JP4341269B2 - Service processing system, service processing method, and service processing program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a service processing system that processes a plurality of networked processing apparatuses in cooperation in order to process a service that performs predetermined processing in combination with document data.
[0002]
[Prior art]
A network that connects paper documents and electronic information by connecting scanners, facsimile machines (hereinafter referred to as “FAX”), copiers, printers, or multifunction devices combining these, personal computers, mail servers, etc. A system has been proposed.
[0003]
Such a network system, for example, takes a document file from an input system such as a scanner for reading a document or a paperless FAX, passes through a processing system such as image processing or character recognition, and outputs the document via an output system such as a printer or a mail server. The file is distributed to the outside.
[0004]
Here, in general, fetching of a document file, processing of the fetched data, and delivery after the processing are performed independently.
[0005]
For this reason, the operator has to make a predetermined setting for each work when the work of taking in the document file, the work of processing the taken-in data, and the delivery work after the work are performed in succession.
[0006]
For example, using a client terminal that collectively manages the above processing devices, an operator opens an instruction window regarding the capture of the document file, the processing of the captured data, and the distribution processing after the processing, and performs a predetermined input operation. The work efficiency was very poor.
[0007]
In order to solve this problem, a workflow system has been introduced that executes a series of processes from input to output in a predetermined order in cooperation on a network.
[0008]
The workflow system is developed by digitizing an existing paper-based business system as it is, assuming a workflow that is generally used in the office, such as approval and circulation (Patent Document 1, Patent Document 2, (See Patent Document 3).
[0009]
[Patent Document 1]
JP 2002-99686 A
[Patent Document 2]
JP 2001-325389 A
[Patent Document 3]
JP 2001-195295 A
[0010]
[Problems to be solved by the invention]
However, in the conventional workflow system, the work efficiency can be improved with respect to the processing of the job itself, but the processing device that executes the job (the above-described FAX, copier, printer, or a complex machine combining these, personal Each setting information of a computer, a mail server, etc. is configured to perform setting operations for each of the processing devices.
[0011]
For this reason, when it is necessary to change (update) the setting information in units of jobs, the setting operation must be performed for each processing apparatus, resulting in a reduction in work efficiency.
[0012]
In order to solve this problem, it may be possible to develop a dedicated setting tool. However, such a dedicated setting tool is not easily related to the processing by the workflow.
[0013]
Further, even if each processing device or the same type of processing device is used, if the setting information setting method or setting information differs depending on the model, a more complicated operation is required.
[0014]
In consideration of the above facts, the present invention is a service that can efficiently instruct setting of setting information and execution of a diagnostic program to each of processing apparatuses that are to process a given job in a complex manner. It is an object to obtain a processing system, a service processing method, and a service processing program.
[0015]
[Means for Solving the Problems]
A first aspect of the present invention is a service processing system for processing a plurality of networked processing devices in cooperation with each other in order to process a service that performs a predetermined process on document data in a composite manner. For each job that is a simple processing unit, the instruction data for instructing the processing procedure of the job, and at least one of the processing devices related to the job, the identification information of the target processing device, This is a diagnostic program for diagnosing the suitability of processing execution. Instruction data creating means for creating setup data composed of setting information, and management control means for managing the progress of each process in the job based on the contents described in the instruction data created by the instruction data creating means And, according to the progress of each process in the job, on the basis of the identification information described in the setup data, the processing device specifying means for specifying the target processing device, and the processing device specified by the processing device specifying means And setting means for setting the setting information.
[0016]
According to the first invention, in the instruction data creating means, the identification data and the setting information of the target processing device for the at least one processing device related to the job, together with the instruction data for instructing the job processing procedure Create setup data consisting of
[0017]
The management control means manages the progress of the job based on the contents of the instruction data. For example, in accordance with a sequence instructed by instruction data, so-called batch processing such as instructing processing to a specified processing device and instructing processing to the next processing device when confirming the end of processing by the processing device Instructing the processing to the designated processing device and sending the instruction data itself to the processing device, the job proceeds by so-called relay processing in which the processing device instructs processing to the next processing device.
[0018]
Here, the processing devices related to the progress of the job each have default setting information, but the setting information may not be appropriate for the job. In this case, setting information must be set (updated) for each processing device.
[0019]
Therefore, in the first invention, the specification data that includes the specific information for specifying the processing device and the setting information of the processing device specified by the specific information is added to the instruction data, and according to the progress of the job, The target processing device is specified based on the identification information described in the setup data, and the setting information is set for the specified processing device.
[0020]
Thereby, when the job is advanced, the setting information of the processing apparatus related to the job can be set as appropriate setting information for the job, and the work efficiency can be improved.
[0021]
In the first invention, before starting the processing of the job, the processing device specified by the instruction data is searched based on the identification information of the setup data, and setting information is set prior to the processing of the job. It is characterized by performing.
[0022]
By setting the setting information of the processing device based on the setup data before starting the job processing, the setting information setting does not hinder the progress of the job.
[0023]
Furthermore, in the first invention, the setting information corresponding to each of the processing devices searched based on the identification information is broadcast simultaneously.
[0024]
When the setting information of the processing device is executed with priority, the processing device is preliminarily broadcasted based on the identification information, so that the corresponding setting information is broadcast to each processing device. Since setting information is set at the same time, the time for setting information can be reduced.
[0025]
A second invention is a service processing system that processes a plurality of networked processing devices in cooperation with each other, and targets at least one of the processing devices as identification information of the target processing device, and This is a diagnostic program for diagnosing the suitability of processing execution. Instruction data creating means for creating setup data composed of setting information; processing apparatus identifying means for identifying a target processing apparatus based on the identification information among the instruction data created by the instruction data creating means; Setting means for setting the setting information for the processing device specified by the processing device specifying means.
[0026]
According to the second invention, only the setup data is used as the instruction data. That is, in comparison with the first invention, This is a diagnostic program for diagnosing the suitability of processing execution. The setting information itself is a job, and the target processing device is specified based on the identification information described in the setup data for each processing device, and the setting information is set for the specified processing device. To do.
[0027]
Thereby, when the job is advanced, the setting information of the processing apparatus related to the job can be set as appropriate setting information for the job, and the work efficiency can be improved.
