AU2020102196A4

AU2020102196A4 - Method for detecting growth state of nucleated pearls in living pearl oysters

Info

Publication number: AU2020102196A4
Application number: AU2020102196A
Authority: AU
Inventors: Zhiyi Bai; Quanzhi Bao; Jiale Li; Minglong Sun; Tianyang Sun; Li Yuan
Original assignee: Shanghai Ocean University
Current assignee: Shanghai Ocean University
Priority date: 2020-03-24
Filing date: 2020-09-10
Publication date: 2020-10-22
Anticipated expiration: 2028-09-10
Also published as: AU2020256442A1; AU2020256442B2; CN111307840A; WO2021189721A1

Abstract

OF THE DISCLOSURE Disclosed is a method for detecting the growth status of nucleated pearls in living pearl oysters, comprising: irradiating a standard sphere with X rays to obtain an initial image with a radius of ro, then identifying the boundary points of the initial image and fitting to obtain the fitted circle of the standard sphere with a radius of Ro, calculating the scale factor =ro/Ro; performing the same method to obtain the maximum diameter dmax and minimum diameter dmi of the pearl image to be detected, the radius R1 of the nacre fitted circle, and the radius R2 of the nucleus fitted circle, the nucleus-inserted pearl radius ri= Ri and the nucleus radius r2=pR2; and accordingly calculating the nucleus-inserted pearl size d=2ri, the nacre thickness r=ri-r2 and the pearl roundness DDP=(dmax-dmi)/dmaxx100 %. The invention solves the problem that the traditional sampling and detection of pearl oysters cannot detect and eliminate pearl oysters in a poorly-growing state in time, and can significantly improve the quality of pearls under cultivation conditions through timely tracking and detection. 11

Description

METHOD FOR DETECTING GROWTH STATE OF NUCLEATED PEARLS IN LIVING PEARL OYSTERS BACKGROUND OF THE INVENTION

[0001] 1. Technical Field

[0002] The invention belongs to the technical field of aquaculture detection, and

specifically relates to a method for detecting the growth state of nucleated pearls in living

pearl oysters, where an X-ray radiation source is used to track and detect the growth of

nucleated pearls in the living pearl oysters.

[0003] 2. Description of Related Art

[0004] At present, the growth status of pearls is generally obtained by sampling a

batch of cultured pearl oysters, and then dissecting the pearl oysters to detect the

growth status of the pearls. Such a detection method can assess the culture status of pearl

oysters in the same batch of cultured groups and guide the management of aquaculture

production, but it cannot detect and eliminate the pearl oysters in a poorly-growing state in

time. Due to the long cultivation cycle of pearls, the cultivation of pearl oysters in a

poorly-growing state will increase the cultivation cost and decrease the cultivation

efficiency.

[0005] X-ray detection is convenient and practical. Under certain dose conditions,

it can achieve unique detection effects that other detection methods cannot achieve,

without damaging a detected object. The images can be visually analyzed or archived for

future reference. In clinic, it is often used for bone imaging. As a simple and commonly

used inspection method, it can observe the characteristics of bone surface morphology

from different angles. The penetrating power of X rays is related to the density of the

substance. The property of differential absorption can be used to distinguish substances

with different densities, so that the surface thickness of the detected object can be clearly detected.

BRIEF SUMMARY OF THE INVENTION

[0006] In order to overcome the problem that the traditional pearl oyster sampling

test cannot detect and eliminate pearl oysters in a poorly-growing state in time, the

objective of the invention is to provide a method for detecting the growth state of

nucleated pearls in living pearl oysters, which can track and detect the growth state and

grade of the nucleus-inserted pearls in the living pearl oysters, such as the size, the nacre

thickness, and the roundness.

