JP2016082428A - Image processing apparatus and system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reflect a result of one processing to the details of the subsequent processing when receiving an instruction including a plurality of types of processing.SOLUTION: An image forming apparatus 20 includes first execution means 21 for executing a first application for performing first processing including image processing; second execution means 22 for executing a second application for performing second processing different from the first processing; and requesting means 23 for requesting, when the second processing using a result of the first processing on an image is instructed to the second application, the first execution means 21 to perform the first processing, changing the instruction according to the result of the first processing, and requesting the second execution means 22 to perform the second processing according to the changed instruction.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an image processing apparatus and system.

  2. Description of the Related Art Image forming apparatuses that can add functions by plug-ins in addition to standard applications are known. In Japanese Patent Laid-Open No. 2004-228688, when instruction data indicating an instruction regarding image formation includes processing executed by a plug-in, parameters used in processing executed by the plug-in are extracted from the instruction data and the plug-in is extracted. To be passed to. The plug-in uses this parameter for processing.

JP 2013-138284 A

When an instruction including a process to be executed by an application is given, in a configuration in which parameters used in the process are extracted and the application is requested to process, only a process instructed in advance can be requested.
An object of the present invention is to reflect the processing result of one process in subsequent processing contents when an instruction including a plurality of processes is received.

  In order to solve the above-described problem, an image processing apparatus according to claim 1 of the present invention is different from the first processing, and first execution means for executing a first application for performing first processing including image processing. A second execution unit that executes a second application for performing a second process; and the second execution that uses a result of the first process for an image is instructed to the second application, the first execution Requesting means for requesting the second process to request the second process according to the changed instruction, requesting the second process to change the instruction according to the result of the first process. Features.

  According to a second aspect of the present invention, in the configuration according to the first aspect, the first process includes a process of extracting a transfer destination of the image data by analyzing the image data. 2 processing includes image data transfer processing, the instruction includes image data transfer, and the requesting unit determines the transfer destination of the image data in the instruction according to the information extracted by the first execution unit. It is characterized by changing.

  According to a third aspect of the present invention, in the configuration according to the first or second aspect, the first process includes a process of setting a designated character string as attribute information of the image data. 2 processing includes image data transfer processing, and the instruction includes an instruction to transfer at least a part of the image data to another apparatus after setting the attribute information for the specified image data. It is characterized by that.

  According to a fourth aspect of the present invention, in the image processing device according to any one of the first to third aspects, the first processing is performed on a specified region of the image region represented by the image data. Character recognition processing and processing for setting the designated character string in the attribute information of the image data, the second processing includes image data transfer processing, and the instruction is for the designated area. An instruction to perform character recognition to extract a character string, set the attribute information for the specified image data using the character string, and then transfer at least a part of the image data to another device It is characterized by including.

  According to a fifth aspect of the present invention, in the image processing device according to any one of the first to fourth aspects, the first processing is predetermined from the image data by analyzing the image data. Including a process of extracting information, wherein the second process includes a process of determining whether the image data satisfies a predetermined condition, and the instruction includes the information extracted by analyzing the image data An instruction for determining whether the condition is satisfied is included.

  An image processing apparatus according to claim 6 of the present invention is the configuration according to any one of claims 1 to 5, wherein the first application is an application preinstalled in the image processing apparatus. Features.

  According to a seventh aspect of the present invention, in the configuration according to any one of the first to sixth aspects, the second application is an application that extends a function provided by the first application. It is characterized by that.

  A system according to an eighth aspect of the present invention includes a plurality of image processing devices and a server device, and each of the plurality of image processing devices has a first application for performing a first process including image processing. A first execution means for executing, a second execution means for executing a second application for performing a second process different from the first process, and the second process using a result of the first process for an image. When an instruction is issued to two applications, the first execution unit is requested to perform the first process, the instruction is changed according to the result of the first process, and the second execution unit is instructed according to the changed instruction. Requesting means for requesting the second process, wherein the server device performs a third process including a process common to the second process, and performs the third process on the image data. Instructions for other equipment When the load of the third process for which the instruction is received is higher than a predetermined reference, at least a part of the third process is allocated to at least a part of the plurality of image processing apparatuses It is characterized by comprising an assigning means and a sending means for sending instruction data for instructing execution of the assigned processing to at least a part of the plurality of image processing apparatuses.

