JP2018093287A - Document reading device, information processing system, and information processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a document reading device that can efficiently execute a series of tasks related to reading of a document.SOLUTION: A performance information transmission part 200 transmits information 300a on the performance of an image forming apparatus to a server 1 that can execute a series of tasks on data of a document while allocating the tasks to image forming apparatuses. The performance information transmission part 200 acquires, from the server 1, an instruction of tasks 320 allocated to the image forming apparatus in response to the information 300a on the performance of the image forming apparatus transmitted from the performance information transmission part 200. An another apparatus searching part 220 searches for whether another apparatus that can receive a request for executing the tasks acquired by a task execution instruction acquisition part 210 and allocated to the image forming apparatus is present on the periphery of the image forming apparatus. A task request part 230 requests execution of the tasks and allocates the tasks to an image forming apparatus 2b that is searched for by the another apparatus searching part 220 and is another apparatus that can receive the request. A task execution part 240a executes, of the tasks allocated to the image forming apparatus, tasks that are not requested by the task request part 230.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a document reading apparatus, an information processing system, and an information processing method, and more particularly to a document reading apparatus, an information processing system, and an information processing method for executing document reading processing.

  Conventionally, there are image forming apparatuses such as multifunction peripherals (MFPs) capable of printing documents and images.

On the other hand, referring to Patent Document 1, the dynamic job scheduler (DJS) of a server that manages distributed processing by a plurality of printers connected to a computer network and that has a power saving mode acquires device information and operation status of the printers. A system that selects a target device for distributed processing based on the device information and operation status and notifies the task manager (TM) of the client PC that is the request source of the distributed processing is described.
The technique of Patent Literature 1 can perform distributed processing in consideration of the power saving mode of the device and the transition to the power saving mode.

JP 2006-343955 A

However, the technique of Patent Document 1 is a technique for performing distributed processing of jobs.
For this reason, in the execution of a workflow, which is a series of tasks for document data read by the document reading device, it has not been possible to efficiently perform distributed processing. As a result, the waiting time until the completion of the workflow task has been increased.

  The present invention has been made in view of such a situation, and an object thereof is to provide an image forming apparatus that solves the above-described problems.

The document reading apparatus according to the present invention is a document reading apparatus capable of reading document data, and sends the performance information of the apparatus to an external information processing apparatus that can execute a series of tasks for the document data. And a task execution instruction for acquiring an instruction of the task assigned to the own apparatus from the information processing apparatus corresponding to the performance information of the own apparatus transmitted by the performance information transmitting unit. Referring to the task instruction acquired by the acquisition unit and the task execution instruction acquisition unit, search for whether there is another device in the vicinity that can request execution of the task that is not assigned to the device itself An other device search unit, a task request unit that requests the other device searched by the other device search unit to share the request by executing the task, Is said tasks are shared in location, characterized in that it comprises a task executing unit which executes the task that has not been asked to the other device by the task requesting unit.
In the document reading device of the present invention, the other device search unit acquires the performance information of the other device that has responded by broadcasting, and determines whether the task not shared by the own device can be executed. If it can be executed, it is determined that the request can be made.
An information processing system of the present invention is an information processing system including a document reading device capable of reading document data, and an information processing device capable of transmitting / receiving data to / from the document reading device. Is a performance information transmitting unit that transmits performance information of the own device to the external information processing device that can execute a series of tasks for the document data, and the own device that is transmitted by the performance information transmitting unit. In response to the performance information, a task execution instruction acquisition unit that acquires an instruction of the task assigned to the device from the information processing apparatus, and an instruction of the task acquired by the task execution instruction acquisition unit Other devices that refer to and search for whether there are other devices that can be requested to execute for the task that is not assigned to the own device. A task request unit for requesting and sharing the execution of the task to a requestable other device searched by the other device search unit, and the task assigned to the own device, the task request unit A task execution unit that executes a task that has not been requested by another device, and the information processing device is acquired by the performance information acquisition unit that acquires the performance information of the document reading device and the performance information acquisition unit. A task sharing unit that determines whether to execute a series of tasks on the data of the document read by the document reading device in response to the performance information by the own device or the document reading device. The task sharing unit causes the information processing apparatus to execute the task that is determined to be executed by the information processing apparatus, and The task is determined to be executed in Yumento reader is executed by the document reading apparatus, characterized by comprising a task execution control unit for processing a series of the task.
An information processing method according to the present invention is an information processing method executed by a document reading device capable of reading document data, and can be executed by sharing a series of tasks for the document data with the document reading device. The performance information of the own device is transmitted to the external information processing device, and the task information assigned to the own device is acquired from the information processing device in response to the transmitted performance information. With reference to the instruction of the task, the task that is not assigned to the own device is searched for whether there is another device that can request execution in the vicinity, The task is assigned to be executed, and the task is assigned to the own device, and the task not requested to the other device is executed.

  According to the present invention, an information processing apparatus that streamlines execution of a series of tasks and reduces waiting time by sharing a series of tasks between the own apparatus and another apparatus according to performance information. Can be provided.

1 is a system configuration diagram of an information processing system according to an embodiment of an image forming apparatus of the present invention. It is a block diagram which shows the control structure of the server shown in FIG. FIG. 2 is a block diagram illustrating a control configuration of the image forming apparatus illustrated in FIG. 1. It is a block diagram which shows the function structure of the information processing system shown in FIG. It is a flowchart of the task sharing request execution process which concerns on embodiment of this invention. FIG. 6 is a conceptual diagram of task assignment request execution processing shown in FIG. 5. FIG. 6 is a conceptual diagram of task assignment request execution processing shown in FIG. 5.

