Movement trend term elimination algorithm based on non-contact type vital sign monitoring system

A motion trend and vital sign technology, applied in the field of radar, can solve problems such as poor reliability, interference of measurement results, and inability to accurately estimate the cutoff frequency of trend items, and achieve the effect of strong reliability and high accuracy

Inactive Publication Date: 2015-05-13
NANJING UNIV OF SCI & TECH
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AI Technical Summary

Problems solved by technology

However, in the actual measurement process, the involuntary small-scale motion information of the measured target body (referred to as the motion trend item) will interfere with the measurement results
The intuitive solution is to use a high-pass filter to filter out, but the design of this filter: (1) requires a very high order, (2) because the cut-off frequency of the trend item cannot be accurately estimated, the reliability is not good

Method used

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  • Movement trend term elimination algorithm based on non-contact type vital sign monitoring system
  • Movement trend term elimination algorithm based on non-contact type vital sign monitoring system
  • Movement trend term elimination algorithm based on non-contact type vital sign monitoring system

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Embodiment Construction

[0028] to combine figure 1 , a signal processing algorithm of a non-contact vital sign monitoring system, comprising the following steps:

[0029] Step 1, the non-contact vital signs monitoring system sends two orthogonal heartbeat and respiration digital mixed signals, one is the I signal (in-phase branch), and the other is the Q signal (orthogonal branch). The arc tangent processing is carried out on the road and the Q road to obtain the quadrature demodulation signal;

[0030] Step 2, using a waveform reconstruction algorithm based on polynomial curve fitting to perform waveform reconstruction processing on the quadrature demodulation signal obtained in step 1 to obtain the motion trend item information waveform in the quadrature demodulation signal;

[0031] Step 3: Filter out the motion trend item information waveform obtained in step 2 from the quadrature demodulation signal obtained in step 1 to obtain a preprocessed quadrature demodulation signal.

[0032] The fittin...

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Abstract

The invention provides a signal processing algorithm of a non-contact type vital sign monitoring system. The algorithm includes the following steps of firstly, sending two routes of orthorhombic heartbeat and breathe digital mixed signals, namely, the route-I signal and the route-Q signal, through the non-contact type vital sign monitoring system, and conducting arc tangent processing on the route-I signal and the route-Q signal to obtain orthorhombic demodulation signals; secondly, conducting waveform reconfiguration on the orthorhombic demodulation signals obtained in the first step through the waveform reconfiguration algorithm based on polynomial curve fitting so as to obtain movement trend term information waveforms in the orthorhombic demodulation signals; thirdly, filtering the movement trend term information waveforms obtained in the second step out of the orthorhombic demodulation signals obtained in the first step so as to obtain pre-processed orthorhombic demodulation signals. The trend term information is obtained by conducting fitting through the waveform reconfiguration algorithm based on polynomial curve fitting, and the interference caused by the trend term information can be effectively removed after the trend term information is filtered out of echo signals.

Description

technical field [0001] The invention belongs to the field of radar, in particular to a movement trend item elimination algorithm based on a non-contact vital sign monitoring system. Background technique [0002] Heartbeat and breathing are important physical characteristics of the human body. Theoretically, the respiration and heartbeat signals can be separated and extracted accurately by adopting the waveform reconstruction algorithm based on interpolation operation. However, in the actual measurement process, the involuntary small-scale motion information (referred to as motion trend item) of the measured target's body will interfere with the measurement results. The intuitive solution is to use a high-pass filter to filter out, but the design of this filter: (1) requires a very high order, (2) because the cut-off frequency of the trend item cannot be accurately estimated, the reliability is not good. [0003] In many application fields, people often need to obtain data ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/0205A61B5/07A61B5/113A61B5/0245
CPCA61B5/7207A61B5/0205A61B5/024A61B5/08A61B5/7278
Inventor 洪弘王蒙李彧晟顾陈李洪涛朱晓华
Owner NANJING UNIV OF SCI & TECH
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