[0029]
place It is also necessary to diagnose whether the physical device is operating properly. Therefore, by sending a diagnostic program for diagnosing the suitability of execution of processing as setting information and sending it to the corresponding processing device, the processing device can be made to execute self-diagnosis according to the diagnostic program.
[0030]
According to a third aspect of the present invention, there is provided a service processing method for processing a plurality of networked processing devices in cooperation with each other in order to process a service that performs predetermined processing on document data in a composite manner. For each job that is a simple processing unit, the instruction data for instructing the processing procedure of the job, and at least one of the processing devices related to the job, the identification information of the target processing device, This is a diagnostic program for diagnosing the suitability of processing execution. Create setup data composed of setting information, manage the progress of each process in the job based on the contents described in the created instruction data, and set up the setup according to the progress of each process in the job A target processing device is specified based on identification information described in the data, and the setting information is set for the specified processing device.
[0031]
According to the third invention, together with the instruction data for instructing the processing procedure of the job, at least one of the processing devices related to the job, the identification information of the target processing device and This is a diagnostic program for diagnosing the suitability of processing execution. Create setup data consisting of configuration information. The progress of the job is managed based on the contents of the instruction data. For example, in accordance with a sequence instructed by instruction data, so-called batch processing such as instructing processing to a specified processing device and instructing processing to the next processing device when confirming the end of processing by the processing device Instructing the processing to the designated processing device and sending the instruction data itself to the processing device, the job proceeds by so-called relay processing in which the processing device instructs processing to the next processing device.
[0032]
Here, the processing devices related to the progress of the job each have default setting information, but the setting information may not be appropriate for the job. In this case, setting information must be set (updated) for each processing device.
[0033]
Therefore, in the third invention, the specification data that includes the specific information for specifying the processing device and the setting information of the processing device specified by the specific information is added to the instruction data, and according to the progress of the job, The target processing device is specified based on the identification information described in the setup data, and the setting information is set for the specified processing device.
[0034]
Thereby, when the job is advanced, the setting information of the processing apparatus related to the job can be set as appropriate setting information for the job, and the work efficiency can be improved.
[0035]
Further, in the third invention, before starting the processing of the job, the processing device specified by the instruction data is searched based on the identification information of the setup data, and setting information is set in preference to the processing of the job. It is characterized by performing.
[0036]
By setting the setting information of the processing device based on the setup data before starting the job processing, the setting information setting does not hinder the progress of the job.
[0037]
Furthermore, in the third invention, the setting information corresponding to each of the processing devices searched based on the identification information is broadcast simultaneously.
[0038]
When the setting information of the processing device is executed with priority, the processing device is preliminarily broadcasted based on the identification information, so that the corresponding setting information is broadcast to each processing device. Since setting information is set at the same time, the time for setting information can be reduced.
[0039]
A fourth invention is a service processing method for processing a plurality of networked processing devices in cooperation with each other, and for at least one of the processing devices, identification information of the target processing device and This is a diagnostic program for diagnosing the suitability of processing execution. Creating setup data composed of setting information, identifying a target processing device based on the identification information in the created instruction data, and setting the setting information for the identified processing device. It is a feature.
[0040]
According to the fourth invention, only the setup data is used as the instruction data. That is, in comparison with the third invention, the setting information itself is a job, and the target processing device is specified based on the identification information described in the setup data for each processing device. The setting information is set for the identified processing device.
[0041]
Thereby, when the job is advanced, the setting information of the processing apparatus related to the job can be set as appropriate setting information for the job, and the work efficiency can be improved.
[0043]
place It is also necessary to diagnose whether the physical device is operating properly. Therefore, by sending a diagnostic program for diagnosing the suitability of execution of processing as setting information to the corresponding processing device, it is possible for the processing device to execute self-diagnosis according to the diagnostic program.
[0044]
A fifth invention is a service processing program for processing a plurality of networked processing devices in cooperation with each other in order to process a service for performing predetermined processing in combination with document data. For each job that is a complex processing unit, the instruction data for instructing the processing procedure of the job, and at least one of the processing devices related to the job, the identification information of the target processing device, This is a diagnostic program for diagnosing the suitability of processing execution. An instruction data creation process for creating setup data composed of setting information, and a management control process for managing the progress of each process in the job based on the contents described in the instruction data created in the instruction data creation process And, according to the progress of each process in the job, based on the identification information described in the setup data, the processing device specifying step for specifying the target processing device, and the processing device specified in the processing device specifying step A setting step for setting the setting information is executed.
[0045]
According to the fifth invention, in the instruction data creation step, the instruction data for instructing the processing procedure of the job, and at least one of the processing apparatuses related to the job, the identification information of the target processing apparatus and This is a diagnostic program for diagnosing the suitability of processing execution. Create setup data consisting of configuration information.
[0046]
In the management control step, the progress of the job based on the contents of the instruction data is managed. For example, according to a sequence instructed by instruction data, so-called batch processing such as instructing processing to a specified processing device and instructing processing to the next processing device when confirming the end of processing by the processing device. Instructing the processing to the designated processing device and sending the instruction data itself to the processing device, the job proceeds by so-called relay processing in which the processing device instructs processing to the next processing device.
[0047]
Here, each of the processing apparatuses related to the progress of the job has default setting information, but the setting information may not be appropriate for the job. In this case, setting information must be set (updated) for each processing apparatus.
[0048]
Therefore, in the fifth aspect of the invention, the specification data that includes the specific information for specifying the processing device and the setting information of the processing device specified by the specific information is added to the instruction data, and according to the progress of the job, Based on the identification information described in the setup data, the target processing device is specified, and the setting information is set for the specified processing device.
[0049]
Thereby, when the job is advanced, the setting information of the processing apparatus related to the job can be set as the setting information appropriate for the job, and the work efficiency can be improved. In the fifth invention, before starting the processing of the job, the processing device designated by the instruction data is searched based on the identification information of the setup data, and setting information is set in preference to the processing of the job. It is characterized by performing.
[0050]
By setting the setting information of the processing device based on the setup data before starting the job processing, the setting information setting does not hinder the progress of the job.
[0051]
Further, in the fifth invention, the setting information corresponding to each of the processing devices searched based on the identification information is broadcast simultaneously.