<Embodiment>
[System configuration of information processing system X]
First, the system configuration of the information processing system X will be described with reference to FIGS.
An information processing system X according to an embodiment of the present invention is configured by connecting a server 1 and an image forming apparatus 2 via a network 5.
The server 1 is an information processing apparatus that can transmit and receive various data to and from the image forming apparatus 2. In this embodiment, the server 1 includes a general-purpose machine, a PC (Personal Computer), and the like, and mainly reads a document (document, document) of the image forming apparatus 2 in the network 5 such as an intranet described below ( Integrate the capture function. Specifically, the server 1 mainly processes image data of an original captured from the image forming apparatus 2 according to a processing flow set as a workflow described later, for example, image processing, OCR (Optical Character Recognition) processing, and classification processing. And finally, transmission processing to e-mail, a shared folder (storage folder, document box), or a business or office DMS (Document Management System) can be performed.
The image forming apparatus 2 is a document reading apparatus such as an MFP, a network scanner, a document scanner, a network FAX, or a printer with a scanner function. The image forming apparatus 2 may execute application software (hereinafter simply referred to as “application”) for connecting to the server 1.
In the present embodiment, the network 5 is an intranet or the like that can transmit and receive various data at high speed, and includes a local area network (LAN), a dedicated line, and the like. The network 5 is connected to a WAN (Wide Area Network) such as the Internet (registered trademark) or a mobile phone network via a router, a gateway, or the like. The server 1 may be connectable. The network 5 may constitute a VPN (Virtual Private Network).

  Next, according to FIG. 2, the server 1 includes a control unit 10, a network transmission / reception unit 15, and a storage unit 19.

The control unit 10 includes a general purpose processor (GPP), a central processing unit (CPU), a micro processing unit (MPU), a digital signal processor (DSP), a graphics processing unit (GPU), and an application specific processor (ASIC). Information processing means such as a processor for a specific application).
The control unit 10 reads out a control program stored in the ROM, SSD, or HDD of the storage unit 19 and expands and executes the control program in the RAM, whereby the control unit 10 is operated as each unit of functional blocks to be described later. .

  The network transmission / reception unit 15 is a network connection unit including a LAN board for connecting to the network 5 and a wireless transceiver.

The storage unit 19 is a storage unit using a non-temporary recording medium. The storage unit 19 may include a RAM (Random Access Memory) or the like as a main storage unit. The storage unit 19 may include a ROM (Read Only Memory), an eMMC (embedded Multi Media Card), a flash memory such as an SSD (Solid State Drive), and an HDD (Hard Disk Drive) as an auxiliary storage unit. Good. In this case, a control program for controlling the operation of the image forming apparatus 2 is stored in the auxiliary storage unit of the storage unit 19.
Further, the storage unit 19 may include an area for a document box (storage folder, shared folder) for each user. In the storage unit 19, the server 1 may store information on the performance and functions of the server 1.
The storage unit 19 may include external storage media such as various flash memories and optical recording media.

  Note that the control unit 10 may incorporate a RAM, a ROM, a flash memory, or the like.

  Next, according to FIG. 3, the image forming apparatus 2 includes an image processing unit 21, a document reading unit 22, a document feeding unit 23, a sheet feeding unit 24, a network transmitting / receiving unit 25, an operation panel unit 26, and an image forming unit 27 ( Image forming means), a FAX transmission / reception unit 28, a storage unit 29, and the like. Each unit is connected to the control unit 20 and controlled in operation by the control unit 20.

The control unit 20 is information processing means such as GPP, CPU, MPU, DSP, GPU, ASIC.
The control unit 20 reads out a control program stored in the auxiliary storage unit of the storage unit 29, expands and executes the control program in the main storage unit, and is operated as each unit of a functional block described later. . The control unit 20 controls the entire apparatus in accordance with predetermined instruction information input from an external terminal (not shown) or the operation panel unit 26.

The image processing unit 21 is a control calculation unit such as a DSP (Digital Signal Processor) or a GPU (Graphics Processing Unit). The image processing unit 21 is means for performing predetermined image processing on the image data. For example, various types of image processing such as blank page detection, enlargement / reduction rotation, density adjustment, gradation adjustment, noise removal, sharpness, and other image quality improvements. Perform image processing.
The image processing unit 21 stores the image read by the document reading unit 22 in the storage unit 29 as print data. At this time, the image processing unit 21 can also convert the print data into a file unit of a format such as PDF or TIFF.
The image processing unit 21 may have an OCR function, an OCR speed-up function, and the like. The image processing unit 21 may have a function of reading a barcode, a dot image, or the like. In this case, the image processing unit 21 can output the read characters, figures, tables, barcodes, dot images, and the like in units of files.

The document reading unit 22 is a (scan) unit that reads a set document. The document reading unit 22 is disposed on the upper part of the main body of the image forming apparatus 2.
The document reading unit 22 includes a scanner, a platen glass, and a document reading slit. When reading a document placed on the platen glass, the document reading unit 22 moves the scanner to a position facing the platen glass and reads the document placed on the platen glass while scanning to obtain image data. The acquired image data is output to the control unit 20.

  Further, when reading the document fed from the document feeding unit 23, the document reading unit 22 moves the scanner to a position facing the document reading slit. Then, the document reading unit 22 reads the document in synchronization with the document feeding operation by the document feeding unit 23 through the document reading slit, and acquires image data. The document reading unit 22 outputs the acquired image data to the control unit 20.

The document feeding unit 23 is a unit that transports a document read by the document reading unit 22. The document feeding unit 23 is disposed on the upper part of the document reading unit 22.
The document feeding unit 23 includes a document placing unit and a document transport mechanism. The document feeding unit 23 sequentially feeds the documents placed on the document placing unit one by one by the document transport mechanism and feeds them to the document reading unit 22.

