JP6508075B2 - Management device, management method, program for management device, and management system - Google Patents

Description

  The present invention relates to a management apparatus that manages an object, a management method, and a program for the management apparatus.

  The contents of objects such as documents are digitized into electronic data in order to streamline operations, and these electronic data are managed under predetermined security. For example, in patent document 1, policy information in which the user's operation range is defined is selected based on document type information, and the user defined in the user information has the authority to execute the operation defined in the operation information. A policy management apparatus is disclosed that determines whether the policy information is defined or not.

JP 2011-215728 A

  However, there are cases where both the electronic data of the object and the object itself such as the original document are managed, and the technology of Patent Document 1 improves security and interlocks the electronic data and the object itself. Could not be managed.

  Therefore, the present invention has been made in view of the above-described problems and the like, and one example of the problem is to provide a management device and the like that improves security and manages electronic data and an object itself in conjunction with each other. The purpose is

In order to solve the above-mentioned subject, the invention according to claim 1 receives the object as one process among the plurality of processes which distribute objects in order, and the picture of the received object Image capturing means for capturing images, and a management server for managing process management information in each process of the object , in order to extract the feature quantity for specifying the object from the image captured. A collation result acquiring unit that acquires an collation result obtained by collating the feature quantity extracted from the captured image with reference to an image output unit output to the apparatus, and a storage unit storing the process management information; depending on the result, the accepted object, a sorting means for allocating the second storage mechanism stores to remove first storage mechanism or the object storing the object, the To update the process control information of the object based on a sorting result of the partial unit step, the information of the object of the process, and updating an output means for outputting to the management server apparatus, and acquires the verification result And removing means for deleting the image from the inside of the apparatus after using the captured image.

The invention according to claim 2 is the management apparatus according to claim 1, wherein the distributing unit determines whether the predetermined image is captured by the image capturing unit or not. the accepted objects, characterized in that distributed in the first storage mechanism or second storage mechanism.

The invention according to claim 3 is the management apparatus according to claim 1 or 2.
The image output unit may output the captured image to the management server device in order to register the captured image.

The invention according to claim 4 is the management apparatus according to any one of claims 1 to 3, wherein the acceptance determination unit determines the state of the object received by the acceptance unit, and the acceptance determination. It further comprises an acceptance judgment result output means for outputting the judgment result of the means to the management server device . The invention according to claim 5 is the management apparatus according to any one of claims 1 to 4, wherein the distributing unit stores the received object according to the comparison result, the first storage. It distributes to a mechanism, said 2nd storage mechanism, or the cutting mechanism which cut | judges said target object .

In the invention according to claim 6 , the receiving step receives the target as one of the plurality of steps in which the receiving means sequentially distributes the target, and the target received by the image pickup means is the target receiving step. An image capturing step of capturing an image of the image, and a process in each process of the object of the image capturing, in order to extract a feature quantity for specifying the object from the image captured by the image output unit The image output step of outputting the management information to management server apparatus, and the collation result acquisition unit collates the feature extracted from the captured image with reference to the storage unit storing the process management information. a verification result obtaining step of obtaining the verification result, the distribution means, in accordance with the comparison result, the accepted object, first storage mechanism or the store said object A distribution step of distributing the second storage mechanism stores to remove elephant was to update output means updates the process control information of the steps of the object based on the sorting result of the sorting unit, wherein The update output step of outputting information on the process of the object to the management server device, and the deletion means deletes the image from the inside of the device after using the captured image to obtain the collation result And including steps.

The invention according to claim 7 is an image pickup method for picking up an image of the received object, receiving means for receiving the object as one of the plurality of steps of sequentially sorting the computer. And an image output for outputting the imaged image to a management server device that manages process management information in each process of the object in order to extract the feature amount for specifying the object from the imaged image. Means, collating result acquiring means for acquiring a collating result obtained by collating the feature quantity extracted from the captured image with reference to storage means storing the process management information; target object, distributing means for distributing the second storage mechanism stores to remove first storage mechanism or the object storing the object, swing amount of said distributing means To update the process control information of steps based on the result the object above, the information of the object of the process, updating an output means for outputting to the management server apparatus, and, in order to obtain the comparison result The present invention is characterized in that it functions as an erasing unit that erases the image from the inside of the apparatus after using the captured image. The invention according to claim 8 is a management system including a management apparatus that manages a process of an object, and a management server apparatus that manages information of the process of the object, wherein the management apparatus is configured to Among the plurality of steps distributed in order, the receiving means for receiving the target as one of the steps, the image capturing means for capturing the image of the received target, and the feature amount for specifying the target The image captured by referring to an image output unit that outputs the captured image to the management server apparatus and a storage that stores process management information in each process of the object to extract the captured image from the captured image Collating result acquiring means for acquiring collating results obtained by collating the feature amounts extracted from the first and second storage machines for storing the objects according to the collating results and storing the received object Or distribution means for distributing to a second storage mechanism for storing the object in order to remove the object, and updating the process management information of the process of the object based on the distribution result of the distribution means. And updating means for outputting process information to the management server device; and erasing means for erasing the image from the inside of the device after using the captured image to obtain the collation result. It is characterized by

  According to the present invention, the electronic data of the captured image is erased from the inside of the device, the object is distributed according to the collation result, and the management information of the process of the object is updated. And the object itself can be managed in conjunction.

It is a schematic diagram which shows the outline | summary structural example of the management system which concerns on embodiment of this invention. It is a schematic diagram which shows an example of a target object. It is a schematic diagram which shows an example of a target object. It is a schematic diagram which shows an example of a target object. It is a schematic diagram which shows an example of a target object. It is a schematic diagram which shows an example of a target object. It is a schematic diagram which shows an example of the 1st management apparatus of FIG. It is a block diagram which shows an example of a outline | summary structure of the 1st management apparatus of FIG. It is a block diagram which shows an example of a function structure of the 1st management apparatus of FIG. It is a schematic diagram which shows an example of the 2nd management apparatus of FIG. It is a block diagram which shows an example of a outline | summary structure of the 2nd management apparatus of FIG. It is a block diagram which shows an example of a function structure of the management system containing the 2nd management apparatus of FIG. It is a schematic diagram which shows an example of the data of the database in the management server of FIG. It is a schematic diagram which shows an example of the data of the database in the management server of FIG. It is a schematic diagram which shows an example of the data of the database in the management server of FIG. It is a schematic diagram which shows an example of the flow of the target object in the management system of FIG. 1, and data. It is a sequence diagram which shows the operation example of the 1st management apparatus of FIG. 1, and a management server. It is a sequence diagram which shows the operation example of the 2nd management apparatus of FIG. 1, and a management server. It is a schematic diagram which shows the modification of the database of a management server. It is a schematic diagram which shows the modification of the database of a management server. It is a schematic diagram which shows the modification of the database of a management server.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The embodiment described below is an embodiment in which the present invention is applied to a management system.

[1. Management system configuration and functional overview]
(1.1 Management system configuration and functions)
First, a configuration and an outline function of a management system according to an embodiment of the present invention will be described using FIGS. 1 to 4.

  FIG. 1 is a schematic view showing an example of a schematic configuration of a management system 1 according to the present embodiment. 2 to 4 are schematic views showing an example of the object.

  As shown in FIG. 1, the management system 1 is installed in each process, and the first management device 10 which captures an image of an object of each process and manages the process of the object, and a second installed in the final process. The management apparatus 20 includes a management server 30 that manages information of an object process (an example of management information), and a terminal apparatus 40 that performs input work based on an image captured by the first management apparatus 10.