[0052]
When the setting information of the processing device is executed with priority, the processing device is preliminarily broadcasted based on the identification information, so that the corresponding setting information is broadcast to each processing device. Since setting information is set at the same time, the time for setting information can be reduced.
[0053]
A sixth invention is a service processing program for processing a plurality of networked processing devices in cooperation with each other, and the computer identifies at least one of the processing devices as a target. Information and This is a diagnostic program for diagnosing the suitability of processing execution. An instruction data creating step for creating setup data composed of setting information; a processing device identifying step for identifying a target processing device based on the identification information in the instruction data created in the instruction data creating step; A setting step of setting the setting information for the processing device specified in the processing device specifying step.
[0054]
According to the sixth invention, only the setup data is used as the instruction data. That is, in comparison with the fifth invention, the setting information itself is a job, and the target processing device is specified based on the identification information described in the setup data for each processing device. The setting information is set for the identified processing device.
[0055]
Thereby, when the job is advanced, the setting information of the processing apparatus related to the job can be set as appropriate setting information for the job, and the work efficiency can be improved.
[0057]
place It is also necessary to diagnose whether the physical device is operating properly. Therefore, by sending a diagnostic program for diagnosing the suitability of execution of processing as setting information and sending it to the corresponding processing device, the processing device can be made to execute self-diagnosis according to the diagnostic program.
[0058]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.
[0059]
[First Embodiment]
(System configuration)
FIG. 1 is a block diagram showing a configuration of a document processing system 1 according to the first embodiment of the present invention.
[0060]
The document processing system 1 is one in which various services and applications are connected via a network 5. Here, a service refers to a function that can be used for a document in response to an external request. Services include, for example, copying, printing, scanning, facsimile transmission / reception, mail delivery, repository storage, reading from a repository, OCR (Optical Character Recognition) processing, noise removal processing, etc., and are not particularly limited. .
[0061]
Specifically, the document processing system 1 includes a client terminal 10 having a user interface that instructs a user's desired processing in cooperation with a plurality of services, a service search server 20 that searches for a user's desired service, and a client. An instruction sheet generation server 30 that creates an instruction sheet from information related to service cooperation instructed by the terminal 10, an instruction sheet management server 40 that manages the instruction sheet, and a cooperation processing server 50 that executes cooperation processing of each service according to the instruction sheet. And.
[0062]
Further, the document processing system 1 includes an image processing device 61 that performs image processing such as noise removal processing, image rotation processing, OCR processing, and image binding of an image document, a document management server 62 that manages documents, and a document. A document distribution server 63 for distribution, a first service processing device 64 that performs first service processing, and a second service processing device 65 that performs second service processing are provided.
[0063]
The document processing system 1 has a configuration in which a plurality of servers that perform predetermined service processing are connected via the network 5 in this embodiment, but a plurality of services may be connected via the network 5. There is no particular limitation.
[0064]
Here, the instruction sheet refers to information representing the relationship between each function, interface (I / F) information for calling each function, and a series of processes when the series of processes is decomposed into a plurality of functional processes. And data for configuring a graphical user interface (GUI) related to processing.
[0065]
FIG. 2 is a block diagram for explaining the mutual relationship between the service processing apparatuses constituting the document processing system 1. Each service processing apparatus stores I / F information representing the content of the service provided by itself.
[0066]
FIG. 3 is a diagram illustrating a configuration of the I / F information. The I / F information includes <Service Type>, <Service Name>, <Service Icon>, <Service Information Location>, <Input >, <Output>, <Parameter Restriction Rules>, <Service Location>, <Method Name>, <Invocation Scheme>, <Implicit Element (Inclusive Elements)> and <setup information>.
[0067]
<Service type> is a type of service provided by the service processing apparatus. As the <service type>, those defined in advance are used, and examples include scan, print, repository, and flow. <Service name> is the name of a service provided by the service processing apparatus. <Service icon> is position information of an icon displayed on the GUI of the client terminal 10.
[0068]
<Service information location> is a URL used by the instruction sheet generation server 30 to acquire I / F information. <Input> is an input to the service. <Output> is an output from the service. <Parameter restriction rule> is a restriction rule applied to <input>. <Service location> is location information when the service is actually used. <Method name> describes a service processing providing method and a name indicating a service.
[0069]
The <startup method> is a method for calling and starting a service process. For example, SOAP (Simple Object Access Protocol) or SMTP (Simple Mail Transfer Protocol), which are message exchange protocols, can be used as the <startup method>. <Implicit element> is data that is not explicitly passed to the subsequent process as an output, but can be referred to in the subsequent process.
[0070]
<Setup information> is setting information of a processing device that executes processing in each service. For example, in the case of a printer, the following setting information is described.
[0071]
▲ 1 ▼ Finish setting information
Single-sided printing, double-sided printing, N-up printing selection
▲ 2 ▼ Basic setting information
Setting of paper type, paper size, image orientation, number of copies
(3) Quality setting information
Select color printing, black and white printing, and set image quality
The client terminal 10 has a graphical user interface (GUI) function for displaying a screen and performing a predetermined operation in order to instruct creation of an instruction and select an instruction to be activated.
[0072]
The service search server 20 searches for a service corresponding to the search condition from among a plurality of services connected to the network 5. The service search server 20 includes I / F information of various service processing apparatuses such as an image processing apparatus 61, a document management server 62, a document distribution server 63, a first service processing apparatus 64, a service processing apparatus 65 (see FIG. 3). (Hereinafter referred to as “partial I / F information”) is stored in advance. Here, the partial I / F information refers to <service type>, <service name>, <service information location>, <input> information, and <output> information in the elements of the I / F information.
[0073]
When a search condition is transmitted from the instruction form generation server 30 or the cooperation processing server 50, the service search server 20 searches for a service using the partial I / F information of each service processing device. For example, when searching for a service similar to a predetermined service, the service search server 20 searches for a service that matches <service type>, searches for a service that matches <input> and <output>, Find a service that matches all of these.
[0074]
The instruction form generation server 30 acquires I / F information from each service processing apparatus when generating the instruction form, and generates an instruction form for linking services provided by the service processing apparatuses. Specifically, the instruction book generation server 30 executes the following processing in order to create an instruction book.
