KR20180108336A - The method of accquire the childbearing sign, ovulation day, mensturation end day, mensturation period by using of vital signal(photoplethysmograph, PPG) - Google Patents

Abstract

The present invention relates to a method which restores a capillary change value over time to a PPG by measuring a change of a capillary of a body acupuncture point which is a pulse part, expresses a relaxation phase and a contraction phase of a heart as a PPG index, analyzes a daily change amount of the obtained PPG index and calculates an ovulation date, a menstrual end date, pregnancy and a menstrual cycle of women. The method comprises the following steps of: extracting a first signal representing the change of the capillary of the pulse part from a first image; and reproducing the capillary change of a subject as the PPG represented by a graph over time from the first signal.

Description

The purpose of this study was to evaluate the frequency of menstrual cycle and the duration of menstrual cycle by using the pulse wave index (HRV), ovulation date, menstrual cycle, and menstrual cycle.

The present invention relates to accurate acquisition of pregnancy, ovulation date, menstrual end date, and menstrual cycle using a pulse wave index (PPG index).

In pregnant women, on days of ovulation and menstruation, the hormone changes rapidly, and the size of the pulse wave index changes markedly. The present invention performs a task indicating various physiological information of a woman as a subject through a changed pulse-wave index value.

In the past, cameras attached to smart phones and handheld devices could not capture changes in blood vessels in their skin due to their low resolution. Also, a large digital camera with a lens can not capture the very small parts of the body. As the lens of very small size and the high resolution camera of more than 1000 megapixels appeared, the change of the capillary blood in the skin became possible according to the change of color, and the present invention came to appear.

It regenerates the pulse wave accurately and calculates the pulse wave index. It detects the hormone change of the woman and obtains pregnancy, ovulation date, menstrual end date, menstrual cycle.

The present invention can extract the amount of change in capillary blood vessels through a camera or a photodetector (PPG) of a smart phone, and then reproduce the shape of a pulse wave precisely through an image processing algorithm. The shape of the pulse wave and the pulse wave index And correlates with hormonal changes. The comparison of the ovulation date with the results of the vernal tester using the urine of the day and the menstrual end date are compared through the physiological state of the female subject.

It is possible to provide various physiological information through the analysis of the pulse wave index of a woman of childbearing age.

1 is a view showing a smart phone as an example of a portable video device
2 is a view showing a pulse wave regeneration procedure
Fig. 3 is a view showing passing of the menstrual blood of a human body and drawing of a finger as a menstrual region in the image photographing apparatus for reproducing a pulse wave of a subject
4 is a view showing a state of blood vessel changes photographed at 0.03 second intervals
FIG. 5 is a view showing clearly the image of blood vessel changes photographed at intervals of 0.03 seconds
FIG. 6 is a diagram showing a state of blood vessel changes photographed in accordance with time,
FIG. 7 is a graph showing a graph showing the size of a shape of a blood vessel change photographed at intervals of 0.03 seconds according to time; FIG.
8 is a view showing a pulse wave reproduced in accordance with a change in the entire captured blood vessel
Fig. 9 is a view showing the time of hormone change and the time of the change of the vital sign before and after the ovulation day, the menstruation day of the subject. Fig.
Fig. 10 is a graph showing the comparison of changes in the pulse wave index before and after the ovulation day of the subject. Fig.
11 is a graph showing changes in the pulse wave index before and after the ovulation day of the subject
Fig. 12 is a graph showing changes in the pulse wave index before and after the ovulation day of the subject
FIG. 13 is a graph comparing changes in the pulse wave index before and after the testee's menstrual period. FIG.
Fig. 14 is a graph showing the change of the pulse wave index around the subject's physiological day
Fig. 15 is a graph showing changes in the pulse wave index before and after the testee's menstrual period
16 is a graph showing the change in the pulse wave index before and after the expected life of the subject
17 is a table showing changes in the pulse wave index before and after the expected life of the subject

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a pulse wave measuring method and an apparatus for applying the pulse wave measuring method according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention is directed to a terminal equipped with a high-resolution camera of 8 million pixels or more.

The following is an example using a smartphone equipped with a 16 megapixel camera.

As shown in FIG. 1, the front side 10 is for a display and the rear side 20 includes a smart phone equipped with a 16 million pixel camera. The back camera includes a lens 22 and a flash 24, which is optional.

When the measurement environment is dark, use the flash of the camera.

