JP6948982B2 - Animal Urinalysis Equipment, Animal Urinalysis System, and Animal Urinalysis Program - Google Patents

Description

The present disclosure relates to animal urinalysis devices, animal urinalysis systems, and animal urinalysis programs.

In recent years, simple analysis kits using simple test papers and simple test agents have come to be widely used for determining diseases, pregnancy, chemical substances, and the like. Further, an inspection device or the like for photographing and analyzing a simple inspection paper of such a simple analysis kit has been proposed (for example, Patent Document 1).

In Patent Document 1, the observation angle calculation unit for obtaining the observation angle between the imaging direction and the reference line of the observation target surface and the observation angle of the captured image data are converted by the captured image data obtained by capturing the color reaction appearance region of the analysis kit. Then, the image conversion unit that generates the captured image data for detection similar to the observation angle of the reference captured image data showing the reference pattern for determining the inspection result, the pattern of the color reaction appearance region, and the reference captured image data. Corresponds to the similarity calculation unit that compares the reference pattern and finds the similarity between the pattern and the reference pattern, the color reaction detection unit that extracts the reference pattern that is most similar to the color reaction pattern, and the extracted reference pattern. A color reaction detection system having an output unit that outputs the inspection result has been proposed.

JP-A-2017-125840

The technique of Patent Document 1 targets humans for inspection, and cannot be applied as it is when targeting animals other than humans for inspection. For example, in animals, the proportion of components contained in urine may differ depending on the race and breed. That is, the proportion of components in urine differs depending on, for example, whether the race is a dog or a cat, and even if the race is a dog, it also differs depending on whether the breed is a Labrador or a Chihuahua. Therefore, in order to perform an accurate animal urinalysis, it is preferable to prepare a test paper for each type of animal, but there is a problem that the cost is too high.

This disclosure has been made in consideration of the above facts, and is an animal urinalysis device and an animal urine test system capable of performing animal urinalysis without preparing a test paper for each type of animal. , And an animal urinalysis program.

In order to achieve the above object, the animal urinalysis apparatus of the present disclosure has an acquisition unit and an acquisition unit that acquire each of the animal type information and the photographed image of the urine test paper soaked in the urine of the animal. It is provided with a display unit for displaying the determination result of determining the disease of the animal using the type information and the photographed image acquired by.

In addition, the animal urinalysis apparatus of the present disclosure includes an acquisition unit that acquires animal type information, an imaging unit that photographs urine test paper immersed in animal urine, a type information acquired by the acquisition unit, and imaging. The unit includes a determination unit for determining an animal disease using each of the captured images obtained by photographing the urine test paper, and a display unit for displaying the determination result of the determination unit.

In the animal urinalysis apparatus of the present disclosure, information representing at least a dog or a cat may be applied to the animal type information.

Further, the animal urinalysis apparatus of the present disclosure may further include an operation input unit for operating and inputting the type information, and the acquisition unit may acquire the type information input by the operation input unit.

Further, in the animal urinalysis apparatus of the present disclosure, the display unit determines the possibility of a disease determined based on the size of the animal determined from the type information and the rate of change in the color of the urine test paper in the photographed image. It may be displayed as a result.

Further, the animal urinalysis apparatus of the present disclosure has a plurality of reaction regions in which the color of the urine test paper changes in response to each of predetermined measurement items, and the time until the color of the reaction region changes. Is different for each measurement item, and the display unit may further display an inspection result image obtained by extracting an image of each reaction region at a predetermined determination time for each measurement item from the captured image and combining them into one.

Further, in the animal urine test apparatus of the present disclosure, the display unit may further display the determination time for each measurement item in each reaction region of the test result image.

Further, in the urinalysis apparatus for animals of the present disclosure, when a urine test paper is provided in a urine receiving part that receives urine from an animal, and the urine receiving part is colored faster than the urine test paper when the animal urinates. Those having a changing region may be applied.

On the other hand, in order to achieve the above object, the animal urinalysis system of the present disclosure includes an acquisition unit for acquiring animal type information, an imaging unit for photographing a urine test paper immersed in animal urine, and an acquisition unit. Receives and displays the type information acquired by the transmitter, the transmitter that transmits the captured image of the urinalysis paper captured by the imaging unit, and the animal disease determination result that is transmitted from the outside in response to the transmission of the transmitter. Information including a terminal device including a display unit, a determination unit for determining an animal disease based on type information and a captured image transmitted by the transmission unit, and a reply unit for returning a determination result of the determination unit. It is equipped with a processing device.