[0075]
Based on <service location information>, the instruction form generation server 30 requests to transmit I / F information regarding each service from a predetermined service processing device distributed on the network 5. When there is no predetermined service processing device, the instruction form generation server 30 instructs the service search server 20 to search for another service processing device that performs the same service as the predetermined service processing device. put out. Then, the instruction sheet generation server 30 may acquire <service location information> of another service processing device from the service search server 20.
[0076]
The instruction form generation server 30 manages search results from the service search server 20 and I / F information received from each service processing device. The instruction form generation server 30 generates an HTML file serving as a GUI screen for defining a job flow, based on the I / F information acquired from each service processing apparatus. Then, when there is a service browsing request from the client terminal 10, the instruction form generation server 30 transmits an HTML file serving as a GUI screen to the client terminal 10.
[0077]
FIG. 4 is a diagram illustrating an instruction creation screen 100 that is a GUI screen for defining a job flow. The instruction form creation screen 100 includes a service window 101, a flow window 102, a logic window 103, and a property window 104.
[0078]
The service window 101 displays various service processing devices that can be used. The logic window 103 displays a job flow indicating a pattern of cooperation between services. The property window 104 displays detailed setting parameters for each icon displayed in the service window 101 and the logic window 103.
[0079]
The user can define a job flow in the flow window 102 by dragging and dropping the icon of the service window 101 and the icon of the logic window 103 to the flow window 102. The user can further set the relationship between services such as services and logic in detail by editing the contents displayed in the property window 104.
[0080]
In the property window 104, for example, when any of the icons displayed in the service window 101 is selected (highlighted), the properties of the processing device corresponding to the selected icon are displayed. ing.
[0081]
The properties displayed in the property window 104 are applied as so-called default values, and have the property of being applied to all of the subsequent processing by performing editing or the like.
[0082]
However, depending on the job, it may be necessary to change the settings only for the job and use the default values for the subsequent processing. For such a single setting change, property editing using the property window 104 is not suitable. It has become.
[0083]
In addition, since the property window 104 is configured to display the properties of each processing device (selected processing device), the property window 104 is not suitable for an operation for changing the setting of a plurality of processing devices.
[0084]
Therefore, in the first embodiment, for the purpose of efficiently setting (or updating) processing device setting information in units of jobs over a plurality of processing devices, a separate setup menu 200B ( Provided later).
[0085]
Here, as shown in FIG. 6, the setup menu 200 </ b> B is set in the tool menu 200 </ b> A of the pull-down menu 200 of the instruction sheet creation screen 100.
[0086]
The setup menu 200B is a menu that functions when any of the icons in the service window 101 dragged and dropped onto the flow window 102 is selected (inverted display).
[0087]
In this selection, a plurality of processing devices having the same function and different types of processing devices can be simultaneously selected, and all the selected icons are highlighted.
[0088]
In the following description, as shown in FIG. 7, the printer icon and the FAX icon are selected as an example.
[0089]
That is, when one of the icons (printer icon, FAX icon) is selected and the setup menu 200B is selected, the setup screen 202 shown in FIG. 6 is displayed.
[0090]
On the setup screen 202, the name of the selected processing device (here, [Printer / DPC 1234], etc.) is displayed in the upper row, and “not set” and “set” are displayed below the processing device name. Check boxes 204 and 206 are provided, and it is possible to select whether or not to set a notification condition for the selected icon (service).
[0091]
When “not set” is selected (check box 204 is checked), the setting recognized in the I / F information and displayed in the property window 104 becomes valid.
[0092]
When “set” is selected (check box 206 is checked), the condition item setting screen 208 in the setup screen 202 is enabled, the setup contents of the selected icon are displayed, and the contents are sequentially selected.
[0093]
As described above, when the selected icon is a printer, the setup information is classified into three headings of “finishing”, “basic”, and “quality”, and the heading is positioned on the most display surface. The corresponding detailed setting screen is displayed, and various settings are executed in the UI format.
[0094]
When the printer setup is completed, the setup screen 202 is scrolled to display a condition item setting screen 208 for the next selected processing apparatus (for example, FAX), and each item is set in the same manner as described above.
[0095]
As a matter of course, in the above description, since the setting is made in the interactive format with the user, the setup information is set in the document format. However, like the flow window 102 (GUI), the setting information is internally set according to the programming language. It is processed.
[0096]
As described above, when setup information different from property information (I / F information) set in advance for each service is set, a special icon in the flow window 102 is displayed as a special icon as shown in FIG. By adding a mark (in FIG. 8, a circled “S” mark) 212 indicating that a special setup has been set, it can be determined whether or not special setup information has been set. .
[0097]
The client terminal 10 transmits the job flow information defined by the user's operation to the instruction form generation server 30 according to the CGI (Common Gateway Interface) format.
[0098]
The instruction form generation server 30 is configured to request each service based on the job flow information related to the service cooperation instruction from the user and the I / F information of each service, input parameters, and how to link each service. (Job Flow), and an instruction sheet defining information for specifying a document to be processed such as a document name and storage location information. The instruction sheet is composed of an XML format file.
[0099]
FIG. 5 is a diagram showing an instruction sheet configured in the XML format. Since the linkage processing itself of a plurality of services is also regarded as one service, the instruction form has a configuration in which <Flow> is added to the I / F information shown in FIG.
[0100]
<Flow> is an element that describes the cooperation between services, <Invoke>, elements such as <if> for controlling structure, logical operation, and condition determination, and XML for adjusting the cooperation between services It includes structure operation instructions and information for specifying a document to be processed.
[0101]
<Activation> represents a specific method of the service processing apparatus, and executes a service call. As elements of <startup>, a <map> indicating position information of parameters and a method name <method> to be called are included. <If>, <and>, <eq>, and <gt> indicating a control structure, logical operation, and the like perform conditional branching during coordination processing and adjust parameters passed between services.
[0102]
In the instruction sheet, all information related to the control of the service cooperation process is described in the <flow> element. Thereby, the cooperation processing itself represented by the instruction sheet is also regarded as one service. Note that the instruction sheet is not limited to the configuration shown in FIG. 5, and it is sufficient that the services can be linked.
