JP7008468B2 - Sample analyzer, sample analysis method, sample analysis system, and program - Google Patents

Description

The present invention relates to a sample analyzer, a sample analysis method, a sample analysis system, and a program.

In water quality inspection, clinical inspection, food inspection and the like, a method of measuring the concentration of a substance to be analyzed in a sample using coloration is known. For example, in a water quality test, water containing an analysis target substance is dropped onto a test piece containing a color-developing agent (reagent), and the color of the test piece developed by the reaction between the analysis target substance and the color-developing agent and the reference table. The concentration of the substance to be analyzed in the sample is determined by comparing with the color. However, when a human performs such a color comparison, there is a problem that accurate determination is difficult.

Therefore, there has been proposed a method of calculating the concentration of the substance to be analyzed by imaging the colored test piece with an imaging device such as a CCD and color-analyzing the captured image data (for example, Patent Documents 1 to 3). ).

Japanese Unexamined Patent Publication No. 2017-503167 Japanese Unexamined Patent Publication No. 2008-116234 Japanese Unexamined Patent Publication No. 2007-101482

By the way, for users who inspect a sample containing a substance to be analyzed, information related to the sample such as the characteristics of the sample for which coloration cannot be used (for example, the electrical conductivity of the sample) and the place where the sample was taken is provided. Although there is a need to control the concentration of the substance to be analyzed calculated from the image data, Patent Documents 1 to 3 do not consider information related to such a sample.

Therefore, in the present invention, a sample analyzer, a sample analysis method, and a sample analysis system capable of appropriately managing information related to the sample together with the concentration of the substance to be analyzed in the sample calculated from the image data of the test piece. , And the purpose of providing the program.

The sample analyzer according to the present embodiment captures an image of a test piece having an analysis region that develops color according to the concentration of the substance to be analyzed in the sample and a display region on which information related to the sample is displayed on the same surface. An image was taken by the image pickup unit, a density analysis section that calculates the concentration of the analysis target substance based on the color information of the image data of the analysis area of the test piece captured by the image pickup section, and the image pickup section. The acquisition unit that acquires information related to the sample from the image data of the display area of the test piece and the calculated concentration of the analysis target substance are stored in association with the information related to the acquired sample. The information related to the sample, which has a storage unit and is displayed in the display area, includes location information indicating the place where the sample was collected, and characteristics of the sample other than the concentration of the substance to be analyzed in the sample. The density analysis unit includes the characteristic information to be shown, the ambient environment information at the time of measurement, and the measurer information, and the density analysis unit uses the correction value set based on the color information of the image data of the color balance adjustment marker to obtain the image data of the analysis area. The color information is corrected, and the concentration of the analysis target substance is calculated based on the corrected color information .

In the sample analyzer, it is preferable that the storage unit stores the calculated concentration of the substance to be analyzed in association with the imaging date and time of the test piece in addition to the information related to the acquired sample.

The sample analysis method according to the present embodiment is a test in which an imaging unit has an analysis region that develops color according to the concentration of the analysis target substance in the sample and a display region on which information related to the sample is displayed on the same surface. An imaging step of imaging a piece, and a concentration analysis step of calculating the concentration of the substance to be analyzed by the density analysis unit based on the color information of the image data of the analysis area of the test piece imaged by the imaging unit. The acquisition step of acquiring information related to the sample from the image data of the display area of the test piece captured by the imaging unit by the acquisition unit, and the calculated concentration of the analysis target substance by the storage unit. The information related to the sample displayed in the display area includes the storage step of storing the information related to the acquired sample in association with the information, and the information related to the sample is the location information indicating the place where the sample was taken. The sample includes characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed, ambient environment information at the time of measurement, and measurer information. The color information of the image data in the analysis area is corrected by the correction value set based on the color information of the image data, and the concentration of the analysis target substance is calculated based on the corrected color information .