Further, in order to achieve the above object, the animal urinalysis system of the present disclosure has a plurality of reaction regions that react with a predetermined substance contained in animal urine, and a urine test paper that reacts with different substances. , The acquisition unit that acquires animal type information, the photographing unit that photographs the urine test paper soaked in animal urine, the type information acquired by the acquisition unit, and the photographed image that the urine test paper was photographed by the imaging unit. A terminal device including a transmitter for transmitting urine and a display for receiving and displaying the determination result of an animal disease transmitted from the outside in response to the transmission of the transmitter, type information transmitted by the transmitter, and type information transmitted by the transmitter. It is provided with an information processing device including a determination unit for determining an animal disease based on a captured image, a reply unit for returning a determination result of the determination unit, and a reply unit.

Further, the urinalysis paper is provided in the urine receiving portion that receives the urine of the animal, and the urine receiving portion has a changing region in which the color changes faster than the urine test paper when the animal urinates, and the transmitting unit has a transmitting unit. However, based on the photographed image of the photographing unit, the photographed image of the photographing unit may be transmitted from the time when the color change of the changing region is detected until a predetermined time elapses.

In addition, in order to achieve the above object, the animal urinalysis program of the present disclosure causes a computer to function as each part of the above animal urinalysis apparatus.

According to the present disclosure, it is possible to provide an animal urine test apparatus, an animal urine test system, and an animal urine test program capable of performing animal urinalysis without preparing a test paper for each type of animal. , The effect can be obtained.

It is a block diagram which shows the structure of the mobile terminal which concerns on this embodiment. It is a functional block diagram which shows the function of the control part of the mobile terminal which concerns on this embodiment. It is a figure which shows an example of the procedure of the animal urinalysis using the mobile terminal which concerns on this embodiment. It is a flowchart which shows an example of the flow of the process performed in the control part of the mobile terminal which concerns on this embodiment. It is a block diagram which shows the schematic structure of the animal urinalysis system which concerns on this embodiment. It is a block diagram which shows the main part structure of the electric system of the server and the computer which concerns on this embodiment. It is a flowchart which shows an example of the flow of the process performed in the mobile terminal of the animal urinalysis system which concerns on this embodiment. It is a flowchart which shows an example of the flow of the process performed in the server of the animal urinalysis system which concerns on this embodiment. It is a figure which shows the example of the urine receiving sheet provided with the reaction area and the change area. It is a figure which shows the 1st modification of a urine test paper. It is a figure which shows the 2nd modification of a urine test paper. It is a figure which shows the example which displayed the test result image which combined the image of each reaction area at the time of a urine test result determination.

Hereinafter, embodiments of the technique of the present disclosure will be described in detail with reference to the drawings. The present embodiment does not limit the present invention.

(First Embodiment)

In this embodiment, an example in which a mobile terminal such as a smartphone, a tablet terminal, or a portable notebook PC (personal computer) is applied as an example of an animal urinalysis device will be described. FIG. 1 is a block diagram showing a configuration of a mobile terminal 10 according to the present embodiment. In the present embodiment, the animal refers to an animal handled by a veterinarian.

As shown in FIG. 1, the mobile terminal 10 according to the present embodiment includes a control unit 12, a storage unit 14, a photographing unit 16, a communication unit 18, an operation unit 20 as an operation input unit, and a display unit 22. Has been done.

The control unit 12 includes a CPU (Central Processing Unit) 12A, a ROM (Read Only Memory) 12B, a RAM (Random Access Memory) 12C, and an input / output interface (I / O) 12D, and each of these units provides a bus 12E. Each is connected via.

Each functional unit including the storage unit 14, the photographing unit 16, the communication unit 18, the operation unit 20, and the display unit 22 is connected to the I / O 12D. Each of these functional units can communicate with the CPU 12A via the I / O 12D.

The control unit 12 may be configured as a part of a main control unit that controls the overall operation of the mobile terminal 10.

As the storage unit 14, for example, an SSD (Solid State Drive), a flash memory, or the like is used. The storage unit 14 has a urine test application program (hereinafter, may be referred to as a urine test application) for executing the animal urine test process according to the present embodiment, and a urine test for animals. Various data are stored. The urine test application may be acquired by downloading from a website, for example, and the urine test application may be stored in the ROM 12B.

The photographing unit 16 is photographed by an imaging element such as a CCD (Charge Coupled Device) imaging element that photographs and reads an animal urine test paper. The animal urine test paper has a plurality of reaction regions that react with a predetermined substance contained in the urine of an animal, and each reacts with a different substance.

