JP2005070925A - Ic card issuance design system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a convenient IC card issuance design system capable of easily performing the setting of specifications and issuance processes for issuance of IC card. <P>SOLUTION: The IC card issuance design system 1 for setting specifications for a plurality of items in order to issue an IC card comprises a server 10 storing realizable specifications such as realizable issuance specifications, exclusive limitations or issuance specification results; a keyboard 22 for inputting an issuance specification, and a control part 13 for guiding the input of specifications by a sales representative through the keyboard 22, for example, limiting the inputtable specifications, based on the realizable specifications stored in a storage part 14. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an IC card issuance design system that sets specifications for a plurality of items related to IC card issuance and designs IC card issuance.

When issuing an IC card, it receives specification data such as IC card specifications and master data such as personal data from the requested system, registers processing specifications from submission to issuance based on the specification data, and based on these processing specifications There is a card issuance system that generates issuance data necessary for issuance of IC cards from master data and issues IC cards, thereby enabling shortening of delivery time and cost reduction of issuance work (for example, patents) Reference 1).
However, the specifications for issuing IC cards have restrictions such as when embossing is provided on the IC card, it cannot be provided on the antenna, and applications exceeding the memory capacity cannot be installed. If the specification data does not satisfy these restrictions, it is necessary to notify the request destination of correct specification data input again and to input the specification data again, which may be burdensome.
Currently, the IC card issuance design is drafted by the sales representative at the time the order is determined, and the specification confirmation sheet summarizing the issuance specifications of the IC card, such as usage, adopted application, and IC form. . However, the sales representative must confirm whether the specifications of the IC card satisfy the constraints at the meeting where the persons in charge of the program development department (technical department) and card issuing department (issuing department) are gathered. There is a problem that the setting of specifications for issuing an IC card is delayed as well as a burden.
Furthermore, whether the device used to issue an IC card (hereinafter referred to as “issuing device”) is currently available, or whether other devices are in use and cannot be used. The sales staff cannot confirm, and the IC card issuance process consists of multiple processes in charge of each department, so the card issuance process must be decided in a meeting that gathers each person in charge. However, similarly, there is a problem that a burden is applied and the setting of an accurate delivery date is delayed.
On the other hand, in order to solve problems such as the burden of the meeting, the sales person has knowledge of the person in charge of other departments such as the issuer specifications, contactless IC card antenna specifications, card face specifications, card creation method However, it is not realistic as the burden on the sales staff becomes extremely large.
JP 11-110491 (page 2-3, FIG. 1)

  An object of the present invention is to provide a highly convenient IC card issuance design system capable of easily setting specifications and issuing processes relating to IC card issuance.

  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. That is, the invention of claim 1 is an IC card issuance design system for setting specifications for a plurality of items in order to issue an IC card, and a specification storage means (14) for storing a feasible specification for each item; Specification input means (22) for inputting specifications for the plurality of items, and guide means for guiding specification input from the specification input means by a specification input person based on the specifications stored in the specification storage means (13, 23). An IC card issuance design system (1).

  According to a second aspect of the present invention, in the IC card issuance design system according to the first aspect, the specification storage means is an exclusive restriction that a feasible specification in one item receives by a specification set in another item The IC card issuance design system (1) is characterized in that a restriction is stored, and the guide means guides based on the exclusive restriction.

  According to a third aspect of the present invention, in the IC card issuance design system according to the first or second aspect, the specification storage means stores a record of a combination of specifications for the plurality of items. This is an IC card issue design system (1).

  The invention of claim 4 is the IC card issuance design system according to any one of claims 1 to 3, wherein the guide means is a specification stored in the specification storage means and / or exclusive. An IC card issuance design system (1) characterized in that a guide is provided by notifying the specification input person of a restriction.

  According to a fifth aspect of the present invention, in the IC card issuance design system according to any one of the first to fourth aspects, the guide means is a specification stored in the specification storage means and / or exclusive. An IC card issuance design system (1) characterized in that guidance is performed by restricting specifications that can be input by the input means in accordance with restrictions.