The sample analysis system according to the present embodiment is a sample analysis system including a terminal device and a server device that can communicate with each other, and the terminal device has an analysis area that develops color according to the concentration of the analysis target substance in the sample. Based on the color information of the image pickup unit that captures an image of a test piece having a display area on which information related to the sample is displayed on the same surface, and the image data of the analysis area of the test piece imaged by the image pickup unit. A concentration analysis unit that calculates the concentration of the substance to be analyzed, and an acquisition unit that acquires information related to the sample from the image data in the display area of the test piece captured by the imaging unit, and the calculation. It has a terminal-side communication unit that transmits the concentration of the analysis target substance and the information related to the acquired sample to the server, and the server device has the calculated concentration of the analysis target substance and the acquisition. A server-side communication unit that receives information related to the sample from the terminal device, and a storage unit that stores the calculated concentration of the analysis target substance in association with the information related to the acquired sample. The information related to the sample, which is displayed in the display area, includes location information indicating the place where the sample was collected, characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed in the sample, and measurement. The density analysis unit corrects the color information of the image data in the analysis area by the correction value set based on the color information of the image data of the color balance adjustment marker, including the surrounding environment information and the measurer information at the time. , The concentration of the analysis target substance is calculated based on the corrected color information .

The sample analysis system according to the present embodiment is a sample analysis system including a terminal device and a server device that can communicate with each other, and the terminal device has an analysis area that develops color according to the concentration of the analysis target substance in the sample. , An image pickup unit that captures an image of a test piece having a display area on which information related to the sample is displayed on the same surface, and a terminal-side communication that transmits image data of the test piece imaged by the image pickup unit to the server. The server device has a server-side communication unit that receives the image data of the test piece from the terminal device, and the color information of the image data of the analysis area among the image data of the test piece. Based on the above calculation, a concentration analysis unit that calculates the concentration of the analysis target substance, an acquisition unit that acquires information related to the sample from the image data in the display area among the image data of the test piece, and the calculation unit. It has a storage unit that stores the concentration of the substance to be analyzed in association with the information related to the acquired sample, and the information related to the sample displayed in the display area is obtained by collecting the sample. The concentration analysis unit includes color balance adjustment markers, including location information indicating the location, characteristic information indicating the characteristics of the sample other than the concentration of the analysis target substance in the sample, ambient environment information at the time of measurement, and measurer information. The color information of the image data in the analysis area is corrected by the correction value set based on the color information of the image data of the above, and the concentration of the analysis target substance is calculated based on the corrected color information .

The program according to the present embodiment has an analysis region imaged by the imaging unit, which is colored according to the concentration of the analysis target substance in the sample, and a display region on which information related to the sample is displayed on the same surface. A step of calculating the concentration of the substance to be analyzed based on the color information of the image data of the analysis area among the image data of the test piece on a computer capable of acquiring the image data of the test piece, the test. Of the piece of image data, the step of acquiring the information related to the sample from the image data of the display area and the calculated concentration of the analysis target substance are associated with the information related to the acquired sample. The information related to the sample displayed in the display area is the location information indicating the place where the sample was taken, and the information other than the concentration of the substance to be analyzed in the sample, which is a program for executing the step to be stored. In the step of calculating the concentration of the substance to be analyzed, which includes characteristic information indicating the characteristics of the sample, ambient environment information at the time of measurement, and measurer information, it is set based on the color information of the image data of the marker for color balance adjustment. The color information of the image data in the analysis area is corrected by the correction value, and the concentration of the analysis target substance is calculated based on the corrected color information .

According to the present invention, it is possible to appropriately manage the information related to the sample together with the concentration of the substance to be analyzed in the sample calculated from the image data of the test piece.

It is a schematic diagram which shows an example of the test piece used in the sample analyzer which concerns on this embodiment. It is a block diagram which shows an example of the structure of the sample analyzer which concerns on this embodiment. It is a functional block diagram of a control part. It is a figure which shows an example of the database stored in the storage part. It is a flow chart which shows an example of the operation of the sample analyzer which concerns on this embodiment. It is a schematic diagram which shows an example of the structure of the sample analysis system which concerns on this embodiment.

FIG. 1 is a schematic diagram showing an example of a test piece used in the sample analyzer according to the present embodiment. The test piece 1 has an analysis area (first analysis area 10, second analysis area 12) that develops color according to the concentration of the substance to be analyzed in the sample, and a display area (first) in which information related to the sample is displayed. The display area 14 and the second display area 16) are provided on the same surface. Further, it is desirable that the test piece 1 has a marker for adjusting the color balance (gray region 18, white region 20).