The communication unit 18 is connected to a communication line such as a mobile phone communication network or a network, and communicates with an external device via the communication line.

The operation unit 20 is provided with a power button, various operation buttons, and the like. For the display unit 22, for example, a liquid crystal display (LCD), an organic EL (Electro Luminescence) display, or the like is used. The display unit 22 has a touch panel for the owner to operate the mobile terminal 10 integrally with the display surface.

Subsequently, the function of the control unit 12 of the mobile terminal 10 that functions by executing the above-mentioned urinalysis application will be described. FIG. 2 is a functional block diagram showing the functions of the control unit 12 of the mobile terminal 10 according to the present embodiment.

As shown in FIG. 2, the control unit 12 has the functions of the image information quantification unit 24, the information processing unit 26, the animal species information determination unit 28, the urinalysis reference value setting unit 30, and the examination result determination unit 32. .. The image information quantification unit 24 and the animal species information determination unit 28 correspond to the acquisition unit, and the inspection result determination unit 32 corresponds to the determination unit.

The image information quantification unit 24 performs a process of quantifying the signal representing the photographed image obtained by the photographing of the photographing unit 16 into the image information of three colors of red (R), green (G), and blue (B). In this embodiment, a moving image is acquired from the photographing unit 16 as a photographed image.

The information processing unit 26 performs a process of extracting a reaction region that reacts with urine on the urine test paper from the image information of each color obtained from the image information quantification unit 24.

On the other hand, the animal species information determination unit 28 determines the type of animal to be subjected to urinalysis from the animal type information input by the user operating the operation unit 20. As the animal type information, for example, at least information on the race representing a dog or a cat may be applied. In addition, it may be information indicating a breed representing a dog breed or a cat breed among dogs or cats. Further, the animal type information may be used as type information in a broad sense including breeds in various races (for example, dog breeds such as Shiba Inu and Poodle in the case of dogs) in addition to races such as dogs and cats. .. Further, the present invention is not limited to dogs or cats, and at least one of the races and breeds of animals other than dogs and cats handled by veterinarians may be applied.

The urinalysis reference value setting unit 30 reads out the reference value corresponding to the type of animal determined by the animal species information determination unit 28. That is, the reference value for performing the urinalysis is stored in advance for each type of animal, and the reference value corresponding to the type of animal is read out. Examples of the reference value include a determination time for each measurement item, a determination threshold value for determining normality or abnormality for each measurement item, and the like. That is, the determination time differs for each measurement item. For example, the appropriate determination time differs between leukocytes and urobilinogen, and the appropriate determination time also differs depending on the type of animal. In addition, the threshold value for determining the normality or abnormality of each measurement item also differs depending on the type of animal.

The test result determination unit 32 determines the quality of each measurement item of the urinalysis by comparing the color change of the reaction region extracted by the information processing unit 26 with the reference value set by the urine test reference value setting unit 30. To determine the disease of the animal. Specifically, since the reference value is set according to the type of animal, the test result determination unit 32 measures from the size of the animal determined from the type information and the rate of change in the color of the urine test paper in the photographed image. The quality of each animal is judged to determine the disease of the animal. Then, the inspection result determination unit 32 displays the determined inspection result on the display unit 22.

Next, the procedure of urinalysis of animals using the mobile terminal 10 according to the present embodiment will be specifically described. FIG. 3 is a diagram showing an example of a procedure for urinalysis of an animal using the mobile terminal 10 according to the present embodiment.

For example, a urine test paper 40 for performing a urine test as shown in FIG. 3 is used. In the example of FIG. 3, the urinalysis paper 40 has a reaction region 42 that reacts with each of 10 kinds of substances contained in urine. Each reaction region 42 has a different time until the color changes for each measurement item. The measurement items of the urinalysis paper 40 are not limited to 10 types. Examples of measurement items include leukocytes, urobilinogen, occult blood, bilirubin, ketone bodies, glucose, creatinine, albumin, protein, pH, specific gravity, nitrite and the like.

First, the user operates the operation unit 20 of the mobile terminal 10, launches a urinalysis application, and inputs animal type information. For example, by launching the urinalysis application, an input screen for inputting the type of animal is displayed on the display unit 22, and the operation unit 20 is operated to input the type of animal. As a result, the animal species information determination unit 28 determines the type of animal to be subjected to the urinalysis, and the urine test reference value setting unit 30 reads out the reference value corresponding to the animal type.