According to the first aspect of the present invention, when an instruction including a plurality of processes is received, the process result of one process can be reflected in the subsequent process contents.
According to the invention of claim 2, the transfer destination of the image data can be changed.
According to the invention of claim 3, attribute information can be set for image data in the image processing apparatus.
According to the fourth aspect of the invention, attribute information can be set for image data in the image processing apparatus.
According to the fifth aspect of the present invention, it is possible to determine whether image data satisfies a predetermined condition in the image processing apparatus.
According to the invention of claim 6, the second application can use the function of the application preinstalled in the image processing apparatus.
According to the invention which concerns on Claim 7, the application which expands the function provided by the 1st application can utilize the function of a 1st application.
According to the invention which concerns on Claim 8, the processing load of a server apparatus can be disperse | distributed.

1 is a schematic diagram showing a configuration of a system 1. FIG. 1 is a diagram illustrating a functional configuration of a system 1. FIG. 2 is a diagram illustrating a hardware configuration of the image forming apparatus 20. FIG. The figure which shows the hardware constitutions of the server apparatus. 2 is a diagram showing a software configuration of the image forming apparatus 20. FIG. 3 is a flowchart showing a flow of processing performed by the image forming apparatus 20. The flowchart which shows the flow of a plug-in transfer process. The figure which shows an example of instruction data. The flowchart which shows the flow of a plug-in transfer process.

1. Configuration FIG. 1 is a schematic diagram showing a configuration of a system 1 according to the present embodiment. The system 1 includes a server device 10 and a plurality of image forming apparatuses 20A, 20B, and 20C. When it is not necessary to distinguish between the image forming apparatuses 20A, 20B, and 20C, the letters “A”, “B”, and “C” attached to the end of the reference numerals are omitted, and the “image forming apparatus 20” is omitted. " The server device 10 is a device that provides a service such as a so-called storage service. The image forming apparatus 20 is, for example, an electrophotographic printer. The image forming apparatus 20 (an example of an image processing apparatus) may have a plurality of functions such as a copy function, a print function, and a facsimile function in addition to the scanner function. The communication line 2 includes, for example, the Internet, a mobile communication network, a telephone line, and the like. The image forming apparatus 20 communicates with the server apparatus 10 via the communication line 2.

  FIG. 2 is a diagram illustrating a functional configuration of the system 1. Each of the plurality of image forming apparatuses 20 includes a first execution unit 21, a second execution unit 22, and a request unit 23. The first execution means 21 executes a first application for performing first processing including image processing. The second execution means 22 executes a second application for performing a second process different from the first process. The application here refers to a SW module for realizing services and functions provided to the user by the image forming apparatus 20. The service and function may be realized by one application or a combination of a plurality of applications. The application includes, for example, a plug-in that is installed later to add a function in addition to a SW module that realizes a function unique to the apparatus such as scanning. When the second process using the result of the first process for the image is instructed to the second application, the request unit 23 requests the first process to the first execution unit 21 and responds to the result of the first process. The instruction is changed, and the second process is requested to the second execution means 22 in accordance with the changed instruction.

  The server device 10 includes a processing unit 11, a receiving unit 12, an assigning unit 13, and a transmitting unit 14. The processing unit 11 performs a third process including a process common to the second process. The receiving unit 12 receives an instruction to perform the third process on the image data from another device. The allocating unit 13 transmits at least a part of the third process to at least a part of the plurality of image forming apparatuses 20 when the load of the instructed third process is higher than a predetermined reference.

  FIG. 3 is a diagram illustrating a hardware configuration of the image forming apparatus 20. The image forming apparatus 20 includes a CPU (Central Processing Unit) 201, a ROM (Read Only Memory) 202, a RAM (Random Access Memory) 203, a storage 204, an image reading unit 205, and a UI (User Interface) unit 206. An image forming unit 207, and a communication IF 208. The CPU 201 is a control device (processor) that controls each unit of the image forming apparatus 20. The ROM 202 is a nonvolatile storage device that stores programs and data. The RAM 203 is a volatile main storage device that functions as a work area when the CPU 201 executes a program. The storage 204 is a nonvolatile auxiliary storage device that stores programs and data. The image reading unit 205 performs image reading processing for reading an image drawn on a document using, for example, a CCD (Charge Coupled Devices) system. The image reading unit 205 optically reads an image formed on a medium such as paper and supplies image data representing the read image to the CPU 201. The UI unit 206 includes, for example, a touch screen and keys. The UI unit 206 is used for operating the image forming apparatus 20. The image forming unit 207 forms an image corresponding to the image data on a medium such as paper. The communication IF 208 is an interface for performing communication via the communication line 2. In this example, the communication IF 208 is an interface for performing communication with the server device 10 in particular.

