JP2014241460A - Information processing system, information processing method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to easily and truly reproduce, in a screen of operation acceptance means, an operation acceptance about a function having been provided by other operation acceptance means.SOLUTION: An information processing system comprises: an operation unit having a display for displaying a screen for accepting operation of a user; a display instruction acceptance unit 221 for accepting a display instruction for a screen to be displayed on another operation unit differing from the operation unit; an intermediate data conversion unit 222 for generating display intermediate data 212 for making the display display a screen corresponding to the display instruction; and an image display sub module 230 for generating second screen data for making the display display a screen shown by the display intermediate data 212 and an operation unit corresponding to a hard key included by the other operation unit, on the basis of the display intermediate data 212 and a configuration of the hard key. The information processing system makes the display display a screen on the basis of the second screen data generated by the image display sub module 230.

Description

  The present invention relates to an information processing system that accepts a user operation through a screen, an information processing method in such an information processing apparatus, and a program for causing a computer to execute such an information processing method.

2. Description of the Related Art Conventionally, in an information processing system including an image processing apparatus having functions such as scanning, printing, and communication, an operation unit for operating the system has been updated. In this case, existing functions from before the update are provided using the old operation part before the update, and all functions are newly developed by providing the function to be added using the new operation part after the update. There is also a need to reduce the scale of software development.
In this case, a technique for making it possible to use the function provided by using the old operation unit from the new operation unit is also known.

For example, in Patent Literature 1, image information displayed on an old UI is received by a new control device, and the image is pattern-matched to generate and display an image according to the shape of the new UI. Is displayed on the new UI. It also describes that a touch operation based on an image displayed on the new UI is converted into a touch operation based on an image displayed on the old UI.
Japanese Patent Application Laid-Open No. 2004-228561 discloses a technique that allows a UI displayed on an operation panel of an image processing apparatus to be easily emulated by an apparatus other than the image processing apparatus.

However, in the technique described in Patent Document 1 described above, when a screen to be displayed using the old UI is displayed on the new UI, pattern matching processing is necessary, and the processing load is large. In addition, since UI reassembly occurs, there is a problem in that the screen of the old UI cannot be provided as it is in the new UI. In addition, there is a problem that it is necessary to examine an appropriate reassembly method for each function. Further, there is a problem that hardware operators such as buttons and keys other than those on the screen cannot be reflected in the new UI by the technique described in Patent Document 1.
Also in Patent Document 2, there is no particular mention regarding the handling of the hardware operator.

  The present invention has been made in view of such a background, and allows an operation reception related to a function provided by another operation reception unit to be easily and faithfully reproduced on a screen of a certain operation reception unit. For the purpose.

  In order to achieve the above object, the present invention is different from the first operation receiving means provided with a display means for displaying a screen for receiving a user operation in the information processing system, and the first operation receiving means. Display instruction receiving means for receiving a display instruction for a screen to be displayed on the second operation receiving means, and a screen corresponding to the display instruction received by the display instruction receiving means are displayed on the display means of the first operation receiving means. First screen data generating means for generating first screen data for the first operation, first screen data generated by the screen data generating means, and an operation indicating a configuration of an operator provided in the second operation receiving means Based on the child data, the second screen data for displaying the screen indicated by the first screen data and the operation unit corresponding to the operator on the display means of the first operation accepting means. And a display control means for displaying a screen on the display means of the first operation accepting means based on the second screen data generated by the second screen data generating means. It is provided.

  According to the above configuration, it is possible to easily and faithfully reproduce the operation reception related to the function provided by the other operation reception means on the screen of a certain operation reception means.

It is a figure which shows the hardware constitutions of the image processing system which is 1st Embodiment of the information processing system of this invention. FIG. 2 is a diagram illustrating a software configuration of a main body and an operation unit illustrated in FIG. 1. It is a figure which shows the external appearance of the operation panel with which the image processing system shown in FIG. 1 is provided. It is a figure which shows the structure of the function which concerns on the display of the screen to the operation panel with which the image processing system shown in FIG. 1 is provided. It is a figure which shows the example of (a) I / F for screen displays and (b) I / F for input notifications with which the other operation part corresponding | compatible application is provided. It is a figure which shows the external appearance of the operation panel in another operation part. It is a figure which shows the structure of the function which concerns on the display of the screen on an operation panel in another operation part. It is a figure which shows the function structure of an other operation part corresponding | compatible application in detail rather than FIG. FIG. 2 is an external view of an operation panel in the operation unit illustrated in FIG. 1, showing a state where a screen is displayed on a display based on an instruction from the screen display unit. It is a flowchart of a process in case an intermediate data conversion part detects a figure drawing instruction | indication. It is a flowchart of a process when an intermediate data converter detects a term drawing instruction. It is a flowchart of the process performed when a hard key image display part and a screen display part receive display screen information and display screen update information. FIG. 2 is an external view of an operation panel in the information processing apparatus illustrated in FIG. 1, showing a state where a screen provided with only an operation unit corresponding to a part of hard keys of another operation unit is displayed on the display. It is the figure which put together the process when another operation part performs the display of the screen according to the display instruction from a main body module, and the process when an operation part performs. It is a figure which shows the sequence of operation | movement of each part when an image display submodule receives operation information. It is a figure corresponding to FIG. 4 which shows the structure of the function which concerns on the display of the screen on the operation panel with which the image processing system of 2nd Embodiment is provided. It is a figure which shows the example of the error screen displayed on the display of another operation part. It is an external view of the operation panel in the operation part of 2nd Embodiment which shows the state which displayed the error screen on the display based on the instruction | indication from a screen display part. It is a flowchart of the process performed when a main body information management part detects an error notification. It is a figure which shows the sequence of the operation | movement at the time of error notification detection including each part other than a main body information management part. It is a flowchart of the process performed when a main body information management part detects an error cancellation notification. This is a sequence of operations when an error release notification is detected including each unit other than the main body information management unit. It is a flowchart of the process which an other operation part corresponding | compatible application performs when operation information is acquired during the display of an error screen. It is a figure which shows the example of the error screen in the modification of 2nd Embodiment. It is a figure which shows the example of the correspondence of the kind of error, and the application used for an error display. It is a flowchart of the process performed when the main body information management part detects an error notification in the modification of 2nd Embodiment. In a modification, it is a figure for demonstrating the hard key used in each screen of another operation part. FIG. 13 is a flowchart corresponding to FIG. 12 showing processing executed when a hard key image display unit and a screen display unit receive display screen information and display screen update information in a modified example.

Hereinafter, embodiments for carrying out the present invention will be specifically described.
[First Embodiment: FIGS. 1 to 15]
First, an image processing system according to a first embodiment of the information processing system of the present invention will be described.

FIG. 1 is a block diagram showing a hardware configuration of the image processing system.
This image processing system 1 is an MFP (multifunction machine) having a communication function.
For example, a copy function, a scanner function, a fax function, and a printer function. Processing related to these functions can be executed by the user directly operating the image processing system 1.
The image processing system 1 can communicate with an external device such as a client PC (personal computer) via a network, and can execute processing related to the above function according to an instruction received from the external device.

  As shown in FIG. 1, the image processing system 1 includes an operation unit 20 that receives a user operation (instruction from the user) and a main body 10 that is an operation unit that executes an operation based on the operation received by the operation unit 20. And are connected so that they can communicate with each other via a dedicated communication path 30. The communication path 30 includes a control line and a power supply line in this embodiment, but they may be separated.

  In addition, the main body 10 can perform not only the operation according to the operation received by the operation unit 20 but also the operation according to the instruction received from the external device as described above. The communication path 30 may be, for example, a USB (Universal Serial Bus) standard. However, any standard may be used regardless of wired or wireless. One-to-one communication or network communication may be used. For example, it is conceivable to use serial, wired or wireless LAN (local area network), Bluetooth (registered trademark), IrDA (Infrared Data Association), etc. in addition to USB.