  The paper feed unit 24 is a unit that feeds the recording sheets one by one toward the image forming unit 27. The paper feed unit 24 is provided in the main body unit.

The network transmission / reception unit 25 is a network connection unit including a LAN board, a wireless transceiver, and the like for connecting to the network 5.
The network transmission / reception unit 25 transmits / receives data on a data communication line and transmits / receives an audio signal on a voice telephone line.

The operation panel unit 26 includes an input unit such as a button or a touch panel, and a display unit such as an LCD (Liquid Crystal Display) or an organic EL display. The operation panel unit 26 is disposed on the front side of the image forming apparatus 2.
The buttons of the input unit of the operation panel unit 26 are buttons for giving instructions related to the numeric keypad, start, cancel, operation mode switching, and job execution. This operation mode may include types of modes such as copying, FAX transmission, scanner, and network scanner. The job may be of a type such as printing, transmission, storage, and recording of the selected document. The input unit of the operation panel unit 26 acquires instructions for various jobs of the image forming apparatus 2 by the user. It is also possible to input and change information of each user according to user instructions acquired from the operation panel unit 26.

The image forming unit 27 is a unit that performs image formation on recording paper from data stored in the storage unit 29 and read by the document reading unit 22 or acquired from an external terminal in accordance with a user output instruction.
The image forming unit 27 includes a photosensitive drum, an exposure unit, a developing unit, a transfer unit, a fixing unit, and the like. The image forming unit 27 records a toner image on a recording sheet by executing an image forming process including charging, exposure, development, transfer, and fixing.

  The FAX transmission / reception unit 28 is a means for performing facsimile transmission / reception. The FAX transmission / reception unit 28 can receive a facsimile from another FAX apparatus (not shown) via a voice line, store it in the storage unit 29, and cause the image forming unit 27 to form an image. Further, the FAX transmission / reception unit 28 converts the document read by the document reading unit 22 or the data of the network FAX transmitted from the external terminal into image data, and transmits the image data by facsimile to another FAX apparatus via a voice line. Is possible.

The storage unit 29 is a storage unit using a semiconductor memory such as a ROM (Read Only Memory) or a RAM (Random Access Memory), or a non-temporary recording medium such as an HDD (Hard Disk Drive).
Even if the RAM of the storage unit 29 is in the power saving state, the stored contents may be held by a function such as self-refresh.
A control program for controlling the operation of the image forming apparatus 2 is stored in the ROM and HDD of the storage unit 29. In addition to this, the storage unit 29 may also store user account settings. Further, the storage unit 29 may include an area for a document box (storage folder, shared folder) for each user.

In the image forming apparatus 2, the control unit 20 and the image processing unit 21 may be integrally formed, such as a CPU with a built-in GPU or a chip-on-module package.
The control unit 20 and the image processing unit 21 may incorporate a RAM, a ROM, a flash memory, or the like.

[Control configuration of information processing system X]
Here, the control configuration of the information processing system X according to the embodiment of the present invention will be described with reference to FIG.
Hereinafter, as an example of the information processing system X, an example will be described in which the server 1 and the image forming apparatuses 2a and 2b (document reading apparatuses) are provided, and a workflow process that is a series of tasks is performed. In the present embodiment, the image forming apparatus 2a executes the task in a shared manner with the server 1 and the image forming apparatus 2b of the “other apparatus” as “own apparatus” that receives an instruction regarding the workflow from the user.
The image forming apparatus 2a and the image forming apparatus 2b may have the same control configuration, although the performance and function may be different.

The control unit 10 of the server 1 includes a performance information acquisition unit 100, a task sharing unit 110, a task execution control unit 120, and a task execution unit 130.
The storage unit 19 stores performance information 300a, workflow information 310, task instructions 320, and document data 330 (document data).
The control unit 20 and the image processing unit 21 of the image forming apparatus 2a include a performance information transmission unit 200, a task execution instruction acquisition unit 210, another device search unit 220, a task request unit 230, and a task execution unit 240a.
The storage unit 29 stores performance information 300a (performance information of its own device), performance information 300b (performance information of other devices), workflow information 310, task instructions 320, and document data 330 (document data).

The performance information acquisition unit 100 acquires performance information 300a of the image forming apparatus 2a.
In the present embodiment, the performance information acquisition unit 100 can also acquire the document data 330 from the image forming apparatus 2 and temporarily store it in the storage unit 19. Further, the performance information acquisition unit 100 acquires the output data of each task of the workflow from the image forming apparatus 2 a and temporarily stores it in the storage unit 19.

The task assignment unit 110 corresponds to the setting of the workflow information 310, and corresponds to the performance information 300a acquired by the performance information acquisition unit 100, and performs a series of tasks on the document data read by the image forming apparatus 2a. The server 1 and the image forming apparatuses 2a and 2b are determined to be executed, and are shared. In other words, the task assignment unit 110 determines whether to execute on the server 1, the image forming apparatus 2a, the image forming apparatus 2b, or another image forming apparatus 2, and either Share task execution.
Further, the task assignment unit 110 may determine, based on the performance information 300a, that the server 1 executes a task that is not installed in the image forming apparatuses 2a and 2b or whose execution speed is slower than that of the own apparatus. In addition, the task assignment unit 110 may determine to cause the image forming apparatus 2a to execute a task corresponding to a function installed in the image forming apparatus 2a.