Further, the urinalysis paper 40 soaked in the urine of the animal to be inspected is started to be photographed by the photographing unit 16 of the mobile terminal 10 to photograph a moving image. The imaging by the imaging unit 16 is performed, for example, until the color change of the reaction region 42 of the urinalysis paper 40 disappears.

Subsequently, the image information quantification unit 24 generates shooting information of each RGB color by quantifying the shot image of the moving image obtained by the shooting of the shooting unit 16, and the information processing unit 26 generates the quantified shooting information. The reaction region 42 is extracted from the reaction region 42. For example, FIG. 3 shows an example of a change in the pixel value of each color with respect to the passage of time in the reaction region 42 corresponding to a certain measurement item. Then, the test result determination unit 32 determines the pixel value of the reaction region 42 with respect to the passage of time, the reference value (determination time, determination threshold, etc.) corresponding to the type of animal read by the urine test reference value setting unit 30. Based on, the quality of each measurement item of the urinalysis is judged, and the disease of the animal is judged. For example, FIG. 3 shows an example of test results in which cystitis is suspected from the measurement items of nitrite and occult blood, and urinary stones are suspected from the measurement items of pH. Further, an example is shown in which the measurement items of urine specific gravity and UPC are normal and renal failure is suspected, and the measurement items of leukocytes and proteins are normal and there is no suspicion of arthritis due to drug side effects.

Then, the inspection result determination unit 32 displays the determined inspection result on the display unit 22. When displaying the test result on the display unit 22, information on hospital reservations, buttons, and the like may be displayed. When displaying the test results, the test result images obtained by extracting the images of each reaction region 42 at the predetermined determination time for each measurement item of the urine test paper 40 from the captured images and synthesizing them into one are further displayed. You may.

Subsequently, a specific process performed by the control unit 12 of the mobile terminal 10 according to the present embodiment configured as described above will be described. FIG. 4 is a flowchart showing an example of the flow of processing performed by the control unit 12 of the mobile terminal 10 according to the present embodiment. The process of FIG. 4 is started when, for example, the operation unit 20 is operated and instructed to launch the urinalysis application.

First, in step 100, the CPU 12A displays a predetermined pet information input screen on the display unit 22 and proceeds to step 102. The pet information input screen displays, for example, a screen for inputting or selecting the type of animal to be inspected.

In step 102, the CPU 12A determines whether or not the input of the pet information is completed. In the determination, for example, it is determined whether or not the input of the pet information is completed and the user operates the operation unit 20 to instruct the start of shooting. It waits until the determination is affirmed and proceeds to step 104.

In step 104, the CPU 12A starts shooting by the shooting unit 16 and proceeds to step 106.

In step 106, the CPU 12A determines whether or not the shooting is completed. In the determination, it may be determined whether or not the operation unit 20 is operated to instruct the completion of shooting, or the shooting time may be predetermined and it may be determined whether or not the predetermined time has elapsed. .. The process proceeds to step 108 after waiting until the determination is affirmed.

In step 108, the CPU 12A extracts the inspection area from the captured image and proceeds to step 110. That is, the image information quantification unit 24 generates the shooting information of each RGB color by quantifying the shot image of the moving image obtained by the shooting of the shooting unit 16, and the information processing unit 26 generates the shooting information of each RGB color from the quantified shooting information. The process of extracting the image of the reaction region 42 is performed.

In step 110, the CPU 12A sets the reference value of the urinalysis to a value according to the type of animal and proceeds to step 112. That is, the animal species information determination unit 28 determines the type of animal to be subjected to the urinalysis based on the pet information input on the pet information input screen, and the urinalysis reference value setting unit 30 sets the animal type. Read the corresponding reference value.

In step 112, the CPU 12A compares the reference value according to the type of animal with the extracted test area to determine the quality of each measurement item, determines the disease of the animal, and proceeds to step 114. That is, the test result determination unit 32 changes the pixel value with respect to the passage of time in the reaction area 42 as the examination area, and the reference value (determination time and the determination time) corresponding to the type of animal read by the urine test reference value setting unit 30. Based on (judgment threshold, etc.) and, the quality of each measurement item of the urinalysis is judged, and the disease of the animal is judged.

In step 114, the CPU 12A displays the inspection result on the display unit 22 and ends a series of processes.

As described above, in the urinalysis of an animal using the mobile terminal 10 according to the present embodiment, the reference value of the test is used as the reference value according to the type of animal, so that a test paper is used for each type of animal. It is possible to perform urinalysis of animals without creating it.

