Physiological signal detection method, device, apparatus and computer readable storage medium

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By collecting and storing various types of environmental energy, a passive photon sensor is driven to detect physiological signals, solving the health monitoring problem of smart wearable devices under low energy supply and realizing the device's continuous monitoring capability under low power conditions.

CN122181981APending Publication Date: 2026-06-12XIAN TIANLONG COMM TECH CO LTD +2

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Patent Information

Authority / Receiving Office: CN · China
Patent Type: Applications(China)
Current Assignee / Owner: XIAN TIANLONG COMM TECH CO LTD
Filing Date: 2026-03-27
Publication Date: 2026-06-12

Application Information

Patent Timeline

27 Mar 2026

Application

12 Jun 2026

Publication

CN122181981A

IPC: A61B5/02; A61B5/024; A61B5/026; A61B5/021; A61B5/00

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Application Domain

Evaluation of blood vessels Catheter

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AI Technical Summary

⚠Technical Problem

Existing smart wearable devices struggle to maintain stable health monitoring functions under limited energy supply conditions, resulting in insufficient battery life and affecting the continuity and stability of health monitoring.

⚗Method used

It collects ambient light energy, heat energy generated by the temperature difference between the human body and the environment, and mechanical vibration energy generated by human movement, converts them into stable electricity and performs energy storage management. Based on the system's energy state information, it determines the operating mode and drives a passive photon sensor to detect physiological characteristic light signals.

🎯Benefits of technology

Under low energy supply conditions, it achieves effective monitoring of human physiological parameters, improving the device's continuous health monitoring capabilities and battery life.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a physiological signal detection method, device, equipment and computer readable storage medium, comprising: collecting different dimensional environmental energy such as ambient light energy, heat energy generated by the temperature difference between human body and environment, and mechanical vibration energy generated by human body movement, and converting the same into stable power for energy storage management, to obtain system energy state information, and determining the corresponding system operation mode based on the system energy state information, and then driving the optical signal excitation unit to perform optical detection on the passive photonic sensor by using the energy storage unit, so as to obtain the human physiological signal and generate the physiological characteristic parameter. Therefore, the health monitoring process can be dynamically adjusted according to the available energy of the system, so that the device can still complete effective monitoring of the human physiological parameter under the condition of low energy supply, thereby maintaining the operation of the health monitoring function with low power.

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