  In this example, when the CPU 201 executes a program stored in the storage 204 (or ROM 202), the functions shown in FIG. 2 are implemented. The CPU 201 executing the program is an example of the first execution unit 21, the second execution unit 22, and the request unit 23.

  FIG. 4 is a diagram illustrating a hardware configuration of the server apparatus 10. The server apparatus 10 includes a CPU 101, a ROM 102, a RAM 103, a storage 104, and a communication IF 108. The CPU 101 is a control device (processor) that controls each unit of the server device 10. The ROM 102 is a non-volatile storage device that stores programs and data. The RAM 103 is a volatile main storage device that functions as a work area when the CPU 101 executes a program. The storage 104 is a non-volatile auxiliary storage device that stores programs and data. The communication IF 108 is an interface for performing communication via the communication line 2. In this example, the communication IF 108 is an interface for performing communication with the image forming apparatus 20.

  In this example, the CPU 101 executes a program stored in the storage 104 (or ROM 102), thereby implementing the functions shown in FIG. The CPU 101 executing the program is an example of the processing unit 11, the receiving unit 12, the assigning unit 13, and the transmitting unit 14.

  FIG. 5 is a diagram illustrating a software configuration of the image forming apparatus 20 and a functional block configuration of each software. Each unit illustrated in FIG. 5 is realized by the CPU 201 of the image forming apparatus 20 reading and executing a computer program stored in the storage 204 (or ROM 202).

  The system control unit 250 is software that operates as a platform of the image forming apparatus 20. Note that the platform refers to hardware, operating system (OS), middleware, and the like that are the basis for operating certain software or hardware. The system control unit 250 in the present embodiment includes this platform. Among these, a basic part of software such as an OS and middleware, and a part of software that realizes basic functions of the image forming apparatus 20 are included. As means for realizing this basic function, FIG. 5 shows an instruction sheet data generation unit 252, an instruction sheet data interpretation unit 254, a processing control unit 257, and an image processing unit 258. The instruction sheet data generation unit 252 generates instruction sheet data (an example of instruction data) that describes the contents of a series of processing for data such as image data, and registers the instruction sheet data in the instruction sheet data storage unit 242. The instruction data is described in a general-purpose description language such as XML (Extensible Markup Language). For example, if image data transfer is included in the instruction to the second application, the instruction data includes a data transfer destination such as image data. The instruction data interpretation unit 254 interprets the description content of the instruction data.

  The process control unit 257 performs execution control of the entire process in the system control unit 250 in cooperation with each component. The process control unit 257 according to the present embodiment executes a plug-in application (hereinafter simply “plug-in”) 270 (an example of a second application) as a process to be executed in accordance with the description of the process described in the instruction data. Is transmitted, the instruction information including the parameters used for executing the plug-in 270 is sent to the transfer processing unit 260 to instruct the execution of the plug-in 270. The image processing unit 258 (an example of the first application) performs various types of image processing such as blank page detection processing and image analysis processing such as QR code (registered trademark) decoding processing. In addition, the image processing unit 258 performs processing for adding attribute information to the file.

  Each component included in the system control unit 250 exhibits a function by a cooperative operation with a computer installed in the image forming apparatus 20. In addition, it is assumed that the instruction data storage unit 242 is realized by the storage 204. Alternatively, it may be realized by the RAM 203.

  The transfer processing unit 260 is a control unit related to the transfer function of the image forming apparatus 20 and is executed in cooperation with the system control unit 250. The transfer processing unit 260 includes, as standard functions, an FTP (File Transfer Protocol) transfer application, an SMB (Server Message Block) transfer application, or the like as a transfer application, and a standard communication protocol (hereinafter, “standard communication protocol”). Data communication with an external device is possible. The transfer processing unit 260 also has functions such as processing for transferring image data to a predetermined storage area called a confidential box.

  Further, the transfer processing unit 260 in the present embodiment is provided with a framework 261 for operating in cooperation with various plug-ins 270. Note that the framework is a collection of general-purpose functions that are frequently required when developing application programs, and the software that functions as the foundation of the application (the “plug-in” in this embodiment). That is. The framework 261 in the present embodiment includes a processing control unit 262 that controls execution of the plug-in 270. The processing control unit 262 according to the present embodiment executes the plug-in 270 when instruction information is sent from the processing control unit 257. At that time, the plug-in included in the instruction information is executed. The parameter described to be passed is extracted and passed to the plug-in 270. The framework 261 also has a function of acquiring information on the result of execution by the plug-in 270 and passing it to the processing control unit 257. For example, the framework 261 acquires data input to the plug-in 270 or acquires execution process result information of the plug-in 270.