The analysis area has a first analysis area 10 and a second analysis area 12. The first analysis region 10 is composed of, for example, four bands, A band, B band, C band, and D band, and each band is one of a plurality of analysis target substances in a sample (hereinafter referred to as analysis). A reagent that reacts with the target substance X) is fixed. Further, the second analysis area 12 is composed of, for example, four bands of E band, F band, G band, and H band, and each band is the first analysis area among a plurality of analysis target substances in the sample. A reagent that reacts in color with an analysis target substance (hereinafter referred to as analysis target substance Y) different from the analysis target substance X that reacts in No. 10 is fixed. The analysis area in the test piece 1 of FIG. 1 may be a single analysis area composed of the first analysis area 10, or may be composed of three or more analysis areas including the third analysis area and the like. You may.

When the first analysis region 10 comes into contact with the sample, the color of the band A to the band D changes according to the concentration of the substance X to be analyzed in the sample. At that time, when the concentration of the substance X to be analyzed is low in the sample, for example, only the D band is discolored, and as the concentration of the substance X to be analyzed increases, the D band, the C band, the B band, and the A band In turn, more bands change color. The same applies to the second analysis region 12, and when the sample comes into contact with the sample, the color of the E band to the H band changes according to the concentration of the analysis target substance Y in the sample. At that time, as the concentration of the substance Y to be analyzed in the sample increases, for example, more bands change color in the order of H band, G band, F band, and E band. Here, when analyzing the hydrogen ion concentration (so-called pH) and the residual chlorine concentration in the collected water in a water quality inspection or the like, for example, the colors of the A band to the D band are analyzed according to the hydrogen ion concentration (so-called pH) in the water. A test piece 1 having a first analysis region 10 in which the pH changes and a second analysis region 12 in which the color of the E band to the H band changes according to the residual chlorine concentration in water is used. The analysis of the residual chlorine concentration is for both free residual chlorine or total residual chlorine that is a combination of free residual chlorine and combined residual chlorine. The substances to be analyzed are not limited to the above, but aluminum, boron, copper, chromium, vanadium, iron, manganese, nickel, silver, tin, zinc, lead, arsenic, cadmium, mercury, cobalt, molybdenum, silica, etc. Cyan, hydroxide, nitrite, nitrate, sulfite, sulfide, sulfuric acid, total nitrogen, organic nitrogen, nitrate nitrogen, nitrite nitrogen, total phosphorus, phosphoric acid, ammonium, lithium, potassium, sodium, calcium, Examples thereof include magnesium, chloride, bromide, nitrous acid, bound residual chlorine, active oxygen, hydrogen peroxide, ascorbic acid, chelating agent, surfactant, glucose, polymer, formaldehyde and the like. In addition, the hardness, which is an index indicating the content of calcium salt and / or magnesium salt, the acid consumption, which is an index indicating the content of alkaline components such as hydrogen carbonate, carbonate, and hydroxide, and the solubility in water. Alkali consumption, which is an indicator of the content of strong acids, carbonic acids, organic acids, and metal elements that precipitate as hydroxides, and the content of oxidizing agents or reducing agents such as oxygen, hydrogen peroxide, hydrogen, and sulfite. The oxidation-reduction potential, which is an index indicating the above, is also a measurement target.

Examples of the contact between the sample and the analysis area include a method of immersing the test piece 1 in the sample or dropping the sample into the analysis area of the test piece 1.

In the display area shown in FIG. 1, information related to the sample described by a user or the like who uses the test piece 1 is displayed. Specifically, the display area shown in FIG. 1 includes a first display area 14 in which location information indicating a place where a sample is collected as information related to the sample is displayed, and electricity of the sample as information related to the sample. It has a second display area 16 for displaying characteristic information indicating conductivity. In addition to the electrical conductivity of the sample, the sample characteristic information includes, for example, water temperature measured by means other than the coloring method, dissolved oxygen concentration, fluorescent substance concentration, chromaticity, turbidity, odor intensity, suspended solids, and the like. Evaporation residue, ignition loss, organic matter, number of bacteria and the like can be mentioned. In addition to the above-mentioned location information and characteristic information, the information related to the sample includes, for example, the surrounding environment at the time of measurement such as weather, the operating status of the device to be measured, the measurer information, and the like. For example, in the fields of water quality inspection, food inspection, etc., samples may be collected at various locations, and the characteristics of various samples may be inspected in addition to the concentration of the substance to be analyzed in the sample. The information related to the sample preferably includes at least one of location information indicating the place where the sample was taken and characteristic information indicating the characteristics of the sample. The description of the information related to the sample in the display area by the user or the like is not particularly limited by handwriting, printing, or the like. Further, the display form of the information related to the sample may be not only letters, numbers and symbols but also barcodes, QR codes (registered trademarks) and the like.