The task execution control unit 120 instructs the task execution unit 130 to execute the task determined to be executed by the server 1 by the task sharing unit 110.
Further, the task execution control unit 120 instructs the task execution unit 240a to execute the task determined to be executed by the image forming apparatus 2a in the task sharing unit 110.
Further, the task execution control unit 120 instructs the image forming apparatus 2a to execute the task that is determined to be requested and executed by the image forming apparatus 2b by the image forming apparatus 2b.
In addition, the task execution control unit 120 acquires output data of each task executed by the server 1, the image forming apparatus 2a, and the image forming apparatus 2b, passes it as input data for the next task, and a workflow that is a series of tasks. Let it be processed as

  The task execution unit 130 is an execution unit that executes a task instructed by the task execution control unit 120, which is determined to be executed by the server 1 in the task sharing unit 110.

The performance information transmission unit 200 transmits the performance information 300a of the image forming apparatus 2a that is the own apparatus to the server 1 that is an external information processing apparatus that can execute by sharing a workflow that is a series of tasks for document data. To do.
Further, the performance information transmission unit 200 transmits the document data 330 stored in the storage unit 29 to the server 1.

  The task execution instruction acquisition unit 210 acquires, from the server 1, a task instruction 320 that is an instruction of a task assigned to the own device, corresponding to the performance information 300 a of the own device transmitted by the performance information transmission unit 200.

The other device search unit 220 refers to the task instruction 320 acquired by the task execution instruction acquisition unit 210 and the workflow information 310, and is a different device that can request execution of tasks that are not assigned to the own device to the periphery. It is searched whether or not a certain image forming apparatus 2 exists.
In the present embodiment, an example in which the other device search unit 220 searches the image forming apparatus 2b as another device will be described. At this time, can the other apparatus search unit 220 acquire performance information of the image forming apparatus 2b, which is another apparatus that responds by broadcasting, and execute a task assigned to the image forming apparatus 2a that is the own apparatus? It may be determined that the request can be made if it can be executed.

  The task requesting unit 230 requests the image forming apparatus 2b, which is another apparatus that can be requested, searched by the other apparatus searching unit 220 to perform task sharing.

  The task execution unit 240a is an execution unit that executes the task assigned to the own apparatus when the task assignment unit 110 determines that the image forming apparatus 2a executes the task. At this time, the task execution unit 240a executes a task that has not been requested to another device by the task request unit 230.

The performance information 300a is information related to the performance and function of the image forming apparatus 2a that is the self apparatus. As the performance information 300a, for example, information related to performance and functions corresponding to each of image processing, OCR processing, classification processing, and transmission processing is set. Whether the performance information 300a has a function capable of executing processing such as blank page skipping, page sharing, deskew (deskew, automatic tilt correction), border erasing, contrast adjustment, noise reduction, etc., for image processing, for example. Or information on the performance of the processing capability. Further, the performance information 300a includes, for example, information such as a language capable of character recognition, resolution, presence / absence of handwritten character recognition, whether or not a table or figure can be recognized, a version of a recognition engine, a recognition speed, etc. It is out. Further, for example, the performance information 300a includes information indicating whether or not a one-dimensional, two-dimensional, and / or color barcode, a dot image, and the like can be recognized as OCR processing. In addition, the performance information 300a includes, for example, classification of invoices, slips, bills, etc., acquisition of items (items), extraction of metadata, and the like regarding classification processing. Contains information such as type. Among them, the metadata includes information such as whether or not it is possible to obtain information on customer ID (identification), company name, name, amount of each item, tax, etc., and the type of information if possible. . Further, the performance information 300a includes information such as an email address of a user or group, an address of a document box (a storage folder or a shared folder), an application name or address of a DMS, an account ID, etc. It is out.
The performance information 300a includes information on whether or not each of the above-described processes can be used depending on the hardware status, firmware version difference, application installation status, license authentication status, and the like. Is possible. That is, even if the function of the image forming apparatus 2 itself is not usable, the performance information 300a can include information to that effect.
The performance information 300a may include language setting, model name, serial number, installation location, customer information, and other information of the image forming apparatus 2.

  The performance information 300b is information regarding the performance and function of the image forming apparatus 2b which is another apparatus. The data format of the performance information 300b may be the same as that of the performance information 300a.

The workflow information 310 is information including a process flow setting for a “workflow” that is a series of tasks that the user instructs to execute. For example, in the case of a scan workflow related to document capture, this workflow includes settings of image processing, OCR processing, classification processing, task processing order of transmission processing, parameters of each task, and the like. The workflow information 310 may include descriptions of these settings in a format such as “macro” or script, for example.
Further, the workflow information 310 can be set by an administrator of the image forming apparatuses 2 a and 2 b or an administrator of the server 1 by an application or from the server 1.

  The task instruction 320 is an instruction of a task assigned to the image forming apparatus 2 a that is the own apparatus, acquired from the server 1. That is, the task instruction 320 is information indicating which task of the workflow information 310 is to be executed by the image forming apparatus 2a.

  The document data 330 is data that is a target of various processes in the workflow. In the present embodiment, an example in which the document data 330 is image data of a document (document) read by the document reading unit 22 of the image forming apparatus 2a that is the device itself will be described. The image data may be, for example, bitmap data such as BMP, compressed bitmap data such as TIFF or jpg, PDF (Portable Document Format) data, or the like. Further, the document data 330 may be a set of image data in units of pages, and various character data and intermediate data may be added in accordance with the progress of the processing of each task described above. The document data 330 may be a set of a plurality of files, not a single file. Further, the document data 330 may be PDF data or the like previously stored in a document box of the user of the image forming apparatuses 2a, 2b or the server 1 or acquired from a terminal (not shown).

