECG state of the user even after the user leaves the step-based exercise apparatus 1000. In addition, the ECG monitoring apparatus 2000 may determine that the user has sufficiently rested, and may display information for resuming the user's exercise on the ECG monitoring screen. The ECG monitor 2000, for example, said, “The heart rate has been restored. Resume your workout ”can be displayed on the ECG monitoring screen.

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

Referring to FIG. 11, the disease information of the user, information on exercise intensity suitable for the user, and information on precautions when exercising the user may be included in the table. The ECG monitoring apparatus 2000 may receive information included in the table of FIG. 11 from the health information management server 4000 to determine exercise content, exercise intensity, heart rate band, and the like suitable for the user.

12 and 13 are views illustrating an example of displaying, by the step-based exercise device, a screen for guiding a user to rest and resume exercise according to some embodiments.

Referring to FIG. 12, the step-based exercise apparatus 1000 receives a warning from the ECG monitoring apparatus 2000 and displays the text “The exercise intensity is exceeded and requires a rest” to guide the user to rest. Can be displayed on the screen. In this way, the step-based exercise apparatus 1000 may inform the user that the exercise requires a break.

Referring to FIG. 13, the step-based exercise apparatus 1000 receives a request for resuming exercise from the ECG monitoring apparatus 2000 and instructs the user to resume the exercise. Please resume your workout. ” Through this, the step-based exercise apparatus 1000 may guide the user who is resting to need to resume the exercise.

14 and 15 are views illustrating a hardware configuration of the step-based exercise apparatus 1000 according to some embodiments, and FIG. 16 is a diagram illustrating a scaffold input unit of the step-based exercise apparatus according to some embodiments.

As illustrated in FIG. 14, the step-based exercise apparatus 1000 may include an input unit 110, a display 120, a communication unit 130, a memory 140, a speaker 150, an interface unit 160, and a processor 170. ), The sensor unit 190 and the battery 180 may be included. However, some of the components shown in FIG. 14 may not be essential components for implementing the step-based exercise apparatus 1000, and the step-based exercise apparatus may be formed by more components than those shown in FIG. 14. The step-based exercising apparatus 1000 may be implemented by the components 1000 or fewer components than those illustrated in FIG. 14.

The input unit 110 may receive a user input for controlling the operation of the step-based exercise apparatus 1000. For example, the input unit 110 may include a user input for turning on / off a power, a user input for setting various functions of the step-based exercise apparatus 1000, and the step-based exercise apparatus 1000. A user input for executing the exercise content may be received.

The input unit 110 may include a touch input unit (for example, a touch sensor, a touch key, a push key, and the like) for sensing a user touch, and a microphone for sensing a voice input. It may include at least one, but is not limited thereto.

The display 120 may display and output information processed by the step-based exercise apparatus 1000. The display 120 may display a GUI for various operations for executing athletic content, an execution screen of athletic game content, and the like.

When the display 120 and the touch pad form a layer structure and constitute a touch screen, the display 120 may be used as an input device in addition to the output device. The display 120 includes a liquid crystal display, a thin film transistor-liquid crystal display, an organic light-emitting diode, a flexible display, and a three-dimensional display (3D). display, an electrophoretic display.

The communication unit 130 may include one or more components that enable wired / wireless communication with an external device. For example, the communication unit 130 may include at least one of a short range communication unit (not shown), a mobile communication unit (not shown), and a broadcast receiving unit (not shown). For example, the communication unit 130 may include Global System for Mobile Communication (GSM), Code Division Multi Access (CDMA), High Speed Downlink Packet Access (HSDPA), High Speed Uplink Packet Access (HSUPA), and Long Term Evolution (LTE). ), Long Term Evolution-Advanced (LTE-A), Wireless LAN (WLAN), Wireless-Fidelity (Wi-Fi), Wireless Fidelity (Wi-Fi) Direct, Digital Living Network Alliance (DLNA), Wireless (Wireless) Data may be transmitted / received with an external terminal according to at least one communication scheme of Broadband) and WiMAX (World Interoperability for Microwave Access). For example, the communicator 130 may connect communication with the wireless electrocardiogram sensor 3000 through BLE communication.

The memory 140 may store a program for processing and controlling the processor 170, and the step-based exercise apparatus 1000 provides recommended exercise content to the user, and the wireless ECG sensor 3000 and the ECG monitoring apparatus 2000. In conjunction with and provides an exercise game and can store a variety of data necessary to guide and manage the user's exercise. The memory 140 may store data inputted to or output from the step-based exercise device 1000. The memory 140 may be a flash memory type, a hard disk type, a multimedia card micro type, a card type memory (for example, SD or XD memory), RAM Random Access Memory (RAM) Static Random Access Memory (SRAM), Read-Only Memory (ROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Programmable Read-Only Memory (PROM), Magnetic Memory, Magnetic Disk It may include at least one type of storage medium of the optical disk. 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 may be classified into a plurality of modules according to their functions. For example, the programs may be classified into a UI module, a touch screen module, a notification module, and the like.