  The plug-in 270 is an application for adding a function to the transfer processing unit 260. That is, the plug-in 270 corresponds to an additional application that realizes a function that cannot be realized by a function of an application that is standardly provided as a basic function of the transfer processing unit 260 by operating in cooperation with the framework 261.

2. Operation 2-1. Operation example 1
FIG. 6 is a flowchart showing the flow of processing performed by the CPU 201 of the image forming apparatus 20. A user of the image forming apparatus 20 uses the UI unit 206 to set an original on the image reading unit 205 and instruct to read the original. At this time, the user may input setting information (for example, whether to perform black and white reading / color reading and blank page removal) using the UI unit 206. In addition, the user can use the account information (for example, account name, password, etc.), log file name, storage location (transfer destination), classification for logging in to the server device 10 that stores the image data representing the read image. Information or the like may be input using the UI unit 206. The process shown in FIG. 6 is triggered by the user's operation for instructing reading of the document.

  When an operation for instructing reading of a document is performed by the user, the CPU 201 describes an instruction for processing such as document reading processing or image data transfer processing in accordance with information supplied from the UI unit 206 in step S101. Generated instruction data. The instruction data may include parameters representing setting information input by the user, information such as account information, file name, storage location, and classification information.

  In step S <b> 102, the CPU 201 controls the image reading unit 205 to receive image data representing an image obtained by reading an image drawn on a document from the image reading unit 205. The original is read page by page. In step S103, the CPU 201 performs predetermined image processing such as converting the image data received from the image reading unit 205 into data of a predetermined format. The processing in step S103 is performed by the image processing unit 258. In step S <b> 104, the CPU 201 accumulates image data subjected to image processing in the storage 204.

  In step S <b> 105, the CPU 201 determines whether all the originals set in the image reading unit 205 have been read. If it is determined that all the originals have been read, the CPU 201 proceeds to the process of step S106. On the other hand, if the document still remains, the CPU 201 returns to the process of step S102 and continues reading the document.

  In step S106, the CPU 201 interprets the contents described in the instruction data, and determines whether the image data transfer process is a process using the plug-in 270 (hereinafter referred to as “plug-in transfer”) or the plug-in 270 is used. It is determined whether the process is not performed. The process not using the plug-in 270 may be a process of transferring the read image data to a predetermined storage area called a confidential box. The process that does not use the plug-in 270 may be a process executed by the image processing unit 258, or may be a process executed by each unit other than the image processing unit 258. If the transfer process instructed by the instruction sheet data is a process that does not use the plug-in 270, the CPU 201 proceeds to the process of step S107. On the other hand, when the transfer process instructed by the instruction data is plug-in transfer, the CPU 201 proceeds to the process of step S108.

  In step S <b> 107, the CPU 201 executes an application preinstalled in the image forming apparatus 20 (for example, an application that implements the transfer processing unit 260 or an application that implements the image processing unit 258, hereinafter referred to as “standard application”). The image data is transferred to the designated transfer destination. In this embodiment, among the standard applications, an application for which processing (first processing) including image processing is requested from the plug-in 270 (an example of a second application) is the first application. That is, in this embodiment, the image processing unit 258 is an example of the first application. On the other hand, when the CPU 201 proceeds to the process of step S108, the process of the plug-in 270 is executed according to the description content of the instruction data.

  FIG. 7 is a flowchart showing the flow of plug-in transfer processing performed by the CPU 201. The process shown in FIG. 7 is triggered by the execution of the process in step S108 in FIG. In step S <b> 201, the CPU 201 determines whether there is a description instructing image processing in the instruction sheet data. If there is a description for instructing image processing, the CPU 201 proceeds to the processing of step S202 and executes the image processing described in the instruction data. In other words, the plug-in 270 requests the image processing unit 258 to perform processing when the processing instructed by the instruction data uses the result of processing performed by the image processing unit 258. As a method for the plug-in 270 to request the image processing unit 258 to process, for example, the plug-in 270 may extract instruction data obtained by cutting out a description portion for image processing from instruction data indicating the instructed plug-in transfer processing. Processing may be requested by generating and handing over the generated instruction data to the image processing unit 258. In the example of FIG. 7, operations when blank page removal processing is instructed with respect to image data are shown in steps S202 to S206. On the other hand, when there is no description for instructing image processing in the instruction sheet data, the CPU 201 skips steps S202 to S206 and proceeds to step S207.