[0103]
The instruction book generation server 30 transmits the XML format instruction book as described above to the instruction book management server 40. In addition, the instruction form generation server 30 may directly transmit the instruction form to the cooperation processing server 50 when the execution of the service cooperation processing is instructed by the user.
[0104]
The instruction sheet management server 40 holds the instruction sheet transmitted from the instruction sheet generating server 30 and transmits the instruction sheet to the cooperation processing server 50 in response to a request from the client terminal 10.
[0105]
The cooperation processing server 50 is a server that interprets and executes a specified instruction. When the instruction is transmitted, the cooperation processing server 50 interprets the instruction, and the image processing device 61, the document management server 62, the document distribution server 63, and the like according to the order and usage described in the instruction. Each service processing device is called in order to execute cooperation processing. Further, the cooperation processing server 50 stores information on the status of the cooperation processing being executed and the results of the cooperation processing that has been completed, and notifies the status and results of the cooperation processing in response to an external request.
[0106]
When the cooperation processing server 50 interprets the instruction sheet and requests each service processing apparatus, the cooperation processing server 50 generates individual instruction information including processing request contents, input parameters, information for specifying a processing target document, and the like. Note that the cooperation processing server 50 may describe the relationship with the processing before and after the processing performed by each service processing device in the instruction sheet, or a unique information exchange format for each service processing device instead of the format of the instruction sheet A processing request may be made at.
[0107]
The image processing device 61 is a computer in which a software program for performing an image processing function is installed. The image processing device 61 processes the document based on the service processing request content, the input parameters, and the processing target document information included in the processing request from the cooperation processing server 50. Further, the image processing apparatus 61 notifies the service search server 20 of the partial I / F information at the time of activation. Furthermore, the image processing apparatus 61 transmits I / F information indicating a method for using the image processing service in response to a request from the instruction sheet generation server 30. This I / F information is used when creating the instruction sheet.
[0108]
The document management server 62 has a document storage function. Based on the information included in the request from the cooperation processing server 50, the document management server 62 executes storage, retrieval, and reading of documents, change of attributes related to documents, and various processes. Further, the document management server 62 notifies the service search server 20 of the partial I / F information at the time of activation. Further, the document management server 62 transmits I / F information indicating how to use the document management service in response to a request from the instruction sheet generation server 30.
[0109]
The document distribution server 63 has a function of storing the acquired document in the instructed document management server, sending an e-mail or FAX to the instructed transmission destination, or performing a print output process to the instructed printer. ing. The document distribution server 63 performs document distribution processing based on a document instructed by the client terminal 10 and information on the distribution destination in response to a request from the cooperation processing server 50. Further, the document distribution server 63 notifies the partial I / F information to the service search server 20 at the time of activation. Further, the document distribution server 63 transmits I / F information indicating how to use the document distribution processing service in response to a request from the instruction sheet generation server 30.
[0110]
The first service processing device 64 is a device that performs predetermined service processing relating to a document in accordance with an instruction from the outside. Here, the first service processing device 64 executes the service processing to be executed by itself based on information such as the content of the processing request from the cooperation processing server 50, input parameters, and information for specifying the processing target document. To do. In addition, the first service processing device 64 notifies the partial I / F information to the service search server 20 at the time of activation. Further, the first service processing device 64 transmits I / F information indicating a service processing usage method in response to a request from the instruction form generation server 30. The second service processing device 65 operates in the same manner as the first service processing device 64 except for the contents of the service processing.
[0111]
In the document processing system 1 configured as described above, each service processing apparatus such as the image processing apparatus 61, the document management server 62, and the document distribution server 63 is installed with an application program for executing a predetermined service. And it works as follows.
[0112]
Service processing devices such as the image processing device 61, the document management server 62, and the document distribution server 63 notify the service search server 20 of partial I / F information including information indicating each service outline and address in the startup processing. .
[0113]
The service search server 20 stores partial I / F information transmitted from each service processing device such as the image processing device 61, the document management server 62, and the document distribution server 63. Accordingly, the service search server 20 can execute a search using the partial I / F information when a predetermined service search request is received from, for example, the instruction form generation server 30 or the cooperation processing server 50.
[0114]
(Creation of instructions)
FIG. 9 is a flowchart showing a processing procedure of the client terminal 10 and the instruction book generation server 30 when creating the instruction book.
[0115]
The client terminal 10 accesses the URL (Uniform Resource Locator) of the HTML file generated for the user interface screen provided by the instruction generation server 30 through the installed browser according to the user's operation (step 250).
[0116]
In response to the browsing request from the client terminal 10, the instruction form generation server 30 transmits the HTML file of the user interface screen to the client terminal 10 (step 252).
[0117]
The client terminal 10 displays the user interface screen based on the information constituting the screen included in the HTML file transmitted from the instruction generation server 30 (step 254). At this time, the user can define a desired service cooperation job flow using the user interface screen displayed on the client terminal 10.
[0118]
The client terminal 10 determines whether a job flow is defined via the user interface screen, and waits until the job flow is defined (step 256).
[0119]
If it is determined that the job flow is defined, it is determined in the next step 258 whether or not a setup information definition exists.
[0120]
That is, when setup information different from the settings (properties) set in advance for individual services defined in the job flow is designated, the process proceeds to step 260, and the designated setup information is set. Is added as an additional element of the job flow definition so that is effective in the corresponding service.
[0121]
The notification condition is set according to the following procedure.
[0122]
First, a service for which setup information is to be set is selected from the job flow defined on the completed flow window 102. For example, when a printer is selected, the pointer is placed on the printer icon, and the printer is selected by a predetermined operation (for example, one click of the mouse). The selected printer icon is highlighted (see FIG. 7).
[0123]
In the selected state, the setup menu 200B is selected from the tool menu 200A of the pull-down menu 200.
[0124]
When the setup menu 200B is selected, a setup screen 202 shown in FIG. 6 is displayed. The setup screen displays the name of the selected processing device, followed by the following.
[0125]
When “Set” is selected on the setup screen 202 (check box 206 is checked), the condition item setting screen 208 in the setup screen 202 is enabled, the setup information of the selected icon is displayed, and the setup information is sequentially selected. To do.