The color balance adjusting marker has a gray region 18 (for example, a reflectance of 18%) and a white region 20. These areas are formed by, for example, offset printing, gravure printing, letterpress printing, screen printing, thermal transfer printing, laser printing, inkjet printing, etc. using paints, inks, pigments, paints, and the like.

FIG. 2 is a block diagram showing an example of the configuration of the sample analyzer according to the present embodiment. The sample analyzer 3 shown in FIG. 2 includes an imaging unit 22, a light emitting unit 24, a control unit 26, an operation unit 28, a display unit 30, and a storage unit 32. The sample analyzer 3 includes a smartphone, a laptop personal computer (PC), various general-purpose or multifunctional portable computers such as tablet terminals, general-purpose computers such as desktop or tower PCs, and the like. Terminal device is applied.

The image pickup unit 22 is, for example, an image pickup device using an image sensor such as a CCD or CMOS, takes an image of the test piece 1, and transmits the color image data of the imaged test piece 1 to the control unit 26. The light emitting unit 24 is arranged adjacent to the image pickup unit 22 and, if necessary, emits light at the time of imaging by the image pickup unit 22.

The storage unit 32 is, for example, a storage device such as a semiconductor memory, and has image data acquired by the image pickup unit 22, a predetermined processing program read by the control unit 26, and information output from the control unit 26 (analysis target material described later). (Information about the concentration of the sample and the sample), etc. are memorized.

Further, the storage unit 32 stores, for example, reference information representing the color information (color value) of the analysis area of the test piece 1 according to the concentration of the analysis target substance in the sample. The reference information is, for example, a calibration curve showing the relationship between the color information (color value) in the analysis area of the test piece 1 and the concentration of the substance to be analyzed in the sample.

The control unit 26 is composed of, for example, a CPU or the like, reads out a predetermined processing program stored in the storage unit 32, executes the processing program, and controls the operation of the sample analyzer 3.

The operation unit 28 is an interface for receiving an operation from a user, and is, for example, a touch panel, a key button, or the like in the case of a mobile terminal such as a smartphone. The display unit 30 is an interface for displaying an image of the test piece 1 imaged by the image pickup unit 22, information output from the control unit 26 (information on the concentration of the substance to be analyzed and a sample described later), and the like. Display etc. In the case of a mobile terminal such as a smartphone, the display unit 30 is integrated with the operation unit 28 as a touch panel display.

FIG. 3 is a functional block diagram of the control unit. As shown in FIG. 3, the control unit 26 has, for example, an image area selection unit 34, a density analysis unit 36, and a related information acquisition unit 38 as functional blocks.

The image area selection unit 34 selects an image area of each of the analysis area, the display area, and the color balance adjustment marker from the image data of the test piece 1 imaged by the image pickup unit 22. For example, the image area selection unit 34 detects an analysis area in response to an operation in which the user designates an analysis area of the image of the test piece 1 displayed on the display unit 30 via the operation unit 28. By performing the same operation on the display area and the like, the image area selection unit 34 detects each area. Alternatively, the image area selection unit 34 detects each image area from the relative values of the positional relationship between the analysis area, the display area, and the color balance adjusting marker on the test piece 1. In the case of the test piece 1 shown in FIG. 1, the image area selection unit 34 selects the image areas of the first analysis area 10, the second analysis area 12, the first display area 14, and the second display area 16. .. The selection of the image area by the image area selection unit 34 is an example, and is not limited to the above.

