Cardiac pacing monitoring system based on piezoelectric energy capture

Abstract

The invention discloses a cardiac pacing monitoring system based on piezoelectric energy capture, wherein the system comprises a piezoelectric device, a data processor, and a hospital control center;the piezoelectric device is arranged in a patient body, and the piezoelectric device is excited to generate an electric signal by beating of a heart; the data processor is connected with the piezoelectric device and is used for comparing the electric signal generated by the piezoelectric device with the electric signal generated by normal heartbeat; if the electric signal is abnormal, a feedback signal is sent out; the hospital control center is connected with the data processor and is used for receiving the feedback signal, and performing rescue work on a patient by the feedback result. The heartbeat state of a human body is collected by means of system and computer program control, the problems of poor monitoring synchronization, human error, low reliability and insufficient medical personnel in a manual mode are solved, the problems of long inherent period and high labor cost in manual mode acquisition are broken through, a large number of manual participation are not needed, and the monitoring results cannot be affected due to human factors.

Description

technical field [0001] The invention belongs to the technical field of medical monitoring, in particular to a cardiac pacing monitoring system based on piezoelectric energy harvesting. Background technique [0002] At present, in the work of monitoring the physical condition of patients, there are various types of physical indicators, and the most intuitive one is the heartbeat. If manual collection and recording are required, a lot of manpower, material resources, and time will be consumed, and there are many patients in large hospitals. Synchronous acquisition and processing of each patient's heartbeat status is also difficult to operate in practice. There are many problems in practical applications, and it is not operable. Moreover, due to artificially recorded data, different types of data records will be out of sync and the artificial recording process may All kinds of mistakes and other factors lead to unreliable data. Once a mistake is made, it will bring great hidden...

AI Technical Summary

Problems solved by technology

[0002] At present, in the work of monitoring the physical condition of patients, there are various types of physical indicators, and the most intuitive one is the heartbeat. If manual collection and recording are required, a lot of manpower, material resources, and time will be consumed, and there are many patients in large hospitals. Synchronous acquisition and processing of each patient's heartbeat status is also difficult to operate in practice. There are many problems in practical applications, and it is not operable. Moreover, due to artificially recorded data, different types of data records will be out of sync and the artificial recording process may All kinds of mistakes and other factors lead to unreliable data. Once a mistake is made, it will bring great hidden dangers to patients, and a large number of manual labor is inefficient, time-consuming, and labor-intensive, prolonging working hours and increasing costs. It is not guaranteed to notify the medical staff quickly when the patient's heartbeat is abnormal

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