  The first management device 10 receives an object such as a document or the like deposited from a customer, captures an image, and distributes the object. The objects assigned as appropriate objects are stored in the storage rack 5. On the other hand, an object assigned as a non-appropriate object may be returned to the previous process including the own process, or may proceed to a process different from the appropriate object.

  For example, the second management device 20 receives an object stored in the storage rack 5 and cuts the object distributed for security. The second management device 20 may directly receive the objects distributed by the first management device 10.

  The management server 30 manages information of an object process (an example of management information) transmitted from the first management device 10 and the second management device 20. The management server 30 also manages object information on an object. Here, as an example of the object information, electronic data such as image data of the object, feature quantities extracted from the image data of the object, text data created from the image data, data for delivery for delivering to the customer Data can be mentioned.

  The terminal device 40 is, for example, a portable terminal such as a portable wireless telephone including a personal computer or a smartphone, a tablet terminal, or the like. The terminal device 40 displays the image captured by the first management device 10.

  The first management device 10, the second management device 20, the management server 30, and the terminal device 40 can mutually transmit and receive data via the network 3 using, for example, TCP / IP as a communication protocol. ing. The network 3 is constructed by, for example, a local area network, the Internet, a dedicated communication line (for example, a CATV (Community Antenna Television) line), a mobile communication network, a gateway, or the like.

  The object is, for example, an application document such as a contract. In addition, the object for confirming the person, resident's card, license, family register card, health insurance card, passport, receipt (eg name, address described like receipt of utility charges such as electricity, gas etc) Documents, such as delivery notes. The object may have a three-dimensional shape as well as a flat paper, as long as readable information is described on the surface of the object.

  As shown in FIGS. 2A and 2B, when the object is a contract, the contents of the contract, the name, the address, the telephone number and the like are described on the front of the document. The common area C of the same type of contract includes the contents of the contract, the item of the name, the item of the address, the item of the telephone number and the like. The non-common area NC of the contract includes personal information such as name, address, and telephone number.

  As shown in FIGS. 3A and 3B, when the object is a resident's card, the municipality name, address, name, date of birth, gender, etc. are described on the surface of the document. The common area C of the resident card in the form of a certain municipality includes the name of the document, the name of the municipality, the item of the address, the item of the name, the item of the date of birth, and the item of the gender. The address, name, date of birth, gender, etc., which are personal information, can be listed as the non-common area NC of the resident card.

  As shown to FIG. 3A and FIG. 3B, when a target object is a resident's card, the format of a statement changes with municipalities.

  As shown in FIG. 4, when the object is a license, the name, date of birth, address, photograph, etc. are described on the surface of the document. The common area C of the license includes an item of a name, an item of an address, an item of a date of birth, a photograph column, and the like. The non-common area NC of the license includes personal information such as a name, a date of birth, an address, and a picture of an individual.

(1.2 Configuration and Function of First Management Device 10)
Next, the configuration and function of the first management apparatus 10 will be described using FIGS. 5 to 7.

  FIG. 5 is a schematic view showing an example of the first management device 10. FIG. 6 is a block diagram showing an example of a schematic configuration of the first management device 10. As shown in FIG. FIG. 7 is a block diagram showing an example of a functional configuration of the first management device 10. As shown in FIG.

  As shown in FIG. 5, the first management apparatus 10 includes an imaging unit 11 that captures an image of a target, a communication unit 12 that outputs the captured image to the management server 30, and a transport unit 13 that receives and transports the target. A control unit (not shown) for controlling the first management device 10, a rejector 15 for removing and storing a part of the object being conveyed by the conveyance unit 13, a storage mechanism 16 for storing the object being conveyed, and ) And. Further, an apparatus ID is assigned to each first management apparatus 10.

  The first management apparatus 10 is configured by arranging a main body of the first management apparatus 10 including an imaging unit 11 and a control unit, a rejector 15, and a storage mechanism 16.

  The image pickup unit 11 (an example of an image pickup unit) is a scanner having an image pickup element such as a charge coupled device (CCD) image sensor or a complementary metal oxide semiconductor (CMOS) image sensor. The imaging unit 11 scans and images an object received by the first management apparatus 10. Note that the imaging unit 11 may be a digital camera, and may capture an image of an object from a predetermined angle by dividing the entire object or partially.

  The communication unit 12 (an image output unit, a collation result acquisition unit, an update output unit, and an example of an acceptance determination result output unit) is connected to the network 3 to control a communication state with the management server 30, or It controls the communication state with each part of the management device 10. The communication unit 12 outputs the image captured by the imaging unit 11 to the management server 30. The communication unit 12 also receives, from the management server 30, a verification result obtained by collating the feature amount extracted from the captured image. Furthermore, the communication unit 12 outputs information of the process of the object to the management server 30 in order to update the management information of the process of the object.

  The transport unit 13 (an example of a receiving unit, an example of a sorting unit) includes, for example, a plurality of rollers R that receive and transport an object. The transport unit 13 transports, by the roller R, an object that receives the object as one process among a plurality of processes for sequentially distributing the object.

  The rejector 15 (an example of the distribution means, an example of the first storage mechanism or the second storage mechanism) has a distribution function for distributing the objects and a tray for storing the rejected objects. The rejecter 15 distributes the received object according to the comparison result in the management server 30 with the object whose image has been captured by the imaging unit 11. The objects distributed to the rejector 15 are stored in the tray. The tray is drawable. The rejecter 15 may distribute the target object of the alert to the tray of the rejector 15 by the alert function of the first management device 10.

  The storage mechanism 16 (an example of a first storage mechanism or a second storage mechanism) has a tray for storing an object. The tray is drawable. The object which has not been taken into the rejector 15 is stored.

  These trays may be tagged or be tagged with a radio frequency identifier (RFID).

  Note that there may be a plurality of storage mechanisms 16 for each customer.

  The control unit (an example of an erasing unit and an acceptance determining unit) includes, for example, a central processing unit (CPU), a read only memory (ROM), and a random access memory (RAM). The control unit causes the CPU to read and execute various control programs stored in the ROM and the RAM. The control unit controls each unit (the imaging unit 11, the communication unit 12, the transport unit 13, the rejector 15, and the like) of the first management device 10. The control unit may read and execute a recording medium or the like storing these programs.

  As shown in FIG. 6, the imaging unit 11, the rejector 15, and the storage mechanism 16 are connected via the communication unit 12. Although not shown, the control unit is connected to the transport unit 13 and the communication unit 12 and the like.

  As shown in FIGS. 5 and 6, the object is taken in by the roller R of the transport unit 13 and transported to the imaging unit 11. Next, the object whose image has been captured by the imaging unit 11 is transported to the rejector 15 by the roller R of the transport unit 13. The objects distributed by the distribution function of the transport unit 13 in the rejecter 15 and rejected in the rejecter 15 are stored in the tray of the rejecter 15. The objects not rejected by the rejecter 15 are transported to the storage mechanism 16 by the roller R of the transport unit 13 and stored in the tray of the storage mechanism 16.

  As shown in FIG. 7, the first management apparatus 10 has an acceptance function, a transport function, a trouble determination function, an imaging function, an allocation function, an alert function, a communication function, a storage mechanism, and data erasure. And a function.

  The imaging unit 11 has an imaging function. The communication unit 12 has a communication function. The transport unit 13 has a receiving function, a transport function, and a distribution function. The rejector 15 has a sorting function and a storage function. The storage mechanism 16 has a storage function. The control unit has a trouble determination function, an alert function, a data deletion function, and the like.

