JP2013038587A - Image processing system, image processing device, control method of the same, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image processing system, an image processing device, a control method of the same, and a program capable of executing cooperative processing via a host device located outside a firewall.SOLUTION: An image processing device 102 comprises: request means which requests a host device 101 to execute cooperative processing with another image processing device 103; acquisition means which in response to the request by the request means, acquires an access instruction for access to the host device 101 by the image processing device 103, from the host device 101; and transmission means which transmits to the image processing system 103 the access instruction acquired by the acquisition means.

Description

  The present invention relates to an image processing system, an image processing apparatus, a control method thereof, and a program, and more particularly, to an image processing system, an image processing apparatus, a control method thereof, and a program that execute cooperative processing through communication.

  It is known that an information processing apparatus such as a PC is connected to a Web server on a network, and an operation screen provided by the Web server is displayed on a Web browser provided in the information processing apparatus.

  In this case, the Web browser of the information processing apparatus requests an operation screen from the Web server. In response to a request from the information processing apparatus, the Web application on the Web server transmits an HTML file for displaying an operation screen on the Web browser to the information processing apparatus. The Web browser of the information processing apparatus analyzes the received HTML file and displays an operation screen based on the description of the received HTML file.

  Further, when the user inputs an instruction using the operation screen displayed on the Web browser, the Web browser notifies the input instruction to the Web server. Then, the Web application on the Web server that has received this notification executes processing according to the instruction.

  Incidentally, recently, some MFPs (Multi-Function Peripherals) equipped with a scanner and a printer are equipped with a Web browser as described above. Then, the MFP displays an operation screen provided by the Web server on the Web browser of the MFP using the procedure described above, and accepts various instructions from the user.

  An instruction input by the user on this operation screen is notified to the Web server by the Web browser of the MFP. Upon receiving the notification, the Web server requests the MFP to execute various processes according to the content of the instruction input from the user.

  Upon receiving this request, the MFP executes the requested processing. As a result, it is not necessary to store all menu data for operating the MFP in the MFP, and the menu data can be changed only by the Web server.

  Further, as a technology example in which the present technology is further expanded, a technology is considered in which one job is processed not only by one MFP but also by a plurality of MFPs (see, for example, Patent Document 1). Japanese Patent Application Laid-Open No. 2005-228561 describes, as an example of cooperative processing, image data read by a scanner of one MFP is printed by a printer of the other MFP to perform cooperative processing.

  At this time, in Patent Document 1, the image data read by the scanner of one MFP is once transmitted to the server apparatus, and the server apparatus notifies the other MFP of the image data and the print instruction, thereby realizing this copy processing. ing.

  If the Web server described in the prior art is installed on the Internet, it can be conveniently accessed from more image processing apparatuses such as MFPs.

JP 2006-203870 A

  However, when the Web server is installed on the Internet, there are the following problems when the technique of Patent Document 1 is used. That is, generally in a private network environment such as a LAN (hereinafter referred to as “internal network”), a firewall is installed from the viewpoint of security when connecting to an external network such as the Internet.

  In general, a firewall permits data communication going from the internal network to the external network, and prohibits data communication entering the internal network from the external network.

  Therefore, data communication from the external network to the internal network is often permitted only when it is a response to data communication from the internal network to the external network.

  When the technique of Patent Document 1 is used in such an environment, data communication for transmitting image data read by the scanner of one MFP to the server apparatus is permitted, but the server apparatus transmits the image data to the other MFP. Data communication to be transmitted to is prohibited.

  As described above, the conventional technique has a problem when a server apparatus existing in an external network is used to perform cooperation processing with a plurality of image processing apparatuses existing in the internal network.

  An object of the present invention is to provide an image processing system, an image processing apparatus, a control method thereof, and a program that can execute cooperative processing via a host apparatus.

  In order to achieve the above object, an image processing system according to claim 1 is an image processing system in which a plurality of image processing devices execute cooperative processing via a higher-level device, and among the plurality of image processing devices, The request source image processing device that requests the cooperation processing includes: a request unit that requests the host device to execute cooperation processing with another image processing device; and the host device in response to a request from the request unit. A first acquisition unit that acquires an access instruction for the other image processing apparatus to access the host apparatus, and a first acquisition unit that transmits the access instruction acquired by the first acquisition unit to the other image processing apparatus. The other image processing apparatus accesses the higher-level apparatus according to the access instruction received from the request source image processing apparatus, and the other image processing apparatus A second acquisition unit that acquires an execution instruction that indicates a process to be executed in a portable process; and an execution unit that executes a process according to the execution instruction acquired by the second acquisition unit, When cooperation processing is requested from the request source image processing apparatus, a registration unit that registers the execution instruction, a creation unit that creates the access instruction, and an access instruction created by the creation unit is used as the request source image processing apparatus. And a second transmitting means for transmitting to.