Referring to Fig. 2, the outline of the method for recovering an EMF according to the present invention will be described.

As a first step, the camera is placed in close contact with the acupuncture points of the body to be photographed.

In the second step, the generated image data is processed to extract a normal signal.

In the third step, the extracted signal is displayed in accordance with time to reproduce a pulse wave.

As a fourth step, pulse waves such as heart rate are displayed using the reproduced pulse waves.

Referring to [Figure 3], a photographing method of the first step will be described.

The lens of the rear camera is brought into close contact with the acupuncture point of the passage of the arterial blood vessels of the body.

The human body has a place called acupuncture, which is the place where the beating is, and it is a place where you can feel the beating by pressing your finger. It says that there are 355 menstrual blood in the human body.

Acupressure is very close to the skin. Close the camera and photograph the movement of the blood vessel.

The position of the blood vessel of the finger is anatomically shown in (a) and (b) of FIG. 3 and the wrist (radial artery) is shown in (c). The camera is brought into close contact with the skin of a menstrual point such as (30), (40) in FIG.

When the surroundings are dark, turn on the flash to capture bright and clear images.

Taking more than 25 frames per second, the change of the blood vessel is precisely obtained.

The following is summarized.

As shown in steps (d) and (e) of FIG. 3, a camera lens is brought into close contact with the skin of the subject of the menstrual discharge in step 1-1.

In step 1-2, the camera normally captures 25 frames per second and transmits the generated image data to the terminal.

In step 1-3, the terminal processes the transmitted image data and displays it on the screen.

4 and 5, it is determined whether or not the received image data in the second step is normal, and how the signal is extracted will be described in detail.

Step 2-1: The received image data is usually a format such as YUV or NV21. Transforms the received image format into an RGB format that can be processed using a conversion algorithm.

The image data converted into the RGB format is shown in (a) of FIG. This image data is subjected to image conversion processing so as to be identifiable as a pipe, as shown in FIG. 4 (b).

Step 2-2: Determine whether the image data is normal.

In the case of a normal signal as in (50) of FIG. 5, an arc or a circle can be observed, and the points 52, 54, and 56 of FIG. 5 are obtained, ) And the radius. The distance to the point where the arc is represented is (60), hereinafter referred to as the "Mangwang".

(54) located at the center of the circle becomes the reference color for calculating the pulse width (variation width of the blood vessel).

If the shape of the circle or circle is not shown through the reference color, it is regarded as an abnormal signal.

It is also possible to calculate the pulse width of the current point by summing the values of a predetermined square width as in (62). This pulse width is regarded as a first signal.

Step 2-3: Record the value of the pulse width.

The signal extracted in the second step is reproduced by the second signal, which is a pulse wave, through [FIG. 6] and [FIG. 7].

When the heart is beating, the blood vessel repeats the contraction and relaxation process. As a result, it can be seen that the pulse width varies with time as shown in Fig.

Step 3-1: The value of the pulse width of 30 times per second is recorded, and the recorded value is reproduced in real time according to time, as shown in FIG.

Step 3-2: The report measurement is continued with the normal pulse wave if the rising edge 74 and the falling edge 76 have the reproduced pulse wave point 70 and the peak point 72 as shown in FIG.

Step 3-3: the rising edge 74 corresponds to the contraction period and the falling edge 76 corresponds to the relaxation period. The values of the rising edge and the falling edge are Fourier-analyzed to calculate the pulse wave index (PPG index).

The pulse wave reconstructed in the fourth step is analyzed through FIG. 8, and the pulse wave result is shown.

The pulse wave reproduced for about 5 to 10 seconds is shown in FIG.

Referring to FIG. 9, the ovulation date and the day of birth determination step of the fourth step will be described.

Step 4-1: Determination of ovulation date: The menstrual cycle of fertile women can be divided into egg-laying and luteal stages, and ovulation occurs at the time of passing from the egg-laying stage to the luteal phase. In the ovary after ovulation, progesterone secretion increases as shown in [Figure 9] at point (90) in [Figure 9], in which the change in the pulse wave index is pronounced. When the change in the value of the pulse wave index measured before ovulation and the change in the value of the pulse wave index measured at the day of ovulation are clearly confirmed, the time when the change of the pulse wave index is clearly confirmed is determined as ovulation day and compared with the Veran tester .