  The invention of claim 6 is the IC card issuance design system according to any one of claims 1 to 5, wherein the guide means is a specification stored in the specification storage means and / or exclusive. Determination means (13, S120, S130) for determining whether the specification input by the specification input means is realizable based on the restriction, and a determination result for notifying the specification input person of the determination result of the determination means The IC card issuance design system (1) is characterized by having notification means (23, S180).

  The invention of claim 7 is the IC card issuance design system according to any one of claims 1 to 6, wherein issuance apparatus specification storage means for storing specifications of a plurality of issuing apparatuses that issue the IC card. (14), operation information storage means (14) for storing operation information of the issuing device, specifications of the issuing device stored in the issuing device specification storage means, and stored in the operation information storage means An IC card issuance design system comprising: issuance process setting means (13, S150) for setting the issuance process of the IC card based on operation information and the specification input by the specification input means. (1).

  The invention according to claim 8 is the IC card issuance design system according to claim 7, further comprising issuance process result storage means (14) for storing the result of the issuance process, wherein the issuance process setting means is the issuance process result storage. An IC card issuance design system (1) characterized in that an issuance process is set based on the results of the issuance process stored in the means.

  The invention of claim 9 is the IC card issuance design system according to claim 7 or claim 8, wherein issuance information including the specification input by the specification input means and / or the issuance process set by the setting means. An IC card issuance design system (1), characterized in that the predetermined information processing apparatus includes issuance information storage means (14, S160) that can be read out through a communication line and stored in a state where it cannot be rewritten. It is.

According to the IC card issue design system of the present invention, the following effects can be obtained.
(1) Memorable combinations of specifications that can be realized, such as combination results and exclusive restrictions, and specifications that can be realized are stored and notified to the specification input person. The specification entry person can easily specify the specifications related to the IC card issuance by guiding the specification entry from the specification entry means by the specification entry person based on such information, such as determining whether the specification is feasible and notifying the result. This makes it possible to make settings and improve convenience.
(2) The operation information of the issuing device and the results of the issuing process are stored, and by setting the issuing process based on these information and the input specifications, it is easy for the specification input person to issue an accurate IC card issuing process. It is possible to make settings and improve convenience.
(3) By storing the issuance information in a state in which the predetermined information processing apparatus can be read via the communication line and cannot be rewritten, a plurality of persons such as persons in charge of each department share the issuance information. Prevents rewriting due to mistakes and shares accurate issuance information.

  An object of the present invention is to provide a convenient IC card issuance design system capable of easily setting IC card issuance specifications and issuance processes, and is connected to each other via a communication line such as the Internet or a LAN. Server and client, the client stores various information such as specifications that can be issued by the IC card, manages these information, and inputs the specifications from the client by the specification input person based on these information Realized by guiding.

1 and 2 are an explanatory diagram and a block diagram for explaining a configuration in an embodiment of an IC card issuance design system according to the present invention.
As shown in FIG. 1, the IC card issuance design system 1 includes a server 10, a business PC 20, a technical PC 30, and an issuance PC 40, which are connected to each other via a telephone line, an optical cable or other wired line, or an infrared or other wireless communication line 50. Is a system for setting specifications for a plurality of items in order to issue an IC card.
As shown in FIG. 2, the sales PC 20, the technical PC 30, and the issuing PC 40 are computers that can be used by employees of the sales department, the technical department, and the issuing department, respectively, and the communication unit 21 that mediates communication via the communication line 50. , 31, 41, keyboards for inputting information such as user instructions, keyboards 22, 32, 42 such as a mouse, and input / output devices such as displays 23, 33, 43 for notifying the user by displaying information I / O interfaces 24, 34, and 44, which are interfaces of these input / output devices, and control units 25, 35, and 45 and a storage unit that are connected to the I / O interfaces 24, 34, and 44 through a bus. 26, 36, 46, and the like.