The concentration analysis unit 36 calculates the concentration of the substance to be analyzed based on the image data of the selected analysis area. Specifically, the color information (color value) of the image data of the selected analysis area is extracted, and the reference information stored in the storage unit 32 based on the extracted color information, for example, the analysis area of the test piece 1. The concentration of the substance to be analyzed in the sample is calculated with reference to the calibration curve showing the relationship between the color information and the concentration of the substance to be analyzed in the sample.

In the case of the test piece 1 shown in FIG. 1, the color information of the first analysis area 10 of the test piece 1 and the analysis target substance in the sample are based on the color information extracted from the image data of the selected first analysis area 10. The concentration of the substance X to be analyzed is calculated with reference to the calibration line showing the relationship with the concentration of X, and the test piece 1 is based on the color information extracted from the image data of the selected second analysis region 12. The concentration of the analysis target substance Y is calculated with reference to the calibration line showing the relationship between the color information of the second analysis region 12 and the concentration of the analysis target substance Y in the sample. The color information of the image data in the first analysis region 10 may be at least one of the image data in the A band to the D band of the first analysis region 10, and the calibration curve is in the A band to the D band. It suffices as long as it shows the relationship between at least one color information and the concentration of the analysis target substance X in the sample, but in terms of the accuracy of the concentration analysis, the color information of the image data in the first analysis region 10 is the first. It is the color information of the image data of the A band to the D band of the analysis area 10, and the calibration curve shows the relationship between the color information of the A band to the D band and the concentration of the analysis target substance X in the sample. Is preferable. The same applies to the color information and the calibration curve of the image data in the second analysis region 12.

Here, the color information (color value) of the image data captured by the image pickup unit 22 is generally RGB-based data. That is, the color information of the image data in the analysis area is RGB data. The density analysis unit 36 may calculate the density of the substance to be analyzed while keeping the color information of the image data in the analysis region as the RGB data, or the RGB data may be the CMY system, HSV system, HLS system, or the like. The concentration of the substance to be analyzed may be calculated by converting to another color space. It is preferable to calculate the concentration of the substance to be analyzed by converting it into an HSV-based or HLS-based color space having hue information, because the state of color development can be clarified more.

Further, the density analysis unit 36 calculates a correction value set based on the color information of the image data of the selected color balance adjustment marker, and uses the calculated correction value to obtain the color information of the image data in the analysis area. It may be corrected. For example, the correction value is calculated by referring to a graph or the like showing the relationship between the color information and the correction value of the image data of the color balance adjustment marker (gray area 18 and white area 20), and the calculated correction value. The color information of the image data in the analysis area is corrected by the amount of. Then, the concentration of the above-mentioned analysis target substance is calculated based on the color information of the image data of the corrected analysis area. This makes it possible to improve the accuracy of concentration analysis.

The related information acquisition unit 38 acquires information related to the sample from the image data of the selected display area. For example, the related information acquisition unit 38 performs a known optical reading process on the image data in the display area to read information including characters, numbers, symbols, etc. in the image data in the display area, or the display area. The information recorded in the one-dimensional code such as a bar code and the two-dimensional code such as a QR code in the image data of the above is read. In the case of the test piece 1 shown in FIG. 1, the image data of the selected first display area 14 was subjected to a known optical reading process, and the sample displayed in the first display area 14 was collected. Read the location information indicating the location. Further, the image data in the selected second display area 16 is subjected to a known optical reading process, and the electrical conductivity of the sample displayed in the second display area 16 is read.

The control unit 26 transmits the concentration of the substance to be analyzed in the sample calculated by the concentration analysis unit 36 and the information related to the sample to the storage unit 32, and the storage unit 32 transmits the concentration of the substance to be analyzed in the sample. Is stored in association with the information related to the sample.

FIG. 4 is a diagram showing an example of a database stored in the storage unit. As shown in FIG. 4, the database has density items 1, 2, related items 1, 2, and imaging date and time items. In the case of the test piece 1 shown in FIG. 1, for example, the concentration of the substance X to be analyzed calculated by the concentration analysis unit 36 is input to the concentration item 1, and the concentration item 2 is, for example, the concentration analysis unit 36. The concentration of the analysis target substance Y calculated by is input. Further, in the related item 1, for example, the sampling location which is the location information acquired by the related information acquisition unit 38 is input, and in the related item 2, the characteristic information of the sample acquired by the related information acquisition unit 38 is input. The electrical conductivity of a sample is input. Further, the date and time when the test piece 1 was imaged is input in the image pickup date and time item. As for the imaging date and time, for example, the control unit records the time of imaging by the imaging unit 22 and transmits it to the storage unit 32 as the imaging date and time information.