  The main body 10 includes a CPU 11, a ROM 12, a RAM 13, an HDD 14 (hard disk drive), a communication I / F (interface) 15, a connection I / F 16, and an engine unit 17, which are connected via a system bus 18. The CPU 11 controls the entire main body 10 by executing a program stored in the ROM 12 or the HDD 14 using the RAM 13 as a work area, and various functions including the above-described copy function, scanner function, fax function, and printer function. To realize.

The HDD 14 is a non-volatile storage medium (storage means) and stores (stores) various data including various programs executed by the CPU 11.
The communication I / F 15 is an interface for communicating with an external device such as a client PC via a network.

The connection I / F 16 is an interface for communicating with the operation unit 20 via the communication path 30. Here, a USB standard interface is used.
The communication I / F 15 can adopt any standard regardless of wired or wireless. It may be shared with the connection I / F 16. A plurality of I / Fs may be provided as the communication I / F 15 and the connection I / F 16, respectively.

  The engine unit 17 is hardware that performs general-purpose information processing and processing other than communication for realizing a copy function, a scanner function, a fax function, and a printer function. For example, a scanner (image reading unit) that scans and reads an image of a document, a plotter (image forming unit) that performs printing on a sheet material such as paper, and a communication unit that performs fax communication are provided. Further, a specific option such as a finisher for sorting printed sheet materials or an ADF (automatic document feeder) for automatically feeding a document can be provided.

  On the other hand, the operation unit 20 includes a CPU 21, a ROM 22, a RAM 23, a flash memory 24, a communication I / F 25, a connection I / F 26, and an operation panel 27, which are connected via a system bus 28. The CPU 21 controls the entire operation unit 20 by executing a program stored in the ROM 22 or the flash memory 24 using the RAM 23 as a work area, and includes functions related to recording and reproduction of operations received from the user. Implement various functions.

The flash memory 24 is a non-volatile storage medium (storage means), and stores (stores) various types of data including various programs executed by the CPU 21 and setting information referred to when recording operations.
The communication I / F 25 is an interface for communicating with an external device such as a server device via a network.

The connection I / F 26 is an interface for communicating with the main body 10 via the communication path 30. Here, a USB standard interface is used.
The communication I / F 25 can adopt any standard regardless of wired or wireless. It may be shared with the connection I / F 26. A plurality of I / Fs may be provided as the communication I / F 25 and the connection I / F 26, respectively.

  The operation panel 27 is an operation accepting unit including a display unit that displays a screen for accepting an instruction operation such as execution or setting of various operations from the user. The display means can also display a screen for displaying the operation status and setting state of the image processing system 1. The operation panel 27 can be constituted by, for example, a liquid crystal display device (LCD) in which touch panels are stacked. Further, in addition to or instead of this, an operation unit such as a hardware key and a display unit such as a lamp may be provided.

Next, FIG. 2 shows a software configuration of the main body 10 and the operation unit 20 shown in FIG.
As shown in FIG. 2, the main body 10 includes a software group including an application (hereinafter also referred to as “application”) layer 101, a service layer 102, and an operating system (hereinafter referred to as “OS”) layer 103.

  The software of the application layer 101 is software for operating a hardware resource and providing a predetermined function. For example, a copy application, a scanner application, a fax application, a printer application, and the like are provided, and various functions such as a copy function, a scanner function, a fax function, and a printer function can be provided.

  The software of the service layer 102 is interposed between the application layer 101 and the OS layer 103, and provides an interface for using hardware resources included in the main body 10 to the software of the application layer 101. More specifically, it has a function of accepting operation requests for hardware resources and arbitrating the operation requests. The operation request received by the service layer 102 may be a request such as reading by a scanner or printing by a plotter.

  Note that this interface function is provided not only to the application layer 101 of the main body 10 but also to the application layer 201 of the operation unit 20. That is, an application in the application layer 201 of the operation unit 20 can also implement various functions by using the hardware resources (for example, the engine unit 17) of the main body 10 by accessing the service layer 102.

  The OS layer 103 is basic software and provides a basic function for controlling hardware included in the main body 10. The software of the service layer 102 converts a hardware resource use request from various applications into a command interpretable by the OS layer 103 and passes the command to the OS layer 103. Then, the software of the OS layer 103 executes the command, thereby causing the hardware resource to perform an operation according to the application request.

  The application layer 201, the service layer 202, and the OS layer 203 included in the operation unit 20 have the same hierarchical structure as that of the main body 10 side. The specific functions provided by the applications in the application layer 201 and the types of operation requests that can be accepted by the service layer 202 are different from those on the main body 10 side. An application provided in the operation unit 20 can provide a predetermined function by operating hardware resources provided in the operation unit 20, but a UI (user interface) mainly for performing operations and display related to the function provided in the main body 10. Provides the functionality of

  In this embodiment, the OS operates independently on the main body 10 side and the operation unit 20 side. Further, as long as the main body 10 and the operation unit 20 can communicate with each other, the OSs do not need to be the same type. For example, it is possible to use Linux (registered trademark) in the main body and Android (registered trademark) in the operation unit 20. However, it is not essential that the OS operates independently on the main body 10 side and the operation unit 20 side.

In the image processing system 1, the main body 10 and the operation unit 20 are controlled by different OSs, and therefore communication between the main body 10 and the operation unit 20 is not inter-process communication within one apparatus, but different apparatuses. As communication between.
An operation (command communication) for transmitting instruction content from the user received by the operation unit 20 to the main body 10 and an operation in which the main body 10 instructs the operation unit 20 to display a screen or notify an event correspond to this. .

  Therefore, the function of the main body 10 can be used when the operation unit 20 performs command communication to the main body 10. The event notified from the main body 10 to the operation unit 20 includes the occurrence of an error in the main body 10 or the cancellation thereof.

In addition, since power to the operation unit 20 is supplied from the main body 10 through the communication path 30, the operation unit 20 can operate independently of power control of the main body 10. In order to maintain the independence of functions, the main body 10 and the operation unit 20 are operated by different OSs, and an application of the operation unit 20 can be operated using the functions of the main body 10.
In the image processing system as described above, a characteristic point is a function related to display of a screen on the operation panel 27. Hereinafter, this point will be described.

First, FIG. 3 shows an appearance of the operation panel 27 provided in the image processing system shown in FIG.
As shown in FIG. 3, the operation panel 27 includes a number of hard keys 271 and a display 272 that is an LCD on which a touch panel is stacked.
The hard key 271 is not a GUI (graphical user interface) but an operator such as a key or a button having a physical entity. The display 272 can display a GUI (graphical user interface) for accepting a user operation.
The user's operation can be accepted either by the hard key 271 or the GUI (hardware touch panel) displayed on the display 272.

Next, FIG. 4 shows a configuration of functions related to display of a screen on the operation panel 27 provided in the image processing system shown in FIG.
In FIG. 4, the operation unit controller 200 is a control unit that controls the hard keys 271 and the display 272 of the operation panel 27 that are realized by the CPU 21 executing a required program.

  The operation unit applications 201a and 201b and the other operation unit corresponding application 210 have a function of instructing the OS 240 to display a screen on the display 272 in response to an instruction from the main body 10. In response to this instruction, data for instructing display to the display library 241 of the OS 240 is generated based on the display instruction transmitted from the main body modules 110 and 120, and this is transferred to the display library 241. The functions of the main body modules 110 and 120 are realized by software belonging to the application layer 101 or the service layer 102 on the main body 10 side.

  The OS 240 is a function realized by the basic software of the OS layer 203 shown in FIG. 2, and the display library 241 is an interface that receives a display instruction for the display 272. When the OS 240 receives a display instruction that can be processed by the display library 241 from each application, the OS 240 controls the display 272 according to the content, and displays a screen including graphics and characters. That is, the OS 240 is a display control unit.

  When the display 272 or the hard key 271 receives an operation, the OS 240 passes operation information indicating the operation content (a touched position on the screen, an operated key, etc.) to the active application at that time. Upon receipt of this operation information, the application specifies which operation on the screen the operation is to be performed on the screen, or a command to be transmitted to the main body 10 in accordance with the operation, This is transmitted to the main body modules 110 and 120 in a format that can be processed by the main body modules 110 and 120. As a result, the main body 10 can be made to perform an operation according to the operation received on the operation panel 27.