  The sales PC 20 inputs specifications for a plurality of items that need to be set in order to issue an IC card (hereinafter, “specifications for the plurality of items” are referred to as “issue specifications”) to the IC card issuance design system 1. (See FIG. 5 described later). When there is an IC card issuance request, the sales representative operates the keyboard 22 according to the input form of the specification confirmation sheet, which is an electronic form displayed on the display 23 of the sales PC 20, and inputs the issued specifications. This input form is provided from the server 10 to the business PC 20 through communication.

  The issuing PC 40 stores specifications and operation information of various issuing devices used for issuing IC cards in the storage unit 46 and manages each issuing device. For issuing an IC card, an embossing device for forming an emboss such as a name, number, and expiration date on the card surface, and color printing such as a name and a face photo (hereinafter referred to as “CP” (Color Portrait)) on the card. Color printing device to be applied, graphics printing device for performing graphics printing of arbitrary text, barcode, fingerprint, etc. (hereinafter referred to as “UG” (Ultra Grafix)) on the card, IC for writing personal data to the IC chip of the IC card Various issuing devices corresponding to each process, such as an issuing device and a sending mount printing device for printing a mount for mailing the issued IC card, are used. There are a plurality of types of issuing devices having different processing performance in the issuing devices corresponding to these processes. For example, embossing devices include embossing devices that can form kana embossing and embossing devices that cannot be formed, and there are a plurality of types of embossing devices that differ in the number of processing units per unit time. The storage unit 46 stores specifications such as type and processing performance for each issuing device. Further, the storage unit 46 stores and manages operation information indicating the current and future states of the issuing device such as the operation schedule and operation status of each issuing device in the storage unit 46. The operating status is updated by communication with the issuing device and operation of the keyboard 43 by the manager at the site. Note that the types of issuing devices are not limited to these. In addition, it is not necessary to separate the apparatus for each process, and a plurality of processes may be performed by one issuing apparatus, such as performing color printing and graphics printing by one issuing apparatus.

The server 10 is a computer that manages the issuance of IC cards, and includes a communication unit 11 that mediates communication via the communication line 50, an I / O interface 12 connected to the communication unit 11, and an I / O interface 12. And a control unit 13 and a storage unit 14 connected to each other by a bus.
The storage unit 14 is a storage device such as a memory or a hard disk, and stores programs and data such as an operating system and application programs necessary for the processing of the control unit 13.

FIG. 3 is an explanatory diagram for explaining information stored in the storage unit 14.
As shown in FIG. 3, the storage unit 14 stores feasible specifications for a plurality of items that need to be set in order to issue an IC card (hereinafter, “feasible specifications for a plurality of items”). "Is called" Achievable Issuance Specifications "). The multiple items are the type of IC chip mounted on the IC card, the capacity of the non-volatile memory, the type of operating system, the type of application, the characters printed on the IC card ticket, the presence or absence of embossing, the presence or absence of indentation, the presence or absence of CP The specifications of the IC card such as the presence / absence of UG, the number of copies of the IC card to be issued, the delivery date, the name of the person in charge of each department (sales department, engineering department, issuing department). In the case of specifications with embossing, the issuance specifications that can be realized in each item, such as the position of embossing on the IC card face, the number of lines, etc., are classified and stored in a hierarchical structure from upper to lower items. ing. Therefore, the storage unit 14 stores feasible issuance specifications such as the number of embossed lines that can be mounted on the IC card and the range that can be arranged on the ticket surface.

  The storage unit 14 stores exclusive restrictions. The exclusive restriction is, for example, that when emboss is set at a certain position on the IC card bill, CP cannot be arranged at the same position, 8 Kbyte is set in the item of the nonvolatile memory, and the item of OS In the case of “OSA”, only “App B” can be installed, and when the number of issued cards is M million or more, the delivery date is N days or more later. The feasible specifications are the restrictions imposed by the specifications set in other items. The storage unit 14 stores the types of antennas that can be realized as a plurality of patterns, and stores each pattern in association with each specification of the emboss such as the position of the emboss and the number of rows. Therefore, the specification of the antenna is limited by the specification of the emboss, and if the specification of the emboss is set, the specification of the antenna is determined.