Here, the control unit 10 of the server 1 functions as the performance information acquisition unit 100, the task sharing unit 110, the task execution control unit 120, and the task execution unit 130 by executing the control program stored in the storage unit 19. Be made.
In addition, the control unit 20 of the image forming apparatus 2a executes the control program stored in the storage unit 29, so that the performance information transmission unit 200, the task execution instruction acquisition unit 210, the other device search unit 220, and the task request unit 230. , And the task execution unit 240a.
Each unit of the server 1 and the image forming apparatus 2 described above is a hardware resource for executing the image forming method of the present invention.

[Task sharing request execution processing by information processing system X]
Next, task assignment request execution processing by the information processing system X according to the embodiment of the present invention will be described with reference to FIGS.
In the task assignment request execution processing of this embodiment, when the execution of the workflow is instructed by the image forming apparatus 2a, the performance information 300a is transmitted to the server 1. The server 1 acquires the performance information 300a of the image forming apparatus 2. Then, according to the acquired performance information 300a, it is determined whether each task of the workflow for the document data 330 read by the image forming apparatus 2 is executed by the server 1 or the image forming apparatus 2, and is shared. To do. The server 1 transmits a task instruction 320 to the image forming apparatus 2a regarding the task assignment. The image forming apparatus 2a acquires the task instruction 320, and searches whether there are other apparatuses that can request execution in the vicinity of tasks that are not assigned to the apparatus itself. In this embodiment, the image forming apparatus 2b, which is another apparatus that can be requested, is requested to execute the task and assigned to it. The image forming apparatus 2a, which is its own apparatus, executes a task that is assigned from the server 1 and that is not requested by the image forming apparatus 2b. Thereafter, the task determined to be executed by the server 1 is executed by the server 1 and processed as a series of tasks.
In the task sharing request execution process of the present embodiment, the control unit 10 of the server 1 mainly stores the program stored in the storage unit 19, and the control unit 20 and the image processing unit 21 of the image forming apparatus 2 a are stored in the storage unit 29. The program is executed using hardware resources in cooperation with each unit.
Hereinafter, details of the task assignment request execution process will be described step by step with reference to the flowchart of FIG.

(Step S100)
First, the performance information transmission unit 200 of the image forming apparatus 2a performs a workflow start process.
Here, when a workflow execution instruction from the user is acquired from the operation panel unit 26 of the image forming apparatus 2 a or a terminal (not shown), a workflow execution command is transmitted to the server 1.
When the performance information acquisition unit 100 of the server 1 acquires the workflow execution command, the performance information acquisition unit 100 of the image forming apparatus 2a instructs the performance information transmission unit 200 of the image forming apparatus 2a to transmit the performance information 300a.
When capturing is performed by the image forming apparatus 2a, a document (document) is captured by the document reading unit 22, and is temporarily stored in the storage unit 29 as document data 330 of bitmap data, for example. This capture may be performed in parallel with the execution of the task described below.

(Step S101)
Next, the performance information acquisition unit 100 of the server 1 and the performance information transmission unit 200 of the image forming apparatus 2a perform performance information acquisition processing.
When the performance information transmission unit 200 of the image forming apparatus 2a receives the instruction to transmit the performance information 300a, the performance information transmission unit 200 transmits the performance information 300a stored in the storage unit 29 to the server 1.
The performance information acquisition unit 100 of the server 1 acquires the performance information 300a transmitted from the performance information transmission unit 200 of the image forming apparatus 2a and stores it in the storage unit 19.

(Step S102)
Next, the task assignment unit 110 of the server 1 determines whether to execute each task on the server 1. The task assignment unit 110 refers to the workflow information 310 and the acquired performance information 300a, and for each task, whether or not each task on the workflow of the image forming apparatus 2a can be executed, and the execution time of the task. Further, the degree of scale and type are determined, and it is determined whether the server 1 should be executed or the image forming apparatus 2a should be executed. In addition, the task assignment unit 110 may consider the performance of the server 1 and the image forming apparatus 2a, the data transmission / reception speed via the network 5, and the like.

Further, the task assignment unit 110 may determine, based on the performance information 300a, that the server 1 executes a task that is not installed in the image forming apparatus 2a or has an execution speed slower than that of the server 1. Specifically, for example, the task assignment unit 110 does not have a function that allows the image forming apparatus 2a to execute the task for the tasks related to image processing, OCR processing, and transmission processing, or has such a function. If the server 1 cannot be used, it is determined to be executed by the server 1. In addition, when the task sharing unit 110 executes the task on the server 1 depending on the degree of processing performance, data transmission / reception speed, server 1 performance, etc., the total processing time and processing efficiency are higher, It may be determined to be executed by the server 1.
In addition, the task assignment unit 110 may determine to cause the image forming apparatus 2a to execute a task corresponding to a function installed in the image forming apparatus 2a. Specifically, for example, the task assignment unit 110 has a function that allows the image forming apparatus 2a to execute the task regarding the image processing, the OCR processing, and the transmission processing. It is determined to be executed by the image forming apparatus 2a.

  Note that the task assignment unit 110 has a function capable of executing the task in the image forming apparatus 2a. However, if the function cannot be used, the task assignment unit 110 temporarily enables the function and then the image forming apparatus 2a. It may be determined that That is, the task assignment unit 110 may be made usable by giving a temporary license to the application of the image forming apparatus 2a corresponding to the function or temporarily installing the application itself. On this basis, the task assignment unit 110 determines that the image forming apparatus 2a executes the function when the function becomes usable.

  In the case of a task determined to be executed by the server 1, the task assignment unit 110 instructs the task execution control unit 120 to execute the task on the server 1. Specifically, for example, the task assignment unit 110 sets a macro or script of a task command for executing the task on the server 1. At this time, the task assignment unit 110 sets the macro and script after setting the input data and output data corresponding to various parameters included in the workflow information 310 and the setting to execute on the server 1. Also good. At this time, the task assignment unit 110 may set a “pipe” in which input data and output data are input / output in order in accordance with the workflow as the setting of the macro or script.

