JP2018146429A - Article management system, article management program, article management method and packing box - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an article management system, an article management program, an article management method and a packing box, capable of objectively evaluating an aging of a management object.SOLUTION: An article management system 1 includes: an image acquisition part 110 configured to acquire an image photographing a management object; a management part 120 configured to associate a plurality of images photographing the same management object and taken on and at different dates and times from among photographic images acquired by the image acquisition part 110, and store as management object image information; and an aging information processing part 140 configured to generate information that allows determination of a degree of aging of the management object according to the plurality of images included in the management object image information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an article management system, an article management program, an article management method, and a packaging box for managing a management object whose state changes with time.

  For example, fresh foods such as seafood and fruits and vegetables are transported over a long distance at home and abroad, and are affected by temperature changes during transportation, and the freshness deteriorates with time. Conventionally, at the arrival place, for example, the state of an article transported by unpacking and visually observing, dismantling, and tasting has been confirmed. Since the actual thing is confirmed directly, the conventional confirmation work seems to be a surely confirmed method. However, in the conventional confirmation work, evaluation varies depending on the person performing the confirmation work, and an objective judgment cannot be made. In addition, when any problem is found in the confirmed article, it is difficult to specify whether the problem has occurred before shipment. Furthermore, the confirmation work after unpacking is complicated.

  Patent Document 1 discloses a crop determination system that creates an evaluation value for a crop from crop image data.

JP 2012-117862 A

  However, in the system of Patent Document 1, although the farm product can be evaluated by the farmer, the state of the farmer cannot be known no matter how the farm product is deteriorated after being shipped from the farmer. It was.

  An object of the present invention is to provide an article management system, an article management program, an article management method, and a packaging box that can objectively evaluate a change with time of a management object.

  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this.

  The first invention includes an image acquisition unit (110) that acquires an image obtained by capturing a management object (400), and a captured image of the management object (400) acquired by the image acquisition unit (110). A management unit (120) that captures a plurality of images that are images of the same management object (400) and that have different shooting dates and times and stores them as management object image information, and is included in the management object image information An article management system (1) comprising: a temporal change information processing unit (140) that generates information capable of determining the degree of temporal change of the management object (400) based on a plurality of images.

  According to a second aspect of the present invention, in the article management system (1) according to the first aspect, the temporal change information processing unit (140) causes the temporal change of the management object (400) to be detected by the management unit (120). An article management system (1) characterized by displaying a plurality of images to be stored as visible information in a comparable form.

  According to a third aspect of the present invention, in the article management system (1) according to the first aspect or the second aspect, the temporal change information processing unit (140) predetermines a temporal change of the management object (400). The article management system (1) is characterized in that a determination result determined based on the reference is obtained.

  According to a fourth aspect of the present invention, in the article management system (1) according to the third aspect, the time-varying information processing unit (140) correlates information obtained from an image of the management target (400) with a time-dependent change. And having a relationship as temporal change prediction information (141), and estimating a quality retention period of the management target object (400) due to a temporal change from an image obtained by photographing the management target object (400). This is an article management system (1).

  According to a fifth aspect of the present invention, in the article management system (1) according to any one of the first to fourth aspects, a calibration unit that calibrates an image according to a difference in photographing environment for photographing the management object (400). An article management system (1) characterized by comprising (130).

  According to a sixth aspect of the present invention, in the article management system (1) according to any one of the first to fifth aspects, the article management system (1) manages a management object (400) to be transported. The system further includes a packaging box (300), and a photographing unit (310) attached to the packaging box (300) and photographing the management object (400). This is an article management system (1).

  According to a seventh invention, in the article management system (1) according to the sixth invention, the packing box (300) includes a light source unit (320) that emits illumination light at the time of photographing. This is an article management system (1).

  According to an eighth aspect of the present invention, in the article management system (1) according to the sixth aspect or the seventh aspect, the packaging box (300) is photographed by the photographing unit (310) together with the management object (400). It is an article management system (1) characterized by comprising a calibration imaging region (340) arranged at a possible position.