FIG. 5 is a flow chart showing an example of the operation of the sample analyzer according to the present embodiment. The processing of each step shown in FIG. 5 is executed by the control unit 26 in cooperation with each unit constituting the sample analyzer 3 based on a predetermined processing program stored in the storage unit 32. In the following, for ease of explanation, a case where a test piece having one analysis area and one display area on the same surface is used will be taken as an example.

When the user takes an image of the test piece 1 immersed in the sample by the image pickup unit 22, the control unit 26 acquires the image data of the test piece 1 immersed in the sample (step S10). The image area selection unit 34 selects an image area of each of the analysis area, the display area, and the color balance adjustment marker from the image data of the test piece 1 (step S12). The density analysis unit 36 extracts the color information of the image data of the selected analysis region (for example, the image data of the A band to the D band) (step S14). Further, the density analysis unit 36 extracts the color information of the image data of the selected color balance adjustment marker and calculates the correction value set based on the color information (step S16). The density analysis unit 36 corrects the color information of the image data in the analysis region by using the calculated correction value (step S18). For example, the color information of the image data in the analysis area is corrected by subtracting the calculated correction value. Next, the concentration analysis unit 36 refers to the color information of the corrected image data of the analysis area and the reference information corresponding to the analysis area stored in the storage unit 32, and calculates the concentration of the analysis target substance (step). S20). For example, based on the color information of the corrected image data of the analysis area, refer to the calibration curve showing the relationship between the color information of the analysis area of the test piece 1 and the concentration of the analysis target substance in the sample, and refer to the calibration curve of the analysis target substance. Calculate the concentration. Next, the related information acquisition unit 38 performs a known optical reading process on the image data in the selected display area, and acquires information related to the sample from the image data in the display area (step S22). Specifically, it is information indicating the sampling location and the characteristics (electrical conductivity, etc.) of the sample. The control unit 26 transmits the calculated concentration of the substance to be analyzed and the information related to the sample to the storage unit 32, and the storage unit 32 associates the calculated concentration of the substance to be analyzed with the information related to the sample. Store (step S24). The control unit 26 transmits the date and time (imaging date and time) when the test piece 1 was imaged by the imaging unit 22 to the storage unit 32, and the storage unit 32 uses the calculated concentration of the substance to be analyzed as information related to the sample and information related to the sample. It may be stored in association with the imaging date and time. The control unit 26 causes the display unit 30 to display the concentration of the substance to be analyzed stored in the storage unit 32 and the information related to the sample associated with the concentration (step S26).

As described above, the sample analyzer 3 according to the present embodiment calculates the concentration of the substance to be analyzed by image analysis of the test piece 1 and acquires the information related to the sample described in the test piece 1. Since the information is stored in the storage unit 32 in association with each other, it is possible to appropriately manage the concentration of the substance to be analyzed in the sample and the information related to the sample.

FIG. 6 is a schematic diagram showing an example of the configuration of the sample analysis system according to the present embodiment. The sample analysis system 5 shown in FIG. 6 has a terminal device 7 and a server device 9 capable of communicating with each other. Each of these devices is connected to each other via a wired or wireless communication network 42. The communication network 42 includes, for example, the Internet.

The terminal device 7 includes an image pickup unit 22, a light emitting unit 24, a control unit 26a, a display unit 30, a storage unit 32a, and a terminal-side communication unit 40a. The image pickup unit 22 takes an image of the test piece 1 and acquires the image data of the test piece 1. The light emitting unit 24 emits light when the image pickup unit 22 takes an image, if necessary. The storage unit 32a stores image data acquired by the image pickup unit 22, data necessary for the operation of the terminal device 7, and the like. The control unit 26a is composed of a CPU or the like and controls the operation of the terminal device 7. The control unit 26a has a functional block shown in FIG. That is, the control unit 26a calculates the concentration of the substance to be analyzed in the sample based on the image data of the analysis area of the test piece 1 imaged by the image pickup unit 22, and the test piece imaged by the image pickup unit 22. Information related to the sample is acquired from the image data in the display area of 1. The terminal-side communication unit 40a transmits information related to the concentration of the substance to be analyzed and the sample calculated by the control unit 26a to the server device 9, and receives the information transmitted from the server device 9. The display unit 30 displays information or the like received from the server device 9.