In the case of a task determined to be executed by the image forming apparatus 2a, the task assignment unit 110 instructs the task execution control unit 120 to execute the task by the image forming apparatus 2a.
The task assignment unit 110 creates a task instruction 320 as this instruction and transmits it to the image forming apparatus 2a. At this time, the task assignment unit 110 may also send the workflow information 310 to the image forming apparatus 2a.
In this processing, the task assignment unit 110 also includes setting of input data and output data corresponding to various parameters included in the workflow information 310, and setting to be executed by the image forming apparatus 2a. Scripts and pipes may be set.

(Step S103)
Here, the task execution instruction acquisition unit 210 of the image forming apparatus 2a performs a task execution instruction acquisition process.
The task execution instruction acquisition unit 210 acquires a task instruction 320 of a task that is transmitted from the server 1 and is assigned to the own device.

Here, referring to the example of FIG. 6, the tasks T1 to T5, which are a series of tasks included in the workflow information 310, are shared by the server 1 and the image forming apparatus 2a.
In this example, the image forming apparatus 2a is an apparatus that does not have image processing and OCR processing functions. Therefore, the task instruction 320 is received so that only the blank page skip task T1 related to image processing is executed in the image forming apparatus 2a. At this point, the task execution unit 130 of the server 1 waits to execute the remaining tasks T2 to T5.

(Step S104)
Next, the other device search unit 220 performs another device search processing.
First, the other device search unit 220 broadcasts and waits for a response from the image forming device 2 nearby on the network 5.
The other device search unit 220 may detect a service of the device using, for example, a WS-Discovery protocol using SOAP or UDP multicast. In the present embodiment, the other device search unit 220 acquires the performance information 300b.

(Step S105)
Here, the image forming apparatus 2b which is another apparatus performs a response process.
The image forming apparatus 2b transmits performance information 300b stored in the storage unit 19 from the performance information transmitting unit 200 (not shown) to the image forming apparatus 2a.

(Step S106)
Here, the other device search unit 220 and the task request unit 230 perform task request processing.
The other device search unit 220 acquires the performance information 300 b and refers to the task instruction 320 and the workflow information 310. Then, the other device search unit 220 determines whether or not a task not assigned to the image forming apparatus 2a can be executed by the image forming apparatus 2b, and determines that it can be requested if it can be executed. .
The task request unit 230 requests the image forming apparatus 2b of another apparatus, which has been determined to be requestable by the other apparatus search unit 220, to execute the task and share it. For this reason, the task request unit 230 notifies the server 1 that the execution of the task has been requested.

Referring to the example of FIG. 7, for each task T1 to T5 included in the workflow information 310 similar to FIG. 6, the server 1, the image forming apparatus 2 a (self apparatus), and the image forming apparatus 2 b (other apparatus) A series of tasks of the workflow information 310 are shared and requested and executed.
In this example, the image forming apparatus 2a is a low-functional document reading apparatus that can execute only a blank page skip task. The image forming apparatus 2b is a high-function apparatus that can use the functions of image processing and OCR processing.
Therefore, the task request unit 230 requests the barcode forming task T2 and the OCR task T3 to the image forming apparatus 2b which is another apparatus.

(Step S107)
Here, the task execution control unit 120 of the server 1 performs a task execution control process.
The task execution control unit 120 gives an instruction to cause the task sharing unit 110 to execute the tasks determined to be executed by the server 1, the image forming apparatus 2a, and the image forming apparatus 2b in the respective apparatuses.
Specifically, for example, the task execution control unit 120 issues the above-described macro and script commands in the order of setting of the workflow information 310, and distributes them to the server 1, the image forming apparatus 2a, and the image forming apparatus 2b. Let it run.

(Step S108)
Here, the task execution unit 240a of the image forming apparatus 2a performs a task execution process.
The task execution unit 240a receives a command of a task that is shared by the task sharing unit 110 of the server 1 and is determined to be executed by the image forming apparatus 2a, and executes this command. That is, at this time, the task execution unit 240a is a task assigned to the image forming apparatus 2a and executes a task not requested to another apparatus.

(Step S109)
Here, the task execution unit 240b of the image forming apparatus 2b also performs task execution processing.
The task execution unit 240b executes the task requested to the image forming apparatus 2b by the task request unit 230. In the present embodiment, the task execution unit 240b executes a command or the like issued by the task sharing unit 110 of the server 1.

(Step S110)
The task execution unit 130 of the server 1 also performs task execution processing.
The task execution control unit 120 issues a command for a task that is determined to be executed by the server 1 in the task sharing unit 110. For this reason, the task execution unit 130 executes these tasks.

  As a result, the document data 330 is processed or exchanged as input data and output data between the server 1 and the image forming apparatuses 2a and 2b. At this time, the task execution control unit 120 may acquire output data that is a result of the execution of each task in correspondence with the above-described pipe and pass it as input data for the next task. As a result, the task execution control unit 120 causes each task to be processed as a workflow that is a series of tasks. The task execution control unit 120 may create and send / receive a temporary file as the input data and output data, or may send / receive data in a specific unit such as a page of the document data 330.