  According to a ninth invention, in the article management system (1) according to any one of the sixth to eighth inventions, the image acquisition unit (110) communicates a photographing operation of the photographing unit (310). It is an article management system (1) characterized by controlling via.

  According to a tenth aspect of the invention, in the computer (100) of the article management system (1), the image acquisition unit (110) acquires an image obtained by photographing the management object (400), and the management unit (120) Among the captured images of the management object (400) acquired by the image acquisition unit (110), a plurality of images that are images of the same management object (400) and that have different shooting dates and times are associated. And the time-change information processing unit (140) determines the degree of change with time of the management object (400) based on a plurality of images included in the management-target image information. And a step of generating possible information.

  In an eleventh aspect of the invention, the image acquisition unit (110) acquires an image obtained by photographing the management object (400), and the management unit (120) acquires the management target acquired by the image acquisition unit (110). A step of associating and storing, as management target image information, a plurality of images that are images of the same management target (400) of the captured image of the object (400) and that have different shooting dates and times, An information processing unit (140) that generates information capable of determining a degree of change with time of the management target object (400) based on a plurality of images included in the management target image information. Is the method.

  A twelfth aspect of the invention is a packaging box (300) for packaging a management object (400) to be transported, and an imaging unit (300) provided at a position where the management object (400) in a packed state can be photographed. 310), a packaging box (300).

  A thirteenth aspect of the invention is a packing box (300) according to the twelfth aspect of the invention, comprising a light source part (320) that emits illumination light during photographing.

  In a fourteenth aspect of the present invention, in the packing box (300) according to the twelfth aspect or the thirteenth aspect of the invention, the calibration object is arranged at a position where it can be photographed by the photographing unit (310) together with the management object (400). It is a packing box (300) characterized by comprising an imaging region (340).

  A fifteenth aspect of the present invention is the packaging box (300) according to any one of the twelfth aspect to the fourteenth aspect of the present invention, wherein the photographing unit (310) has a photographing operation controlled from the outside through communication, It is a packing box (300) characterized by including the transmission part (330) which the imaging | photography part (310) transmits the image which image | photographed the said management target object (400) to an external image acquisition part (110).

  According to the present invention, it is possible to check the change of the management target over time, and by managing this, not only the current status of the management target but also the prediction of the expiration date (food, etc.) and the expiration date (material, product, etc.) it can. Based on the predicted information, the subsequent sales period and production process can be rationally advanced with less waste loss.

1 is a diagram showing an embodiment of an article management system according to the present invention. It is a figure which shows the example of temporal change prediction information 141. FIG. It is a figure which shows the other example of the time change prediction information 141. FIG. It is a figure which shows the other example of the time change prediction information 141. FIG. It is a figure which shows the other example of the time change prediction information 141. FIG. It is a figure which shows the other example of the time change prediction information 141. FIG. It is a figure which shows the other example of the time change prediction information 141. FIG. It is the figure which showed the cross section of the packaging box 300 typically. 3 is a flowchart showing an operation flow of the article management system 1. It is an example of a display of the determination result of the time-dependent change in the general purpose portable terminal.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

(First embodiment)
FIG. 1 is a diagram showing an embodiment of an article management system according to the present invention.
In addition, each figure shown below including FIG. 1 is the figure shown typically, and the magnitude | size and shape of each part are exaggerated suitably for easy understanding.
Moreover, in the following description, although a specific structure, a form, etc. are shown and demonstrated, these can be changed suitably.

  The article management system 1 includes an article management system computer 100, a general-purpose portable terminal 200, and a packaging box 300.

  The article management system computer 100 is a computer arranged as a server on a network. The article management system computer 100 stores an article management program in a storage unit (not shown). By executing this article management program, the article management system computer 100 can function as each of the image acquisition unit 110, the management unit 120, the calibration unit 130, and the temporal change information processing unit 140.

  The image acquisition unit 110 acquires an image obtained by photographing the management target by the photographing unit 310 of the packaging box 300 described later. Specifically, the image acquisition unit 110 acquires an image captured by the imaging unit 310 via the Internet via a wireless LAN, for example.

