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Wearable human body motion state data monitoring system and method

A technology of human motion and state data, applied in the directions of diagnostic recording/measurement, medical science, sensors, etc., can solve the problems of calculation and analysis errors of acceleration data, ignoring the accuracy of measurement data, etc.

Active Publication Date: 2014-02-26
NORTHEASTERN UNIV
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Problems solved by technology

[0003] The wearable design makes the human body movement state monitoring device more closely connected with the human body, and can reduce the error caused by the position change of the device itself. However, most human body movement state monitoring devices have a problem in data analysis: when actually collecting acceleration, Since the coordinate system of the motion state monitoring device worn by the human body does not coincide with the physical coordinate system, it is easy to cause errors in the calculation and analysis of the acceleration data, and most devices for monitoring the motion state of the human body ignore the accuracy of the device structure itself for the measurement data. degree of impact

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  • Wearable human body motion state data monitoring system and method
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Embodiment Construction

[0062] The specific implementation manners of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0063] The wearable human body movement state data monitoring system in this embodiment includes a receiver and a plurality of human body movement state data monitoring devices.

[0064] The human movement state data monitoring device is worn by the subject on the waist, and the device includes a three-axis acceleration sensor and a processor; the three-axis acceleration sensor uses Freescale's MMA7260QT three-axis acceleration sensor, and the processor model is CC2430.

[0065] The three-axis acceleration sensor MMA7260QT is used to monitor the subject's human motion state data, that is, the X-axis acceleration, Y-axis acceleration and Z-axis acceleration caused by the change of the human body motion state, and send the monitored data to the processor.

[0066] The processor is used to obtain the voltage data of the power suppl...

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Abstract

A wearable human body motion state data monitoring system comprises a receiver and a plurality of human body motion state data monitoring devices; every human body motion state data monitoring device is worn by a subject at the waist and comprises a three-axis acceleration sensor and a processor; the three-axis acceleration sensor is used for monitoring the human body motion state data of the subject and sending the data to the processor; the processor is used for obtaining voltage data of a power supply battery of the processor and calibrating received X-axis acceleration, Y-axis acceleration and Z-axis acceleration data according to the power supply voltage data, and the calibrated data is sent to the receiver. According to the wearable human body motion state data monitoring system, voltage compensation and dip computation are performed on the collected human body motion state data in the motion state of the subject, the acceleration of a local coordinate system of every human body motion state data monitoring device is converted to a physical coordinate system, effective calibration is performed on the collected acceleration data, and data changes of a human body in all directions during a motion process can be reflected more truly.

Description

technical field [0001] The invention relates to the technical field of motion state monitoring, in particular to a wearable human body motion state data monitoring system and method. Background technique [0002] In the prior art, there are many devices that use acceleration sensors to monitor human body movement status. For example, the invention patent No. 201210281132.7 "a human body movement status detection system and detection method" uses the acceleration sensor and direction sensor in the mobile phone to monitor human body movement. The motion state is monitored, and the collected acceleration value and direction value are normalized and mapped to the standard three-dimensional coordinate system, and the SVM algorithm is used to realize the analysis of the human body motion state. However, it only uses the interpolation method to improve the data accuracy, and does not calibrate the data more accurately, and the connection between the mobile phone and the human body ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/11
Inventor 王璐郑娱徐礼胜赵耀楠章星鲍楠印重
Owner NORTHEASTERN UNIV
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