[0126]
When the setup screen is scrolled and the screens of one processing device unit are continuous, and two or more processing devices are selected, the setting of one processing device (here, a printer) is completed. By scrolling the screen, a setup screen corresponding to the next processing apparatus is displayed.
[0127]
When the above setting is completed and the setup screen 202 is closed, as shown in FIG. 8, an “S” mark 212 indicating that special setup information has been set is assigned to the corresponding icon in the flow window 102. This makes it possible to visually determine whether or not special setup information has been set.
[0128]
When the client terminal 10 determines that a job flow has been created, the client terminal 10 transmits job flow information related to service cooperation defined by the user to the instruction sheet generation server 30.
[0129]
The instruction form generation server 30 is configured to request each service based on the information related to the service link job flow transmitted from the client terminal 10 and the I / F information acquired from each service processing apparatus, and input parameters. Then, an instruction is defined that defines information for identifying the processing target document such as how to link each service, document name, storage location information, etc. (step 262). Then, the instruction sheet generation server 30 transmits an XML-format instruction sheet to the instruction sheet management server 40.
[0130]
The instruction management server 40 stores the instruction generated by the instruction generation server 30. The instruction sheet management server 40 stores a plurality of instructions created by the instruction sheet generation server 30 and reads out the selected instruction sheet when there is an instruction sheet selection instruction from the client terminal 10.
[0131]
(Start / execute linked processing)
The user can select a desired instruction from a plurality of instructions stored in the instruction management server 40 and start the cooperation process. Specifically, it is as follows.
[0132]
FIG. 10 is a flowchart showing the processing of the client terminal 10, the instruction book management server 40 and the cooperation processing server 50.
[0133]
The client terminal 10 accesses the instruction sheet management server 40 and acquires an instruction sheet list managed by the instruction sheet management server 40 (step 270).
[0134]
FIG. 11 is a diagram illustrating an example of the service cooperation process selection screen 110 representing the instruction list. The service cooperation process selection screen 110 has buttons 111 to 116 for selecting an instruction for each instruction. The user can select an instruction by clicking a desired button on the service cooperation processing selection screen 110.
[0135]
The client terminal 10 selects an instruction sheet representing a predetermined service cooperation process from the service cooperation process selection screen 110 based on a user operation instruction, and instructs activation of the instruction sheet. At this time, if necessary, a parameter input screen is displayed to the user to input parameters necessary for job execution.
[0136]
The instruction management server 40 transmits the instruction specified by the client terminal 10 to the cooperation processing server 50 (step 272). As a result, the cooperation processing server 50 starts execution of the cooperation processing.
[0137]
The cooperation processing server 50 interprets the instruction sheet transmitted from the instruction sheet management server 40 and executes the first service process on the image processing apparatus 61 that is the first process described in the instruction sheet. (Step 274). Specifically, the cooperation processing server 50, based on the information described in the instruction sheet, the location of the service processing device that requests processing, the input parameter and output parameter format required for the processing request, and the method for processing request Information specifying the name, activation method, and processing target document is extracted, and individual instruction information is created. The cooperation processing server 50 transmits the individual instruction information to the image processing apparatus 61 that is the first processing request destination.
[0138]
The image processing device 61 acquires the document by copying the processing target document based on the storage location information of the processing target document described in the transmitted instruction. The image processing device 61 interprets the service processing request contents for the acquired document image, performs image processing such as noise removal and OCR processing, and performs processing for binding with the extracted text document. The image processing device 61 re-stores the document in which the image document and the text document obtained by the image processing are bound to the original storage destination. When such processing is completed, the image processing apparatus 61 transmits processing results such as processing status information (completed), output parameters, processed document storage location information, and the like to the cooperative processing server 50.
[0139]
When the cooperation processing server 50 receives the processing result from the image processing device 61, the cooperation processing server 50 manages the first processing request result as a log. Then, the cooperation processing server 50 specifies the second processing request destination based on the instruction, and requests the document management server 62 to execute the second service processing (step 276). Similar to the first service processing request, the cooperation processing server 50 receives individual instruction information (information indicating that the document is information relating to the processing request, information on the storage destination of the document, and information specifying the processing target document). Transmit to the document management server 62.
[0140]
The document management server 62 performs storage processing on the document processed and stored in the previous processing (first service processing) based on the request content of the cooperation processing server 50 based on the storage location information described in the request content. . When such processing is completed, the document management server 62 transmits processing results such as processing status information (completed), output parameters, processed document storage destination information, and the like to the cooperation processing server 50.
[0141]
When the cooperation processing server 50 receives the processing result from the second service processing (document storage processing), the cooperation processing server 50 manages the second processing request result as a log. The cooperation processing server 50 specifies the third processing request destination based on the instruction, and requests the document distribution server 63 to execute the third service processing (step 278). Similarly to the second service processing request, the cooperation processing server 50 receives individual instruction information (information indicating that the document is information relating to the processing request, information on the storage destination of the document, and information specifying the processing target document). Transmit to the document distribution server 63.
[0142]
The document distribution server 63 converts the document processed and stored in the previous process (second service process) based on the request contents of the cooperation processing server 50 into the document file based on the information (storage destination information) specifying the document. Read and execute the process described in the request. Here, the document delivery server 63 sends a text document only to a mail address designated as a delivery destination among documents in which a text document and an image document are bound, and faxes only the image document to a designated fax number. Send. When the processing is completed, the document distribution server 63 transmits processing results such as processing status information (completion), output parameters, processed document storage destination information, and the like to the cooperative processing server 50.
[0143]
In this processing, the document distribution server 63, for example, if the destination is busy in the FAX transmission processing and cannot be connected to the destination even after retrying a predetermined number of times, the status information is “mail transmission: completed, FAX transmission” : Not transmitted ”to the cooperation processing server 50.
[0144]
When the cooperation processing server 50 receives the processing result from the third service processing and determines that the next processing is not described in the instruction sheet, the cooperation processing server 50 notifies the client terminal 10 that all processing has been completed. To complete the cooperation process (step 280).
[0145]
In the present embodiment, the service search server 20 acquires part of the I / F information (partial I / F information) from each service processing apparatus, but acquires all of the I / F information. May be.