  ADVANTAGE OF THE INVENTION According to this invention, the image processing system which can perform a cooperation process via a high-order apparatus, an image processing apparatus, its control method, and a program can be provided.

1 is a diagram illustrating a schematic configuration of an image processing system according to an embodiment of the present invention. It is a figure which shows the hardware constitutions of the web server in FIG. 1, and a composite device. It is a figure which shows the software structure of the web server in FIG. 1, and a composite device. It is a figure which shows the example of a menu displayed by the web browser of the composite device in FIG. FIG. 3 is a flowchart showing a response process executed by a Web application when the CPU in FIG. 2 operates. FIG. It is a flowchart which shows the procedure of the execution instruction response process performed by CPU in FIG. It is a figure which shows an example of an execution instruction and an access instruction.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a diagram showing a schematic configuration of an image processing system 100 according to an embodiment of the present invention.

  In FIG. 1, an image processing system 100 includes a Web server 101 (higher-level device) and a plurality of composite devices 102 and 103 (image processing devices), each connected via a network 104. This network 104 includes a LAN and the Internet. The plurality of composite devices 102 and 103 can communicate with each other without going through a firewall, and the Web server 101 exists outside the firewall of the plurality of composite devices 102 and 103.

  In this embodiment, the composite devices 102 and 103 are devices such as a printer and a scanner that combine various functions related to image processing. However, the devices can communicate with other devices via a network. It may be. Furthermore, in the present embodiment, two composite devices 102 and 103 are shown, but there may be three or more. Since the composite devices 102 and 103 have the same configuration, the following description will be made mainly using the composite device 102.

  The Web server 101 performs a process of receiving a request from the Web browser 301 of the composite device 102 described in FIG. 3 and returning GUI data as a response.

  Further, the Web server 101 receives the request for the selection function embedded in the GUI data from the Web browser 301, and creates an execution instruction for each service application of at least one of the corresponding composite device 102 and the composite device 103.

  Then, the Web server 101 performs processing for directly embedding an execution instruction for the composite device 102 operated from the Web browser 301 in a response to the request.

  On the other hand, the Web server 101 manages an execution instruction for the composite device 103 to be remotely executed, and creates an access instruction for the final execution instruction. Then, processing for embedding the created access instruction in the response to the composite device 102 is performed.

  Then, the Web server 101 performs processing for transmitting a response including an execution instruction to each composite device to the composite device 102. The execution instruction includes an access instruction.

  The Web server 101 receives notification from the composite device 102 that has operated the function execution result of each composite device, and performs processing for creating GUI data indicating the operation result and responding to the Web browser 301.

  The composite device 102 includes the Web browser 301 and the service application described with reference to FIG. 3. The composite device 102 transmits a display GUI data request or a selection function request to the Web server 101 and includes a response including an instruction to each composite device. Receive.

  In addition, processing for transmitting each instruction included in the received response to the composite device 102 and the target composite device 103 is performed.

  Furthermore, the function execution result to which each instruction is allocated is received and transmitted to the Web server 101, and a GUI indicating the operation result as a response is received and each response screen is displayed.

  As described above, in the image processing system 100, a plurality of composite devices 102 and 103 execute cooperation processing via the Web server 101. In the present embodiment, the composite device 102 corresponds to a request source image processing apparatus that requests cooperation processing among a plurality of composite devices. Further, the composite device 103 is compatible with other image processing apparatuses.

  FIG. 2 is a diagram illustrating a hardware configuration of the Web server 101 and the composite device 102 in FIG. Since the composite device 103 has the same configuration as the composite device 102, the description thereof is omitted.

  In FIG. 2, a control unit 201 including a CPU 202 comprehensively controls the composite device 102. The CPU 202 reads the control program stored in the ROM 203 and executes various control processes. The RAM 204 is used as a temporary storage area such as a main memory and work area for the CPU 202.

  The HDD 205 stores image data, various programs, or various information tables. The operation unit I / F 206 connects the operation unit 211 and the control unit 201. The operation unit 211 includes a display unit such as a liquid crystal display unit having a touch panel function and a keyboard.