  The operation unit applications 201a and 201b include a screen display I / F for receiving a display instruction based on the hardware configuration of the operation panel 27 included in the operation unit 20. On the other hand, the other operation unit compatible application 210 is an operation unit having a hardware configuration different from that of the operation unit 20 (here, the other operation unit 40 shown in FIGS. 6 and 7, typically a model older than the image processing system 1). The screen display I / F for receiving a display instruction based on the hardware configuration of the operation unit connected to the main body 10 in FIG. The same applies to the input notification I / F for transmitting a command or the like based on the detected operation to the main body modules 110 and 120. These interfaces are provided in the screen display module emulator 220.

  The main body modules 110 and 120 include screen display libraries 111 and 121 corresponding to interfaces provided in the screen display module emulator 220. This screen display library generates a display instruction in accordance with the screen display I / F of the application to be displayed on the screen. Also, it has a function of interpreting a command output from the input notification I / F of the application.

In FIG. 4, only the screen display libraries 111 and 121 corresponding to the interface of the other operation unit compatible application 210 are shown. The screen display library corresponding to the operation unit applications 201a and 201b is not shown, but the main body modules 110 and 120 are also provided separately. However, not all main body modules need to have a screen display library corresponding to all operation unit applications. Each main body module only needs to include a screen display library corresponding to an application used when the main body module displays a screen on the operation unit 20.
Among the applications shown in FIG. 4, the feature of this embodiment is related to the other operation unit compatible application 210, and the function of this application will be described in more detail below.

FIG. 5 shows an example of (a) screen display I / F and (b) input notification I / F included in the other operation unit compatible application 210.
The screen display I / F is a list of commands related to drawing and settings received by the other operation unit compatible application 210. When displaying the screen on the operation unit 20 using the other operation unit compatible application 210, the main body module 110 instructs display of each display component such as a button, an image, a caption, and a message included in the screen. The display instruction is transferred to the other operation unit compatible application 210 in a format determined by the screen display I / F.

  The input notification I / F is a list of commands for notifying the main body module of the contents of the operation received by the hard key on the screen displayed by the other operation unit corresponding application 210 or during the display of the screen. is there. Upon receiving a notification from the OS 240 that the user's operation has been detected, the other operation unit compatible application 210 generates a command indicating the operation related to the notification in a format determined by the input notification I / F, and displays the screen. Notify the instructed main module. On the main module side, a function for interpreting this command is provided in the screen display library, and processing corresponding to the operation performed by the user is executed based on the interpretation result.

  By the way, as described above, the other operation unit compatible application 210 receives a display instruction based on the hardware configuration of the other operation unit 40 different from the operation unit 20. That is, the screen display I / F included in the other operation unit compatible application 210 is an interface that receives a display instruction for causing the other operation unit 40 to display a screen.

Here, FIG. 6 shows an appearance of the operation panel in the other operation unit 40.
As shown in FIG. 6, the other operation unit 40 includes, on the operation panel 47, a number of hard keys 471 and a display 472 that is an LCD on which a touch panel is stacked, as in the case of the operation panel 27.
However, the number, configuration, arrangement, etc. of the operators constituting the hard key 471 are different from those of the operation panel 27. The size of the display 472 is also different from the display 272 of the operation panel 27.

FIG. 7 shows a configuration of functions related to display of a screen on the operation panel in the other operation unit 40.
In FIG. 7, the operation unit controller 400 is a control unit that controls the hard keys 471 and the display 472 of the operation panel 47 that are realized by the CPU of the other operation unit 40 executing a required program.

  The screen display module 420 has a function of instructing the OS 440 to display a screen on the display 472 in response to an instruction from the main body 10. In this instruction, data for instructing display to the display library 441 of the OS 440 is generated based on the display instruction transmitted from the main body modules 110 and 120 on the main body 10 side, and this is sent to the display library 441.

  The OS 440 is a function realized by basic software executed by the CPU of the other operation unit 40, and the display library 441 is an interface that receives a display instruction for the display 472. When the OS 440 receives a display instruction that can be processed by the display library 441 from each application, the OS 440 controls the display 472 in accordance with the content to display a screen including graphics and characters.

  When the display 472 or the hard key 471 accepts an operation, the OS 440 passes operation information (such as a position touched on the screen and an operated key) indicating the operation content to the screen display module 420. When the screen display module 420 receives this operation information, based on the screen data being displayed, the screen display module 420 determines which operation on the screen the operation is to be performed on, or a command to be transmitted to the main body 10 according to the operation. This is identified and transmitted to the main body modules 110 and 120 in a format that can be processed by the main body modules 110 and 120. As a result, the main body 10 can be made to perform an operation according to the operation received through the operation panel 47.

  Here, the screen display module 420 includes the same screen display I / F and input notification I / F as those included in the other operation unit-compatible application 210 (more precisely, the I / F of the other operation unit-compatible application 210). F should be the same as the I / F of the screen display module 420). Therefore, the screen on the display 472 can be displayed using the same functional configuration as that shown in FIG.

  In this regard, the main body modules 110 and 120 are originally designed on the assumption that the other operation unit 40 performs display. 3, the operation unit different from the other operation unit 40 according to the instructions from the service modules 110 and 120 without changing the functional configuration on the main body 10 side by providing the other operation unit compatible application 210. 20 should be able to display the screen.

  However, since the other operation unit 40 and the operation unit 20 have different hardware configurations as described above, if the screens are displayed in exactly the same manner, instructions cannot be accepted in the same manner. In particular, since the number and arrangement of the hard keys are different, if the same screen as that of the other operation unit 40 is displayed on the operation unit 20, the operation reception using the hard keys is the same as the other operation unit 40. Can not do.

Next, the configuration of the other operation unit corresponding application 210 for dealing with this point will be described.
FIG. 8 is a diagram showing the functional configuration of the other operation unit compatible application 210 in more detail than FIG.
As illustrated in FIG. 8, the other operation unit corresponding application 210 includes an image conversion submodule 211 and an image display submodule 230.

  Among these, the image conversion submodule 211 includes a screen display module emulator 220 that emulates the function of the screen display module 420 of the other operation unit 40. The screen display module emulator 220 includes a display instruction receiving unit 221, an intermediate data conversion unit 222, a term / icon data storage unit 223, and a setting information storage unit 224.

The display instruction receiving unit 221 includes a screen display I / F, and an operation of a display instruction receiving procedure for receiving a display instruction for a screen to be displayed on the other operation unit 40 from the screen display libraries 111 and 121 of the main body modules 110 and 120. Display instruction receiving means for performing
Based on the display instruction received by the display instruction receiving unit 221, the intermediate data conversion unit 222 generates display intermediate data 212 that is first screen data for causing the display 272 to display a screen corresponding to the display instruction. First screen data generation means. The procedure for generating the first screen data is the first image data generating procedure.

The process for generating the display intermediate data 212 is, for example, as follows.
First, when a designated icon drawing command prepared in the screen display I / F is received, the image data of the icon is acquired from the term / icon data storage unit 223 based on the icon ID included in the command, and this is used as the ID. And display intermediate data 212 corresponding to. When a registered term drawing command is received, term string data is acquired from the term / icon data storage unit 223 based on the term ID included in the command, and this is used as the display intermediate data 212 corresponding to the ID. This character string may use a character code different from that of the other operation unit 40 so as to be suitable for display on the operation unit 20. Similarly, for the background image, image data corresponding to the ID is acquired and used as display intermediate data 212.
Further, since the coordinates of the display position specified by each command indicate the coordinates on the display 472 of the other operation unit 40 in the received command, the display position on the display 271 described later with reference to FIG. Convert to the indicated coordinates.

  The display instruction received by the display instruction receiving unit 221 includes information on the types of display components to be displayed on the screen (buttons, fixed messages, pull-down menus, etc.) and identifiers of characters and figures to be displayed. Also included is compatible model information indicating the size of the screen and which model of the operation screen the screen is created for.