[0146]
Here, in the present embodiment, the cooperation processing server 50 recognizes the setup information in each service as one of the partial I / F information shown in FIG.
[0147]
On the other hand, the instruction data may have a setup information definition different from the setting information (information displayed in the property window 104) set in advance for each service.
[0148]
When the processing apparatus to which the setup information is added is operated based on the job, the setup process is first executed with priority.
[0149]
Hereinafter, the setup process control will be described with reference to the flowchart of FIG.
[0150]
In step 300, the flag F is reset (0), and then the process proceeds to step 302, in which it is determined whether or not the setup data for the processing apparatus is defined in the instruction data, and a negative determination, that is, an instruction is made. If it is determined that the document data does not exist, the process proceeds to step 310 and the processing by the processing device is executed.
[0151]
On the other hand, if the determination in step 302 is affirmative, that is, if there is a setup information definition in the instruction sheet data, the process proceeds to step 304, the flag F is set (1), and then the process proceeds to step 306. The setup information is read out, and the process proceeds to step 308.
[0152]
In step 308, the setting condition is changed (updated) based on the read setup information, the process proceeds to step 310, and the processing by the processing apparatus is executed.
[0153]
When the process in step 310 is completed, it is determined in step 312 whether or not the flag F is set. If an affirmative determination is made, the process proceeds to step 14 and the original setting value (default value or setting before processing). Value) and this routine ends. If the determination in step 312 is negative, the setting is not changed and the process ends.
[0154]
As described above, in the first embodiment, even when the settings of the respective processing apparatuses are different for each job, the setting conditions set in advance can be changed to the instruction data by defining the setup data in the instruction data. It is updated with the setup information defined in, and the process is executed based on the updated condition. After the process is completed, the original setting condition is restored. The processing apparatus can be operated in a state, and processing with different settings can be performed for each job.
[0155]
Unlike the property window 104, the setup information is defined as additional information of the instruction data, so that the setting procedure is facilitated, and it is not necessary to set each processing device, so that the work efficiency is improved. Can be improved.
[0156]
In the first embodiment, the setup is defined when the setup information is defined immediately before the job flow, that is, immediately before the processing apparatus is operated. However, the setup defined before the start of the job is used. A processing device corresponding to the information may be searched, and setting information of the processing device may be set (updated) in advance by simultaneous broadcasting.
[0157]
In addition, when processing is performed in a state where the setting is continuously changed thereafter, instruction data dedicated to setup may be created.
[0158]
[Second Embodiment]
Next, a second embodiment of the present invention will be described. In addition, the same code | symbol is attached | subjected to the site | part same as 1st Embodiment, and detailed description is abbreviate | omitted.
[0159]
FIG. 13 is a block diagram for explaining the interrelationships among the service processing devices constituting the document processing system 10A according to the second embodiment. The document processing system 10A according to the second embodiment can execute cooperation processing of a plurality of services without using the cooperation processing server 50 shown in FIGS.
[0160]
The document processing system 10A includes each service processing apparatus (excluding the cooperation processing server 50) shown in FIG. 1, but FIG. 13 shows only the service processing apparatus related to the cooperation processing.
[0161]
(Start / execute linked processing)
The user can select a desired instruction from a plurality of instructions stored in the instruction management server 40 and start the cooperation process. Specifically, it is as follows.
[0162]
In response to a user operation, the client terminal 10 selects an instruction sheet representing a desired service cooperation process from the service cooperation process selection screen and instructs the activation of the instruction sheet. The instruction sheet management server 40 transmits the instruction sheet instructed by the client terminal 10 to the image processing device 61.
[0163]
The image processing apparatus 61 acquires a processing target document based on the storage location information of the processing target document described in the transmitted instruction. The image processing device 61 interprets the service processing request contents for the acquired document image, performs image processing such as noise removal and OCR processing, and performs processing for binding with the extracted text document. The image processing device 61 deletes the service processing request described in the instruction after the completion of the predetermined image processing. The image processing device 61 has a processing result such as a document in which an image document obtained by image processing and a text document are bound, processing status information (completed), output parameters, processed document storage location information, and the like. The instruction is transmitted to the document management server 62 that provides the next service process.
[0164]
The document management server 62 temporarily stores the document transmitted from the image processing device 61 in the storage location described in the instruction sheet. Then, the document management server 62 deletes the service processing request described in the instruction, and transmits the document and the instruction to the document distribution server 63 that performs the next service processing.
[0165]
Further, the image processing apparatus 61 may correct or delete the part related to its service request described in the instruction sheet after the predetermined image processing is completed, and transmit it to the document management server 62. Further, the image processing device 61 may be configured to transmit the instruction sheet to the next service processing device after the predetermined image processing is completed.
[0166]
Based on the instructions, the document distribution server 63 sends, by e-mail, only the text document among the documents in which the text document and the image document are bound to the mail address specified as the distribution destination, and the FAX that specifies only the image document. Send a fax to the number. When the document distribution server 63 determines that the next process is not described in the instruction sheet, the document distribution server 63 notifies the client terminal 10 that all processes have been completed, and ends the cooperation process.
[0167]
Also in the second embodiment, by adding the setup information described in the first embodiment to the instruction sheet data, the processing apparatus can be operated with the optimum setting condition for the job in each service. Can be made.
[0168]
In the first embodiment, setting (updating) of the setting information of each processing apparatus is set as the main toshite and setup information. However, the setup information is not limited to setting (updating) of the setting information. You may make it define the diagnostic program of an apparatus. By defining this diagnostic program, it is possible to perform a self-diagnosis in each selected processing device before the start of the job and eliminate factors that hinder the progress of the job.
[0169]
In the first and second embodiments, the icon displayed in the flow window 104 is the selection icon, but the icon stored in the service window 101 may be the selection icon.
[0170]
【The invention's effect】
As described above, according to the present invention, it is possible to efficiently instruct setting of setting information and execution of a diagnostic program to each of processing apparatuses to be processed in a complex manner. It has the effect.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an outline of a document processing system according to a first embodiment of the present invention.
FIG. 2 is a block diagram for explaining the interrelationships between the service processing devices constituting the document processing system according to the first embodiment of the present invention.
FIG. 3 is a schematic diagram showing a configuration of I / F information according to the first embodiment of the present invention.