The sensor unit 190 may include at least one sensor, and may detect at least one of a user's heart rate, blood pressure, sleep time, body composition, and indoor / outdoor location. For example, the sensor unit 190 may include at least one sensor of a heart rate sensor, a blood pressure sensor, a sleep sensor, a body composition sensor, and a position recognition sensor.

In addition, the step-based exercise apparatus 1000 may include a speaker 150 for outputting sound and an interface unit 160 for receiving step input information detected from the scaffold input unit 400 for detecting a user's step input. have.

The scaffold input unit 400 may be connected to the processor 170 through the interface unit 160 to exchange step input information with the processor 170. The step input information may be information about a user's step input, and may include, for example, at least one or more information of the number of steps, the step position, and the step intensity. The step input information may be transmitted to the step-based exercise apparatus 1000 or the electrocardiogram monitoring apparatus 2000 and analyzed as exercise information.

In addition, as pressure is applied to the button on the scaffold input unit 400 through the user's foot, exercise content for consuming the user's calories may proceed.

Meanwhile, referring to FIG. 16, the scaffold input unit 400 may be embodied in a mat shape and may detect a step input applied by the user to the scaffold input unit 400 on the scaffold input unit 400. You can detect step inputs that walk in diagonal directions in all directions. In addition, the scaffold input unit 400 connected to the interface unit 160 may include at least one sensor for detecting a foot of the user. The scaffold input unit 400 may detect the user's step input when the user performs a step exercise through the exercise game content.

In addition, the scaffold input unit 400 may absorb the step input applied by the user through the elastic member and may be utilized indoors with no vibration and noise while minimizing the impact on the joint of the user.

The scaffold input unit 400 may include a center button 410 for detecting an in-situ step, and eight direction buttons 420 for detecting steps in the front, rear, left, and right directions based on the center button 410. The suspension support unit 430 may further include a step shock absorber.

Meanwhile, referring to FIG. 15, the step-based exercise apparatus 1000 is a kiosk to which the scaffold input unit 400 is coupled, and is installed in a hospital or a fitness training center and is based on step-by-step for user's customized health management through a user's login. It may be driven by the exercise device 1000.

The processor 170 typically controls the overall operation of the step-based exercise device 1000. For example, the processor 170 may execute the programs stored in the memory 140 to thereby input the input unit 110, the display 120, the communication unit 130, the memory 140, the speaker 150, and the interface unit 160. ), The sensor unit 190 and the battery 180 may be controlled overall. The processor 170 may control the operation of the step-based exercise device 1000 in FIGS. 1 to 13 by executing programs stored in the memory 140.

The processor 170 may include application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), controllers, and microcontrollers. (micro-controllers), microprocessors (microprocessors), may be implemented using at least one of the electrical unit for performing other functions.

17 is a block diagram of an electrocardiogram monitoring device, according to some embodiments.

Referring to FIG. 17, the ECG monitoring apparatus 2000 may include a communication unit 2100, a processor 2200, and a DB 2300, and the DB 2300 may include exercise content information DB 2310 and health information DB ( 2320).

The communication unit 2100 may include one or more components that enable wired / wireless communication with an external device. For example, the communication unit 2100 may include at least one of a short range communication unit (not shown), a mobile communication unit (not shown), and a broadcast receiving unit (not shown).

The DB 2300 may store a program for processing and controlling the processor 2200, and the ECG monitoring apparatus 2000 may determine exercise content and exercise intensity suitable for a user, and allow an administrator to monitor a user's exercise state. Various data can be stored. The DB 2300 may register a user who uses the step-based exercise device 1000 and 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 the step-based exercise device 1000. For example, the exercise content information DB 2310 may include user information using the step-based exercise device 1000, information about exercise content provided by the step-based exercise device 1000, and functions of the step-based exercise device 1000. Information for management can be stored.

The health information DB 2320 may store information related to a user's health. For example, the health information DB 2320 may be operated by a medical institution and may store information about a user's health condition, medical records, medical prescription records, and exercise prescriptions. In addition, the health information DB 2320 may be operated by an exercise organization, and may store information about a user's exercise ability, a user's exercise history, and a user's exercise prescription.

The processor 2200 typically controls the overall operation of the ECG monitoring apparatus 2000. For example, the processor 2200 may control the input unit (not shown), the display (not shown), the communication unit 2100, the DB 2300, and the like by executing programs stored in the DB 2300. The processor 2200 may control the operation of the ECG monitoring apparatus 2000 of FIGS. 1 to 13 by executing programs stored in the DB 2300. The processor 2200 may include application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), controllers, and microcontrollers. (micro-controllers), microprocessors (microprocessors), may be implemented using at least one of the electrical unit for performing other functions.

 Some embodiments may also be embodied in the form of a recording medium containing instructions executable by a computer, such as program modules executed by the 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, computer readable media 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. Communication media typically include computer readable instructions, data structures, program modules, or other data transmission mechanisms for data signals, and includes any information delivery media.