Further, the storage unit 14 stores the specification and operation information of the issuing device in the same manner as the storage unit 46 of the issuing PC 40.
Furthermore, the storage unit 14 stores history information. The history information is a record relating to issuance of specifications (hereinafter referred to as “issued issuance results”), processes (hereinafter referred to as “issued issuance results”), etc. regarding issuance performed in the past. The issuance specification record is a combination record of specifications for a plurality of items, and is a feasible issuance specification that satisfies the exclusive restriction condition. The sales representative inputs the issued specifications with reference to the issued specification results provided from the server 10 to the sales PC 20.

  In addition, the storage unit 14 is in a state in which issuance information including the issuance specification input from the sales PC 20 and the issuance process set by the issuance specification is as it is (a state in which a sales person can rewrite using the sales PC 20). And stored in a state converted into a PDF file. The issue information converted into the PDF file can be read by the business PC 20, the technical PC 30, and the issue PC 40 connected to the server 10 via the communication line 50, but cannot be rewritten. The issuance process is an IC card issuance schedule such as when to perform processing with any issuing device and when the delivery date is, and is updated according to the progress received by the server 10 by communicating with the technology PC 30 and the issuing PC 40. The

Furthermore, the storage unit 14 stores an input form for the specification confirmation sheet.
FIG. 4 is an explanatory diagram for explaining an input form of a specification confirmation sheet.
As shown in FIG. 4, the input form is an electronic form that is provided from the server 10 to the business PC 20 and displayed on the display 23. The sales representative inputs the issued specifications by operating the keyboard 22 such as selecting a specification from the combo box list or inputting an arbitrary value. In other words, the input form uses a list of specifications that can be realized for each item, and restricts and guides the input by the sales staff using a combo box. Note that it is determined whether or not items such as the number of copies to which an arbitrary value can be input can be realized by a system check (see S120 in FIG. 5 described later).
Also, the input form has a hierarchical structure that allows specification input from the upper concept to the lower concept in each item. For example, if the item is an embossed item, the input form shown in FIG. When set, an input form for inputting specifications of lower concepts such as the number of embossed lines, character size, and position is displayed on the display 23.

As illustrated in FIG. 2, the control unit 13 includes a CPU and the like, and performs overall control of the entire server 10. The control unit 13 executes a program stored in the storage unit 14 in response to a request received from the sales PC 20, guides the issuance specification input, manages the issuance apparatus (operation status, specification), and history information. Management, issue specification setting and management, issue process setting and management, PDF file creation, mail delivery, and the like (see FIGS. 5 to 9 to be described later in detail).
The issue specification input guide is provided to the sales PC 20 by providing an input form to the sales PC 20 to restrict the use that can be input, and is provided to the sales PC 20 for reference of the issued specification results. To determine whether or not the issued specifications are feasible, send the results to the sales PC 20 to notify the sales staff and re-enter them, etc. This is a guide and guide.

FIG. 5 is a flowchart showing the operation in the embodiment of the IC card issue design system according to the present invention. Hereinafter, the process of the server 10 (control unit 13) will be mainly described.
In step 100 (hereinafter, “step” is referred to as “S”), the salesperson receives an IC card issuance request and starts a predetermined application of the sales PC 20. The business PC 20 accesses the server 10 and reads the input form and the issued specification result stored in the storage unit 14. The sales representative operates the keyboard 22 according to the input form while referring to the issuance specification results displayed on the display 23, and inputs the issuance specification from the sales PC 20 to the IC card issuance design system 1 (S110). The input issuance specification is transmitted to the server 10. The control unit 13 performs a system check to determine whether each item of the received issuance specification is feasible with reference to the measurable issuance specification stored (S120, S130). When it is determined as NO, the control unit 13 transmits a message to that effect to the sales PC 20, and the sales PC 20 notifies the display 23 that the re-input is requested for the item determined as NO (S180). ), The same processing is repeated (S110 to S130).