  FIG. 7 shows the first management device 10 in the process Pn. The first management apparatus 10 in the process Pn receives an object directly from the first management apparatus 10 in the process Pn-1 or an object from the storage rack 5 which has finished the process Pn-1. The object is transported to the first management device 10 or the storage rack 5 of the process Pn + 1 for processing in the process Pn + 1.

(1.3 Configuration and Function of Second Management Device 20)
Next, the configuration and function of the second management device 20 will be described with reference to FIGS.

  FIG. 8 is a schematic view showing an example of the second management device 20. As shown in FIG. FIG. 9 is a block diagram showing an example of a schematic configuration of the second management device 20. As shown in FIG. FIG. 10 is a block diagram showing an example of a functional configuration of the management system 1 including the second management device 20. As shown in FIG.

  The configuration and functions different from those of the first management apparatus 10 will be mainly described.

  As shown in FIG. 8, the second management apparatus 20 includes an imaging unit 21 that captures an image of an object, a communication unit 22 that outputs the captured image to the management server 30, and a transport unit 23 that receives and transports the object. The rejector 25 removes and stores some of the objects being transported by the transport unit 23, the storage mechanism 26 for storing the transported objects, and cutting of the objects for which the customer has instructed to cut And a control unit (not shown) for controlling the first management device 20. Further, a device ID is assigned to the second management device 20.

  The second management device 20 is configured by arranging a main body of the second management device 20 including an imaging unit 21 and a control unit, a rejector 25, a storage mechanism 26, and a shredder 27.

  The imaging unit 21 (an example of an image capturing unit) has the same configuration and function as the imaging unit 11. The communication unit 22 (an example of an image output unit, a matching result acquisition unit, an update output unit, and an acceptance determination result output unit) has the same configuration and function as the communication unit 12. The transport unit 23 (an example of a receiving unit, an example of a distribution unit) has the same configuration and function as the transport unit 13. The rejector 25 (an example of the distribution means, an example of the storage mechanism) has the same configuration and function as the rejector 15. The storage mechanism 26 (an example of a return storage mechanism) has the same configuration and function as the storage mechanism 16. Note that there may be a plurality of storage mechanisms 26 for each customer.

  The control unit (an example of the image erasing unit and the acceptance determination unit) of the second management apparatus 20 has the same configuration and function as the control unit of the first management apparatus 20. The control unit of the second management device 20 controls the respective units of the second management device 20.

  The cutting machine 24 (an example of a cutting mechanism) has a blade for cutting an object. The cutter 24 cuts and discards the object conveyed by the roller R of the storage mechanism 26. In addition, the cutter 24 which is an example of a cutting mechanism may crush a three-dimensional target object with a hammer, a roller, or the like.

  The shredder 27 (an example of a sorting means, an example of a cutting mechanism) includes a cutting machine 24 and a tray for storing the cut objects. The tray is drawable so as to discard the cut object.

  As shown in FIG. 9, the imaging unit 21, the rejector 25, the storage mechanism 26, and the shredder 27 are connected via the communication unit 22. Although not shown, the control unit is connected to the transport unit 23, the communication unit 22, and the like.

  As shown in FIGS. 8 and 9, the object is taken into the roller R of the transport unit 23 and transported to the imaging unit 21. Next, the object whose image is captured by the imaging unit 21 is transported to the rejector 25 by the roller R of the transport unit 23. The objects rejected by the rejecter 25 are stored in the tray of the rejector 25. The object not rejected by the rejecter 25 is transported to the storage mechanism 26 by the roller R of the transport unit 23.

  When an object without instructions for cutting after being digitized is transferred from the customer, the object distributed to the storage mechanism 26 is transferred to the tray of the storage mechanism 16 by the distribution function of the transport unit 23 in the storage mechanism 26. Be saved. This object is an object to be returned to the customer. When an object for which the instruction to be cut after computerization has been conveyed from the customer has been conveyed, it is not distributed to the storage mechanism 26 but conveyed to the shredder 27.

  The object such as the type conveyed to the shredder 27 is cut by the cutting machine 24 of the shredder 27. The cutting waste is stored in the tray of the shredder 27.

  As shown in FIG. 10, the second management apparatus 20 includes an acceptance function, a transport function, a trouble determination function, an imaging function, an allocation function, an alert function, a communication function, a storage mechanism, and data erasure. It has a function and a cutting function.

  The imaging unit 21 has an imaging function. The communication unit 22 has a communication function. The transport unit 23 has a receiving function, a transport function, and a distribution function. The rejector 25 has a sorting function and a storage function. The storage mechanism 26 has a sorting function and a storage function. The shredder 27 has a cutting function. The control unit has a trouble determination function, an alert function, a data deletion function, and the like.

  FIG. 10 shows the second management device 20 in the final process Pm. The second management device 10 receives an object directly from the first management device 10 in the process Pm-1 or an object from the storage rack 5 which has completed the process Pm-1.

  The objects of the storage mechanism 26 may be temporarily stored on the storage rack 5 for return to the customer.

(1.4 Configuration and Function of Management Server 30)
Next, the configuration and function of the management server 30 will be described with reference to FIGS. 7, 9, 10, and 11 to 13.

  11 to 13 are schematic views showing an example of data of the database in the management server of FIG.

  As shown in FIG. 7 or 9, the management server 30, which is a computer, communicates with a control unit that controls the management server 30, a database 32 (DB 32), and each of the first management device 10 and the second management device 20. A communication unit 33 and an output unit 34 for displaying management information and the like are provided.

  The control unit 31 (an example of the object information erasing unit) includes, for example, a CPU, a ROM, and a RAM. The control unit 31 causes the CPU to read and execute various control programs stored in the ROM and the RAM. The control unit 31 controls each unit (database 32, communication unit 33, output unit 34, and the like) of the management server 30. The control unit 31 may read and execute a recording medium or the like storing these programs.

  The database 32 (an example of a storage unit) is configured by, for example, a hard disk drive or the like. In the database 32, as shown in FIG. 11, a database relating to a customer, as shown in FIG. 12, a database for managing the process of an object, and, as shown in FIG. A data base for delivery data has been constructed.

  In the database related to the customer, in association with the customer ID, the customer name and information as to whether or not the object may be cut are stored.

  The database for managing the process of the object includes the customer ID, the extracted feature amount (an example of the object information), the current process of the object (an example of management information), An appropriate process (an example of management information) to be performed next to the object is stored.

  Thus, the database 32 functions as an example of a storage unit that stores management information in each process of the object.

  In the database of image data and text data of an object, image data (an example of object information) and text data input by an operator of the terminal device 40 looking at image data (object An example of information etc. is stored.

  As described above, the database 32 functions as an example of a storage unit that stores management information in each process of the object and object information on the object. Further, the database 32 functions as an example of a storage unit that stores target object information read from the captured image.

  In addition, the database 32 may store various programs such as an operating system and a server program. The various programs may be acquired from, for example, another server or the like via the network 3, or may be recorded on a recording medium and read via a drive device.

  The communication unit 33 is connected to the network 3 to control communication with the first management device 10, the second management device 20, and the terminal device 40.

  The output unit 34 is configured of, for example, a liquid crystal display element or an EL (Electro Luminescence) element.

  As shown in FIG. 10, the management server 30 has an erasure determination function, a data erasure function, and a full payment determination function that determines the complete delivery of the deliverables to the customer.

  As shown in FIG. 10, the management server 30 encrypts and transmits the text data to the customer. In the case of delivery using a recording medium, the management server 30 or a dedicated terminal encrypts and records the textified data on a recording medium such as a DVD. The recording medium is delivered to the customer.