Further, in this specification, “unit” 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.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present disclosure is indicated 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 should be construed as being included in the scope of the present invention. do.

Claims (11)

In the electrocardiogram monitoring device to monitor the electrocardiogram of a user using a step-based exercise device,
Receiving a user identification value from the step-based exercise device;
Determining a heart rate band corresponding to the user based on the user identification value;
Receiving electrocardiogram sensing information sensed from a wireless ECG sensor connected to the step-based exercise device from the step-based exercise device in real time;
Constructing an electrocardiogram monitoring screen based on the received electrocardiogram sensing information and the determined heart rate band; And
Changing a configuration of the ECG monitoring screen based on the number of devices connected to the ECG monitoring device;
Including;
The method,
Receiving information from the step-based exercise device indicating that the user has left the step-based exercise device;
If the ECG sensing information is continuously provided from the EKG sensor to the step-based exercise device within the wireless communication range of the wireless ECG in the state where the user leaves the step-based exercise device, the step-based exercise device leaves the step-based exercise device. Continuously receiving ECG sensing information of a user from the step-based exercise device and outputting a notification requesting to resume the exercise of the user according to a predetermined criterion;
If the wireless ECG sensor is out of the wireless communication range with the step-based exercise device while the user has left the step-based exercise device, information indicating that the communication between the wireless ECG sensor and the step-based exercise device is disconnected. Outputting an alarm received from the step-based exercise device and informing that the wireless ECG sensor is out of the wireless communication range;
If the wireless ECG sensor is reconnected between the step-based exercise device after the wireless ECG sensor is out of the wireless communication range with the step-based exercise device while the user has left the step-based exercise device, Providing, by the wireless ECG sensor, information for guiding the exercise of the user to the step-based exercise device in consideration of the time during which the communication with the step-based exercise device is disconnected;
Further comprising, the method. The method of claim 1,
Comprising the ECG monitoring screen, the step of adjusting the scale of the graph for monitoring the ECG of the user based on the determined heart rate band;
It further comprises. The method of claim 1,
The configuring the ECG monitoring screen may include including information on the disease name of the user, the exercise intensity of the user, and the exercise precautions of the user on the ECG monitoring screen;
It further comprises. The method of claim 3, wherein
The changing of the configuration of the ECG monitoring screen may include: dividing a screen of the ECG monitoring device into a plurality of screens as the number of devices connected to the ECG monitoring device increases, and changing the changed screen to one of the plurality of divided screens. Displaying an electrocardiogram monitoring screen;
It further comprises. The method of claim 4, wherein
Changing the configuration of the ECG monitoring screen,
Some of the disease name of the user, the exercise intensity of the user, and the exercise precautions of the user are based on the disease name of the user, the exercise intensity of the user, and a predetermined importance level respectively corresponding to the exercise precaution of the user. Select it,
And among the disease name of the user, exercise intensity of the user, and exercise precautions of the user, include only the selected portion in the modified ECG monitoring screen. The method of claim 1,
Based on the received electrocardiogram sensing information, identifying the user's heart rate is out of the heart rate band;
Outputting an alarm indicating that the user needs to rest;
It further comprises. delete delete delete An electrocardiogram monitoring device for monitoring an electrocardiogram of a user using a step-based exercise device,
Communication unit for communicating with the step-based exercise device;
A storage unit storing at least one instruction for monitoring an electrocardiogram of a user;
By executing the at least one instruction,
Receive a user identification value from the step-based exercise device, determine the heart rate band corresponding to the user based on the user identification value, and the electrocardiogram sensing information sensed from the wireless ECG sensor connected to the step-based exercise device Receiving in real time from the step-based exercise device, configuring an ECG monitoring screen based on the received ECG sensing information and the determined heart rate band, and based on the number of devices connected to the ECG monitoring device, A processor for changing the configuration;
Including;
The processor,
Receive information from the step-based exercise device indicating that the user has left the step-based exercise device,
If the ECG sensing information is continuously provided from the EKG sensor to the step-based exercise device within the wireless communication range of the wireless ECG in the state where the user leaves the step-based exercise device, the step-based exercise device leaves the step-based exercise device. Continuously receiving ECG sensing information of a user from the step-based exercise device and outputting a notification requesting to resume the exercise of the user according to a predetermined criterion;
If the wireless ECG sensor is out of the wireless communication range with the step-based exercise device while the user has left the step-based exercise device, information indicating that the communication between the wireless ECG sensor and the step-based exercise device is disconnected. An alarm received from the step-based exercise device and outputting an alarm indicating that the wireless ECG sensor is out of the wireless communication range,
If the wireless ECG sensor is reconnected between the step-based exercise device after the wireless ECG sensor is out of the wireless communication range with the step-based exercise device while the user has left the step-based exercise device, And the wireless ECG sensor providing information to guide the movement of the user to the step-based exercise device in consideration of the time during which the communication with the step-based exercise device is disconnected. A computer-readable recording medium for executing the method of claim 1 on a computer.

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