In the above embodiment, the mobile terminal 10 has been described as an example of the animal urinalysis apparatus, but a computer such as a personal computer may be applied. In this case, the photographed image of the urinalysis paper 40 taken by an imaging device such as a digital camera may be captured in a computer and the above processing may be performed.

(Second Embodiment)
In the above embodiment, an example in which an animal urine test is performed using only the mobile terminal 10 has been described, but in the second embodiment, an example in which an animal urine test is performed using a server network system including the mobile terminal 10 has been described. explain. FIG. 5 is a block diagram showing a schematic configuration of an animal urinalysis system according to the present embodiment.

In the animal urinalysis system 50 according to the present embodiment, as shown in FIG. 5, a mobile terminal 10, a radio base station 52, a computer 56, and a server 54 are connected to a communication line 58 such as a network. Each of the mobile terminal 10, the computer 56, and the server 54 wirelessly connected to the wireless base station can transmit and receive various data to and from each other via the communication line 58.

In the animal urinalysis system 50 according to the present embodiment, similarly to the above embodiment, the animal type information is input using the mobile terminal 10, and the urine test paper 40 immersed in the animal urine is photographed. Is performed, and the animal type information and the captured image are transmitted to the server 54. Then, on the server 54 side, the urine test result is determined using the animal type information and the captured image, and the test result is returned to the mobile terminal 10. That is, the function of the control unit 12 in the above embodiment is performed on the server 54 side to reduce the processing load of the mobile terminal 10. In the following, an example of transmitting animal type information and a photographed image of the urinalysis paper 40 from the mobile terminal 10 to the server 54 will be described. It is not limited to this. For example, a urinalysis paper 40 is photographed by a photographing device such as a digital camera, the photographed image and animal type information are transmitted to the server 54 using the computer 56, and the computer 56 receives the test result from the server 54. It may be displayed as a form.

Since the mobile terminal 10 has the same configuration as the above embodiment, the description thereof will be omitted, and the configurations of the computer 56 and the server 54 will be described. FIG. 6 is a block diagram showing a main configuration of an electrical system of the server 54 and the computer 56 according to the present embodiment. Since the server 54 and the computer 56 basically have a general computer configuration, the server 54 will be described as a representative.

As shown in FIG. 6, the server 54 according to the present embodiment includes a CPU 54A, a ROM 54B, a RAM 54C, an HDD 54D, a keyboard 54E, a display 54F, and a communication line interface (I / F) unit 54G. The CPU 54A controls the overall operation of the server 54. Various control programs, various parameters, and the like are stored in advance in the ROM 54B. The RAM 54C is used as a work area or the like when executing various programs by the CPU 54A. The HDD 54D stores various data, application programs, and the like. The keyboard 54E is used to input various information. The display 54F is used to display various kinds of information. The communication line interface unit 54G is connected to the communication line 58 and transmits / receives various data to / from another device connected to the communication line 58. Each part of the server 54 is electrically connected to each other by the system bus 54H. The server 54 according to the present embodiment will be described with an example of including the HDD 54D, but the present invention is not limited to this, and another non-volatile storage unit such as a flash memory may be provided.

With the above configuration, the server 54 according to the present embodiment uses the CPU 54A to access the ROM 54B, the RAM 54C, and the HDD 54D, acquire various data via the keyboard 54E, and display various information on the display 54F. Further, the server 54 controls the transmission / reception of communication data via the communication line interface unit 54G by the CPU 54A.

Subsequently, a specific process performed by the mobile terminal 10 and the server 54 of the animal urinalysis system 50 according to the present embodiment configured as described above will be described.

First, an example of processing performed by the mobile terminal 10 will be described. FIG. 7 is a flowchart showing an example of the flow of processing performed by the mobile terminal 10 of the animal urinalysis system 50 according to the present embodiment. The process of FIG. 7 is started when, for example, the operation unit 20 is operated and instructed to launch the urinalysis application. Further, the same processing as that of the above embodiment will be described with the same reference numerals.

First, in step 100, the CPU 12A displays a predetermined pet information input screen on the display unit 22 and proceeds to step 102. The pet information input screen displays, for example, a screen for inputting or selecting the type of animal to be inspected.

In step 102, the CPU 12A determines whether or not the input of the pet information is completed. In the determination, for example, it is determined whether or not the input of the pet information is completed and the user operates the operation unit 20 to instruct the start of shooting. It waits until the determination is affirmed and proceeds to step 104.

In step 104, the CPU 12A starts shooting by the shooting unit 16 and proceeds to step 106.