  The term / icon data storage unit 223 is a storage unit that stores display character strings or graphics corresponding to identifiers of characters and graphics included in the display instruction for a plurality of languages or display modes. When the intermediate data conversion unit 222 creates the display intermediate data, the operation unit acquires the display character string or graphic corresponding to the identifier based on the currently selected language or display mode. The language can be easily switched on the 20 side.

  For example, an identifier “001” is given to a character string indicating start, “Start” is displayed as a Japanese display character string corresponding to this identifier, “Start” is displayed as an English display character string, and the term / The data is stored in the icon data storage unit 223. When the display instruction receiving unit 221 receives a display instruction for the character string with the identifier “001”, the intermediate data conversion unit 222 changes the character “start” if the language setting at that time is Japanese. In the case of English, intermediate data for display for displaying the characters “Start” on the display 272 is generated.

  In addition, the setting information storage unit 224 acquires and stores the setting state made in the main body 10 from the main body 10 as needed. Then, the intermediate data conversion unit 222 displays the display component for which the display instruction receiving unit 221 has received the display instruction in a state based on the setting state of the parameters related to the display component stored in the setting information storage unit 224. Display intermediate data to be displayed on the screen.

For example, when displaying a display component of an on / off button, if the value of a parameter corresponding to the display component is on, the button is turned on. If the value of the parameter is off, the button is displayed off. Etc.
The display intermediate data 212 generated by the intermediate data conversion unit 222 is stored in an appropriate storage unit so that the image display submodule 230 can read it. The intermediate data conversion unit 222 also has a function of passing the corresponding model information regarding the screen to be displayed on the display 272 (the screen on which the display intermediate data 212 is generated) to the image display submodule 230.

The image display submodule 230 is a second screen data generation unit, and includes a hard key image display unit 231 and a screen display unit 232.
The hard key image display unit 231 stores operator data indicating the configuration of the hard key provided in the operation unit of each model for each value that the corresponding model information can take. This operator data includes information on the shape, number, and position of hard keys and identifiers for specifying individual hard keys.

  Then, the hard key image display unit 231 is based on the corresponding model information passed from the intermediate data conversion unit 222 and the operation data, and the operation unit corresponding to the hard key provided in the model operation unit indicated by the corresponding model information. Is generated on the display 272 (instructing this to the display library 241 of the OS 240).

  On the other hand, the screen display unit 232 generates data for displaying the screen indicated by the display intermediate data 212 on the display 272 based on the display intermediate data 212 generated by the intermediate data conversion unit 222. The screen display unit 232 then synthesizes this data with the data generated by the hard key image display unit 231, and the screen on which the display instruction receiving unit 221 receives the display instruction and the hard key provided in the other operation unit 40. Data for displaying a screen including the operation unit 471 and the corresponding operation unit on the display 272 is generated. This generated data is the second screen data, and this generation operation is the second screen data generation procedure.

  The screen display unit 232 passes the generated data to the display library 241 of the OS 240 and instructs the display 272 to display a screen according to the data. As a result, a screen as shown in FIG. 9 is displayed on the display 272. Here, the screen display unit 232 and the OS 240 execute processing of a display control procedure and function as a display control unit.

FIG. 9 is an external view of the operation panel 27 showing a state in which a screen is displayed on the display 272 based on an instruction from the screen display unit 232.
As shown in FIG. 9, the screen displayed on the display 272 includes another operation unit screen display area 273 and a hard key corresponding operation unit 274.

  Among these, the other operation unit screen display area 273 is an area for displaying basically the same screen as the screen displayed on the display 472 of the other operation unit 40 in FIG. 7. The screen display module emulator 220 shown in FIG. 8 receives a display instruction similar to that of the screen display module 420 of FIG. 7, and generates display intermediate data 212 describing the same screen as that of the screen display module 420. Thus, the same screen as that of the other operation unit 40 can be displayed. Actually, it is assumed that there is a difference in display hardware such as the size of the display area, the resolution, the number of colors, and the like. The adjustment of the display position of each display component due to the difference in hardware and the adjustment of the data format due to the difference in the interface of the display library provided in the OS are performed when the screen display unit 232 generates the second screen data. It is good to.

  The hard key corresponding operation unit 274 is an operation unit corresponding to the hard key 471 of the other operation unit 40 that is displayed based on the data generated by the hard key image display unit 231. As will be described in detail later, when the hard key corresponding operation unit 274 is operated, the other operation unit corresponding application 210 outputs, as operation data indicating the operation, the other operation unit 40 outputs when the hard key 471 is operated. The same operation data as that to be generated is generated and transmitted to the main module.

In other words, the other operation unit screen display area 273 and the hard key corresponding operation unit 274 are obtained by displaying the entire operation panel 47 of the other operation unit 40 on the display 272 of the operation unit 20 as a screen. The operation unit corresponding to the hard key 471 of the other operation unit 40 also performs the same function as the hard key on the other operation unit 40 although it is on the screen.
Therefore, even if the hardware configuration of the other operation unit 40 and the operation unit 20 is different, the functions realized by using the other operation unit 40 include the functions realized by the off-screen operator. It can be reproduced faithfully using the operation unit 20. In addition, in this case, it is not necessary to modify the main body modules 110 and 120 and the screen display libraries 111 and 121, so that the number of work steps required for reproduction can be reduced and reproduction can be performed easily.

  Hereinafter, processing and operations executed by the CPU 21 of the operation unit 20 in relation to the display of the screen of FIG. 9 and reception of operations on this screen will be described. The processes and operations described below are performed by the CPU 21 executing a required program. However, for convenience of explanation, it is assumed that the various functional units shown in FIG.

First, FIG. 10 shows a flowchart of processing when the intermediate data conversion unit 222 detects a figure drawing instruction.
When the display instruction receiving unit 221 receives the graphic drawing instruction from the main body module and passes it to the intermediate data converting unit 222, the intermediate data converting unit 222 starts the process shown in the flowchart of FIG.

  In this process, the intermediate data conversion unit 222 acquires setting information necessary for drawing the instructed graphic from the setting information storage unit 224 (S11). If the figure is a button, the parameter corresponding to the button is turned on / off, and if the figure is a destination list, the destination is currently set. Then, in accordance with the acquired setting information, intermediate data for display of a graphic instructed to be drawn is generated (S12), and the process ends.

Next, FIG. 11 shows a flowchart of processing when the intermediate data conversion unit 222 detects a term drawing instruction.
The intermediate data conversion unit 222 starts the processing shown in the flowchart of FIG. 11 when the display instruction reception unit 221 receives the term drawing instruction from the main body module and passes it to the intermediate data conversion unit 222.

  In this process, the intermediate data conversion unit 222 first acquires character string data corresponding to the identification information of the instructed term from the term / icon data storage unit 223 (S21). Next, the intermediate data conversion unit 222 acquires setting information necessary for drawing characters related to the acquired character string data from the setting information storage unit 224 (S22). Then, in accordance with the acquired setting information, intermediate data for display of characters instructed to be drawn is generated (S23), and the process ends.

  In order to instruct the other operation unit corresponding application 210 to display the contents for one screen, the main body module accepts a display instruction for a drawing instruction corresponding to each drawing component in the screen, such as a figure drawing instruction, a character drawing instruction, and the like. To the part 221. In other words, the screen is updated according to an instruction from the main module. In response to the drawing instruction, the intermediate data conversion unit 222 generates display intermediate data corresponding to each display component, and sequentially adds it to the display intermediate data 212 indicating the display content for one screen. The screen display unit 232 can instruct the display library 241 of the OS 240 to display a screen based on the display intermediate data 212 at an arbitrary time.

  In addition, every time the intermediate data conversion unit 222 starts generating the display intermediate data 212 for a new screen, the intermediate data conversion unit 222 transmits display screen information including the corresponding model information of the screen to the hard key image display unit 231. Further, each time the intermediate data conversion unit updates the contents of the display intermediate data 212 (if a series of updates are performed a plurality of times, all of them may be completed), a display screen indicating the fact The update information is transmitted to the screen display unit 232.

FIG. 12 shows a flowchart of processing executed when the hard key image display unit 231 and the screen display unit 232 receive these display screen information and display screen update information.
Steps S31 to S34 in FIG. 12 are processes corresponding to the functions of the hard key image display unit 231.
When the hard key image display unit 231 receives the display screen information from the intermediate data conversion unit 222, the hard key image display unit 231 starts the processing shown in the flowchart of FIG.