  FIG. 8 is a diagram illustrating an example of instruction data written in XML. In FIG. 8, the description of the instruction data A1 is an instruction regarding the transfer processing of the plug-in 270, and the description of the portion A2 is a description representing the content of the instruction regarding the image processing. In the case of the instruction data shown in FIG. 8, since the contents of the instruction relating to image processing are described in the instruction data, the plug-in 270 requests the image processing unit 258 to perform the image processing.

  Returning to the description of FIG. In step S <b> 202, the CPU 201 reads image data for one page from the storage 204. In step S <b> 203, the CPU 201 executes image processing for determining whether the page is blank with respect to the read image data for one page. That is, in step S203, the plug-in 270 instructs the image processing unit 258 to perform image processing for determining whether the page is blank with respect to the read image data for one page. The plug-in 270 receives data indicating the processing result from the image processing unit 258, and determines whether the page is blank based on the received data. When it is determined that the page is blank, the CPU 201 (that is, the plug-in 270) discards the image data of the page, returns to the process of step S202, and reads the image data of the next page. At this time, the CPU 201 may change the instruction for the second application by changing the instruction sheet data in accordance with the processing result of the image processing unit 258. On the other hand, if it is determined that the sheet is not blank, the CPU 201 proceeds to the process of step S204.

  In step S204, the CPU 201 performs processing for converting the format of the image data into the output format instructed by the instruction data. In step S <b> 205, the CPU 201 accumulates the image data whose format has been converted in the storage 204. In step S206, the CPU 201 determines whether the processing has been completed for all pages. When it is determined that the processing has been completed for all pages, the CPU 201 proceeds to the processing of step S207. On the other hand, if it is determined that there are still pages that have not been processed, the CPU 201 returns to the processing of step S202 and reads the image data of the next page.

  In step S207, the CPU 201 executes a transfer process instructed by the instruction data. Specifically, for example, the CPU 201 performs login processing using the specified account information for the server device 10 specified by the user according to the parameters included in the instruction data, and the image is displayed when the login is successful. Processing such as transferring data to a specified transfer destination is executed.

2-2. Operation example 2
Next, another operation example of this embodiment will be described with reference to the drawings. Either the operation example 1 or the operation example 2 is executed. The operation example 1 and the operation 2 are different in the content of the image processing, and the image forming apparatus 20 executes the requested operation among these according to the instruction from the user and the content of the read image data.

  FIG. 9 is a flowchart showing the flow of plug-in transfer processing performed by the CPU 201. FIG. 7 shows a process for transferring image data after performing a process for removing a blank page, but FIG. 9 shows a flow of a process for changing a transfer destination by reading a QR code included in an image. It is shown. The process shown in FIG. 9 is triggered by the execution of the process of step S108 of FIG.

  In step S <b> 301, the CPU 201 determines whether there is a description instructing image processing in the instruction data. If there is a description to instruct image processing, the CPU 201 proceeds to the processing of step S302 and executes the image processing described in the instruction data. FIG. 9 illustrates an operation in the case where the transfer destination of the image data is changed with the information obtained by decoding the QR code in steps S302 to S308. On the other hand, if there is no description instructing image processing in the instruction sheet data, the CPU 201 skips steps S302 to S308 and proceeds to step S309.

  In step S <b> 302, the CPU 201 reads image data for one page from the storage 204. In step S303, the CPU 201 (that is, the plug-in 270) instructs the image processing unit 258 to read a QR code from the read image data for one page. In step S303, the image processing unit 258 analyzes the image data and determines whether a QR code is included in the image represented by the image data. When the QR code is not included in the image represented by the image data, the image processing unit 258 supplies data indicating that to the plug-in 270. On the other hand, if it is determined that the QR code is included in the image represented by the image data, the image processing unit 258 proceeds to the process of step S304, decodes the QR code, and plugs in the data indicating the decoding result. 270.

  The plug-in 270 determines whether a QR code is included in the image represented by the image data based on the data supplied from the image processing unit 258. If it is determined that the QR code is included, the CPU 201 proceeds to the process of step S305. On the other hand, if it is determined that no QR code is included, the CPU 201 proceeds to the process of step S307.

  The data decoded in step S304 is specified as the transfer destination of the image data. In step S305, the CPU 201 changes the transfer destination described in the instruction data to information that is a QR code decoding result. That is, the CPU 201 changes the instruction for the second application by changing the instruction data according to the processing result of the image processing unit 258.