Step 4-2: Determination of physiological end date: The progesterone secretion decreases at the point (91) in FIG. 9 where the physiology almost ends after the start of the menstruation of the woman, and the pulse rate index changes similarly. When the change in the value of the pulse wave index measured during the menstruation period and the change in the value of the pulse wave index measured after the menstruation are clearly confirmed, the time point at which the change in the pulse wave index is clearly confirmed is determined as the menstruation ending date.

Referring to [Figure 10], the ovulation date determination step of the 4-1st step will be described in detail.

Step 4-1 Detailed description 1: When the pulse wave index is continuously acquired ± 5 days before and after the ovulation day, the change of the pulse wave index according to the date is as shown in FIG. At this time, a change in the pulse wave index is clearly observed at the (100) point of [Fig. 10]. The ovulation time can be determined as the ovulation date by comparing this point with the result of the ovulation tester (urine test).

Referring to [Figure 11], the ovulation date determination step of the 4-1st step will be described in detail.

Step 4-1 Detailed explanation 2: The change of the pulse wave shape and the pulse wave index before and after the ovulation day is as shown in FIG. When the shape of the pulse wave becomes larger and the value is converted into an exponent, the value of the pulse wave index becomes larger.

Referring to [Figure 12], the ovulation date determination step of the 4-1st step will be described in detail.

Step 4-1 Detailed explanation 3: Changes in the pulse wave shape and the pulse wave index before and after the ovulation day are summarized, and the marking is as shown in FIG.

Referring to [Figure 13], the physiological end date determination step of the 4-2 step will be described in detail.

Step 4-2 Detailed description 1: When the pulse wave index is continuously obtained ± 5 days before and after the end of the menstrual period, the change of the pulse wave index according to the date is as shown in FIG. At this time, the change of the pulse wave index is clearly confirmed at (130) of FIG. 13, and this point can be determined as the physiological end date.

Referring to FIG. 14, the physiological end date determination step of the 4-2 step will be described in detail.

Step 4-2 Detailed explanation 2: The change of the pulse wave shape and the pulse wave index before and after the ovulation day is as shown in Fig. When the shape of the pulse wave becomes smaller and its value is converted into an exponent, the value of the pulse wave index becomes smaller.

Referring to [Fig. 15], the physiological end date determination step of step 4-2 will be described in detail.

Step 4-2 Detailed description 3: The change of the pulse wave shape and the pulse wave index before and after the end of the menstrual period is summarized and shown in FIG. 15.

Referring to [Fig. 16], a step of determining whether pregnancy is performed in step 4-3 will be described.

Step 4-3: The change of the pulse wave index according to the date when the pulse wave index continuously acquired at ± 5 days before and after the expected physiological end date is shown in FIG. 16. At this time, it is normal that the physiological ending date is expected at the point (160) in FIG. 16 and the value of the pulse wave index is decreased. If the value of the pulse wave index continuously does not change from the expected physiological end point, it is judged as pregnant.

(10): the front surface of the portable terminal
(20): the rear surface of the main body of the portable terminal
(22): a video input device (camera)
(24): flash of portable terminal
(30): blood vessel of fingertip
(50): circumference of the center
(52), (54), (56): Three points of arc for finding the center circumference
(58): Focus of circumference
(60): Moment width from the reference point
(62): Sampling region
(70): the bottom of the pulse width
(72): the peak of the pulse width
(74): rising edge
(76): falling edge
(80): whole cycle
(90): Time of ovulation hormone change
(91): Hormone change at the end of menstrual period
(100): When the ovulation pulse wave index changes
(130): Time point of change in the pulse wave index
(160): Expected physiological end date

Claims (6)

Extracting a first signal indicative of a capillary blood vessel change in a pulse region from a first image; And reproducing the capillary blood vessel change of the subject from the first signal with a pulse wave represented by a graph according to time, Extracting a third signal that is a pulse wave index from a reproduced pulse wave from a second signal that is a systolic period and a diastolic phase of the heart beat; Determining a time at which the value of the pulse wave index, which is the third signal, becomes larger through the step of extracting the third signal before or after the expected ovulation day as the ovulation date, A step of extracting the third signal before and after the expected physiological day, and a step of determining a point at which the value of the third signal, i.e., the pulse wave index, And determining that the third signal is a pregnancy when the value of the pulse wave index, which is the third signal, does not change for a predetermined period of time, by extracting the third signal before and after the expected physiological ending date Calculating a menstrual cycle through the acquired ovulation date and the menstrual end date

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