If it is determined to be affirmative in S130, a bill face specification D is set (see FIGS. 6 to 9 described later). The control unit 13 associates the bill surface specification D, the operation information, the issuance process results, the issuance apparatus specifications, and the like (S140), and sets the issuance process (S150). The control unit 13 stores the issuance information including the set issuance specification and the issuance process in the storage unit 14 and converts them into a PDF file (the issuance specification is converted in a state of being applied to the input form) and stored. Store in the unit 14 (S160). The control unit 13 sends an e-mail to the sales PC 20, the technical PC 30, and the issue PC 40 (S170), and the issue specification setting (S110, S120) and issue process setting (S150) are made to the persons in charge (related parties) of each unit. The fact that it has occurred is notified, and the processing is terminated (S190).
The technical person in charge and the issuance person in charge access the server 10 with the technical PC 30 and the issuance PC 40, respectively, read the issuance information (PDF file) stored in the storage unit 14, and confirm the set specification and issuance process. If there is a correction in the issuance information, the technical staff and the issuance staff notify the sales staff by e-mail.

Here, the system check will be described more specifically.
6, 7, 8, and 9 are flowcharts showing a system check (S 120 in FIG. 5) for items related to the IC card face, FIG. 6 is an emboss (EB), and FIG. 7 is an indent (signature column). FIG. 8 shows a procedure for performing a system check for specifications of CP (Color Portrait), FIG. 9 shows a specification of UG (Ultra Grafix), and the control unit 13 performs processing in the order of FIGS. Note that the order of processing is not limited to this.
As shown in FIG. 6, in S210, the control unit 13 confirms the presence or absence of embossing based on the issue specification input in S110 of FIG. When there is embossing, the control unit 13 confirms the lower specifications such as the position (S220), and the specifications of other items related to the feasible issuance specifications, exclusive restrictions, and bills stored in the storage unit 14 are confirmed. (S230), it is determined whether or not the specifications for the emboss input in S110 of FIG. 5 can be realized (S240). If it is determined NO, the control unit 13 performs the same processing (S220 to S240) for the specifications that are re-input (S110 in FIG. 5). If the determination is affirmative, the control unit 13 confirms the presence or absence of embossing of kana characters based on the issuance specification input in S110 of FIG. 5 (S250. Based on the confirmation result, the control unit 13 The embossing device to be used is selected), and the embossing specification (ticket surface specification A) on the ticket surface is set (S260).

As shown in FIG. 7, in S310, the control unit 13 confirms the presence or absence of indentation based on the issue specification input in S110 of FIG. If there is an indent, the control unit 13 checks the indent direction (forward direction or reverse direction) (S315). Since the issuing device performs indentation and EB at the same time, when the indentation is in the reverse direction, the indentation and EB are separate processes. The same applies to the specifications of the CP shown in FIG. 8 (not shown). In the case of the reverse direction, the CP is a separate process.
Further, the control unit 13 confirms the lower specifications such as the indent position (S320), and refers to the issuance specifications that can be realized, exclusive restrictions, and the embossing specifications set in S260 in FIG. Then, it is determined whether or not the specifications for the indent input in S110 of FIG. 5 can be realized (S340). If it is determined as NO, the control unit 13 performs the same processing for the re-input specification (S110 in FIG. 5) (from S320 to S340). If it is determined as affirmative, an emboss and indentation specification (ticket surface specification B) on the ticket surface is set (S350).