  In the case of the company A, since the object needs to be returned, the object is taken out from the storage mechanism 26 of the storage function or the storage rack 5 and the object is also delivered. In the case of company B, since there is no need to return the target, the management server 30 also sends a cutting notification indicating that the cutting has ended based on the cutting completion information from the second management device 20.

  The management server 30 erases the delivered data (data erase function) in response to the notification of the full delivery from the customer (complete payment determination function). The management server 30 notifies the customer that the data has been erased as the erasure notification. When text data conversion in the terminal device 40 is completed (erasing determination function), the management server 30 may erase the image data (data erasing function). Depending on the content of the contract with the customer, the data may be deleted after a certain period of time has elapsed after full payment.

[2. Management system behavior]
Next, the operation of the management system according to an embodiment of the present invention will be described with reference to the drawings.

(2.1 Object and data flow)
First, the process of converting the target item deposited by the customer into electronic data and delivering it to the customer will be described using FIG.

  FIG. 14 is a schematic view showing an example of the flow of an object and data in the management system 1.

  First, as shown in FIG. 14, there are processes M1 to M6 of processing for data related to an object from processes P1 to P6 of processing an object. The first management apparatus 10 is installed for each of the processes P1 to P5, and the second management apparatus 20 is installed for the process P6. The device ID of each first management device 10 and the device ID of the second management device 20 correspond to each process (process P1 to process P6).

  In addition, you may carry out with the 1st 1st management apparatus 10 with respect to the process P1 to the process P5.

  A set of objects in which a plurality of objects are assembled is collectively sent from a customer (e.g., a card company, an insurance company, etc.). For example, a customer receives a cardboard box filled with envelopes in which a set of documents, which is an example of an object, is enclosed. Instead of paper documents, electronic data (for example, electronic data recorded on a recording medium, electronic data transmitted via a network) may be sent.

  The plurality of sets of objects are, for example, a set of documents applied to a customer from each user of the customer (for example, an individual or a corporation applying for a card company, an insurance company, etc.). The set of documents is application documents (for example, a contract, application form), documents for identification, and the like. When two documents for identity verification are required, for example, a resident card and license, a resident card and a health insurance card. In the case of a corporation, it is a document for which the representative director's seal has been placed as a document for corporate confirmation.

  A front page may be created for a set of a plurality of objects. On the front page, a customer name, a front page ID for specifying a set of objects, the number of objects, a reception date, a process number and the like are described. The front page may be included in the set of objects, or may not be included in the set of objects in electronic data. The database 32 stores the object ID of each object in association with the front page ID. Further, in the database 32, for the management information of the front page, the process number is also stored in association with the front page ID.

  In the process P1, a series of object IDs is assigned to each object such as a document. For example, the delivered cardboard is opened, and the envelope with the set of documents enclosed is taken out. Then, the envelope is opened and a set of documents is taken out. An object ID for identifying each document such as a code is assigned to each document of an example of the object. Here, a bar code, a three-dimensional code, etc. are mentioned as an example of the code | cord given.

  A code or the like is attached to each document as an object ID. Each document may be put in the receiving port of the first management device 10, and a code may be attached, or the code may be attached manually. In addition, an object ID may be assigned to each document according to the feature amount of the image of the document.

  Next, in step M1, the feature amount of each document is stored in the database 32 of the management server 30. Specifically, the management server 30 extracts the feature amount from the image of each document transmitted from the first management device 10 and stores the feature amount in the database 32.

  For example, the first management apparatus 10 receives each document in order, captures an image of the document, and transmits the image data to the management server 30. The management server 30 extracts the feature amount for the object ID (an example of the feature amount for specifying the object) from the image data. The feature amount for the object ID is the feature amount (code number) of the portion of the code when the code is attached to each document, or the whole or a portion of the image of each document when the code is not attached Feature amount (for example, vector amount).

  When each document has a code, the code reader may read the code and transmit the code information to the management server 30. The code reader may be connected to the first management device 10 or may be built in.

  Also, when the first management apparatus 10 receives an object in the process P1, picks up an image, analyzes an image, or detects a trouble, it divides the object into the tray of the rejecter 15. .

  Next, in step P2, a confirmation operation of the defect of the object is performed. An object whose object ID is determined is transported to the place of the process P2, and a check is made as to whether all the sets of the objects are complete or there is no damage to the object.

  Specifically, the object to which the ID is given is carried to the place of the process P 2 and inserted into the first management device 10. The first management apparatus 10 captures an image of a document and transmits it to the management server 30. The management server 30 determines whether the object is an object for the process P2 based on the image data, and transmits the determination result (an example of the comparison result) to the first management device 10. The first management apparatus 10 distributes the target object to the tray of the rejector 15 or the tray of the storage mechanism 16 according to the determination result. The first management apparatus 10 transmits, to the management server 30, information on the process of the object to which the object is distributed.

  With respect to the objects of the tray of the storage mechanism 16, a confirmation operation is performed such as whether a set of documents enclosed in each envelope is complete.

  The result of the confirmation is input to the first management device 10 or the terminal device 40. For example, after the code of the document is read by the code reader, the input screen is displayed on the screen of the first management device 10 or the terminal device 40, and the confirmation result of the defect is input.

  In addition, the first management device 10 captures an image of a document and transmits it to the management server 30, and the management server 30 recognizes an application document, a document for identity verification, etc. , It may be determined whether the application documents and documents for identity verification are complete.

  The first management apparatus 10 may perform the process P1 and the process P2 simultaneously.

  Next, in step M2, the management server 30 updates the progress status based on the information on the process of the object from the first management device 10.

  Specifically, the management server 30 extracts the feature amount for the object ID based on the image of the object transmitted from the first management device 10, and specifies the object with reference to the BD 32. . The management server 30 updates the progress status of the identified object based on the object ID.

  The management server 30 may perform the process M1 and the process P2 simultaneously.

  Next, in step P3, the first management device 10 converts the image data of the object to create delivery data.

  Specifically, an object is carried to the place of process P3 and inserted into the first management device 10. The first management apparatus 10 captures an image of a document and transmits it to the management server 30. The management server 30 determines whether the object is an object for the process P3 based on the image data, and transmits the determination result (an example of the comparison result) to the first management device 10. The first management apparatus 10 distributes the target object to the tray of the rejector 15 or the tray of the storage mechanism 16 according to the determination result. The first management apparatus 10 transmits, to the management server 30, information on the process of the object to which the object is distributed.

  For example, a set of a plurality of documents contained in a tray is taken into the first management device 10, and an image of each one of the documents is sequentially taken, and the documents are converted into image data. The first management device 10 images a portion necessary for creating delivery data and a portion necessary for specifying an object ID of a document. Note that the first management apparatus 10 may capture the entire document, or in order to increase the resolution, the document may be captured from a predetermined angle by being partially divided by a plurality of cameras. Further, the first management apparatus 10 may arrange a plurality of documents and image them at one time.

  The first management apparatus 10 transmits the image data to the management server 30.

  Next, in step M3, the management server 30 stores the image data. Specifically, the management server 30 specifies the target object ID from the image data received from the first management device 10 by image processing. The management server 30 stores the image data in the database 32 based on the object ID. Progress status is also updated.

  Here, the image data of the digitized object is transmitted to each of the terminal devices 40, and in each of the terminal devices 40, an operation such as text conversion of an image is performed. Each terminal device 40 transmits text data of the image to the management server 30. The management server 30 collectively stores the text data from each of the terminal devices 40 in the database 32 as delivery data for delivery to the customer.

  As described above, the management server 30 functions as an example of a storage unit that stores target object information read from the captured image.