[0007] In order to solve the above technical problems, the technical solution

adopted by the invention is as follows:

[0008] The invention provides a method for detecting the growth state of nucleated

pearls in living pearl oysters. The detection of nucleated pearls in the living pearl oysters

using X rays includes the following steps:

[0009] (1) adjusting the target current of an X-ray tube to 0.5mA, placing a

standard sphere between an X-ray radiation source and an imaging plane, keeping the

center of the standard sphere on a reference straight line, and enabling the X-ray radiation

source to irradiate the standard sphere to obtain an initial image of the standard sphere on

the imaging plane, and measuring the radius of the initial image as ro;

[0010] (2) identifying the boundary points of the initial image of the standard

sphere in Step (1), fitting to obtain a fitted circle of the standard sphere, measuring the

radius Ro of the fitted circle, and calculating the scale coefficient =ro/Ro;

[0011] (3) placing a nucleus-inserted pearl of a living pearl oyster between the

X-ray radiation source and the imaging device, keeping the center of the nucleus wrapped

in the annular nacre on the reference straight line, and enabling the X-ray radiation source

to irradiate the nacre and pearl nucleus to obtain a nacre image and a nucleus image on the imaging plane, and measuring the maximum diameter dmax and minimum diameter dmin of the obtained pearl image;

[0012] (4) identifying the boundary points of the nacre image and the nucleus

image in Step (3) respectively, and fitting to obtain an outermost nacre fitted circle and a

central nucleus fitted circle, and measuring the radii of the nacre fitted circle and the

nucleus fitted circle as R1 and R2 , respectively, and calculating the radius of the

nucleus-inserted pearl as ri= Ri and the radius of the nucleus as r2=pR2;

[0013] (5) based on the dmax, dmin, ri and r2, and according to the following

calculation formulas, calculating the size d, the nacre thickness r and the pearl roundness

DDP of the nucleated pearl in living pearl oyster, wherein:

[0014] the pearl size d=2ri;

[0015] the nacre thickness r=r-r2;

[0016] the pearl roundness DDP=(dmax-dmin)/dmaxX100%.

[0017] According to some embodiments of the invention, the standard sphere is a

lead ball with a diameter of lcm, which can completely block the transmission of X-rays

and can be used as a standard sphere for measurement.

[0018] It should be noted that the pearl roundness DDP adopts the diameter

difference percentage, and the measured maximum diameter dmax and minimum diameter

dmin of the pearl image do not need to be calibrated by the scale factor u.

[0019] According to some embodiments of the invention, the method of

identifying the boundary points of the image of the object to be detected is to distinguish

the pixels of the image of the object to be detected according to the gray value of each

pixel: when the gray value of a pixel is higher than a gray threshold, the pixel is a pixel

that constitutes the image of the object to be detected; when the gray value of a pixel is

lower than the gray threshold, the pixel is a pixel that constitutes the background; and in

two adjacent pixels, when a first pixel is a pixel that constitutes the image of the object to be detected and a second pixel is a pixel that constitutes the background, taking the first pixel as a boundary point of the image of the object to be detected, all the pixels are detected one by one to obtain all the boundary points of the image of the object to be detected. According to the above method, the boundary points of the initial image of the standard sphere, the nacre image and the nucleus image can be identified, respectively.

[0020] Compared with the prior art, the invention has the following beneficial

effects:

[0021] 1. The invention uses X-ray imaging technology to detect nucleus-inserted

pearls in the living pearl oysters, and can accurately and nondestructively detect the

growth status (such as the size, nacre thickness, and roundness) of nucleated pearls in the

living pearl oyster without killing the pearl oysters; thus, it does not affect the continued

growth and development of the pearl oysters.

[0022] 2. According to the invention, the error in the calculation process is

controllable, and the measurement results are accurate. It realizes real-time tracking of

breeding conditions of individual pearl oysters during the cultivation process, which can

significantly increase the pearl quality rate of cultivated pearls and is beneficial to pearl

quality evaluation and culture management decision-making under culture conditions.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0023] Fig. 1 is a flow chart of the method for detecting the growth of nucleated

pearls in living pearl oysters of the invention.

[0024] Fig. 2 is a schematic diagram of X-ray imaging of a nucleus-inserted pearl

in a Hyriopsis cumingii in an embodiment, dmax and dmin represent the maximum

diameter and minimum diameter of the image of the pearl to be detected, respectively.

[0025] Fig. 3 is a schematic diagram of a fitted image of a nucleus-inserted pearl

in a Hyriopsis cumingii in the embodiment; where: the radius of the initial image is ro which is the radius of the initial image of the standard sphere, Ro is the radius of thefitted image of the standard sphere, and R1 and R2 are the radii of the outermost nacre fitted circle and the central nucleus fitted circle of the pearl to be detected.