  First, the corresponding model information that is the model information of the other operation unit that matches the screen to be displayed is acquired from the display screen information (S31). Next, the hard key image display unit 231 acquires operation element data of another operation unit corresponding to the acquired model information (S32). As described above, the operator data includes information on the shape, number, and position of the hard keys and identifiers for specifying individual hard keys.

Next, the hard key image display unit 231 generates intermediate data for displaying the buttons (or other operation units) corresponding to the hard keys of the other operation units included in the acquired operation element data (S33). Then, the hard key image display unit 231 converts the generated display intermediate data into data for instructing display to the display library 241 of the OS 240 (S34), and passes it to the screen display unit 232.
In response to this, the screen display unit 232 synthesizes the passed data with the data for display of the screen generated in step S42 as described later, and the synthesized screen (screen as shown in FIG. 9). The display is instructed to the display library 241 of the OS 240 (S51), and the process ends.

In FIG. 12, steps S41 to S42 and S51 are processes corresponding to the function of the screen display unit 232.
Upon receiving the display screen update information from the intermediate data conversion unit 222, the screen display unit 232 starts the process shown in the flowchart of FIG.
First, the display intermediate data 212 generated by the image conversion submodule 211 (the intermediate data conversion unit 222) is read (S41). Next, the read display intermediate data is converted into data for instructing display to the display library 241 of the OS 240 (S42).

Thereafter, the converted data is combined with the data generated by the hard key image display unit 231 in step S34, and the display of the combined screen (screen as shown in FIG. 9) is instructed to the display library 241 of the OS 240. (S51), and the process ends.
The display instruction in step S51 may be performed when at least one of the processes in steps S31 to S34 and the processes in steps S41 to S42 is newly executed.

Through the above processing, a screen obtained by combining the screen displayed on the display 472 of the other operation unit 40 and the operation unit corresponding to the hard key 471 of the other operation unit 40 as described with reference to FIG. Can be displayed on the display 272.
In step S33, it is not essential to provide an operation unit corresponding to all the hard keys of the other operation unit 40. The configuration of the hard key 471 provided in the other operation unit 40 is compared with the configuration of the hard key 271 provided in the operation unit 20, and based on the comparison result, which one of the hard keys 471 provided in the other operation unit 40 corresponds. You may make it determine whether the operation part to perform is provided on a screen.

More specifically, among the keys constituting the hard key 471 of the other operation unit 40, those that include a key corresponding to the hard key 271 of the operation unit 20 are not provided on the screen. It is good to. In this case, for the operation unit not provided on the screen, it is not necessary to generate display intermediate data in step S33. For keys that do not have a corresponding operation unit on the screen, the hard key 271 provided in the operation unit 20 is substituted for the function.
In these cases, the hard key image display unit 231 functions as a determination unit.

By performing the above operation, for example, as shown in FIG. 13, only the operation units corresponding to the left two columns of the hard keys 471 of the other operation unit 40 are displayed on the display 272, and the function of the right one key is displayed. Can be substituted for the hard key 271 on the operation panel 27.
In this way, the number of operation units displayed on the display 272 can be reduced and the screen can be displayed in a large size.

Here, FIG. 14 summarizes the process when the other operation unit 40 performs screen display according to the display instruction from the main body modules 110 and 120 and the process when the operation unit 20 performs.
Comparing these, the other operation unit 40 having the hardware assumed by the main body module converts the drawing instruction (S81) received by the screen display module 420 into a display command for the OS 440 (S82, S83), and the OS 440. It is only necessary to instruct the display (S84).

On the other hand, in the operation unit 20 having hardware different from that of the other operation unit 40, the screen display module emulator 220 receives a drawing instruction through the same interface as that of the screen display module 420 (S91). And it converts into the display command for OS240 with which the operation part 20 is provided (S92, S93).
Further, in order to close the difference in the configuration of the hard keys, the image display submodule 230 generates a display command for instructing the OS 240 to display the operation unit (button) corresponding to the hard key of the other operation unit 40 (S94). , S95). Then, the OS is instructed to display the synthesized image (S96).

  Note that the display command for OS 240 may have a format different from the display command for OS 440. Even in this case, the screen display module emulator 220 of the operation unit 20 and the screen display module 420 of the other operation unit 40 may have the same format up to the display intermediate data 212. When creating data for instructing display to the OS from the display intermediate data 212, the screen display unit 232 may create data in a format that satisfies the request of the OS 240.

Next, the operation of each unit when a user operation is performed during screen display by the other operation unit compatible application 210 will be described.
The OS 240 constantly monitors user operations on the operation panel 27. When an operation is detected, operation information indicating the operated position (coordinates on the display 272 or key identification information in the hard key 271) and the type of operation (touch, drag, button press, etc.) To the active application (displaying the screen on the display 272).
If the other operation unit compatible application 210 is being displayed, the OS passes the operation information to the image display submodule 230 of the other operation unit compatible application 210.

FIG. 15 shows an operation sequence of each unit when the image display submodule 230 receives the operation information.
When receiving the operation information from the OS 240, the image display submodule 230 identifies which region or operation unit is the operation targeted for the operation information (S61). This specification can be performed based on the data for the display instruction of the screen generated in step S51 of FIG. This is because the data includes information regarding the display position of each display component.

  Next, the image display submodule 230 passes operation information including operation target data to the image conversion submodule 211 (S62). Upon receiving the operation information, the image conversion submodule 211 converts the operation information into operation data of the other operation unit 40 that can be handled by the main body module that is the screen display instruction source (S63).

  At this time, the operation data for the operation unit provided corresponding to the hard key is converted into operation data indicating the operation for the hard key. At this time, for example, if the hard key is a button, dragging and flicking operations are impossible, so if the type of operation cannot be performed on the hard key before conversion, It is also good to convert to a kind that can be done. In any case, the data may be in a format suitable for the input notification I / F shown in FIG. This means that the operation data in the same format as that when the other operation unit 40 receives an operation on the screen or the hard key is generated.

Next, the image conversion submodule 211 passes the operation data generated in step S63 to the main body module (S64), and the main body module performs an operation according to the operation indicated by the operation data (S65).
With the above processing, when an operation is performed on the screen displayed on the display 272 in accordance with a display instruction from the main body module, information indicating the operation can be notified in a form that the main body module can interpret. In this case, an operation for a key that is in the other operation unit 40 but not in the operation unit 20 can also be received on the screen and passed to the main body module as operation data indicating an operation on the key in the other operation unit 40.

  Therefore, even in this point, even if the hardware configuration of the other operation unit 40 and the operation unit 20 is different, the function realized by using the other operation unit 40 is realized by an operator outside the screen. It can be faithfully reproduced using the operation unit 20 including the function. In addition, in this case, it is not necessary to modify the main body modules 110 and 120 and the screen display libraries 111 and 121, so that the number of work steps required for reproduction can be reduced and reproduction can be performed easily.

[Second Embodiment: FIGS. 16 to 22]
Next, an image processing system according to a second embodiment of the information processing system of the present invention will be described.
This image processing system is different from the first embodiment in that an error screen is displayed on the other operation unit corresponding application 210 when an error notification which is a predetermined event is detected. Therefore, the configuration related to this point will be mainly described. The configuration of parts not specifically mentioned is the same as that of the first embodiment. In the description of the second embodiment, the same reference numerals are used for portions that are common to the first embodiment.

FIG. 16 is a diagram corresponding to FIG. 4 and illustrating a configuration of functions related to display of a screen on the operation panel 27 included in the image processing system of the second embodiment.
The information processing system 1 according to the second embodiment is different from the first embodiment in that a main body information management unit 250 is provided in the operation unit 20.

  The main body information management unit 250 acquires data of various events transmitted from the main body 10 to the operation unit 20. The main body information management unit 250 acquires events to be passed to the operation unit applications 201a and 201b and the other operation unit compatible application 210 in addition to the original transmission destination. For this acquisition, for example, each application is provided with a function for notifying the main body information management unit 250 of event data, or the main body information management unit 250 can acquire event data from the OS 240 when the OS 240 is involved in transmission / reception of event data. It can be done by doing.