  Next, in process P4, a work process is performed. For example, as a work, there is a work of confirming whether documents for corporate use are not mixed with documents for personal use.

  Specifically, the object whose image data conversion has been completed is carried to the place of step P 4 and inserted into the first management device 10. The first management apparatus 10 captures an image of a document and transmits it to the management server 30. The management server 30 determines whether the object is an object for the process P4 based on the image data, and transmits the determination result (an example of the comparison result) to the first management device 10. The first management apparatus 10 distributes the target object to the tray of the rejector 15 or the tray of the storage mechanism 16 according to the determination result. The first management apparatus 10 transmits, to the management server 30, information on the process of the object to which the object is distributed.

  With respect to the objects of the storage mechanism 16 tray, for example, it is confirmed whether the documents for corporate use and the documents for personal use are not mixed.

  The result of the confirmation is input to the first management device 10 or the terminal device 40. For example, after the code of the document is read by the code reader, the input screen is displayed on the screen of the first management device 10 or the terminal device 40, and the confirmation result is input.

  In addition, the first management apparatus 10 captures images of discrimination points (differences in document name and format, etc.) between documents for corporate use and documents for personal use, and the management server 30 prepares documents for personal use and for personal use. You may check to see if it is mixed with your documents.

  Next, in step M4, the management server 30 updates the progress status as in step M2 based on the information on the step of the object from the first management device 10.

  In addition, when this work process is unnecessary, the process P4 and the process M4 may be omitted. On the other hand, when there are a plurality of work processes, processes such as process P4 and process M4 are performed a plurality of times.

  Next, in the process P5, the object on which the work of the process P4 is finished is stored in the storage rack 5.

  Specifically, the object is carried to the place of the process P 5, ie, the place of the storage rack 5, and is inserted into the first management device 10. The first management apparatus 10 captures an image of a document and transmits it to the management server 30. The management server 30 determines whether the object is an object for the process P5 based on the image data, and transmits the determination result (an example of the comparison result) to the first management device 10. The first management apparatus 10 distributes the target object to the tray of the rejector 15 or the tray of the storage mechanism 16 according to the determination result. The tray of the storage mechanism 16 containing the object is taken out, and the tray is stored at a predetermined position of the storage rack 5. The first management device 10 transmits, to the management server 30, the information on the process of the object to which the object is distributed and the storage location in the storage rack 5.

  For example, a plurality of sets of documents placed in the tray are taken into the first management device 10, and it is determined whether or not they are documents for process P5. The documents of the tray of the rejector 15 determined as the documents for the process P5 are stored in a predetermined position of the storage rack 5 along with the tray.

  Next, in step M5, the management server 30 updates the progress status as in step M2 based on the information on the step of the object from the second management device 20. The management server 30 may store the storage location of the storage rack 5 in which the object is stored in the database 32.

  Next, in the process P6, the second management apparatus 20 sorts the target object for which the conversion to text data is completed and the delivery data is completed, to the target object to be returned to the customer or the target object to be cut. The second management device 20 cuts the target assigned to the target to be cut.

  Specifically, an object for which text data conversion has been completed is transported from the storage rack 5 to the place of the process P 6 and inserted into the second management device 20. The second management device 20 captures an image of the document and transmits the document to the management server 30. The management server 30 determines from the image data whether or not the object is an object for the process P6, and determines whether it is an object to be returned to the customer or an object to be cut. The management server 30 transmits the determination result (an example of the comparison result) to the second management device 20. The second management apparatus 20 distributes the target object to the tray of the rejector 25, the tray of the storage mechanism 26, or the shredder 27 according to the determination result. The second management device 20 transmits, to the management server 30, information on the process of the object where the object is distributed. When the shredder 27 cuts the object, the second management device 20 transmits the cutting completion information to the management server 30.

  Next, in step M6, the management server 30 erases the delivery data based on the information on the process of the object from the second management device 20 and the notification of the full delivery data from the customer.

(2.2 Operation example of first management device and management server)
Next, an operation example of the first management apparatus 10 in steps P1 to P5 and an operation example of the management server 30 in steps M1 to M5 will be described using FIG.

  FIG. 15 is a sequence diagram showing an operation example of the first management device and the management server.

  As shown in FIG. 15, the first management device 10 receives an object (step S1). Specifically, the transport unit 13 of the first management device 10 sequentially receives an object in one of the processes P1 to P5. In steps P2 to P5, the documents etc. put in the tray are received in order.

  As described above, the first management apparatus 10 functions as an example of a receiving unit that receives the target as one of the plurality of steps of sequentially distributing the target.

  Next, the first management apparatus 10 determines whether there is a problem. (Step S2). Specifically, when the control unit of the first management device 10 receives an object, the state of the received object, such as whether or not there is a paper jam, whether the number of documents is a predetermined number, etc. Determine When there is a paper jam, the conveyance unit 13 transmits a signal of the paper jam to the control unit. When determining whether the number of documents is a predetermined number, the control unit reads a code of the tray, an RFID tag, etc., and inquires of the management server 30 the predetermined number of documents in the tray. The control unit counts the number of sheets of the document and determines whether the number is a predetermined number.

  Thus, the first management device 10 functions as an example of an acceptance determination unit that determines the state of the object received by the acceptance unit.

  If there is a problem (step S2; YES), the first management device 10 notifies of an alarm (step S3). For example, as the alert function, the first management device 10 notifies by flashing of sound or light, or the like, the first management device 10 transmits an alert signal to the management server 30, and the output unit 34 of the management server 30 Make the terminal display an alert on the screen. The first management apparatus 10 or the like may display the number of received objects.

  Thus, the first management device 10 functions as an example of an acceptance determination result output unit that outputs the determination result of the acceptance determination unit.

  If there is no problem (step S2; NO), the first management device 10 captures an image of the object (step S4). Specifically, the imaging unit 11 of the first management device 10 images the target conveyed by the conveyance unit 13. When the object is a document, the document transported by the roller R of the transport unit 13 is scanned and imaged by the imaging unit 11 to capture image data. The image data captured by the control unit of the first management apparatus 10 is stored in a cache memory such as the RAM of the control unit.

  Note that in the process P1, the image data is image data for extracting a feature amount to be associated with the object ID. For example, image data of a portion of a code that can specify an object, or image data of all or a portion of an image that can specify an object. In the processes P2, P3, P4, P5, and P6, the image data is image data for the feature amount to be associated with the object ID. Furthermore, in the process P3, the image data is image data of an object required to create delivery data. For example, it is image data including a non-common area NC of a contract, a non-common area NC of a resident card, a non-common area NC of a license, and the like.

  As described above, the first management apparatus 10 functions as an example of an image capturing unit that captures an image of the received object.

  When the electronic data is sent, the first management device 10 accepts the electronic data in the process of receiving the target in step S1, and performs the process of the trouble determination in step S2, the process of alarm notification in step S3, and The process of imaging in step S5 may be omitted.

  Next, the first management device 10 transmits the captured image (step S5). Specifically, the control unit of the first management apparatus 10 transmits the image data captured by the imaging unit 11 via the communication unit 12 to the device ID and process ID of the first management apparatus 10 (for example, process P1 and the like). Along with the process name and the process number).

  As described above, the first management apparatus 10 functions as an example of an image output unit that outputs the captured image in order to extract the feature amount for specifying the object from the captured image. In addition, the first management device 10 functions as an example of an image output unit that outputs the captured image in order to register the captured image.