In step 106, the CPU 12A determines whether or not the shooting is completed. In the determination, it may be determined whether or not the operation unit 20 is operated to instruct the completion of shooting, or the shooting time may be predetermined and it may be determined whether or not the predetermined time has elapsed. .. The process proceeds to step 107 after waiting until the determination is affirmed.

In step 107, the CPU 12A transmits the captured image and the pet information to the server 54, and proceeds to step 109. The process of step 107 corresponds to the transmission unit.

In step 109, the CPU 12A determines whether or not the inspection result has been received from the server 54. The process proceeds to step 114 after waiting until the determination is affirmed.

In step 114, the CPU 12A displays the inspection result on the display unit 22 and ends a series of processes.

Subsequently, an example of the processing performed by the server 54 of the animal urinalysis system 50 according to the present embodiment will be described. FIG. 8 is a flowchart showing an example of a processing flow performed by the server 54 of the animal urinalysis system 50 according to the present embodiment. The process of FIG. 8 starts when a urine test request from the mobile terminal 10 is received.

In step 200, the CPU 54A receives the photographed image taken by the urinalysis paper 40 and the pet information from the mobile terminal 10 and proceeds to step 202.

In step 202, the CPU 54A extracts the inspection area from the captured image and proceeds to step 204. That is, similarly to the functions of the image information quantification unit 24 and the information processing unit 26 described above, the CPU 54A generates shooting information of each RGB color by quantifying the shot image of the moving image obtained by the shooting of the shooting unit 16. .. Then, a process of extracting an image of the reaction region 42 from the quantified imaging information is performed.

In step 204, the CPU 54A sets the reference value for the urinalysis to a value according to the type of animal and proceeds to step 206. That is, similarly to the functions of the animal species information determination unit 28 and the urinalysis reference value setting unit 30 described above, the CPU 54A determines the type of animal to be subjected to the urinalysis based on the pet information received from the mobile terminal 10. Then, read out the reference value corresponding to the type of animal.

In step 206, the CPU 54A compares the reference value according to the type of animal with the extracted test area, determines the test result, and proceeds to step 208. That is, similarly to the function of the inspection result determination unit 32 described above, the CPU 54A determines the change in the pixel value with respect to the passage of time of the reaction region 42 as the inspection region, and the reference value (determination time, determination threshold, etc.) corresponding to the type of animal. ) And, based on, the quality of each measurement item of the urine test is judged, and the disease of the animal is judged.

In step 208, the CPU 54A returns the inspection result to the mobile terminal 10 and ends a series of processes. As a result, the above-mentioned determination in step 109 is affirmed. The process of step 208 corresponds to the reply unit.

In this way, the application that stores the urine test paper 40 in the mobile terminal 10 by inputting the animal type information and taking a picture of the urine test paper 40 by using the mobile terminal 10 and performing the urinalysis process on the server 54. Capacity can be reduced. In addition, the processing load of the mobile terminal 10 can be reduced.

In each of the above embodiments, an example in which the user starts photographing the urinalysis paper 40 by operating the mobile terminal 10 has been described, but the present invention is not limited to this. For example, as shown in FIG. 9, the color of the urine receiving sheet 62 as the urine receiving portion changes to the reaction region 42 of the above-mentioned urinalysis paper 40 and the moment when the animal urinates on the urine receiving sheet 62, and the reaction region A change region 64 in which the color changes faster than 42 is provided. Further, an imaging device 60 is provided above the urine receiving sheet 62 to constantly photograph and transmit the imaging result to the user's computer 56, and the computer 56 uses the captured image of the imaging device 60 to display the colors of the change region 64 and the reaction region 42. Monitor changes. Then, the computer 56 is made to function as a transmission unit, and the photographed image of the photographing apparatus 60 until the elapse of a predetermined time is transmitted to the server 54 in the second embodiment from the time when the color of the changing area 64 is changed. It may be a form in which a urine test is performed. In this case, the inspection result may be returned to the user's mobile terminal 10 or may be returned to the user's computer 56 by e-mail or the like. Alternatively, the user may observe the color change in the change area 64 and take a picture with a photographing device such as a mobile terminal 10 or a digital camera by the operation of the user.

Here, other variations of the urinalysis paper 40 will be described. First, the urinalysis paper of the first modified example will be described. FIG. 10 is a diagram showing a first modification of the urinalysis paper.

The urinalysis paper 41 of the first modification is further provided with a two-dimensional bar code 44 with respect to the above embodiment.