DETAILED DESCRIPTION OF THE INVENTION

[0026] The invention will be further described below with reference to the

accompanying drawings and specific embodiments, so that those skilled in the art can

better understand the invention and implement it, but the embodiments are not intended to

limit the invention.

[0027] In the following embodiments, the method for detecting the growth state of

nucleus-inserted pearls in living pearl oysters to be detected is shown in Fig. 1; the method

specifically comprises:

[0028] Si: adjusting the target current of an X-ray tube to 0.5mA, placing a

the imaging plane, and measuring the radius of the initial image as ro;

[0029] S2: identifying the boundary points of the initial image of the standard

sphere in Si, fitting to obtain afitted circle of the standard sphere, measuring the radius Ro

of the fitted circle, and calculating the scale coefficient =ro/Ro;

[0030] S3: placing a nucleus-inserted pearl of a living pearl oyster to be detected

between the X-ray radiation source and the imaging device, keeping the center of the

nucleus wrapped in the annular nacre on the reference straight line, and enabling the X-ray

radiation source to irradiate the nacre and pearl nucleus to obtain a nacre image and a

nucleus image on the imaging plane, and measuring the maximum diameter dmax and

minimum diameter dmin of the obtained pearl image;

[0031] S4: identifying the boundary points of the nacre image and the nucleus

image in S3 respectively, and fitting to obtain an outermost nacre fitted circle and a central

nucleus fitted circle, and measuring the radii of the nacre fitted circle and the nucleus

fitted circle as R and R2 , respectively, and calculating the radius of the nucleus-inserted

pearl as ri= Ri and the radius of the nucleus as r2=pR2; and

[0032] S5: based on the dmax, dmin, ri and r2, and according to the following

DDP of the living pearl oyster to be detected, wherein: the pearl size d=2ri, the nacre

thickness r=ri-r2, and the pearl roundness DDP=(dmax-dmin)/dmaxx100%.

[0033] According to some embodiments of the invention, the method of

two adjacent pixels, when a first pixel is a pixel that constitutes the image of the object to

be detected and a second pixel is a pixel that constitutes the background, taking the first

pixel as a boundary point of the image of the object to be detected, all the pixels are

detected one by one to obtain all the boundary points of the image of the object to be

detected; according to the above method, the boundary points of the initial image of the

standard sphere, the nacre image and the nucleus image can be identified, respectively.

[0034] Example 1

[0035] Six mussels of Hyriopsis cumingii with nucleated pearls were randomly

selected. First, the above-mentioned detection method was used to nondestructively detect

the pearl properties in vivo, and then the mussels were dissected to take pearls and the

traditional method was used for destructively testing the pearls. Specific steps were as follows:

[0036] An X-ray radiation source is connected to the electronic system imaging

technology to detect the growth of the nucleus-inserted pearls in the living Hyriopsis

cumingii , including the pearl size, the nacre thickness and the roundness; the method

was the same as above.

[0037] As shown in Fig. 2, the X-ray imaging of the nucleus-inserted pearls in the

living Hyriopsis cumingii measured the maximum and minimum diameters of the pearl

image to be detected as dmax and dmin, respectively.

[0038] As shown in Fig. 3, according to the radius ro of the initial image of the

standard sphere and the radius Ro of the fitted image of the standard sphere, the radii R

and R2 of the outermost nacre fitted circle and the central nucleus fitted circle of the of the

nucleus-inserted pearl in the living Hyriopsis cumingii were obtained, and the

parameters were then calculated according to the formulas.

[0039] The traditional method refers to the GB/T18781-2008 national standard

"Pearl Classification" measurement method. The pearls were taken from the living

mussels, and then the maximum diameter (dmax) and minimum diameter (dmin) of the

pearls were measured with a vernier caliper, and then the size and roundness of the pearls

were calculated. The thickness of the nacre was detected in the same way as this method.

The detection results of the two methods are shown in Table 1. The consistency of the

three indicators is more than 95%, indicating that the detection method of the invention is

reliable for in vivo detection.

