KR-20260062149-A - System and method for managing health by monitoring and predicting cardiovascular status in real time real-time

Abstract

A cardiovascular management system according to the present disclosure comprises: a communication module that receives biometric information of a user including heart rate information; and a processor that generates cardiovascular monitoring and prediction information based on the received biometric information. The processor analyzes the biometric information and, when an abnormal pulse is detected, records the time at which the abnormal pulse was detected, the heart rate information at that time, and the user's status information. It also provides the number of times the abnormal pulse occurred during a preset period to a user terminal and provides a step-by-step notification to the user terminal according to the number of times the abnormal pulse occurred.

Inventors

• 최항주

Assignees

• 최항주

Dates

Publication Date

20260507

Application Date

20241025

Claims (10)

1. A communication module that receives user biometric information including heart rate information; and It includes a processor that generates cardiovascular monitoring and prediction information based on the received biometric information, and The above processor is, If an abnormal pulse is detected by analyzing the above biometric information, the time at which the abnormal pulse was detected, the heart rate information at that time, and the user's status information are recorded, and The number of times the above abnormal pulse occurred during a preset time is provided to the user terminal, and A cardiovascular health management system that provides stepwise notifications to the user terminal according to the number of times the above abnormal pulse occurs.
2. In paragraph 1, The above processor is, The above biometric information is analyzed to determine the state of the user, wherein the state of the user is determined to be one of a resting state, an activity state, and a sleep state, and If the number of times the abnormal pulse occurs during the above preset time is greater than or equal to the preset number, and the user's state is a resting state or an active state, a notification is provided to the user terminal, and A cardiovascular health management system that provides a notification to the user terminal and the user's guardian terminal when the number of times the abnormal pulse occurs during the above-mentioned preset time is greater than or equal to the preset number and the user is in a sleep state.
3. In paragraph 2, The above processor is, Receiving the resting heart rate of the user measured while the user is at rest and the activity heart rate of the user measured while the user is moving, Based on the above-mentioned measured resting heart rate and activity heart rate, set an activity reference heart rate, and A cardiovascular health management system that analyzes the biometric information of the above user and determines the user's condition as an active state when the heart rate is above the activity standard heart rate.
4. In paragraph 1, The above processor is, By analyzing the above biological information, it is detected as an abnormal pulse when the heart rate is irregular, and By analyzing the above biometric information, a notification is provided to the user terminal when the heart rate is above a preset tachycardia threshold heart rate and when the heart rate is below a preset bradycardia threshold heart rate, A cardiovascular health management system that does not provide a notification to the user terminal when the heart rate is above the preset tachycardia threshold heart rate but the user is in an active state, or when the heart rate is below the preset bradycardia threshold heart rate but the user is in a sleeping state.
5. In paragraph 1, The above processor is, Based on the time at which the abnormal pulse was detected, the heart rate information at that time, and the user's status information, the conditions under which an abnormal pulse occurs in the user are derived, and By analyzing the above biometric information, if the above conditions apply, a notification requiring caution is provided to the user terminal, and A cardiovascular health management system that, after providing the above notification, analyzes the above biometric information to check whether an abnormal pulse is detected, and updates the above condition if no abnormal pulse is detected.
6. In paragraph 1, The above processor is, Regarding the above abnormal pulse, a step-by-step notification is provided to the user terminal at a plurality of preset times, As the number of the above abnormal pulses increases, the content included in the notification changes, and If the number of times the abnormal pulse occurs during the above preset time is greater than or equal to the highest number among the preset times, a notification is provided to the user terminal recommending rest, along with a notification requesting acknowledgment that the notification has been received. A cardiovascular health management system that provides a notification to the user's guardian terminal when it fails to receive a reception acknowledgment signal from the user terminal indicating that it has acknowledged the notification.
7. In paragraph 6, The above user's biometric information further includes electrode temperature information, and The above processor is, Even if the number of times the abnormal pulse occurs during the above preset time is lower than or greater than the highest number among the preset times, if the electrode temperature deviates from the preset temperature range, a notification is provided to the user terminal recommending rest, along with a notification requesting acknowledgment that the notification has been received. A cardiovascular health management system that provides a notification to the user's guardian terminal when it fails to receive a reception acknowledgment signal from the user terminal indicating that it has acknowledged the notification.
8. In paragraph 6, The biometric information of the above user further includes at least one of blood pressure information, blood sugar information, body fat percentage information, cholesterol level information, age information, weight information, respiratory rate information, and exercise information as additional information, and The above processor is, Calculate a cardiovascular health index based on the number of times the abnormal pulse occurred during the above-preset time and the above-mentioned additional information, and A cardiovascular health management system in which the highest number among the set numbers is adjusted lower as the above cardiovascular health index is lower.
9. In paragraph 1, The biometric information of the above user includes cardiovascular scale information for the above user, basic information and dietary information of the above user, and The above cardiovascular scale information includes at least one of the occurrence of an abnormal pulse, blood pressure information, blood sugar information, body fat percentage information, and cholesterol level information, and the above basic information includes at least one of age information, weight information, respiratory rate information, exercise information, body temperature information, information on smoking, and information on drinking. The above processor is, Based on the received cardiovascular scale information and the basic information, the cardiovascular health status of the user is analyzed, and based on the cardiovascular health status, user-customized health information is generated. If the cardiovascular health status of the above user is analyzed to be outside the normal range, the calorie information consumed by the above user is calculated based on the above diet information, and Based on the correlation between the above-mentioned calorie intake and cardiovascular scale information, a target calorie intake is calculated to adjust the user's cardiovascular scale information to a normal range, and A cardiovascular health management system that generates customized diet information corresponding to the target calorie intake calculated above as customized health information.
10. By a method performed by a computing device, A step of receiving user biometric information including heart rate information; A step of analyzing the above biometric information and, when an abnormal pulse is detected, recording the time at which the abnormal pulse was detected, heart rate information at that time, and the user's status information; A step of providing the number of times the above abnormal pulse occurred during a preset time to a user terminal; and A control method for a cardiovascular health management device comprising the step of providing stepwise notifications to the user terminal according to the number of times the above abnormal pulse occurs.