In addition, when detecting an error notification that is a predetermined event, the main body information management unit 250 activates the other operation unit compatible application 210 instead of the application that has displayed the screen until then, and the other operation unit corresponding application 210 Has a function of causing the display 272 to display a screen. As a result, during normal operation, the image processing system 1 can be operated using the newly developed operation unit applications 201a and 201b, and the error notification is performed by the other operation unit compatible application 210 using the existing mechanism. , And the like can be operated.
Accordingly, when newly developing the operation unit applications 201a and 201b, the error notification function is not provided or only a simple one is provided, so that the development load of the application can be reduced.

In addition, when activating the other operation unit compatible application 210, the main body information management unit 250 stores information on the screen that was being displayed at that time, eliminating the error and eliminating the need to display the error screen In the event of a failure, it has a function to return the display to the original screen. This function can be realized simply by re-activating the original app according to the resolution of the error if the display content of the previously displayed screen is retained even when the app is inactive. it can. When the display contents of the screen that the application previously displayed are not retained, the main body information management unit 250 stores the display contents of the screen, and when the original application is reactivated, the display contents are passed and displayed. You just have to do.
As a result, it is possible to return to the original processing after the error is resolved.

Here, an error screen displayed on the operation panel 27 will be described.
First, in the configuration using the other operation unit 40 as described with reference to FIG. 6 in the first embodiment, an error screen displayed on the display 472 of the other operation unit 40 is as shown in FIG. That is, in the display area of the display 472, a character string indicating the error content and a diagram showing the error canceling procedure are displayed.

FIG. 18 shows a state in which the other operation unit compatible application 210 displays the same error screen as that shown in FIG. 17 on the display 272 of the operation unit 20.
As shown in FIG. 18, the screen displayed on the display 272 includes another operation unit screen display area 273 and a hard key corresponding operation unit 274. The other operation unit screen display area 273 is an image area corresponding to the screen displayed on the display 472 of the other operation unit 40, and the hard key corresponding operation unit 274 corresponds to the hard key 471 of the other operation unit 40. It is the operation part provided in.
The display example shown in FIG. 18 is the same as that shown in FIG. 9 except that the display content of the other operation unit screen display area 273 is an error notification.

  Hereinafter, processes and operations executed by the CPU 21 of the operation unit 20 in relation to the functions of the main body information management unit 250 will be described. The processes and operations described below are performed by the CPU 21 executing a required program. However, for convenience of explanation, it is assumed that the various functional units shown in FIG. 16 and the like execute the processing.

First, FIG. 19 shows a flowchart of processing executed when the main body information management unit 250 detects an error notification.
When the main body information management unit 250 detects an error notification indicating that an error has occurred in the main body 10, the main body information management unit 250 starts the process illustrated in the flowchart of FIG. 19.

  In this process, the main body information management unit 250 first determines whether or not the application (active application) displayed on the screen is the other operation unit compatible application 210 (S101). If it is not the other operation unit compatible application 210, the identification information of the application being displayed on the screen is registered (S102), and the non-display of the application is instructed to the OS 240 (S103). Further, the OS 240 is instructed to display the other operation unit compatible application 210 (S104), and the process is terminated. In the case where the application is the other operation unit compatible application 210 in step S101, it is not necessary to switch the application, and the process is ended as it is.

Next, FIG. 20 shows a sequence of operations when an error notification is detected, including each unit other than the main body information management unit 250.
When the main body 10 detects the occurrence of an error in the main body 10 in this sequence, the main body 10 transmits an error notification to the operation unit 20 (S111). If the main body information management unit 250 detects this error notification through some route, and the application currently displayed on the screen is not the other operation unit compatible application 210, the identification information of the application currently displayed on the screen is registered (S112). Then, the OS 240 is instructed to hide the application being displayed on the screen (S113). Upon receiving this instruction, the OS 240 hides the application that is being displayed on the screen (here, the operation unit application 201a) (S114). That is, the operation unit application 201a is deactivated so that a screen display based on an instruction from the operation unit application 201a is not performed.

  In addition, the main body information management unit 250 instructs the OS 240 to display the other operation unit compatible application 210 (S115). Upon receiving this instruction, the OS 240 displays the other operation unit compatible application 210 (S116). That is, the other operation unit compatible application 210 is activated, and a screen is displayed based on an instruction from the other operation unit compatible application 210.

  19 and 20 can activate the other operation unit compatible application 210 in response to the detection of the error notification. In this state, the OS 204 displays a screen on the display 272 based on an instruction from the other operation unit corresponding application 210. Therefore, when the other operation unit compatible application 210 is instructed to display an error screen, the error screen as shown in FIG. 18 including the operation unit corresponding to the hard key 471 of the other operation unit 40 is displayed according to the instruction. 272 can be displayed.

  As in the case of the operation screen in the first embodiment, the configuration of the error screen may be provided as a display instruction for each display component from the main body modules 110 and 120 to the other operation unit corresponding application 210. However, the other operation unit compatible application 210 stores the error screen configuration corresponding to the error code described in the error notification, and when the other operation unit compatible application 210 detects the error notification, it responds based on the error code. It is also possible to display a screen to be displayed. Further, it is conceivable that this error notification is provided from the main body information management unit 250 to the other operation unit compatible application 210.

  In addition, when the other operation unit corresponding application 210 is still active before the error notification, the application switching according to the error notification does not occur. However, the configuration of the screen displayed at the time of error notification is saved by the other operation unit corresponding application 210 or the main body information management unit 250 so that the screen can be returned to the original screen when the error is canceled.

In addition, errors that occur in the main body 10 include those that are canceled by a state change in the main body 10 and those that are canceled by an input from the operation unit 20.
As the former case, for example, the jammed paper has been removed, or it has become impossible to communicate, but communication has become possible. As the latter case, it is conceivable to cancel a job when an error occurs during job execution.

Next, the processing at the time of error cancellation will be described by dividing into the former case and the latter case.
First, FIG. 21 shows a flowchart of processing executed when the main body information management unit 250 detects an error cancellation notification. This corresponds to the former case.
When the main body information management unit 250 detects an error cancellation notification indicating that the error has been canceled due to a state change in the main body 10, the main body information management unit 250 starts the processing illustrated in the flowchart of FIG.

  In this process, the main body information management unit 250 first obtains the identification information of the currently displayed application registered in step S101 of FIG. 19 (S121). And it is judged whether the application is the other operation part corresponding | compatible application 210 (S122).

  If it is not the other operation unit compatible application 210, the OS 240 is instructed to hide the other operation unit compatible application 210 that is displaying the screen (S123). Further, the OS 240 is instructed to display the previously displayed application acquired in step S121 (S124), and the process ends. If it is the other operation unit compatible application 210 in step S122, it is not necessary to switch the application, and the process is terminated as it is.

Next, FIG. 22 shows a sequence of operations when an error release notification is detected, including each unit other than the main body information management unit 250.
In this sequence, when the main body 10 detects that the error has been canceled due to a change in the situation in the main body 10, it transmits an error cancellation notification to the operation unit 20 (S131). When the main body information management unit 250 detects this error release notification through some route, the main body information management unit 250 acquires the identification information of the previously displayed application stored in step S112 of FIG. 20 (S132).

  Here, if the previously displayed application is not the other operation unit compatible application 210, the main body information management unit 250 instructs the OS 240 to hide the other operation unit compatible application 210 (S133). Upon receiving this instruction, the OS 240 hides the other operation unit corresponding application 210 (S134). That is, the other operation unit compatible application 210 is deactivated, and the screen display based on the instruction from the other operation unit compatible application 210 is not performed.

  Further, the main body information management unit 250 instructs the OS 240 to display the previously displayed application (here, the operation unit application 201a) acquired in step S132 (S135). Upon receiving this instruction, the OS 240 displays the operation unit application 201a (S116). That is, the operation unit application 201a is activated and a screen is displayed based on an instruction from the operation unit application 201a.