  The management unit 120 associates a plurality of images that are images of the same management object among the captured images of the management object acquired by the image acquisition unit 110 and have different shooting dates and times. Save as. Specifically, if the applet is packed in the packing box 300, the management unit 120 stores the image at the shipping source taken by the shooting unit 310 at the shipping source in the management unit 120. In addition, after the apple is transported, the photographing unit 310 photographs the same apple at the arrival place, and the management unit 120 stores the image at the arrival place in association with the image taken at the shipping source. Further, the management unit 120 stores the image to be stored in association with the shooting location and the shooting date and time. Note that the different shooting dates and times do not necessarily mean that the dates are different, but generally represent that the shooting times are different. Therefore, the fact that the shooting date / time is different refers to a concept including a difference of several minutes as the shooting date / time.

  The calibration unit 130 calibrates a change in an image due to a difference in photographing environment for photographing the management target. In the present embodiment, since the photographing unit 310 is provided in the packaging box 300 and the light source unit 320 is also provided, the photographing environment is hardly changed, and the calibration by the calibration unit 130 is omitted. Good. However, for example, in a case where the light source unit 320 is not provided, or in a case where the photographing unit is not provided in the packaging box 300, an image due to a difference in photographing environment between the image at the shipping source and the image at the arrival place. To calibrate the differences, especially with respect to color. Since the image to be captured differs greatly in the color of the image obtained depending on the color temperature of the light source in the shooting environment, the calibration unit 130 calibrates the difference in color and adjusts so that the comparison between the two can be performed correctly. To do. In this embodiment, for this calibration, simple and reliable calibration can be realized by using the calibration imaging region 340 (see FIG. 3) provided in the packaging box 300.

The time-change information processing unit 140 is configured to manage objects (in this case, apples) based on a plurality of images included in the management object image information (images at the shipping source, images at the arrival place, and shooting information related thereto). ) To determine the degree of change over time.
Here, the information that can determine the degree of change over time generated by the time-change information processing unit 140 (hereinafter referred to as determination information) may be one, or may be a plurality of pieces of information as necessary. Good.

  As the simplest determination information, the time-dependent change information processing unit 140 displays a plurality of images stored by the management unit 120 as visible information in a form in which the management unit 120 stores changes over time of the management target object. That is, the image at the shipping source and the image at the arrival place are provided as they are visible to the user. In this case, the user makes a determination by visually checking these images on, for example, a general-purpose portable terminal described later. Even in this case, since it is possible to judge by comparing the images at the shipping source as compared with the conventional observation of only the actual product at the time of arrival, more information for judgment is obtained, more accurate, and More detailed judgment can be made easily.

In addition, the time-change information processing unit 140 according to the present embodiment obtains a determination result obtained by determining the time-dependent change of the management target based on a predetermined criterion and uses the result as determination information.
For example, the time-change information processing unit 140 compares the captured images at the shipping source and the arrival location from the viewpoint of the color difference using the RGB, CMYK, Lab color space, or the like. That is, the time-varying information processing unit 140 quantifies the degree of deterioration of the management target (apple) based on the degree of change of the index related to each color, or determines whether the management object (apple) has deteriorated, whether it is good, somewhat deteriorated, deteriorated As a result. Note that the threshold value for this determination varies greatly depending on what the management object is (for example, whether it is an apple, a strawberry, or even the same apple depending on the variety). Collect data through experiments to find appropriate criteria.

Furthermore, the time-dependent change information processing unit 140 has a correlation between information obtained from the image of the management object and the change over time as the time-change prediction information 141, and manages the management object according to the change over time from the image obtained by photographing the management object. Estimate the quality retention period of the object.
FIG. 2A is a diagram illustrating an example of the temporal change prediction information 141.
For example, the temporal change prediction information 141 is stored as a correlation between time and color difference as shown in FIG. 2A. Here, the color difference indicates a change in color (color difference) of the management object from the initial color along with deterioration as the date passes from a fresh state. For example, assuming that the position of A in FIG. 2 is the point of time at the shipping source, and the position of B is the point of arrival, the period L from the point of arrival is a period during which you can eat deliciously. Can be predicted. FIG. 2A also shows the color difference behavior of three different types of management objects. However, in practice, the behavior of the color difference of the management object varies, and the period L is also different. A plurality of these more specific examples will be illustrated below.