  Next, the management server 30 receives the image (step S6). Specifically, the control unit 31 of the management server 30 receives the image data from the first management device 10 via the communication unit 33 in any one of the processes M1 to M5. The control unit 31 stores the received image data in a cache memory such as the RAM of the control unit 31.

  Next, the management server 30 determines whether a predetermined image is captured (step S7). The control unit 31 determines that the object is poorly photographed. For example, the imaging location of the image is wrong (for example, the common region C is not imaged, the non-common region NC is not imaged, etc.), the image is too dark, the ratio of black in the received image data is a predetermined value or more If the contrast of the image is poor or the like, the control unit 31 determines that the predetermined image is not captured.

  In the case of the process M1, the control unit 31 may determine whether or not the code portion has not been imaged, and whether or not the reflection of the code portion is bad. In addition, in the case of the process M3, the control unit 31 may determine whether the image area for work such as text conversion of the image is appropriately captured.

  When the predetermined image is not captured (step S7; NO), the management server 30 performs the process of step S11.

  When the predetermined image is captured (step S7; YES), the management server 30 extracts the feature amount (step S8). Specifically, the control unit 31 performs image processing to extract feature amounts for specifying an object from image data.

  As described above, the management server 30 extracts feature quantities for specifying the object from the captured image.

  Next, the management server 30 collates the feature amounts (step S9). Specifically, the control unit 31 specifies the object ID with reference to the database 32 based on the feature amount. The control unit 31 collates with the process ID of the object based on the apparatus ID and the specified object ID to determine whether the process of the object is an appropriate process. More specifically, the control unit 31 determines whether or not the process corresponding to the device ID matches the appropriate process, and obtains the specific result.

  As described above, the management server 30 collates the feature quantity extracted from the captured image with reference to the storage unit storing the management information in each process of the object.

  If it is determined in step M3 that the step is an appropriate step, as shown in FIG. 13, the control unit 31 associates the specified object ID with the specified object ID, and generates image data for creating delivery data. save.

  As described above, the management server 30 functions as an example of a storage unit that stores object information on the object.

  Further, in the process M1, instead of collating the feature amounts, as shown in FIG. 12, the control unit 31 stores the extracted feature amounts in the database 32 together with the assigned object IDs.

  As described above, the management server 30 functions as an example of a storage unit that stores object information on the object.

  Next, the management server 30 erases the image data (step S10). Specifically, the control unit 31 deletes the image data temporarily stored. For example, the control unit 31 erases unnecessary image data from the inside of the management server 30 such as the RAM, the database 32, and the like, which is used for extracting a feature amount or the like. The control unit 31 may delete the image data immediately after the feature amount extraction in step S8.

  The image data for creating the delivery data in the process P3 is not erased in the step S10.

  Next, the management server 30 transmits the result (step S11). Specifically, the control unit 31 transmits the result to the first management device 10 via the communication unit 33. For example, the control unit 31 performs first management of information as to whether the process is an appropriate step as the collation result of step S9 and information as to whether or not a predetermined image is captured as the collation result of step S7. Send to device 10

  Next, the first management device 10 receives the result (step S12). Specifically, the control unit of the first management apparatus 10 receives the result from the management server 30 via the communication unit 12.

  As described above, the first management apparatus 10 refers to the storage unit storing the management information in each process of the object, and acquires the collation result in which the feature quantity extracted from the captured image is collated. It functions as an example of the result acquisition means.

  Next, the first management device 10 erases the image data (step S13). Specifically, the control unit of the first management apparatus 10 erases the image data temporarily stored. The image data is used by the management server 30, and the control unit erases the unnecessary image data from inside the first management apparatus 10. The control unit may delete the image data immediately after the image data transmission in step S5.

  As described above, the first management apparatus 10 functions as an example of an erasing unit that erases the image from the inside of the apparatus after using the captured image to obtain the comparison result.

  Next, the first management device 10 distributes the objects (step S14). Specifically, the control unit of the first management device 10 distributes the objects based on the result from the management server 30 by the transport unit 13 and the rejector 15.

  For example, as shown in FIG. 5, the document captured by the imaging unit 11 is transported to the rejector 15 by the roller R of the transport unit 13. If the predetermined image is not captured in step S7, or if it is determined that the process of the object is not an appropriate process according to the comparison result in step S9, the rejecter 15 takes the document into the tray of the rejecter 15. . On the other hand, when the predetermined image is captured in step S7, and when it is determined that the process of the object is an appropriate process according to the comparison result in step S9, the transport unit 13 can Transport

  If there are a plurality of storage mechanisms 16 for each customer, the first management apparatus 10 may distribute the objects corresponding to each storage mechanism based on the customer ID corresponding to the object ID obtained from the feature amount. . In this case, the processing efficiency can be increased because mixing and processing can be performed without continuously performing a series of steps for each customer.

  As described above, the first management apparatus 10 functions as an example of a distribution unit that distributes the received object to the first storage mechanism or the second storage mechanism according to the comparison result. In addition, the first management apparatus 10 is a distribution unit that distributes the received object to the first storage mechanism or the second storage mechanism based on the determination result as to whether or not the imaging of the image capturing unit has been appropriately performed. Function as an example.

  Next, the first management device 10 transmits the distribution result (step S15). Specifically, the control unit of the first management device 10 transmits the distribution result of the objects to the management server 30 together with the device ID and the object ID of the first management device 10 via the communication unit 12. The distribution result is, for example, operation information of the transport unit 13 and the rejector 15.

  As described above, the first management apparatus 10 is an example of the update output unit that outputs the process information of the object in order to update the management information of the process of the object based on the distribution result of the distribution unit. Act as.

  Next, the management server 30 updates the management information (step S16). Specifically, the control unit 31 receives the device ID, the object ID, and the distribution result of the object. When the object is not allocated to the rejecter 15, as shown in FIG. 12, the control unit 31 determines the process number corresponding to the device ID in the current process column of the database 32 based on the object ID. The step number of the next step is stored in the field. When an object is allocated to the rejecter 15, the control unit 31 determines the process number corresponding to the device ID in the current process field based on the object ID, in the appropriate process field of the database 32, the previous process, etc. Store the process number where the object is to be processed.

  Thus, the management server 30 updates the management information of the process of the object based on the distribution result of the distribution means, and updates the progress status.

(2.3 Operation Example of Second Management Device and Management Server)
Next, an operation example of the second management device 20 in the process P6 and an operation example of the management server 30 in the process M6 will be described using FIG. The operation different from that of the first management device 10 will be mainly described.

  FIG. 16 is a sequence diagram showing an operation example of the second management device 20 and the management server 30.

  As shown in FIG. 16, the second management device 20 accepts an object as in step S1 (step S21).

  As described above, the second management apparatus 20 functions as an example of a receiving unit that receives an object deposited from a customer as one of the plurality of processes for sequentially distributing the objects.

  Next, as in step S2, the second management apparatus 20 determines whether there is a problem (step S22).

  Thus, the second management device 20 functions as an example of an acceptance determination unit that determines the state of the object received by the acceptance unit.

  If there is a problem (step S22; YES), the second management device 20 notifies an alarm as in step S3 (step S23).

  Thus, the second management device 20 functions as an example of an acceptance determination result output unit that outputs the determination result of the acceptance determination unit.

  If there is no problem (step S22; NO), the second management apparatus 20 captures an image of the object as in step S4 (step S24).

  As described above, the second management device 20 functions as an example of an image capturing unit that captures an image of the received object.

  Next, the second management apparatus 20 transmits the captured image as in step S5 (step S25).

  As described above, the second management device 20 functions as an example of an image output unit that outputs the captured image in order to extract the feature amount for specifying the object from the captured image. Further, the second management device 20 functions as an example of an image output unit that outputs the captured image in order to register the captured image.