  21 and 22, the application that was active at the time of error notification can be made active again and the display before the error notification can be resumed in response to detection of the error release notification. If the other operation unit compatible application 210 is still active before the error notification, the application switching does not occur, but the screen configuration stored in advance as described in FIGS. 19 and 20 is used. To return to the display before the error notification.

Next, a case where an error is canceled by an input from the operation unit 20 will be described.
FIG. 23 shows a flowchart of processing executed by the other operation unit corresponding application 210 when the operation information is acquired while the error screen is displayed.

When an operation is performed on the operation panel 27, the OS 240 provides operation information indicating the operation content to the active application. Note that the other operation unit compatible application 210 is active while the error screen is displayed.
When the other operation unit compatible application 210 acquires this operation information from the OS 240 while the error screen is displayed, the other operation unit compatible application 210 starts the process illustrated in the flowchart of FIG. First, it is determined whether or not the acquired operation information is operation information related to an error release operation (S141). It is assumed that which operation is the error canceling operation can be grasped from the screen configuration information.

  If it is not an error canceling operation, a process corresponding to the detected operation is performed as usual, and the process is terminated (S142). This process is to notify the main body 10 of the contents of the accepted operation. If it is an error canceling operation, the main body 10 is notified that the error has been cancelled, and the process is terminated (S143).

When the main body 10 receives this error release notification, the main body 10 makes another error release notification to the operation unit 20 so that the entire operation unit 20 can recognize the error release. When detecting the error cancellation notification, the main body information management unit 250 performs the processing described with reference to FIGS.
Thereby, even when the error is canceled by the operation on the operation unit 20, the display before the error notification can be resumed.

[Modifications of Second Embodiment: FIGS. 24 to 26]
Next, a modification of the above-described second embodiment will be described.
This modification does not always activate the other operation unit corresponding application 210 when an error is detected, but the operation unit application 201a or 201b can display an error screen for some errors. It is.

  When the operation unit 20 supports a wider range of functions such as moving image display and link button display than the other operation units 40, an easy-to-see error display screen including a moving image and a link button is displayed as shown in FIG. be able to. In this case, for an item for which an error screen corresponding to the operation unit 20 can be prepared, it is desirable to display the error screen created for the operation unit 20 without reproducing the screen of the other operation unit 40.

  Therefore, as shown in FIG. 25, an application used to display an error screen may be determined for each type of error and registered in an appropriate storage unit of the operation unit 20. In FIG. 24, the “operation unit 20 compatible application” is a third screen data generation unit, and is an application that causes the display 272 to display a display screen based on the hardware configuration of the operation unit 20.

  Similar to the operation unit application 101a and the like, the operation unit 20 compatible application generates data (third screen data) for instructing the display library 241 of the OS 240 to display a screen, and instructs the OS 240 based on the data. The screen is displayed on the display 272. In addition, when displaying a screen by this application, it is not necessary to provide the operation part corresponding to the hard key 471 of the other operation part 40 in the screen.

Then, when the error information is detected, the main body information management unit 250 may execute the process of FIG. 26 instead of the process of FIG. 19 of the second embodiment.
In this process, the main body information management unit 250 first refers to the table of FIG. 24 and acquires information on the application used for displaying the error screen corresponding to the notified error type (S151). And it is judged whether the application is the other operation part corresponding | compatible application 210 (S152). If this is the other operation unit compatible application 210, the switching process to the other operation unit compatible application 210 is performed as in the case of FIG. 19, and the process is terminated.

If it is not the other operation unit compatible application 210 in step S152, a process of switching to the application used for display is performed (S154), and the process is terminated. This switching process may be the same as that shown in FIG. 19 except that the application to be switched is different.
By adopting the above configuration, from the function for the operation unit 20 to the function for the operation unit 20 such as switching the application used for display from the item for which the error screen using the function of the operation unit 20 has been developed. The migration can be done little by little.

[Other modifications: FIGS. 27 and 28]
Although the description of the embodiment is finished as described above, in the present invention, the specific configuration of each unit, the processing content, the data format, the display content of the screen, and the like are not limited to those described in the embodiment.
For example, the hard key 471 is not limited to a key, and may have an arbitrary shape such as a button, a switch, a slider, or a knob. The number is also arbitrary.

  Further, for example, in the processing of steps S31 to S34 in FIG. 12, only the operation unit corresponding to the operation unit to be used among the operation units included in the other operation unit 40 is considered in consideration of the operation unit used on the screen to be displayed. It is also possible to display. Here, “use” a certain operator means that when an operation of the operator is detected while the screen is displayed, the operation is transmitted to the main module.

FIG. 27 shows the hard keys used on the screen for each type of screen displayed by the other operation unit compatible application 210 (based on an instruction from the main body module).
In the example of FIG. 27, the screen type indicates information for identifying the screen. The ID may be a number or a symbol.
Whether or not a hard key is used indicates whether or not one hard key is used on the screen.
The presence / absence of key use indicates whether or not to use the operation element for each one or one group of operation elements included in the hard key 471 of the other operation unit 40.

  As shown in FIG. 27, the screen displayed by the other operation unit compatible application 210 includes a screen that uses all keys, such as a copy screen, and a screen that uses some keys, such as a soft keyboard screen. is there. There are also screens that do not use hard keys at all, such as error notification screens and status confirmation screens.

In the data shown in FIG. 27, when the main body module instructs the other operation unit compatible application 210 to display a screen, only the information related to the screen to be displayed is supported by the other operation unit via the screen display I / F. It may be provided to the application 210.
Alternatively, the operation unit compatible application 210 stores the data shown in FIG. 27 as a table, and only notifies the type (identification information) of the screen to be displayed from the main body module to the other operation unit compatible application 210. Also good. In this case, the operation unit corresponding application 210 can search the table using the screen type as a key, and obtain information on hard keys used in the screen.
In any case, the intermediate data conversion unit 222 transmits the contents as part of the display screen information to the hard key image display unit 231.

  Next, FIG. 28 shows a flowchart of processing executed when the hard key image display unit and the screen display unit receive display screen information and display screen update information in this modification. This flowchart corresponds to FIG. 12, and the same step numbers are assigned to processes common to FIG. Further, this process is different from FIG. 12 only in the process (S31 to S34) corresponding to the function of the hard key image display unit 231.

  In this process, when the hard key image display unit 231 receives the display screen information from the intermediate data conversion unit 222, the hard key image display unit 231 starts the process shown in the flowchart of FIG. Then, similarly to the case of FIG. 12, the operator data of the other operation unit is acquired (S31, S32).

Next, based on the received display screen information, the hard key image display unit 231 determines whether the screen to be displayed is a screen that uses the hard key 471 of the other operation unit 40 (SB). And when using, the hard key used by the screen which is going to be displayed among the hard keys 471 of the other operation part 40 is specified based on display screen information (SC). Thereafter, the hard key image display unit 231 generates intermediate data for displaying the button corresponding to the identified hard key (SD), and instructs the display library 241 of the OS 240 to display the generated intermediate data for display. Is converted into data for use (S 34), and passed to the screen display unit 232.
The generation at step SD is performed based on the operator data indicating the hard key to be used among the operator data acquired at step S32.

  On the other hand, when the hard key is not used in step SB, the hard key image display unit 231 determines not to use the hard key (SE). In this case, since the generation of the display intermediate data is unnecessary, the processing on the hard key image display unit 231 side is accommodated as it is. The button data generated in step S34 is “none”. The composite image in step S51 does not include the button image.

By performing the above processing, only the operation unit corresponding to the hard key used in the screen to be displayed in the other operation unit screen display area 273 can be displayed on the display 272. For this reason, it is possible to prevent unnecessary screens from being displayed and the screen from becoming smaller or from being complicated.
If the key to be displayed in step SC includes a key corresponding to the hard key 271 of the operation unit 20, the corresponding operation unit is not provided on the screen, and the hard key 271 provided in the operation unit 20 is provided. In addition, the function may be substituted.