  Similarly, as shown in FIG. 8, the control unit 13 confirms the presence or absence of a CP in S410, and if there is a CP, confirms the lower specifications such as which side of the IC card or position ( S420, S430), realizable issuance specifications, exclusive restrictions, and the sheet surface specification B set in S350 of FIG. 7 (S440), and the specifications for the CP input in S110 of FIG. 5 can be realized. It is determined whether or not (S450). If it is determined NO, the control unit 13 performs the same processing (S430 to S450) for the re-input specification (S110 in FIG. 5). If the determination is positive, the control unit 13 confirms the range of the laminate to be applied to the CP surface based on the position of the CP (S460. In principle, it is not possible to apply UG within the range of the laminate. The range of the laminated laminate restricts the position of the UG, but it is possible by changing the process such as performing UG before laminating (before IC issuance) and laminating on the UG. ), The specifications of the emboss, indent and CP on the ticket surface (card surface specification C) are set (S470).

  Similarly, as shown in FIG. 9, in S510, the control unit 13 confirms the presence or absence of a UG. If there is a UG, the control unit 13 sets lower specifications such as the front or back side or both sides of the IC card or the position. Confirmation (S520, S530), with reference to the issuance specifications that can be realized, exclusive restrictions, and the sheet surface specification C set in S470 of FIG. 8 (S540), the specifications for the UG input in S110 of FIG. 5 are realized It is determined whether or not it is possible (S550). If the control unit 13 determines NO, the control unit 13 performs the same processing for the re-input specification (S110 in FIG. 5) (from S530 to S550). If the determination is affirmative, the emboss, indent, CP and UG specifications (ticket surface specification D) on the ticket surface are set (S560).

As described above, according to the embodiment, the IC card issuance design system 1 uses the combo box on the specification confirmation sheet input form to limit and guide the issuance specifications that can be input by the sales person. However, it is possible to easily set the specifications for issuing IC cards and improve convenience.
Also, the IC card issuance design system 1 displays and guides the issuance specification results for reference when the sales person performs input to the input form, and guides the specification of the IC card issuance more easily. It became possible to set.
Furthermore, the IC card design system 1 determines whether or not the input specification is realizable based on the realizable issuance specification stored in the storage unit 14 and the exclusive restriction, etc. In the case of no, the sales representative is notified of this, and in order to guide the sales representative's input, even if it is an item to set the specification by entering any value, the specification is easily set It became possible.
Furthermore, since the IC card design system 1 sets the issuance process based on the specifications and operation information of the issuance device, the issuance process results, and the entered issuance specifications, the sales person can easily perform the accurate issuance process. It became possible to set.
In addition, since the IC card design system 1 stores the issuance information as a PDF file in the server 10, a plurality of persons such as persons in charge in each department share the issuance information and prevent rewriting due to mistakes, and the like. It became possible to share issue information.

(Modification)
The present invention is not limited to the embodiments described above, and various modifications and changes are possible, and these are also within the equivalent scope of the present invention. For example, the server 10 stores issuance specifications, exclusive restrictions, issuance device specifications, operation information, history information, issuance information, specification confirmation sheet input forms, and the like that can be realized in the storage unit 14. Information may be stored and managed separately for a plurality of servers. Similarly, a plurality of servers may be provided with the functions of the server 10 (control unit 13).

Further, the business PC 20 may store all or part of the information stored in the server 10 and update the information by communicating with the server 10 or the issuing PC 40. May be provided. For example, the sales PC 20 has functions such as a system check (S120 in FIG. 5), a process setting (S150 in FIG. 5), and the like. The issuance specification can be input and the issuance process can be set at the request destination by the computer, which improves convenience.
That is, in the IC card issuance design system 1, if the information stored in the server 10 is stored and the function of the server 10 is provided, in which computer the information is stored and the function is provided. It is not limited.

  The business PC 20 may be a requested PC that is a computer installed at the requested party. The requesting PC only needs to have the same function as that of the sales PC 20, and the requester can input the issued specifications, thereby reducing the burden on the sales staff.