  In step S306, the CPU 201 performs processing for converting the format of the image data into an output format instructed by the instruction data. In step S <b> 307, the CPU 201 accumulates the image data whose format has been converted in the storage 204. In step S308, the CPU 201 determines whether the processing has been completed for all pages. When it is determined that the processing has been completed for all pages, the CPU 201 proceeds to the processing of step S309. On the other hand, if it is determined that there remains a page that has not been processed, the CPU 201 returns to the process of step S302 and reads the image data of the next page.

  In step S309, the CPU 201 executes a transfer process instructed by the instruction data. The process of step S309 is the same as the process of step S207 of FIG.

  By the way, in this embodiment, the QR code reading function and the blank page removal function are not included in the plug-in 270, but the function included in the standard application (image processing unit 258) of the image forming apparatus 20 is used. did. On the other hand, it is conceivable that the plug-in includes a QR code reading function, a blank page removal function, and the like, but in that case, the configuration of the plug-in may be complicated. On the other hand, in this embodiment, the plug-in 270 instructs the image processing unit 258 that is a standard application to execute the processing instructed by the instruction sheet data. Thereby, it is suppressed that the structure of the plug-in 270 becomes complicated.

In this embodiment, when an instruction including a plurality of processes (for example, the first process and the second process) is received, the process result of one process (for example, the result of the process of the image processing unit 258) is the subsequent process content (for example, This is reflected in the transfer destination of the image data.
In this embodiment, the instructed image processing may be executed using dedicated hardware installed in the image forming apparatus 20. In this case, the processing time is shortened compared to the case where the instructed image processing is performed without using dedicated hardware.
In this embodiment, the plug-in 270 generates image data having the same format as the image data format generated by the standard application. Therefore, the developer of the plug-in 270 does not need to perform an evaluation regarding the format, and the burden of plug-in development is reduced.

3. Modified Embodiment The above-described embodiment is an example of the present invention. These embodiments may be modified as follows. The following modifications may be combined with each other.

3-1. Modification 1
In the operation example 2 of the above-described embodiment, as the plug-in transfer process, as illustrated in FIG. 9, the operation of changing the transfer destination using the QR code included in the image is illustrated. The plug-in transfer process is not limited to that described above. For example, as the plug-in transfer process, the plug-in 270 may perform a process of adding file attribute information using a QR code included in the image. In this case, the plug-in 270 implemented by the CPU 201 requests the image processing unit 258 to read the QR code. This request may be made when the plug-in 270 hands over the instruction data describing the instruction to read the QR code to the image processing unit 258. The image processing unit 258 decodes the QR code in accordance with a request from the plug-in 270 and delivers character string information indicating the decoding result to the plug-in 270. The plug-in 270 requests the image processing unit 258 again to set the character string information acquired from the image processing unit 258 as attribute information of the file format of the image data. This request may also be made by handing out instruction data from the plug-in 270 to the image processing unit 258. In response to a request from the plug-in 270, the image processing unit 258 sets the character string information as attribute information of the file format, and returns the file in which the attribute information is set to the plug-in 270. The plug-in 270 transfers the returned file to the transfer destination included in the instruction data.

  That is, in this modified example, the plug-in 270 requests the image processing unit 258 in order of two processes, a process of interpreting a QR code and a process of setting character string information as attribute information of a file. According to this aspect, the attribute information is set without the user manually inputting the attribute information.

3-2. Modification 2
As another example of plug-in transfer processing, the plug-in 270 may set a character string input by the user using the UI unit 206 as file attribute information. In this case, the plug-in 270 requests the image processing unit 258 to set the character string information input by the user in the file attribute information in accordance with the information supplied from the UI unit 206. In response to a request from the plug-in 270, the image processing unit 258 performs processing for adding the designated character string information to the attribute information of the file. When the image processing unit 258 finishes the process of adding the attribute information to the file, the image processing unit 258 delivers the file with the attribute information to the plug-in 270. The plug-in 270 transfers the file with the attribute information to the transfer destination included in the instruction data.

  According to this modification, setting of attribute information, which is manually performed after file transfer in the conventional system, is performed in the image forming apparatus 20. As a method of inputting character string information, the character string information may be assigned to a button provided on the UI unit 206 instead of the user inputting the character string. In this case, the attribute information is set with fewer operations than when the user inputs a character string using a keyboard or the like.