For example, at a veterinary hospital, a two-dimensional bar code 44 representing the animal type information input at the time of reception or the like is printed on the urinalysis paper 41. As a result, the user can purchase the urine test paper 41 as an animal sick person, and the user can take a picture of the urine test paper 41 soaked in the urine of the animal, so that the animal type information can be acquired at the same time. ..

Alternatively, a two-dimensional bar code 44 representing the URL (Uniform Resource Locator) of the site for performing the urinalysis may be printed on the urinalysis paper 41. In each of the above embodiments, an example in which a urine test application is started to perform a urine test has been described, but by photographing the two-dimensional barcode 44 printed on the urine test paper 41 with the photographing unit 16 of the mobile terminal 10. , It may be in the form of connecting to a site on the Internet where a urine test is performed.

Subsequently, the urinalysis paper of the second modified example will be described. FIG. 11 is a diagram showing a second modification of the urinalysis paper.

The urinalysis paper 43 of the second modification is provided with a correction patch 46 for color correction of ambient light such as lighting on the urine test paper 40 of each of the above embodiments.

Since the urine test is performed by detecting the color change from the captured image, the test result may be affected by the ambient light. Therefore, a correction patch 46 for color correction of the ambient light is further provided. For example, as shown in FIG. 11, a white white correction patch 46W, a black black correction patch 46K, a red red correction patch 46R, a green green correction patch 46G, and a blue blue correction patch 46B are further provided to capture an image. Color correction may be performed from each of the correction patches 46 inside. The correction patch 46 is not limited to the five colors, and may be any one color, two or more colors, or a correction patch of a color other than the above five colors. Further, the above-mentioned two-dimensional bar code 44 and the correction patch 46 may be provided together.

In the above embodiment, an example of detecting a change in the reaction region 42 of the urinalysis paper 40 from a captured image of a moving image has been described, but the present invention is not limited to the captured image of the moving image, and is still photographed at predetermined time intervals. A captured image of the image may be applied. By using a still image as a captured image, the processing load can be reduced and the data capacity can be reduced.

Further, in each of the above embodiments, when displaying the test results, the images of the reaction regions 42 at the predetermined determination time for each measurement item of the urinalysis paper 40 are extracted from the captured images and combined into one. The combined inspection result image may be further displayed. For example, as an example of displaying the test result, as shown in FIG. 12, a test result image obtained by synthesizing the images of each reaction region 42 at the judgment time may be displayed together with the urine test result judgment. The determination time (determination timing) for each measurement item in FIG. 12 may be omitted.

Further, each process shown in the flowchart described in the above embodiment is merely an example. Therefore, it goes without saying that unnecessary steps may be deleted, new steps may be added, or the processing order may be changed within a range that does not deviate from the purpose.

Further, in each of the above embodiments, the various programs executed by the CPUs 12A and 54A have been described in advance, but the present invention is not limited to this. The program may be provided in a form recorded on a recording medium such as a CD-ROM (Compact Disk Read Only Memory), a DVD-ROM (Digital Versatile Disk Read Only Memory), and a USB (Universal Serial Bus) memory. Further, the program may be downloaded from an external device via a network.

In addition, the configuration, operation, and the like of the mobile terminal 10 and the server 54 described in the above embodiment are examples, and it goes without saying that they can be changed depending on the situation within a range that does not deviate from the gist of the present invention.

10 Mobile terminal 12 Control unit 12A, 54A, 56A CPU
12B, 54B, 56B ROM
12C, 54C, 54C RAM
12D I / O
12E bus 14 Storage unit 16 Imaging unit 18 Communication unit 20 Operation unit 22 Display unit 24 Image information quantification unit 26 Information processing unit 28 Animal species information judgment unit 30 Urinalysis reference value setting unit 32 Test result judgment unit 40, 41, 43 Urinalysis paper 42 Reaction area 46 Correction patch 46B Blue correction patch 46G Green correction patch 46K Black correction patch 46R Red correction patch 46W White correction patch 50 Animal urinalysis system 52 Radio base station 54 Server 54D, 56D HDD
54E, 56E Keyboard 54F, 56F Display 54G, 56G Communication line I / F part 56 Computer 58 Communication line 60 Imaging device 62 Urine receiving sheet 64 Change area

Claims (12)