As another modification, the following can be considered.
In the second embodiment, the example in which the screen corresponding to the case where an error is detected is displayed by the other operation unit corresponding application 210 has been described. However, it is also conceivable that an event other than an error is handled as a predetermined event and a screen corresponding to the event is displayed by the other operation unit corresponding application 210.
Further, it is not essential that the other operation unit 40 is an older model than the operation unit 20. It may be just a different model.
Further, if the image display submodule 230 always displays the screen only for the other operation unit 40 of the same model, it is not necessary to refer to the corresponding model information. In accordance with the configuration of the hard key of the model, data of the operation unit to be added to the screen is prepared, and the same operation unit is always added.

In the above-described embodiment, the example in which the image processing system 1 is configured by combining the main body 10 and the operation unit 20 in a fixed manner has been described. However, the present invention is not limited to this.
The operation unit and the main body (operation unit) may be completely separate devices as hardware components. For example, an image processing system or an information processing system may be configured with a mobile terminal such as a smartphone as an operation unit and an image processing apparatus such as an MFP as an operation unit. In particular, when the operation unit and the operation unit are wirelessly connected, they can be configured as completely independent devices.

  The operation unit and the operation unit do not have to be one-to-one. For example, it is conceivable that an image processing apparatus having an operation unit wired to the main body can be operated from a mobile terminal. Alternatively, it may be possible to operate one image processing apparatus from a plurality of mobile terminals. Alternatively, it may be possible to operate a plurality of image processing apparatuses while switching the operation target from one mobile terminal.

Further, it is not necessary that each of the operation unit and the operation unit is composed of one device. The structure which implement | achieves the function of an operation part or an operation | movement part in cooperation with several apparatuses may be sufficient. Conversely, the operation unit and the operation unit may be accommodated in the same housing.
Further, it is not essential that the information processing system includes an image processing engine such as a scanner or a plotter. Each apparatus constituting the information processing system may be an arbitrary information processing apparatus. Of course, a device that combines physical input and output other than information processing may be used.

  A program according to an embodiment of the present invention is a program for realizing the functions of the information processing system described above by causing one computer or a plurality of computers to cooperate. Then, by causing the computer to execute such a program, the above-described effects can be obtained.

  Such a program may be stored in a ROM or other nonvolatile storage medium (flash memory, EEPROM, etc.) provided in the computer from the beginning. However, the recording medium is a CD-ROM or a non-volatile recording medium such as a memory card, flexible disk, MO, CD-R, CD-RW, DVD + R, DVD + RW, DVD-R, DVD-RW, or DVD-RAM. It can also be recorded and provided. Each procedure described above can be executed by installing the program recorded in the recording medium in a computer and executing the program.

Furthermore, it is also possible to download from an external device that is connected to a network and includes a recording medium that records the program, or an external device that stores the program in a storage unit, and install and execute the program on a computer.
Moreover, it is needless to say that the configurations of the embodiment and the modified examples described above can be arbitrarily combined and implemented as long as they do not contradict each other.

1: image processing system, 10: main body, 11: 21, CPU, 12, 22: ROM, 13, 23: RAM, 14: HDD, 15, 25: communication I / F, 16, 26: connection I / F, 17: engine unit, 18, 28: system bus, 20: operation unit, 27: operation panel, 30: communication path, 40: other operation unit, 101, 201: application layer, 102, 202: service layer, 103, 203 : OS layer, 110, 120: Main unit module, 111, 121: Library for screen display, 200, 400: Operation unit controller, 201a, 201b: Operation unit application, 210: Application for other operation unit, 220: Screen display module emulator 221: Display instruction reception unit 222: Intermediate data conversion unit 223: Term / icon data storage unit 224: Setting information storage unit 230 Image display sub-module, 231: Hard key image display unit, 232: Screen display unit, 240, 440: OS, 241, 441: Display library, 250: Main body information management unit, 271, 471: Hard key, 272, 472: Display, 273: Other operation unit screen display area, 274: Hard key compatible operation unit, 420: Screen display module,

JP 2012-44258 A JP 2009-223577 A

Claims (10)

First operation receiving means comprising display means for displaying a screen for receiving a user operation;
Display instruction receiving means for receiving a display instruction for a screen to be displayed on a second operation receiving means different from the first operation receiving means;
First screen data generating means for generating first screen data for causing the display means of the first operation receiving means to display a screen corresponding to the display instruction received by the display instruction receiving means;
Based on the first screen data generated by the screen data generating means and the operator data indicating the configuration of the operator provided in the second operation receiving means, the screen indicated by the first screen data and the operator And a second screen data generating means for generating second screen data for causing the display section of the first operation accepting means to display the corresponding operation unit.
An information processing system comprising: display control means for displaying a screen on the display means of the first operation accepting means based on the second screen data generated by the second screen data generating means. The information processing system according to claim 1,
When the first operation accepting unit accepts an operation on the operation unit on the screen displayed on the display unit, the second operation accepting unit displays the operation data indicating the operation in the corresponding screen. An information processing system comprising operation data output means for generating and outputting the same operation data as when an operation is received by an operation unit or an operator other than a screen. The information processing system according to claim 1 or 2,
The operator data is compared with information indicating the configuration of the operator provided in the first operation accepting unit, and based on the comparison result, which operator among the operators provided in the second operation accepting unit An information processing system, comprising: a determination unit that determines whether a corresponding operation unit is included in the second screen data. The information processing system according to claim 3,
The determining means includes, for the operators provided in the second operation accepting means, those corresponding to the first operation accepting means, the corresponding operation unit is included in the second screen data. An information processing system characterized by preventing The information processing system according to claim 1 or 2,
Determination to determine which operation unit corresponding to the operation unit of the second operation receiving means to be included in the second screen data based on the operation unit data and the first screen data An information processing system provided with means. An information processing system according to any one of claims 1 to 5,
When a predetermined event is detected, the screen is displayed on the display means of the first operation accepting means based on the second screen data generated by the second screen data generating means. Information processing system. The information processing system according to claim 6,
When displaying a screen on the display means of the first operation accepting means based on the second screen data according to the predetermined event, information on the screen that was being displayed at that time is retained, An information processing system, wherein when the display of a screen corresponding to a predetermined event is terminated, the display on the display unit of the first operation receiving unit is returned to the held screen. The information processing system according to claim 6 or 7,
Third screen data generating means different from the second screen data generating means for generating third screen data for displaying a screen on the display means of the first operation accepting means in response to a screen display instruction. With
Depending on the type of event detected, the screen corresponding to the event is displayed based on the second screen data generated by the second screen data generating unit, or the third screen data generating unit An information processing system which selects whether to perform based on the generated third screen data. An information processing system comprising first operation accepting means comprising display means for displaying a screen for accepting a user operation,
A display instruction receiving procedure for receiving a display instruction of a screen to be displayed on a second operation receiving means different from the first operation receiving means;
A first screen data generation procedure for generating first screen data for causing the display unit of the first operation reception unit to display a screen corresponding to the display instruction received in the display instruction reception procedure;
Based on the first screen data generated in the screen data generation procedure and the operator data indicating the configuration of the operator provided in the second operation receiving means, the screen indicated by the first screen data and the operator And a second screen data generation procedure for generating second screen data for causing the display unit of the first operation reception unit to display the corresponding operation unit.
An information processing method comprising: executing a display control procedure for displaying a screen on a display unit of the first operation receiving unit based on the second screen data generated in the second screen data generation procedure. A computer that controls an information processing system including a first operation receiving unit including a display unit that displays a screen for receiving a user operation;
A display instruction receiving procedure for receiving a display instruction of a screen to be displayed on a second operation receiving means different from the first operation receiving means;
A first screen data generation procedure for generating first screen data for causing the display unit of the first operation reception unit to display a screen corresponding to the display instruction received in the display instruction reception procedure;
Based on the first screen data generated in the screen data generation procedure and the operator data indicating the configuration of the operator provided in the second operation receiving means, the screen indicated by the first screen data and the operator And a second screen data generation procedure for generating second screen data for causing the display unit of the first operation reception unit to display the corresponding operation unit.
A program for executing a display control procedure for displaying a screen on the display means of the first operation accepting means based on the second screen data generated in the second screen data generation procedure.

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