The server device 9 has a server-side communication unit 40b, a storage unit 32b, and a control unit 26b. The server-side communication unit 40b receives information related to the concentration of the substance to be analyzed and the sample from the terminal device 7. The storage unit 32b stores the concentration of the substance to be analyzed received from the terminal device 7 in association with the information related to the sample. The storage unit 32b also stores data and the like necessary for the operation of the server device 9. The control unit 26b is configured by a CPU or the like and controls the operation of the server device 9. Then, the control unit 26b causes the sample analyzer 3 to transmit the concentration of the substance to be analyzed stored by the storage unit 32b and the information related to the sample associated with the concentration to the sample analyzer 3 via the server-side communication unit 40b. ..

Although the description in the figure is omitted, in the sample analysis system 5, the control unit 26b constituting the server device 9 may have the functional block shown in FIG. That is, on the terminal device 7 side, the test piece 1 is imaged by the image pickup unit 22, and the image data of the test piece 1 is transmitted to the server device 9 by the terminal side communication unit 40a. Then, on the server device 9 side, the control unit 26b calculates the concentration of the substance to be analyzed in the sample based on the image data of the analysis area of the test piece 1, and also from the image data of the display area of the test piece 1. Obtain information related to the sample. The storage unit 32b stores the concentration of the substance to be analyzed in association with the information related to the sample.

In this way, imaging of the test piece 1, image analysis of the test piece 1, storage (storage) of the image analysis result, and the like may be performed by different devices.

A predetermined program for realizing each function of the control unit (26, 26a, 26b) of the sample analyzer 3, the terminal device 7, and the server device 9 on the computer is read by a computer such as a magnetic recording medium or an optical recording medium. It may be provided in the form recorded on a possible recording medium.

1 test piece, 3 sample analyzer, 5 sample analysis system, 7 terminal device, 9 server device, 10 first analysis area, 12 second analysis area, 14 first display area, 16 second display area, 18 gray area, 20 White area, 22 Imaging unit, 24 Light emitting unit, 26, 26a, 26b Control unit, 28 Operation unit, 30 Display unit, 32, 32a, 32b Storage unit, 34 Image area selection unit, 36 Concentration analysis unit, 38 Related information Acquisition unit, 40a terminal side communication unit, 40b server side communication unit, 42 communication network.

Claims (6)