In the example of FIG. 7, first, a blank page skip task T1 related to image processing is executed by the task execution unit 240a of the image forming apparatus 2a. As a result, the image data and the like output with the blank page removed are transferred to the image forming apparatus 2b. At this time, the data may be directly transferred by peer-to-peer (PtP) without going through the server 1.
Then, using this image data or the like as input data, a barcode reading task T2 related to OCR processing and an OCR task T3 are sequentially executed by the task execution unit 240b of the image forming apparatus 2b. In this case, the task T2 and the task T3 may be executed simultaneously by multitasking or the like. When the execution of task T2 to task T3 in the image forming apparatus 2b is completed, the resulting output file is transferred to the task execution unit 130 of the server 1.
Then, a task T4 for extracting metadata related to the classification process and a task T5 for transmitting the shared folder are sequentially executed by the task execution unit 130 of the server 1.
As a result, the workflow of the list can be executed with higher processing speed and efficiency than using the server 1, the low-function image forming apparatus 2a, and the high-function image forming apparatus 2b. It becomes.

Note that the execution order of each task execution process in steps S108 to S110 is an example, and can be executed in an arbitrary order depending on the workflow, task assignment, request mode, and the like.
Thus, the task assignment request execution process according to the embodiment of the present invention is completed.

With the configuration described above, the following effects can be obtained.
Conventionally, since the technique described in Patent Document 1 is a distributed technique for power saving, the waiting time for distributed processing has been increased.
On the other hand, in a typical technique, all tasks of a workflow can only be executed by a server or an image forming apparatus, and the waiting time for execution is long.
On the other hand, the information processing system X according to the embodiment of the present invention includes an image forming apparatus 2a that is the document reading apparatus, an image forming apparatus 2b that is another apparatus of the document reading apparatus, and an image forming apparatus. And a server 1 which is an information processing apparatus capable of transmitting and receiving data to and from 2a and 2b via a network 5.
In addition, the image forming apparatus 2 responds to a request from the server 1 and transmits a performance information transmission unit 300 a that transmits the performance information 300 a of the apparatus itself to the server 1 that can execute a series of tasks regarding document data. 200, a task execution instruction acquisition unit 210 that acquires an instruction of a task assigned to the own device from the server 1 in response to the performance information 300a of the own device transmitted by the performance information transmission unit 200, and a task execution instruction acquisition The other device search unit 220 that searches whether there is an image forming apparatus 2 of another device that can be requested to be executed in the vicinity of the task assigned to the own device acquired by the unit 210, and the other device search unit 220 The task request unit 230 for requesting and sharing the task execution to the image forming apparatus 2 of the other apparatus that can be requested, and the tasks assigned to the own apparatus And a task execution unit 240a to perform the tasks that have not been requested by the task request unit 230.
The server 1 also includes a performance information acquisition unit 100 that acquires the performance information 300a of the image forming apparatus 2 and a document read by the image forming apparatus 2 in response to the performance information 300a acquired by the performance information acquisition unit 100. The task sharing unit 110 that determines whether to execute a series of tasks for the data of the device itself or the image forming apparatus 2, and the task determined to be executed by the own device by the task sharing unit 110 And a task execution control unit 120 that causes the image forming apparatus 2 to execute a task determined to be executed by the image forming apparatus 2 and process the task as a series of tasks.
With this configuration, the execution of a series of tasks can be made efficient and the waiting time can be reduced. Specifically, the execution time of all the tasks of the workflow can be made faster than when the server 1 or the image forming apparatus 2 is executed alone, or the processing load on the image forming apparatus 2 and the server 1 can be reduced.
That is, the image forming apparatus 2 according to the present embodiment transmits the performance information 300a to the server 1, and determines whether the other image forming apparatus 2 does not have performance that the apparatus itself does not have, such as WS-Discovery. Search by. When a response is received from another image forming apparatus 2, the operation of the image forming apparatus 2 and the server 1 on the network 5 is requested by requesting the other image forming apparatus 2 to perform task processing that cannot be processed by the performance of the own apparatus. Efficiency can be improved.

Further, in the image forming apparatus 2 according to the embodiment of the present invention, is the other apparatus search unit 220 able to acquire the performance information of the other apparatus that responded by broadcasting and execute the task assigned to the own apparatus? It is characterized by determining whether or not it can be requested if it can be executed.
With this configuration, tasks that cannot be executed by the apparatus itself can be requested to be executed by the surrounding image forming apparatuses 2, and the execution of a series of tasks can be made more efficient, and the server 1 or the image forming apparatus 2 can be executed. It can be faster than running alone and reduce processing load.

[Other Embodiments]
In the embodiment of the present invention, it has been described that a series of tasks are shared and requested by the server, the own apparatus, and the other apparatus. However, depending on the performance of the other apparatus, a series of tasks may be performed by any of the apparatuses. You may do everything. In other words, in an environment where only a low-function image forming apparatus 2 that does not have a blank page skip function or the like as a function related to image processing exists, the server 1 may execute all of a series of tasks. Further, in an environment where there are a plurality of high-function image forming apparatuses 2 that can execute all functions of image processing, OCR processing, classification processing, and transmission processing and can be executed at high speed, these images can be used. All of the series of tasks may be executed by sharing and requesting the forming apparatus 2.
With this configuration, it is possible to execute a series of tasks with optimum efficiency and speed corresponding to the environment of the server, the own device, and other devices.

In the above-described embodiment, the image forming apparatus 2a is described as the own apparatus and the image forming apparatus 2b is described as the other apparatus. However, the present invention is not limited to this. That is, a configuration may be adopted in which a task request is made with the image forming apparatus 2b as its own apparatus and the image forming apparatus 2a as another apparatus.
Moreover, in the above-mentioned example, the server 1 described the example which controls and performs a task. However, for the requested task, the image forming apparatus 2a that is the self apparatus may directly control task execution in the image forming apparatus 2b.
Further, the image forming apparatus 2a as its own apparatus may directly transmit the output data to the image forming apparatus 2b as another apparatus.
Conversely, the image forming apparatus 2a may once acquire task input data from the server 1, which is an information processing apparatus, and transmit it to the image forming apparatus 2b, which is another apparatus. In this case, the image forming apparatus 2b may transmit output data to the image forming apparatus 2a and transmit the output data to the server 1.