[0040] Table 1

The method for detecting the growth state Traditional detection method by of nucleus-inserted pearls in living pearl dissecting mussels to take pearls Pearl oysters of the invention Nacre Pearl Nacre Pearl thickness Roundness size(mm) thickness Roundness size(mm) (mm) (mm) 1 12.56 1.61 85.1% 13.01 1.69 86%

2 13.42 1.66 75% 12.95 1.61 78.9% 3 11.43 1.24 80% 11.71 1.3 82.1% 4 12.11 1.58 81% 11.96 1.61 78.8% 5 10.86 1.11 75.9% 11.42 1.07 74% 6 12.01 1.29 71.9% 12.42 1.32 74.2%

[0041] The foregoing description of the embodiments is to facilitate those of

ordinary skill in the art to understand and use the invention. Those skilled in the art can

obviously make various modifications to these embodiments and apply the general

principles described here to other embodiments without creative work. Therefore, the

invention is not limited to the above-mentioned embodiment. Improvements and

modifications made by those skilled in the art based on the principles of the invention

without departing from the scope of the invention should fall within the protection scope

of the invention.

Claims

What is claimed is:

1. A method for detecting the growth state of nucleated pearls in living pearl oysters,

wherein the method adopts X rays to detect nucleated pearls in the living pearl oyster, and

the method comprises the following steps:

(1) adjusting the target current of an X-ray tube to 0.5mA, placing a standard sphere

between an X-ray radiation source and an imaging plane, keeping the center of the

standard sphere on a reference straight line, and enabling the X-ray radiation source to

irradiate the standard sphere to obtain an initial image of the standard sphere on the

imaging plane, and measuring the radius of the initial image as ro;

(2) identifying boundary points of the initial image of the standard sphere in Step (1),

fitting to obtain a fitted circle of the standard sphere, measuring the radius Ro of the fitted

circle, and calculating the scale coefficient [=ro/Ro;

(3) placing a nucleus-inserted pearl of a living pearl oyster between the X-ray radiation

source and the imaging device, keeping the center of the nucleus wrapped in the annular

nacre on the reference straight line, and enabling the X-ray radiation source to irradiate the

nacre and the pearl nucleus to obtain a nacre image and a nucleus image on the imaging

plane, and measuring the maximum diameter dmax and minimum diameter dmin of the

obtained pearl image;

(4) identifying the boundary points of the nacre image and the nucleus image in Step

(3) respectively, and fitting to obtain an outermost nacre fitted circle and a central nucleus

fitted circle, and measuring the radii of the nacre fitted circle and the nucleus fitted circle

as R1 and R2 , respectively, and calculating the radius of the nucleus-inserted pearl as

ri= Ri and the radius of the nucleus as r2=pR2; and

(5) based on the dmax, dmin, ri and r2, and according to the following calculation

formulas, calculating the size d, the nacre thickness r and the pearl roundness DDP of the

nucleated pearl in living pearl oyster, wherein: the pearl size d=2ri; the nacre thickness r=ri-r2; the pearl roundness DDP=(dmax-dmin)/dmaxx100%.

2. The method for detecting the growth state of nucleated pearls in living pearl oysters

according to Claim 1, wherein the standard sphere is a lead ball with a diameter of 1 cm.

3. The method for detecting the growth state of nucleated pearls in living pearl oysters

according to Claim 1, wherein in Step (2), the method of identifying the boundary points

of the initial image of the standard sphere is to distinguish the pixels of the initial image

according to the gray value of each pixel: when the gray value of a pixel is higher than a

gray threshold, the pixel is a pixel that constitutes the initial image; when the gray value of

a pixel is lower than the gray threshold, the pixelisapixel that constitutes the background;

and in two adjacent pixels, when a first pixel is a pixel that constitutes the initial image

and a second pixel is a pixel that constitutes the background, taking the first pixel as a

boundary point of the initial image, all the pixels are detected one by one to obtain all the

boundary points of the initial image.

4. The method for detecting the growth of nucleated pearls in living pearl oysters

according to Claim 1, wherein in Step (4), the method of identifying the boundary points

of the nacre image is to distinguish the pixels of the nacre image according to the gray

value of each pixel: when the gray value of a pixel is higher than a gray threshold, the

pixel is a pixel that constitutes the nacre image; when the gray value of a pixel is lower

than the gray threshold, the pixel is a pixel that constitutes the background; and in two

adjacent pixels, when a first pixel is a pixel that constitutes the nacre image and a second

pixel is a pixel that constitutes the background, taking the first pixel as a boundary point of

the nacre image, all the pixels are detected one by one to obtain all the boundary points of

the nacre image; and the method of identifying the boundary points of the nucleus image

is the same as above.