2B to 2F are diagrams illustrating other examples of the temporal change prediction information 141. FIG.
For example, the temporal change prediction information 141 is stored as a correlation between time and color difference as shown in FIG. 2B. Here, the color difference indicates a change in color (color difference) of the management object from the initial color along with deterioration as the date passes from a fresh state. For example, if the position of A in FIG. 2B is the time at the shipping source, and the position of B is the time of arrival, the period L from the time of arrival is a period during which you can eat deliciously. Can be predicted. 2C to 2E are the same as FIG. 2B. Further, as shown in FIG. 2F, it is also possible to make a determination using two or more types of color difference components.

  Returning to FIG. 1, the general-purpose portable terminal 200 is, for example, a tablet terminal, a smartphone, a laptop computer, or the like, and an application program that can be connected to the article management system computer 100 via, for example, a wireless LAN to perform various operations. Installed and used. Note that the general-purpose portable terminal 200 may be configured to connect to a specific URL and authenticate, and then connect to the article management system computer 100 using a browser without using an application program dedicated to the system. .

The packing box 300 is a container for transporting, for example, fresh food (managed object: here, apples are taken as an example) 400. The packaging box 300 has a heat insulating structure on all six surfaces, and protects the fresh food 400 inside from changes in the external environment. Further, the packaging box 300 is not discarded for one-time use, but has an appropriate strength so that it can be reused repeatedly. In addition, the packaging box 300 is foldable for convenience when returning from the arrival place to the shipping source.
The packaging box 300 includes a photographing unit 310, a light source unit 320, and a transmission unit 330 except for the fresh food 400.

FIG. 3 is a diagram schematically showing a cross section of the packaging box 300. As described above, the packaging box 300 includes a heat insulating structure and a foldable structure, which are not illustrated.
The imaging unit 310 is, for example, a camera that is fixed to the inner surface of the lid portion of the packaging box 300. In addition, although not shown in FIG. 3, the photographing unit 310 is connected to the transmission unit 330 and can wirelessly communicate with the outside. The imaging unit 310 performs imaging and image transmission in accordance with instructions from the article management system computer 100. In addition, the photographing unit 310 can always perform photographing under the same light source by causing the light source unit 320 to emit light during photographing. Here, since the packaging box 300 employs a heat insulating structure, the packaging box 300 has a highly airtight structure. Therefore, light from the outside hardly enters the inside of the packaging box 300. Thereby, at the time of imaging, it is possible to perform imaging almost only with the light of the light source unit 320, it is possible to perform imaging under stable conditions, and it is possible to compare only the color change of the management object.
Note that the photographing unit 310 includes a power source and the like necessary for the camera, but illustration and detailed description thereof are omitted.

  Further, in the packing box 300 after packing, a calibration photographing region 340 is arranged at a position where the photographing unit 310 can photograph together with the management object. In the example of this figure, the calibration imaging region 340 is configured such that after the fresh food 400 is placed in the packaging box 300, it is placed later at a predetermined position. However, the present invention is not limited to this, and the calibration imaging region 340 may be configured by, for example, an arm-like support that extends from the inside of the lid of the packaging box 300. Further, the calibration imaging region 340 may be a chart in which a plurality of reference colors are arranged, may be a single gray color for obtaining white balance, or may be changed as appropriate according to the management object. It is.

  FIG. 4 is a flowchart showing an operation flow of the article management system 1. Hereinafter, the operation of the article management system 1 will be described with reference to this flow.

  In S <b> 11, the worker packs the management object (here, an apple) in the packing box 300. At this time, the calibration imaging region 340 is fixed at a predetermined position.

  In S12, the imaging unit 310 captures a management object and obtains a shipping image. In this photographing operation, for example, when an operator inputs the end of the packing work to a computer or the like in the workplace, the information is transmitted to the article management system computer 100 and the image acquisition unit 110 or the management unit 120 of the article management system computer 100. In accordance with the instructions from, the photographing unit 310 performs a photographing operation. In addition to the above, the shooting start may be provided with a shooting button on the packaging box 300, or may be triggered by the packaging box 300 passing through various check points during delivery.

