Health monitoring method and device

Abstract

A health monitoring method comprises the steps of acquiring human body electrocardio data with a conductive fabric serving as an electrocardio electrode; acquiring human body pulse data through a blood oxygen probe; transmitting the electrocardio data and the pulse data wirelessly to a monitoring device which performs calculation according to the received electrocardio data and pulse data through a multi-scale entropy algorithm respectively to obtain two groups of result data; drawing a graph with the result data serving as a vertical coordinate and obtained scale factors of the result data serving as a horizontal ordinate, and performing evaluation analysis according to values and trends of curves of the drawn graph; transmitting evaluation analysis information to a client and displaying the evaluation analysis information; and emitting alarm when the evaluation analysis information meets preset conditions. The invention further provides a corresponding health monitoring device. According to the method and the device, the overall level of human body health can be analyzed after processing through the multi-scale entropy algorithm.

Description

【Technical field】 [0001] The invention relates to the field of monitoring human physiological parameters, in particular to a health monitoring method and device. 【Background technique】 [0002] The current health monitoring system analyzes certain physiological signals to obtain certain aspects of the state information of specific tissues or organs of the human body, and then combines the research results of each individual to form the analysis results of the target system. This method of analysis divides the characteristics of a certain aspect of human tissue or organs into individual parts for separate analysis from the perspective of reductionism, instead of treating the human body as a unified organism. The human body is a nonlinear system, and its parts are interrelated and affect each other. A microscopic stimulus to a certain part of the organism may produce unpredictable macroscopic changes to the entire system. At this time, there are often considerable deviations ...

AI Technical Summary

Problems solved by technology

[0003] When traditional technology monitors ECG data, two methods are basically adopted: one is to use traditional patch-type ECG electrodes. This acquisition method can detect the complete ECG waveform, but it will reduce the Comfortable, and not easy to use, not suitable for detection in the home environment; and the other is to use the pickup head or watch for ECG data collection, using this collection method to get only the heart rate signal, provided The information is extremely limited, which limits the detection of the heart state by the system

[0004] Moreover, the physiological parameters and environmental parameters collected in the traditional technology are only independent individuals. The analysis of these indicators is only to study the change trend of these independent individuals and the significance of this trend, and it is impossible to estimate this change. The impact on the overall health of the subjects, and no effective algorithm is proposed to apply these parameters to the overall health status analysis and assessment

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