  Next, the management server 30 receives an image as in step S6 (step S26).

  Next, as in step S7, the management server 30 determines whether a predetermined image is captured (step S27).

  When the predetermined image is not captured (step S27; NO), the management server 30 performs the process of step S30.

  When the predetermined image is captured (step S27; YES), the management server 30 extracts the feature amount as in step S8 (step S28).

  As described above, the management server 30 extracts feature quantities for specifying the object from the captured image.

  Next, the management server 30 collates the feature amounts (step S29). Specifically, the control unit 31 specifies the object ID with reference to the database 32 based on the feature amount. The control unit 31 collates with the process ID of the object based on the apparatus ID and the specified object ID to determine whether the process of the object is an appropriate process. More specifically, the control unit 31 determines whether or not the process corresponding to the device ID matches the appropriate process, and obtains the specific result.

  Furthermore, the control unit 31 refers to the database 32 and determines whether to cut the object based on the customer ID corresponding to the object ID.

  Thus, based on the feature value extracted from the captured image, the management server 30 refers to the storage means and determines whether to cut the target based on the specified result of specifying the received target. Determine if

  Next, the management server 30 erases the image data as in step S10 (step S30).

  Next, the management server 30 transmits the result (step S31). Specifically, the control unit 31 transmits the result to the first management device 10 via the communication unit 33. For example, as the collation result of step S9, information as to whether or not the process is appropriate, information as to whether or not the object is cut or returned (an example of cutting information as to whether the object is cut or not), and step S7. The control unit 31 transmits, to the first management apparatus 10, information as to whether or not a predetermined image has been captured as a result of the comparison.

  Next, the second management apparatus 20 receives the result as in step S12 (step S32).

  Thus, the second management apparatus 20 cuts the object based on the specified result of specifying the received object with reference to the storage unit based on the feature amount extracted from the captured image. It functions as an example of a cutting information acquisition unit that acquires cutting information as to whether or not from the storage unit.

  Next, the second management apparatus 20 erases the image data as in step S13 (step S33).

  As described above, the second management apparatus 20 functions as an example of an image erasing unit that erases the image from the inside of the apparatus after using the captured image to obtain the cutting information.

  Next, the second management device 20 distributes the objects (step S34). Specifically, based on the result from the management server 30, the control unit of the second management device 20 distributes the objects based on the transport unit 13, the rejector 25, and the shredder 27.

  For example, as shown in FIG. 8, the document captured by the imaging unit 21 is transported to the rejector 25 by the roller R of the transport unit 23. When the predetermined image is not captured in step S27, the conversion of the image data of the object is not completed, or the comparison result of step S29 determines that the process of the object is not an appropriate process. If so, the rejecter 25 loads the document into the tray of the rejector 25. On the other hand, when a predetermined image is captured in step S27, and when it is determined that the process of the object is an appropriate process according to the comparison result in step S29, the transport unit 13 can Transport

  Then, if it is determined that the object is to be returned to the customer according to the comparison result in step S29, the storage mechanism 26 takes in the document in the tray of the storage mechanism 26 for return. On the other hand, when it is determined that the object is to be cut, the transport unit 13 transports the document to the shredder 27 according to the comparison result in step S29.

  When there are a plurality of storage mechanisms 26 for each customer, the first management apparatus 20 may distribute the objects corresponding to each storage mechanism based on the customer ID corresponding to the object ID obtained from the feature amount. . In this case, the processing efficiency can be increased because mixing and processing can be performed without continuously performing a series of steps for each customer.

  As described above, the second management apparatus 20 stores the received target object based on the management information and the cutting information in order to return the target object to the customer, or the target storage device. It functions as an example of distribution means for distributing to the cutting mechanism for cutting. In addition, the second management apparatus 20 is a target object for which the imaging of the return storage mechanism or the imaging means was not appropriate based on the determination result of whether the imaging of the image imaging means was appropriately performed. The storage mechanism functions as an example of distribution means for distributing the received object to the storage mechanism.

  When the object is conveyed to the shredder 27, the second management device 20 cuts the object (step S35). Specifically, the cutting machine 24 of the shredder 27 cuts an object such as a document transported by the transport unit 23 and drops scraps of the shred on the tray of the shredder 27.

  Next, the second management device 20 transmits the processing result (step S36). Specifically, the control unit of the second management device 20 manages the distribution result of the objects and the cutting result together with the device ID and the object ID of the second management device 20 via the communication unit 22. Send to 30

  The distribution result is, for example, operation information of the transport unit 23, the rejector 25, and the storage mechanism 26. The cutting result is, for example, an operation result of the cutting machine 24 of the shredder 27. When the cutting machine 24 operates normally, the cutting result is information indicating that the cutting is completed. When the cutting machine 24 does not operate normally due to a paper jam or the like, the cutting result is information indicating that the cutting is not completed.

  Next, the management server 30 updates the management information (step S37). Specifically, the control unit 31 receives the device ID, the object ID, the distribution result of the object, and the cutting result.

  When an object is allocated to the rejecter 25, as shown in FIG. 12, the control unit 31 determines the process number corresponding to the device ID in the current process field based on the object ID in the appropriate process field, as shown in FIG. The process number of the object such as the process of is to be processed is stored.

  When an object is allocated to the storage mechanism 26, the control unit 31 indicates the end of the process in the appropriate process column of the database 32 in the current process column based on the object ID in the current process column. Store information

  When an object is allocated to the shredder 27 and cut, the control unit 31 stores information indicating the completion of the cutting in an appropriate process column or the like of the database 32 based on the object ID. If the cutting fails, information indicating that the cutting is incomplete is recorded.

  Thus, the management server 30 updates the management information of the process of the object based on the distribution result of the distribution means, and updates the progress status.

  Next, the management server 30 erases the image data (step S38). Specifically, based on the information on the process of the object from the second management device 20 and the notification of the completion of the delivery data from the customer, the control unit 31 creates a database of image data for creating delivery data. Erase from The control unit 31 may also delete the delivery data from the database 32.

  Thus, the management server 30 functions as an example of an object information erasing unit that erases the object information from the storage unit after delivering the object information to the customer.

  As described above, according to the present embodiment, the electronic data of the captured image is erased from the inside of the device, the object is distributed according to the collation result, and the management information of the process of the object is updated. , Electronic data and the object itself can be managed in conjunction. In addition, the traceability of the object is improved by interlocking the electronic data and the object itself.

Also, based on the determination result as to whether or not imaging was properly performed, the received object is transferred to the first storage mechanism or the second storage mechanism (for example, the rejector 15 and the storage mechanism 16, the rejector 25 and the storage mechanism 26 ) . In the case of distribution, it is possible to prevent mixing of an object for which imaging can not be performed successfully.

  Also, when outputting a captured image in order to register a captured image, the image is captured and output in order to use extraction of feature quantities of the image or a captured image such as registration of an image. Since the deleted image is erased from the inside of the device, security can be improved.

  Moreover, when judging the state of the received object and outputting the judgment result of acceptance, it is possible to prevent mixing of the object for which the object can not be successfully received by notifying as an alert, and the judgment result is output. Management.

(Modification of database)
Next, modifications of the image data of the object and the database of delivery text data for delivery to the customer will be described with reference to FIGS. 17A to 17C.

  17A to 17C are schematic views showing modified examples of the database of the management server 30. FIG.

  As shown in FIGS. 17A to 17C, instead of the database of FIG. 13, the database of images for names, the database of images for gender, the database of images for addresses, etc. are created to create text data for delivery. A database for doing so may be constructed in the database 32.