Description

System and method for managing health by monitoring and predicting cardiovascular status in real time The present disclosure relates to a system capable of monitoring cardiovascular conditions in real time and evaluating the condition of the cardiovascular system. Recently, the size of the digital healthcare market has been growing significantly every year. However, despite the growth in the size of this market, there is a problem in that the accuracy of analyzing users' health status in real time is lacking in many aspects. In particular, technology that analyzes users' biometric information to monitor and evaluate cardiovascular status has the problem of low accuracy and a long delay in providing judgment results. Therefore, there is a need for technology that analyzes the user's biometric information in real time to monitor cardiovascular status and accurately evaluate it. FIG. 1 is a schematic diagram of a health management system through cardiovascular condition monitoring and prediction according to an embodiment of the present disclosure. FIG. 2 is a block diagram of an electronic device according to an embodiment of the present disclosure. FIG. 3 is a block diagram of a server that monitors and evaluates cardiovascular conditions according to an embodiment of the present disclosure. Figure 4 is a perspective view of the electronic device of Figure 1. Figure 5 is an example diagram of an electronic device including a sensor module. Figure 6 is a diagram illustrating a user wearing an electronic device. FIG. 7 is a flowchart of a cardiovascular condition monitoring method as a cardiovascular health management method according to an embodiment of the present disclosure. Figure 8 is an example of an abnormal pulse. FIG. 9 is a flowchart of a cardiovascular condition evaluation method as a cardiovascular health management method according to an embodiment of the present disclosure. Figure 10 is a diagram illustrating status monitoring information provided to a user terminal. Throughout this disclosure, the same reference numerals denote the same components. This disclosure does not describe all elements of the embodiments, and general content in the art to which this disclosure pertains or content that overlaps between embodiments is omitted. The terms ‘part, module, component, block’ as used in the specification may be implemented in software or hardware, and depending on the embodiments, a plurality of ‘parts, modules, components, blocks’ may be implemented as a single component, or a single ‘part, module, component, block’ may include a plurality of components. Throughout the specification, when a part is described as being "connected" to another part, this includes not only cases where they are directly connected but also cases where they are indirectly connected, and indirect connections include connections made via a wireless communication network. Furthermore, when it is stated that a part "includes" a certain component, this means that, unless specifically stated otherwise, it does not exclude other components but may include additional components. Throughout the specification, when it is stated that a component is located "on" another component, this includes not only cases where a component is in contact with another component, but also cases where another component exists between the two components. Terms such as "first," "second," etc., are used to distinguish one component from another, and the components are not limited by the aforementioned terms. Singular expressions include plural expressions unless there is an obvious exception in the context. In each step, identification codes are used for convenience of explanation and do not describe the order of the steps; the steps may be performed differently from the specified order unless a specific order is clearly indicated in the context. The operating principles and embodiments of the present disclosure will be described below with reference to the attached drawings. In this specification, the term "electronic device or server according to the present disclosure" includes all various devices capable of performing computational processing and providing results to a user. For example, the electronic device according to the present disclosure may include all of a computer, a server, and a portable terminal, or may be in the form of any one of them. Here, the computer may include, for example, a laptop, desktop, notebook, tablet PC, slate PC, etc. equipped with a web browser. The above server is a server that processes information by communicating with external devices, and may include an application server, a computing server, a database server, a file server, a game server, a mail server, a proxy server, and a web server. The above portable terminal may include, for example, all types of handheld-based wireless communication devices such as PCS, GSM, PDC (Personal Digital Cellular), PHS (Personal Handyphone System), PDA (Personal Digital Assis