An image pickup unit that captures an image of a test piece having an analysis area that develops color according to the concentration of the substance to be analyzed in the sample and a display area on which information related to the sample is displayed on the same surface.
A concentration analysis unit that calculates the concentration of the substance to be analyzed based on the color information of the image data of the analysis area of the test piece captured by the imaging unit, and the concentration analysis unit.
An acquisition unit that acquires information related to the sample from image data in the display area of the test piece captured by the imaging unit, and an acquisition unit.
It has a storage unit that stores the calculated concentration of the substance to be analyzed in association with the information related to the acquired sample .
The information related to the sample displayed in the display area includes location information indicating the place where the sample was taken, characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed in the sample, and surroundings at the time of measurement. Including environmental information and measurer information
The density analysis unit corrects the color information of the image data in the analysis area by the correction value set based on the color information of the image data of the color balance adjustment marker, and the analysis is based on the corrected color information. A sample analyzer characterized by calculating the concentration of a target substance . The first aspect of claim 1 , wherein the storage unit stores the calculated concentration of the substance to be analyzed in association with the imaging date and time of the test piece in addition to the information related to the acquired sample. Sample analyzer. An imaging step of imaging a test piece having an analysis region that develops color according to the concentration of the substance to be analyzed in the sample and a display region in which information related to the sample is displayed on the same surface by the imaging unit.
A concentration analysis step of calculating the concentration of the substance to be analyzed based on the color information of the image data of the analysis area of the test piece captured by the image pickup unit by the density analysis unit.
An acquisition step of acquiring information related to the sample from the image data of the display area of the test piece captured by the imaging unit by the acquisition unit.
The storage unit comprises a storage step of storing the calculated concentration of the substance to be analyzed in association with the information related to the acquired sample .
The information related to the sample displayed in the display area includes location information indicating the place where the sample was taken, characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed in the sample, and surroundings at the time of measurement. Including environmental information and measurer information
In the density analysis step, the density analysis unit corrects the color information of the image data in the analysis area by the correction value set based on the color information of the image data of the color balance adjustment marker, and the corrected color information. A sample analysis method, characterized in that the concentration of the substance to be analyzed is calculated based on the above . A sample analysis system that includes a terminal device and a server device that can communicate with each other.
The terminal device is
An image pickup unit that captures an image of a test piece having an analysis area that develops color according to the concentration of the substance to be analyzed in the sample and a display area on which information related to the sample is displayed on the same surface.
A concentration analysis unit that calculates the concentration of the substance to be analyzed based on the color information of the image data of the analysis area of the test piece captured by the imaging unit, and the concentration analysis unit.
An acquisition unit that acquires information related to the sample from image data in the display area of the test piece captured by the imaging unit, and an acquisition unit.
It has a terminal-side communication unit that transmits the calculated concentration of the substance to be analyzed and information related to the acquired sample to the server device .
The server device is
A server-side communication unit that receives the calculated concentration of the substance to be analyzed and information related to the acquired sample from the terminal device.
It has a storage unit that stores the calculated concentration of the substance to be analyzed in association with the information related to the acquired sample .
The information related to the sample displayed in the display area includes location information indicating the place where the sample was taken, characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed in the sample, and surroundings at the time of measurement. Including environmental information and measurer information
The density analysis unit corrects the color information of the image data in the analysis area by the correction value set based on the color information of the image data of the color balance adjustment marker, and the analysis is based on the corrected color information. A sample analysis system characterized by calculating the concentration of a target substance . A sample analysis system that includes a terminal device and a server device that can communicate with each other.
The terminal device is
An image pickup unit that captures an image of a test piece having an analysis area that develops color according to the concentration of the substance to be analyzed in the sample and a display area on which information related to the sample is displayed on the same surface.
It has a terminal-side communication unit that transmits image data of the test piece captured by the image pickup unit to the server device .
The server device is
A server-side communication unit that receives image data of the test piece from the terminal device,
Of the image data of the test piece, a concentration analysis unit that calculates the concentration of the substance to be analyzed based on the color information of the image data of the analysis area, and
Of the image data of the test piece, an acquisition unit that acquires information related to the sample from the image data of the display area, and
It has a storage unit that stores the calculated concentration of the substance to be analyzed in association with the information related to the acquired sample .
The information related to the sample displayed in the display area includes location information indicating the place where the sample was taken, characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed in the sample, and surroundings at the time of measurement. Including environmental information and measurer information
The density analysis unit corrects the color information of the image data in the analysis area by the correction value set based on the color information of the image data of the color balance adjustment marker, and the analysis is based on the corrected color information. A sample analysis system characterized by calculating the concentration of a target substance . Acquires image data of a test piece having an analysis area that develops color according to the concentration of the substance to be analyzed in the sample and a display area in which information related to the sample is displayed, which are imaged by the image pickup unit. To a computer that can
Of the image data of the test piece, a step of calculating the concentration of the substance to be analyzed based on the color information of the image data of the analysis area, and
Of the image data of the test piece, a step of acquiring information related to the sample from the image data of the display area, and
A program for executing a step of storing the calculated concentration of the substance to be analyzed in association with the information related to the acquired sample.
The information related to the sample displayed in the display area includes location information indicating the place where the sample was taken, characteristic information indicating the characteristics of the sample other than the concentration of the substance to be analyzed in the sample, and surroundings at the time of measurement. Including environmental information and measurer information
In the step of calculating the concentration of the analysis target substance, the color information of the image data in the analysis area is corrected by the correction value set based on the color information of the image data of the color balance adjustment marker, and the corrected color information is used. A program characterized by calculating the concentration of the substance to be analyzed based on the above .

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