Modification method for uneven pulse wave data base line

A data correction and pulse wave technology, which is applied in the fields of electrical digital data processing, special data processing applications, instruments, etc., can solve the problems of uneven data baselines of pulse acquisition instruments and unequal pulse wave data baselines, to expand the use and application scope, Solve the drift of the baseline and solve the effect of uneven data baseline

Inactive Publication Date: 2014-05-14
XIDIAN UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] At present, the existing technology for dealing with uneven baseline of pulse wave data cannot deal with the problem of uneven baseline of data collected by pulse acquisition instruments under the premise of effectively protecting pulse information.

Method used

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  • Modification method for uneven pulse wave data base line
  • Modification method for uneven pulse wave data base line
  • Modification method for uneven pulse wave data base line

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0054] The present invention is a method for correcting the uneven pulse wave data baseline. The HK2000H type pulse sensor is used to collect the original data, and the present invention is used to correct the uneven pulse wave data baseline. See figure 1 , the specific steps are as follows:

[0055] A. Input the raw pulse data collected by the pulse sensor (x j ,y j ), the data contains not less than 3 pulse wave cycles, in this example the input pulse wave data contains 5 complete pulse cycles, see image 3 , the baseline of the data is uneven: in the first 800 data areas, the data baseline has an arched upward trend, which is very unfavorable for further analysis of the pulse information of traditional Chinese medicine contained in the pulse signal;

[0056] B. Identify and divide the pulse wave cycle contained in the original pulse data. The division of each pulse wave cycle takes the end of the descending branch of each cycle as the demarcation point. The demarcation p...

Embodiment 2

[0068] The method for correcting the uneven baseline of the pulse wave data is the same as in Embodiment 1, wherein the piecewise cubic spline interpolation method is used for the case of a large amount of data.

[0069] The pulse wave baseline correction method based on the piecewise cubic spline interpolation method is as follows:

[0070] A. In this example, a long period of pulse wave data with uneven baseline is input, including 33 cycles;

[0071] B. with the method for identifying and dividing the pulse wave cycle contained in the original pulse data in the example 1, obtain this section data and comprise N=33 pulse wave cycle altogether, and the minimum value point (xc of each pulse wave in the original data) i ,yc i ), (i=1, 2, . . . , 21). The identification and classification results are as follows Figure 6 shown;

[0072] C. Because N≥7, skip step C and go directly to step D;

[0073] D. Since N≥7, use the piecewise cubic spline interpolation method to correc...

Embodiment 3

[0087] The method for correcting the uneven baseline of the pulse wave data is the same as that in Embodiment 1, wherein a cubic polynomial fitting method is used for the case of a small amount of data.

[0088] The original pulse wave data input in this example is very short, only N=3 pulse wave periods, and its baseline has a tendency to slope upward to the right. Using the baseline correction method of the present invention, the cubic fitting polynomial is obtained as: P=0.0000x 3 +0.0001x 2 +0.0231x 1 +53.3214x 0 , after discretization, correct the data. The correction effect of the data by using the present invention is very good. This example shows that the present invention is practical, effective and fast for baseline correction of shorter data.

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Abstract

The invention discloses a modification method for an uneven pulse wave data base line, and technical problem of uneven original data base line collected by a pulse sensor can be solved. The method comprises the following steps that: firstly, original data for a pulse is input, and pulse wave periods contained in the original pulse data can be distinguished and divided; under the circumstance of small data quantity, a cubic polynominal fitting method is adopted, a polynominal function P=sum(aix) discretization yyj=sum(aixj) is fitted, I being 0 to n, and data is corrected to be (xj, yj- yyj); under the circumstance of large data quantity, a section cubic spline interpolation manner is adopted, difference is carried out for minimum value points of all pulse wave periods, and a difference function s=s (x) can be obtained, yyj =ss (xj) can be obtained through discretization; and the data is corrected to be (xj, yj-yyj). In the modification method, the base line is corrected, pulse condition information can be effectively protected at the same time, calculated quantity is small, modification effect is good, circumstances of large data quantity and small data quantity can be corrected, the modification method is particularly applicable to the conventional pulse condition collecting and analyzing equipment, and moreover, novel hardware equipment is not needed to be configured and added.

Description

technical field [0001] The invention belongs to the technical field of electronic medical instruments, and mainly relates to pulse wave signal processing, in particular to a method for correcting original data collected by a pulse sensor, which corrects the uneven baseline of the original data collected by the pulse sensor, specifically a A correction method for uneven baseline of pulse wave data. The present invention can be used in existing pulse condition acquisition and analysis equipment without refitting or adding new hardware equipment. Background technique [0002] TCM pulse diagnosis is an important method of TCM diagnosis, but the traditional TCM pulse diagnosis method has the characteristics of "clear in the heart, difficult to explain", which is not easy to be objective and fair. In order to make TCM pulse diagnosis more objective, relevant scholars have done a lot of research, such as using pulse sensors to collect pulse information, using computers to draw pul...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F19/00
Inventor 蔡觉平曾祥云赵连锋袁念德
Owner XIDIAN UNIV
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