FIG. 4 is a front view of an instruction creation screen that is a GUI screen for defining a job flow according to the first embodiment of the present invention.
FIG. 5 is a schematic diagram showing an instruction sheet configured in an XML format according to the first embodiment of the present invention.
FIG. 6 is a front view of an instruction form creation screen displaying a notification processing condition setting screen according to the first embodiment of the present invention.
FIG. 7 is a front view of an instruction creation screen when a service for setting setup information according to the first embodiment of the present invention is selected.
FIG. 8 is a front view of an instruction creation screen after setup information is set according to the first embodiment of the present invention.
FIG. 9 is a flowchart showing a processing procedure of the client terminal and the instruction book generation server when creating the instruction book according to the first embodiment of the present invention.
FIG. 10 is a flowchart showing processing of a client terminal, an instruction book management server, and a cooperation processing server according to the first embodiment of the present invention.
FIG. 11 is an explanatory diagram showing an example of a service cooperation process selection screen representing an instruction list according to the first embodiment of the present invention.
FIG. 12 is a flowchart showing a setup process control routine according to the first embodiment of the present invention.
FIG. 13 is a block diagram for explaining the interrelationship between service processing devices constituting a document processing system according to a second embodiment of the present invention.
[Explanation of symbols]
1 Document processing system (service processing system)
5 network
10 Client terminal
20 Service search server
30 Instruction book generation server (instruction data creation means)
40 Instruction sheet management server
50 Cooperative processing server (management control means, processing device specifying means, setting means)
61 Image processing device
62 Document management server
63 Document distribution server
64 1st service processing apparatus
65 Second service processing apparatus
100 Instruction creation screen
101 Service window
102 Flow window
103 Logic window
104 Properties window
200 pull-down menu
200A Tool menu
200B setup menu
202 Setup screen
204, 206 check box
208 Condition item setting screen
210 Menu screen
212 mark

Claims (13)

A service processing system that processes a plurality of networked processing devices in cooperation with each other in order to process a service that performs predetermined processing in combination with document data.
For each job that is a complex processing unit, instruction data for instructing the processing procedure of the job, and identification information of the target processing device and execution of processing for at least one of the processing devices related to the job Instruction data creating means for creating setup data composed of setting information which is a diagnostic program for diagnosing the suitability of
Management control means for managing the progress of each process in the job based on the contents described in the instruction data created by the instruction data creating means;
Processing device specifying means for specifying a target processing device based on identification information described in the setup data according to the progress of each processing in the job;
Setting means for setting the setting information for the processing device specified by the processing device specifying means;
A service processing system.   Before starting the processing of the job, the processing device instructed by the instruction data is searched based on identification information of the setup data, and setting information is set prior to the processing of the job. The service processing system according to claim 1.   The service processing system according to claim 2, wherein the setting information corresponding to each of the processing devices searched based on the identification information is broadcast simultaneously. A service processing system for processing a plurality of networked processing devices in cooperation with each other,
Instruction data creating means for creating setup data composed of identification information of the target processing device and setting information which is a diagnostic program for diagnosing the suitability of the processing for at least one of the processing devices ,
Among the instruction data created by the instruction data creating means, a processing device specifying means for specifying a target processing device based on the identification information;
Setting means for setting the setting information for the processing device specified by the processing device specifying means;
A service processing system. A service processing method for performing processing in cooperation with a plurality of networked processing devices in order to process a service that performs predetermined processing in combination with document data,
For each job that is a complex processing unit, instruction data for instructing the processing procedure of the job, and identification information of the target processing device and execution of processing for at least one of the processing devices related to the job Create setup data consisting of setting information that is a diagnostic program for diagnosing the suitability of
Based on the content described in the created instruction data, manage the progress of each process in the job,
In accordance with the progress of each process in the job, the target processing device is identified based on the identification information described in the setup data,
A service processing method, wherein the setting information is set for the identified processing device.   Before starting the processing of the job, the processing device instructed by the instruction data is searched based on identification information of the setup data, and setting information is set prior to the processing of the job. The service processing method according to claim 5.   7. The service processing method according to claim 6, wherein the setting information corresponding to each of the processing devices searched based on the identification information is broadcast simultaneously. A service processing method for processing a plurality of networked processing devices in cooperation with each other,
For at least one of the processing devices, create setup data composed of identification information of the target processing device and setting information that is a diagnostic program for diagnosing the suitability of execution of the processing ,
Of the created instruction data, based on the identification information, identify the target processing device,
A service processing method, wherein the setting information is set for the identified processing device. A service processing program that processes a plurality of networked processing devices in cooperation with each other in order to process a service that performs predetermined processing in combination with document data.
On the computer,
For each job that is a complex processing unit, instruction data for instructing the processing procedure of the job, and identification information of the target processing device and execution of processing for at least one of the processing devices related to the job An instruction data creation process for creating setup data composed of setting information which is a diagnostic program for diagnosing the suitability of
Based on the contents described in the instruction data created in the instruction data creation process, a management control process for managing the progress of each process in the job;
In accordance with the progress of each process in the job, based on the identification information described in the setup data, a processing device specifying step for specifying a target processing device,
A setting step for setting the setting information for the processing device identified in the processing device identification step;
A service processing program for executing a process comprising:   Before starting the processing of the job, the processing device instructed by the instruction data is searched based on identification information of the setup data, and setting information is set prior to the processing of the job. The service processing program according to claim 9.   11. The service processing program according to claim 10, wherein the setting information corresponding to each of the processing devices searched based on the identification information is broadcast simultaneously. A service processing program for processing a plurality of networked processing devices in cooperation with each other,
On the computer,
An instruction data creation step for creating setup data composed of setting information which is a diagnostic program for diagnosing the identification information of the target processing device and the suitability of execution of the processing for at least one of the processing devices; ,
Among the instruction data created by the instruction data creating means, a processing device specifying step for specifying a target processing device based on the identification information;
A setting step for setting the setting information for the processing device identified in the processing device identification step;
A service processing program for executing a process comprising:   13. The method according to claim 9, wherein the setting information is at least one of parameter data for executing the process or a diagnostic program for diagnosing the suitability of the execution of the process. Service processing program described in the section.

Images