An acquisition unit that acquires each of the animal type information and the photographed images of the urine test paper soaked in the urine of the animal, and
A display unit that displays a determination result of determining an animal disease using the type information acquired by the acquisition unit and the captured image, and a display unit.
Equipped with a,
The display unit displays the possibility of a disease determined based on the size of the animal determined from the type information and the rate of change in the color of the urinalysis paper in the captured image as the determination result. Inspection equipment. The acquisition department that acquires animal type information,
An imaging unit that photographs the urine test paper soaked in the urine of the animal, and
A determination unit for determining a disease of the animal using each of the type information acquired by the acquisition unit and the photographed image obtained by the imaging unit capturing the urine test paper.
A display unit that displays the determination result of the determination unit, and
Equipped with a,
The display unit displays the possibility of a disease determined based on the size of the animal determined from the type information and the rate of change in the color of the urinalysis paper in the captured image as the determination result. Inspection equipment. The animal urinalysis apparatus according to claim 1 or 2, wherein the animal type information is at least information representing a dog or a cat. An operation input unit for inputting the type information is further provided.
The animal urinalysis apparatus according to any one of claims 1 to 3, wherein the acquisition unit acquires the type information input by the operation input unit. The urinalysis paper has a plurality of reaction regions whose colors change in response to predetermined measurement items, and the time until the color of the reaction regions changes differs for each measurement item.
Any one of claims 1 to 4, wherein the display unit further displays an inspection result image obtained by extracting an image of each reaction region at a predetermined determination time for each measurement item from the captured image and synthesizing the image into one. The animal urinalysis apparatus described in the section. The animal urine test apparatus according to claim 5 , wherein the display unit further displays the determination time for each measurement item in each reaction region of the test result image. The urine test paper is provided in a urine receiving portion that receives urine from an animal, and the urine receiving portion has a changing region that changes color faster than the urine test paper when the animal urinates.
The animal urine test apparatus according to any one of claims 1 to 6, wherein the acquisition unit acquires the photographed image from the time when the color of the change region changes until a predetermined time elapses. .. The acquisition department that acquires animal type information,
A photography section that photographs urine test paper soaked in animal urine,
A transmission unit that transmits the type information acquired by the acquisition unit and a photographed image of the urinalysis paper photographed by the imaging unit.
A display unit that receives and displays the animal disease determination result transmitted from the outside in response to the transmission of the transmission unit.
The display unit displays the possibility of a disease determined based on the size of the animal determined from the type information and the rate of change in the color of the urinalysis paper in the captured image as the determination result. With the terminal device
A determination unit for determining an animal disease based on the size of the animal determined from the type information transmitted by the transmission unit and the rate of change of the urinalysis paper in the captured image.
A reply unit that returns the determination result of the determination unit, and
Information processing equipment including
Urinalysis system for animals equipped with. Urinalysis paper that has multiple reaction regions that react with predetermined substances contained in animal urine and reacts to different substances,
The acquisition department that acquires animal type information,
An imaging unit that photographs the urine test paper soaked in animal urine,
A transmission unit that transmits the type information acquired by the acquisition unit and a photographed image of the urinalysis paper photographed by the imaging unit.
A display unit that receives and displays the animal disease determination result transmitted from the outside in response to the transmission of the transmission unit.
Only including, a display wherein the display unit, the size of the animal determined from the type information, the likelihood of disease is determined based on the color change rate of the urine test paper in the captured image as the determination result and a terminal device that,
A determination unit for determining an animal disease based on the size of the animal determined from the type information transmitted by the transmission unit and the rate of change of the urinalysis paper in the captured image.
A reply unit that returns the determination result of the determination unit, and
Information processing equipment including
Urinalysis system for animals equipped with. The urine test paper is provided in a urine receiving portion that receives urine from an animal, and the urine receiving portion has a changing region that changes color faster than the urine test paper when the animal urinates.
8. Claim 8 to transmit a photographed image of the photographing unit until a predetermined time elapses, starting from a time point when the transmitting unit detects a color change in the changing region based on the photographed image of the photographing unit. Alternatively, the veterinary urinalysis system according to claim 9. On the computer
Each of the animal type information and the photographed image of the urine test paper soaked in the urine of the animal was acquired.
The possibility of a disease determined based on the size of the animal determined from the acquired type information and the rate of change in the color of the urinalysis paper in the captured image is displayed as a determination result for determining the disease of the animal. Animal urinalysis program for processing. On the computer,
Get animal type information,
A urine test paper soaked in the animal's urine was photographed.
Based on the size of the animal determined from the acquired type information and the rate of change in the color of the urinalysis paper in the captured image, a process of determining the possibility of the animal's disease and displaying the determination result is performed. Animal urinalysis program to help.

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