In S13, the image acquisition unit 110 acquires and stores the shipping image.
In S14, the packaging box 300 is started to be transported. This transportation may be land transportation, sea transportation, air transportation, and the form is not limited.

In S15, if necessary, the state during transportation is also photographed and the image is stored. For example, this shooting may be performed by a timer operation, and the image storage unit 310 may temporarily store the image, and the image acquisition unit 110 may acquire the image when the communication line is available. Good. This is because there may be situations where wireless communication cannot be used at sea or in airplanes.
In S16, the packaging box 300 arrives at the destination.

  In S <b> 17, the photographing unit 310 photographs a management target object and obtains an arrival image. In this photographing operation, for example, when an operator inputs confirmation of arrival to a work place computer or the like, the information is transmitted to the article management system computer 100, and the image acquisition unit 110 of the article management system computer 100 or the like. In accordance with an instruction from the management unit 120, the photographing unit 310 performs a photographing operation. In addition to the above, the shooting start may be provided with a shooting button on the packaging box 300, or may be triggered by the packing box 300 passing through the arrival checkpoint.

In S18, the image acquisition unit 110 acquires and stores the arrival image.
In S19, the temporal change information processing unit 140 determines a temporal change. For example, the time-change information processing unit 140 calibrates the shipping image, the image in transit, and the arrival image, and the graph shows the current state using the graph data illustrated in FIGS. 2A to 2F from the change in color difference. Determine which point is above and determine the change over time.
In S20, the time-change information processing unit 140 estimates a quality retention period. At this time, reference is made to the temporal change prediction information 141.

In S <b> 21, the time-change information processing unit 140 transmits the determination result and the quality retention time estimation result to, for example, the general-purpose portable terminal 200 and presents the information as confirmable by the operator.
FIG. 5 is a display example of the determination result of the change over time in the general-purpose portable terminal 200.
As the display of the determination result of the change with time, the display of the management object, the display of the delivery source and the arrival place, the display of the shipping image and the arrival self-portrait are performed. In addition, as the determination result, for example, “appropriately eaten” (example in FIG. 5), “unripe”, “too ripe”, or the like can be set as appropriate. Further, the expiration date can be specifically displayed by referring to the temporal change prediction information 141 as the predicted expiration date. If the expiration date is predicted, it is possible to set the sales period, so it is possible to plan sales methods such as selling them side by side in the store, selling them 2 days later, or processing products 3 days later. Helpful.

Here, as a method of presenting the result, it is assumed that the result is displayed on the general-purpose portable terminal 200, but this need not be performed immediately after the result is obtained. The results may be stored in the time-varying information processing unit 140, and the results may be transmitted and displayed in response to a request from the operator (for example, a result display request by operating the general-purpose portable terminal 200).
In addition, if the change over time of the management target is below a predetermined level, the result is transmitted only when the result is stored, and only when there is a change over time (for example, a rotten level). The result may be transmitted and displayed in the form of a warning.

  As described above, according to the present embodiment, the shipping image and the arrival self-portrait are easily photographed under a stable condition, so that the comparison between the two can be performed easily and accurately. In addition, it is possible to easily grasp the degree of change with time before and after transportation, which has been impossible in the past, and to evaluate the change with time under certain conditions, so that objective evaluation is possible.

(Deformation)
The present invention is not limited to the embodiment described above, and various modifications and changes are possible, and these are also within the scope of the present invention.

(1) In the embodiment, the management target object has been described with reference to an example of fresh food. However, the present invention is not limited to this, and any management target object may be used as long as it is an article for which a change over time during transportation is to be managed. For example, a reagent sensitive to a temperature change, a test paper coated with such a reagent, or a metal material that easily rusts may be used.

(2) In the embodiment, the example in which the photographing unit 310 is fixed to the packaging box 300 has been described. However, the present invention is not limited to this. For example, the photographing unit may use a digital camera that is generally commercially available and register and use the data separately. In this case, the cost of the packaging box 300 can be reduced, while the photographing conditions become unstable. Therefore, calibration based on the difference in imaging conditions is essential.