  In step P3, the control unit 31 stores each image data for creating delivery data in association with the specified object ID. The control unit 31 may divide image data of a document into image data for a name, image data for a gender, image data for an address, and the like. In addition, the imaging unit 11 may separately capture from the image data of the document the image data for name, the image data for gender, the image data for address, and the like.

  The image data for name, the image data for gender, the image data for address, etc. are displayed on separate terminal devices 40. The terminal device 40 receives an input of text data from a user who is viewing an image, and transmits the text data to the management server 30. The management server 30 stores text data from each terminal device 40 in the database 32, as shown in FIGS. 17A to 17C.

  As described above, the management server 30 functions as an example of a storage unit that stores target object information read from the captured image.

  When a problem occurs in step S2 or step S22, when the target is distributed to the rejector 15 or the rejector 25 in step S14 or step S34, the management server 30 determines whether the front page is present or not. Corresponding instructions may be output for the tracer.

  For example, when there is no front page, the management server 30 collates with the information of the initial acceptance confirmation, and determines that there is a mistake in the first process P1 when there is no shortage of documents, and searches for documents or front Insist mainly on the instructions to re-create the page. In addition, when there is no front page, the management server 30 collates with the information of the initial acceptance confirmation, and when there is a shortage of documents, the process before the one before the process misses (process P1 such as opening work of envelope Output an instruction to search for

  If there is only the front page (that is, all the documents from the customer are missing), the management server 30 will trace the process history of the front page (search from electronic data linked with a symbol such as a barcode on the front page) Output instructions to

  When there is a front page but there is no corresponding document, the management server 30 outputs an instruction to follow the process history of the front page.

  In the case where there is neither a front page nor a corresponding document, when it is discovered at the time of delivery of the final process (process P6), when there is data for delivery but there is no document, instruction to follow the process history from the digitized front page Output, and when there is neither an electronic front page nor delivery data, an instruction is issued to investigate the initial acceptance confirmation.

  As described above, the electronic data and the object itself are linked to improve the traceability of the object.

  The first management apparatus 10 and the second management apparatus 20 may perform image processing to extract the feature amount from the image of the object. In this case, the image output unit outputs the captured image from the imaging unit 11 to the control unit of the first management device 10, and outputs the captured image from the imaging unit 21 to the control unit of the second management device 20. Then, the first management apparatus 10 and the second management apparatus 20 output the extracted feature amount to the management server 30.

  The order of arrangement of the rejectors 15 and the storage mechanism 16 may be the reverse of the arrangement of FIG. Further, the order of arrangement of the rejector 25, the storage mechanism 26, and the shredder 27 may not be the arrangement order of FIG. 8. When the shredder 27 is not at the final position, the transport unit 23 takes in the shredder 27 and sorts it into an object to be cut by the cutting machine 24 and an object to be transported to the next rejector 25 or the storage mechanism 26. Be

  Furthermore, the present invention is not limited to the above embodiments. Each of the above-described embodiments is an exemplification and has substantially the same configuration as the technical idea described in the claims of the present invention, and any one having the same function and effect can be obtained. It is included in the technical scope of the present invention.

1: Management system (management device)
10: First management device (management device)
11: Imaging unit (image imaging means)
12: Communication unit (image output means, update output means, collation result acquisition means)
13: Transport unit (reception means, distribution means)
15: Rejector (sorting means)
16: Storage mechanism 30: Management server (management device)
31: control unit 32: database (storage means)

Claims (8)

Receiving means for receiving the object as one of the plurality of steps of sequentially distributing the object;
Image capturing means for capturing an image of the received object;
An image output unit that outputs the captured image to a management server device that manages process management information in each process of the object in order to extract the feature amount for specifying the object from the imaged image; ,
A collation result acquisition unit that acquires a collation result obtained by collating the feature quantity extracted from the captured image with reference to a storage unit that stores the process management information;
Distribution means for distributing the received object to a first storage mechanism for storing the object or a second storage mechanism for storing the object to remove the object according to the comparison result;
Update output means for outputting information on the process of the object to the management server apparatus in order to update the process management information of the process of the object based on the distribution result of the distribution means;
Erasing means for erasing the image from the inside of the device after using the captured image to obtain the comparison result;
The management apparatus characterized by having. In the management device according to claim 1,
It said distributing means, based on whether the predetermined image is captured whether the determination result by the image pickup means, the accepted object to be distributed to the first storage mechanism or second storage mechanism Management device to feature. In the management device according to claim 1 or 2,
The management apparatus, wherein the image output unit outputs the captured image to the management server apparatus in order to register the captured image. The management apparatus according to any one of claims 1 to 3.
Acceptance determining means for determining the state of the object received by the receiving means;
Acceptance determination result output means for outputting the determination result of the acceptance determination means to the management server device ;
A management apparatus characterized by further comprising:   The management apparatus according to any one of claims 1 to 4.
  Management in which the distribution unit distributes the received object to the first storage mechanism, the second storage mechanism, or a cutting mechanism for cutting the object according to the comparison result. apparatus. A receiving step of receiving the object as one of the plurality of steps in which the receiving means distributes the objects in order;
An image capturing step of capturing an image of the received object by an image capturing means;
The image output unit outputs the captured image to a management server device that manages process management information in each process of the object in order to extract the feature quantity for specifying the object from the imaged image. Image output step
A collation result acquiring step of acquiring collation results by collating the feature quantities extracted from the captured image with reference to a storage unit storing the process management information;
A distributing step of distributing the received object to a first storage mechanism for storing the object or a second storage mechanism for storing the object to remove the object according to the comparison result;
An update output step of outputting, to the management server apparatus, information on the process of the object in order to update the process management information of the process of the object based on the distribution result of the distribution means; ,
An erasing step of erasing the image from the inside of the apparatus after the erasing means utilizes the captured image to obtain the collation result;
Management method characterized by including. Computer,
Receiving means for receiving the object as one of the plurality of steps of sequentially distributing the object;
Image capturing means for capturing an image of the received object;
An image output unit that outputs the captured image to a management server device that manages process management information in each process of the object in order to extract the feature amount for specifying the object from the imaged image;
A collation result acquisition unit that acquires a collation result by collating the feature quantity extracted from the captured image with reference to a storage unit that stores the process management information;
Distribution means for distributing the received object to a first storage mechanism for storing the object or a second storage mechanism for storing the object to remove the object according to the collation result;
Update output means for outputting information on the process of the object to the management server apparatus in order to update the process management information of the process of the object based on the distribution result of the distribution means;
A program for a management apparatus characterized in that it functions as erasing means for erasing the image from the inside of the apparatus after using the captured image to obtain the collation result. In a management system provided with a management device that manages a process of an object, and a management server device that manages information of the process of the object,
The management device
Receiving means for receiving the object as one of the plurality of steps of sequentially distributing the object;
Image capturing means for capturing an image of the received object;
An image output unit that outputs the captured image to the management server device in order to extract the feature amount for specifying the object from the captured image;
Verification result acquisition means for acquiring a verification result obtained by collating the feature quantity extracted from the captured image with reference to storage means storing step management information in each process of the object;
Distribution means for distributing the received object to a first storage mechanism for storing the object or a second storage mechanism for storing the object to remove the object according to the comparison result;
Update output means for outputting information on the process of the object to the management server apparatus in order to update the process management information of the process of the object based on the distribution result of the distribution means;
Erasing means for erasing the image from the inside of the device after using the captured image to obtain the comparison result;
Management system characterized by having .

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