3-3. Modification 3
As another example of the plug-in transfer process, the plug-in 270 uses a character string read by a character recognition process from a predetermined area (for example, an area where a title is described) of a document as a file. May be set in the attribute information. In this case, the instruction data generation unit 252 sets the designated area (for example, an area where the font is a predetermined size or more) according to the information output from the UI unit 206 operated by the user. On the other hand, it generates instruction data describing the content of the process of performing character recognition processing and setting the attribute information. The plug-in 270 requests the image processing unit 258 to perform character recognition processing by delivering the storage location information and instruction data of the read image data of one page to the image processing unit 258. In response to a request from the plug-in 270, the image processing unit 258 performs character recognition processing for the designated area, and delivers the recognized character string information to the plug-in 270 as a processing result.

  The plug-in 270 requests the image processing unit 258 again to set the obtained character string information as attribute information of the output file format. In response to a request from the plug-in 270, the image processing unit 258 adds the designated character string information to the attribute information of the file, and delivers the file with the attribute information to the plug-in 270. The plug-in 270 transfers the file with the attribute information to the transfer destination included in the instruction data.

  In addition, the following plug-in transfer process may be performed. If the character string of the place read by the character recognition process is a URL, it is determined that the character string is a transfer destination (storage destination), and the transfer destination of instruction data is changed to the read URL. In addition to the URL, it may be changed to an e-mail address, an SNS (Social Networking Service) account, or the like. In addition, when the character string of the read location is a simple character string or a character string with an extension representing a file such as “File A.doc”, the read character string is given as a file name and is necessary. If so, the file format may be converted.

  According to this modification, for example, it is not necessary to manually input attribute information by recognizing the position where the title of the document is written.

3-4. Modification 4
As another example of the plug-in transfer process, the plug-in 270 analyzes the image data and determines whether the extracted information satisfies a predetermined condition, and then transfers the image data. Processing may be performed. Specifically, for example, the plug-in 270 may perform a process of transferring after confirming whether or not necessary documents are prepared in the read document. In this case, the instruction sheet data generation unit 252 generates instruction sheet data in which an instruction to perform image processing for performing a required document check according to the job selected by the user is given. The plug-in 270 requests the image processing unit 258 to perform processing by delivering the storage information and instruction data of the read image data of one page to the image processing unit 258. The image processing unit 258 executes processing of contents described in the instruction data.

  In this example, the image processing unit 258 performs a required business check for specified business, and returns the result to the plug-in 270. The determination of whether the necessary documents are prepared may be performed using, for example, a QR code embedded in the document. In this case, the image processing unit 258 extracts predetermined information from the image data by analyzing the image data. The plug-in 270 determines whether the necessary documents are prepared depending on whether the information extracted from the image processing unit 258 satisfies a predetermined condition. When it is determined that the necessary documents are not prepared, the determination result is notified from the plug-in 270 to the processing control unit 257, and the processing control unit 257 notifies the user that the documents are insufficient and performs processing. Discontinue.

  In this modified example, as described above, processing (transfer or notification) is performed according to the result of checking the required business documents specified by the image processing unit 258. In the conventional system, the deficiency of the document was found by manual check on the image data transferred to the server, but according to this modification, the check is performed before being transferred to the server, Recovery is quick.

3-5. Modification 5
In the above-described embodiment, it is assumed that the server apparatus 10 performs image processing such as character recognition processing on the image data read by the image forming apparatus 20 and transferred to the server apparatus 10. In this case, some of the image processing performed by the server device 10 has a high CPU load, and the processing may be delayed. Therefore, part or all of the image processing implemented by the server apparatus 10 is mounted on the image forming apparatus 20 side as a plug-in, and part or all of the image processing to be performed by the server apparatus 10 is performed by the image forming apparatus. 20 may be performed.

  In this modified example, an application that performs processing (an example of a third process) including a process common to a process (an example of a second process) executed by the plug-in 270 is installed in the server device 10. When the processing load instructed by the image data transmission source device is higher than a predetermined reference, the CPU 101 of the server device 10 performs at least a part of the third processing at least one of the plurality of image forming devices 20. Assign to a department. Further, the CPU 101 generates instruction sheet data instructing execution of the assigned processing, and transmits the generated instruction sheet data to at least a part of the plurality of image forming apparatuses 20.

  In this modified example, by causing the image forming apparatus 20 to perform part of the image processing implemented by the server apparatus 10, the burden on the server apparatus 10 side is reduced. For example, in a system where the number of image forming apparatuses 20 is initially operated with a small number, when the number of image forming apparatuses 20 gradually increases, in the conventional system, the server apparatus 10 may be added to perform load distribution. It was general. In that case, the cost may increase as the number of server devices 10 increases. On the other hand, in this embodiment, the plug-in 270 is mounted on the image forming apparatus 20 so that part or all of the processing of the server apparatus 10 is burdened on the image forming apparatus 20, thereby making it cheaper than adding the server apparatus 10. A system is built.