  The server 10 provides an input form to the sales PC 20, restricts the specifications that can be input, guides the sales person to input the specifications, and determines whether the specifications input from the sales PC can be realized. The determination is made (S120 and S130 in FIG. 5), and the result is notified (S170 in FIG. 5), and the guidance is performed. For example, when the sales person inputs the emboss position, the range that can be arranged Guidance may be performed only by limiting the specifications that can be input, such as enabling input only within the positions. It is not necessary to determine whether or not it is feasible (S240 in FIG. 6), and the processing can be simplified.

  The server 10 guides the input of the specification by displaying (notifying) the issued specification results to the sales staff. For example, the server 10 displays a feasible specification such as an embossable range and an exclusive restriction ( Notification) may be performed by performing notification.

It is explanatory drawing for demonstrating the structure of an IC card issue design system. It is a block diagram which shows the structure of an IC card issue design system. It is explanatory drawing explaining the specification which can be implement | achieved memorize | stored in the memory | storage part. It is explanatory drawing for demonstrating the input form of a specification confirmation sheet | seat. It is a flowchart which shows operation | movement of an IC card issue design system. It is a flowchart which shows the system check about the specification of embossing. It is a flowchart which shows the system check about the specification of indentation. It is a flowchart which shows the system check about the specification of CP. It is a flowchart which shows the system check about the specification of UG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 IC card issue design system 10 Server 11 Communication part 12 I / O interface 13 Control part 14 Memory | storage part 20 Sales PC
22 Keyboard 23 Display 30 Technology PC
40 issue PC
50 Communication line

Claims (9)

In an IC card issuance design system that sets specifications for multiple items to issue an IC card,
Specification storage means for storing a realizable specification in each item;
Specification input means for inputting specifications for the plurality of items;
Guide means for guiding the specification input from the specification input means by the specification input person based on the specifications stored in the specification storage means;
IC card issuance design system characterized by In the IC card issue design system according to claim 1,
The specification storage means stores an exclusive restriction that is a restriction that a feasible specification in one item is subject to a specification set in another item,
The guide means guides based on the exclusive restriction;
IC card issuance design system characterized by In the IC card issuance design system according to claim 1 or claim 2,
The specification storage means stores a record of a combination of specifications for the plurality of items;
IC card issuance design system characterized by In the IC card issue design system according to any one of claims 1 to 3,
The guide means performs guidance by notifying the specification input person of the specifications and / or exclusive restrictions stored in the specification storage means;
IC card issuance design system characterized by In the IC card issuance design system according to any one of claims 1 to 4,
The guide means performs guidance by limiting the specifications that can be input by the input means in accordance with the specifications and / or exclusive restrictions stored by the specification storage means,
IC card issuance design system characterized by In the IC card issuance design system according to any one of claims 1 to 5,
The guide means determines whether or not the specification input by the specification input means is realizable based on the specifications stored in the specification storage means and / or an exclusive restriction, and the determination means Determination result notification means for notifying the specification input person of the determination result of
IC card issuance design system characterized by In the IC card issuance design system according to any one of claims 1 to 6,
Issuing device specification storage means for storing specifications of a plurality of issuing devices that issue the IC card;
Operation information storage means for storing operation information of the issuing device;
Issuing the IC card based on the specifications of the issuing device stored in the issuing device specification storage means, the operation information stored in the operation information storage means, and the specifications input by the specification input means An issuance process setting means for setting a process;
IC card issuance design system characterized by In the IC card issue design system according to claim 7,
An issuing process result storage means for storing the results of the issuing process is provided,
The issuing process setting means sets the issuing process based on the results of the issuing process stored in the issuing process result storage means;
IC card issuance design system characterized by In the IC card issuance design system according to claim 7 or claim 8,
The specification information input by the specification input means and / or the issue information including the issue step set by the setting means are stored in a state that the predetermined information processing apparatus can read through the communication line and cannot be rewritten. Providing issue information storage means;
IC card issuance design system characterized by

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