(3) In the embodiment, the example using the general-purpose portable terminal 200 has been described. For example, a dedicated terminal may be fixed to the packaging box 300 or may be installed at a delivery base.

(4) In the embodiment, the example of managing the change with time of transport has been described. For example, the present invention may be applied to the use of managing the temporal change of the management object placed in the same place without transporting.

  In addition, although embodiment and a deformation | transformation form can also be used in combination as appropriate, detailed description is abbreviate | omitted. Further, the present invention is not limited by the embodiments described above.

DESCRIPTION OF SYMBOLS 1 Article management system 100 Article management system computer 110 Image acquisition part 120 Management part 130 Calibration part 140 Temporal change information processing part 141 Temporal change prediction information 200 General-purpose portable terminal 300 Packing box 310 Imaging part 320 Light source part 330 Transmission part 340 Region 400 Fresh Food

Claims (15)

An image acquisition unit that acquires an image of the management target;
Management that associates a plurality of images that are obtained by photographing the same management object among the photographed images of the management object acquired by the image acquisition unit and that have different shooting dates and times, and stores them as management target image information And
A time-varying information processing unit that generates information based on a plurality of images included in the management-target image information and that can determine the degree of change of the management target with time;
An article management system comprising: In the article management system according to claim 1,
The temporal change information processing unit displays the temporal change of the management target object as visible information in a form in which a plurality of images stored by the management unit can be compared;
An article management system characterized by In the article management system according to claim 1 or 2,
The time-change information processing unit obtains a determination result obtained by determining a time-dependent change of the management object based on a predetermined criterion;
An article management system characterized by In the article management system according to claim 3,
The time-varying information processing unit has a correlation between information obtained from an image of a management object and a change over time as time-varying prediction information, and the management object according to a time-dependent change from an image obtained by photographing the management object Estimating the shelf life of goods,
An article management system characterized by In the article management system according to any one of claims 1 to 4,
Providing a calibration unit that calibrates images according to differences in the shooting environment for shooting the management target;
An article management system characterized by In the article management system according to any one of claims 1 to 5,
The article management system is a system used for management of managed objects to be transported,
A packing box,
An imaging unit that is attached to the packaging box and images a management object;
Further comprising
An article management system characterized by In the article management system according to claim 6,
The packaging box includes a light source unit that emits illumination light at the time of photographing;
An article management system characterized by In the article management system according to claim 6 or 7,
The packaging box includes a calibration imaging region arranged at a position where the management object can be imaged by the imaging unit;
An article management system characterized by In the article management system according to any one of claims 6 to 8,
The image acquisition unit controls a photographing operation of the photographing unit via communication;
An article management system characterized by In the computer of the article management system,
An image acquisition unit acquiring an image obtained by photographing a management object;
Management object image information by associating a plurality of images that are images of the same management object among the captured images of the management object acquired by the image acquisition unit and that have different shooting dates and times As a step to save as
A time-change information processing unit, based on a plurality of images included in the management target image information, generating information capable of determining the degree of change with time of the management target;
Article management program to execute. An image acquisition unit acquiring an image obtained by photographing a management object;
Management object image information by associating a plurality of images that are images of the same management object among the captured images of the management object acquired by the image acquisition unit and that have different shooting dates and times As a step to save as
A time-change information processing unit, based on a plurality of images included in the management target image information, generating information capable of determining the degree of change with time of the management target;
An article management method comprising: A packing box for packing the controlled object to be transported,
Including a photographing unit provided at a position where the management target in a packed state can be photographed;
Features a packing box. The packaging box according to claim 12,
Having a light source unit that emits illumination light during shooting,
Features a packing box. In the packaging box according to claim 12 or claim 13,
A calibration imaging region arranged at a position where the imaging unit can image with the management object;
Features a packing box. In the packaging box in any one of Claim 12 to Claim 14,
In the photographing unit, a photographing operation is controlled from the outside through communication,
A transmission unit that transmits an image of the management object captured by the imaging unit to an external image acquisition unit;
Features a packing box.

Images