In the above-described embodiment, the configuration of one device and one other device is described, but there may be a plurality of other devices.
In this case, even if the function is installed in the own device, when another device with high performance is searched, the device having higher performance may be requested. Conversely, tasks may be distributed and requested regardless of the performance difference between the own device and other devices.

In the above-described embodiment, the image forming apparatus 2 a first transmits the performance information 300 a to the server 1, and refers to the acquired task instruction 320 and the acquired workflow information 310 to request another apparatus to request. It was described to search.
However, it may be configured such that the own device first searches for another device, includes the performance that can be requested in the performance information, and transmits it to the information processing device. That is, the image forming apparatus 2a first acquires the performance information 300b of the image forming apparatus 2b, transmits this content to the server 1 in addition to the performance information 300a, and acquires the task instruction 320 based on this information. Also good.

  By configuring in this way, tasks can be flexibly assigned and efficiently processed.

The present invention can also be applied to document reading apparatuses other than the image forming apparatus 2. Further, a configuration in which the document reading apparatus and the information processing apparatus are directly connected without using the network 5 may be used. That is, a configuration using a network scanner, a server in which the scanner is separately connected via a USB, or the like may be used.
With such a configuration, even in a document reading apparatus other than the image forming apparatus, tasks can be shared and processed efficiently at high speed.

In the above-described embodiment, the assignment and request of each task of the scan workflow related to document capture are described. However, other types of workflows can be handled. Tasks other than image processing, OCR processing, classification processing, and transmission processing can also be shared and requested.
With this configuration, tasks can be shared flexibly, and can be executed at high speed and efficiency.

  In addition to the control unit 10, the server 1 may include control calculation means for executing OCR processing, classification processing, and the like at high speed. This control calculation means may be an ASIC, DSP, external accelerator or the like for executing a specific calculation such as an artificial neural network at high speed.

  Further, the configuration and operation of the above-described embodiment are examples, and it goes without saying that they can be appropriately modified and executed without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Server 2, 2a, 2b Image forming apparatus 5 Network 10, 20 Control part 19, 29 Storage part 15, 25 Network transmission / reception part 21 Image processing part 22 Original reading part 23 Original feeding part 24 Paper feeding part 26 Operation panel part 27 Image forming unit 28 FAX transmission / reception unit 100 Performance information acquisition unit 110 Task sharing unit 120 Task execution control unit 130, 240a, 240b Task execution unit 200 Performance information transmission unit 210 Task execution instruction acquisition unit 220 Other device search unit 230 Task request unit 300a 300b Performance information 310 Workflow information 320 Task instruction 330 Document data T1, T2, T3, T4, T5 Task X Information processing system

Claims (4)

A document reader capable of reading document data,
A performance information transmission unit that transmits performance information of the device itself to an external information processing device that can execute a series of tasks for the document data;
In response to the performance information of the own device transmitted by the performance information transmitting unit, a task execution instruction acquiring unit that acquires an instruction of the task assigned to the own device from the information processing device;
Other device search for referring to the task instruction acquired by the task execution instruction acquisition unit to search whether there is another device that can request execution in the vicinity of the task that is not assigned to the own device And
A task request unit for requesting and sharing the execution of the task to other requestable devices searched by the other device search unit;
A document reading apparatus comprising: a task execution unit that executes a task that is assigned to the own device and that is not requested to another device by the task request unit. The other device search unit
Obtain the performance information of the other device that responded by broadcasting, determine whether it is possible to execute the task that is not shared by the own device, and determine that it can be requested if it can be executed The document reading apparatus according to claim 1. An information processing system including a document reading device capable of reading document data and an information processing device capable of transmitting / receiving data to / from the document reading device,
The document reading device includes:
A performance information transmission unit that transmits performance information of the device itself to the external information processing device that can execute a series of tasks for the document data;
In response to the performance information of the own device transmitted by the performance information transmitting unit, a task execution instruction acquiring unit that acquires an instruction of the task assigned to the own device from the information processing device;
Other device search for referring to the task instruction acquired by the task execution instruction acquisition unit to search whether there is another device that can request execution in the vicinity of the task that is not assigned to the own device And
A task request unit for requesting and sharing the execution of the task to other requestable devices searched by the other device search unit;
A task execution unit that executes the task that is assigned to the own device and is not requested to the other device by the task request unit;
The information processing apparatus includes:
A performance information acquisition unit that acquires the performance information of the document reading device;
In response to the performance information acquired by the performance information acquisition unit, whether a series of tasks for the document data read by the document reading device is executed by the own device or the document reading device A task sharing unit that makes decisions and shares;
The task sharing unit causes the information processing apparatus to execute the task determined to be executed by the information processing apparatus, and causes the document reading apparatus to execute the task determined to be executed by the document reading apparatus. An information processing system comprising: a task execution control unit that is processed as the task. An information processing method executed by a document reading apparatus capable of reading document data, the document reading apparatus,
Sends the performance information of the device itself to an external information processing device that can execute a series of tasks for the document data,
In response to the transmitted performance information, from the information processing device, obtain an instruction of the task assigned to the own device,
With reference to the acquired instruction of the task, for the task that is not assigned to the own device, search for whether there is another device that can request execution in the vicinity,
Request the other devices that can be requested to perform the task and share them.
An information processing method comprising: executing a task that is assigned to the own device but not requested to another device.

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