  Further, in this modification, the server apparatus 10 assigns part or all of the image processing to part or all of the plurality of image forming apparatuses 20, but the method of assigning image processing is not limited to this. For example, one image forming apparatus 20 may allocate a part or all of the processing to be executed by the plug-in 270 of the own apparatus to another image forming apparatus 20.

3-6. Modification 6
In the above-described embodiment, an application preinstalled in the image forming apparatus 20 is used as the first application. The first application is not limited to an application preinstalled in the apparatus. The first application may be installed after the image forming apparatus 20 is shipped from the factory.

3-7. Modification 7
The system 1 according to the above-described embodiment includes one server device 10 and three image forming apparatuses 20A, 20B, and 20C. The number of server apparatuses 10 and image forming apparatuses 20 is not limited to the number shown in the system 1. For example, the structure provided with a some server apparatus may be sufficient.

3-8. Modification 8
The image forming apparatus 20 may be a printer that forms an image by a method other than the electrophotographic method. The image forming apparatus 20 may form a black and white image or may form a color image.

3-9. Modification 9
In the above-described embodiment, the program executed by the CPU 201 of the image forming apparatus 20 may be downloaded via a communication line such as the Internet. The program is provided in a state of being recorded on a computer-readable recording medium such as a magnetic recording medium (magnetic tape, magnetic disk, etc.), an optical recording medium (optical disk, etc.), a magneto-optical recording medium, or a semiconductor memory. May be.

DESCRIPTION OF SYMBOLS 1 ... System, 2 ... Network, 10 ... Server apparatus, 11 ... Processing means, 12 ... Reception means, 13 ... Assignment means, 14 ... Transmission means, 20 ... Image forming apparatus, 21 ... First execution means, 22 ... Second Execution means, 23 ... request means

Claims (8)

First execution means for executing a first application for performing first processing including image processing;
Second execution means for executing a second application for performing a second process different from the first process;
When the second process using the result of the first process on the image is instructed to the second application, the first process is requested to the first execution unit, and according to the result of the first process. An image processing apparatus comprising: a request unit that changes the instruction and requests the second execution unit to perform the second process according to the changed instruction. The first process includes a process of extracting a transfer destination of the image data by analyzing the image data;
The second processing includes image data transfer processing,
The instruction includes transfer of image data;
The image processing apparatus according to claim 1, wherein the request unit changes a transfer destination of the image data in the instruction according to the information extracted by the first execution unit. The first process includes a process of setting a designated character string in attribute information of image data,
The second processing includes image data transfer processing,
The image processing apparatus according to claim 1, wherein the instruction includes an instruction to transfer at least a part of the image data to another apparatus after setting the attribute information for the specified image data. The first process includes a process of performing character recognition on a designated area of an image area represented by image data, and a process of setting a designated character string in attribute information of the image data.
The second processing includes image data transfer processing,
The instruction performs character recognition on a specified area to extract a character string, sets the attribute information on the specified image data using the character string, and then sets at least one of the image data. The image processing apparatus according to claim 1, further comprising: an instruction to transfer the unit to another apparatus. The first process includes a process of extracting predetermined information from the image data by analyzing the image data;
The second process includes a process of determining whether the image data satisfies a predetermined condition,
The image processing apparatus according to claim 1, wherein the instruction includes an instruction for determining whether information extracted by analyzing the image data satisfies the condition. The image processing apparatus according to claim 1, wherein the first application is an application preinstalled in the image processing apparatus. The image processing apparatus according to claim 1, wherein the second application is an application that extends a function provided by the first application. A plurality of image processing devices;
A server device,
Each of the plurality of image processing devices includes:
First execution means for executing a first application for performing first processing including image processing;
Second execution means for executing a second application for performing a second process different from the first process;
When the second process using the result of the first process on the image is instructed to the second application, the first process is requested to the first execution unit, and according to the result of the first process. Requesting means for changing the instruction and requesting the second processing to the second execution means in accordance with the changed instruction;
The server device
Processing means for performing a third process including a process common to the second process;
Receiving means for receiving an instruction to perform the third process on the image data from another device;
An assigning unit that assigns at least a part of the third process to at least a part of the plurality of image processing devices when the load of the third process instructed is higher than a predetermined reference;
A transmission unit configured to transmit instruction data for instructing execution of the assigned processing to at least a part of the plurality of image processing apparatuses.

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