  A printer I / F 207 connects the printer 212 and the control unit 201. Image data to be printed by the printer 212 is transferred from the control unit 201 to the printer 212 via the printer I / F 207 and printed on a recording medium by the printer 212.

  A scanner I / F 208 connects the scanner 213 and the control unit 201. The scanner 213 reads an image on a document, generates image data, and passes the image data to the control unit 201 via the scanner I / F 208.

  A network I / F 209 is a control unit that transmits and receives various types of information to and from the Web server 101 on the network 104. When the apparatus is powered on in the above-described configuration of the composite device 102, the CPU 202 initializes the apparatus according to the boot program stored in the ROM 203, loads the OS in the HDD 205, and then operates various applications.

  Next, the control configuration of the Web server 101 will be described.

  A control unit 221 including a CPU 223 controls the Web server 101 in an integrated manner. The CPU 223 reads the control program stored in the ROM 224 and executes various control processes.

  The RAM 225 is used as a temporary storage area such as a main memory or work area for the CPU 223. The HDD 226 stores image data, various programs, or various information tables. The network I / F 222 is a control unit that connects the control unit 221 to the network 104 and transmits / receives various information to / from the composite device on the network 104.

  When the apparatus is turned on in the above configuration of the Web server 101, the CPU 223 initializes the apparatus according to the boot program stored in the ROM 224, loads the OS in the HDD 226, etc., and then operates various applications.

  FIG. 3 is a diagram illustrating a software configuration of the Web server 101 and the composite device 102 in FIG. Since the composite device 103 has the same configuration as the composite device 102, the description thereof is omitted.

  In FIG. 3, each software function in the composite device 102 is realized by the CPU 202 executing a program stored in the ROM 203 or the HDD 205. Each software function in the Web server 101 is realized by the CPU 223 executing a program stored in the ROM 224 or the HDD 226.

  In the composite device 102, various types of information used at the time of execution are held in the RAM 204 or the HDD 205, and these are exchanged between software functions.

  Similarly, in the Web server 101, various information used at the time of execution is held in the RAM 225 or the HDD 226, and these are exchanged between software functions.

  Communication with an external device is performed using the network I / F 209 for the composite device 102 and the network I / F 222 for the Web server 101.

  Next, each software function will be described.

  The composite device 102 includes a Web browser 301, a print service application 306, a scan service application 307, a print function unit 308, and a scan function unit 309. In addition, the configuration includes an instruction receiving unit 311, an execution instruction executing unit 312, and an execution instruction acquiring unit 313, which are features in the present embodiment.

  The web browser 301 includes a display unit 302, an operation unit 303, an analysis unit 304, a communication unit 305, and an instruction transmission unit 310.

  The communication unit 305 communicates with the presentation unit 322 of the Web application 321 according to the HTTP protocol. Specifically, the web application 321 is requested for an instruction from the operation unit 303, GUI data from the presentation unit 322 is received as a response, and the processing is passed to the analysis unit 304. Accordingly, the communication unit 305 corresponds to a request unit that requests the Web server 101 to execute cooperation processing with the composite device 103.

  In addition, when a function is selected by the operation unit 303, the communication unit 305 receives a response including an execution instruction for a request for the selected function, and performs processing to pass to the analysis unit 304.

  When the response received by the communication unit 305 is GUI data, the analysis unit 304 performs processing to analyze the GUI data and pass it to the display unit 302 as displayable data. On the other hand, when the response received by the communication unit 305 includes an execution instruction, the analysis unit 304 passes the execution instruction to the instruction transmission unit 310.

  Specifically, it is assumed that one or more execution instructions are stored as SOAP requests in the HTTP response, and each execution instruction stores a transmission destination address of the composite device, an execution command, its parameters, and the like.

  When the execution instruction is an instruction to access the Web server 101 which is a feature of the present embodiment, contents indicating that the execution instruction is acquired from the Web server 101 is set in the execution command. In addition, an access address for acquiring an execution instruction managed by the execution instruction management unit 325 of the Web server 101 is set in the parameter.

  The analysis unit 304 performs processing for analyzing an instruction from the operation unit 303 and passing the request to the communication unit 305.

  The display unit 302 performs processing for displaying the display data received from the analysis unit 304 on the operation unit 211.

  The operation unit 303 performs a process of receiving an instruction from the operation unit 211 and passing it to the analysis unit 304 when an instruction is given to the screen displayed on the display unit 302.

  The instruction transmission unit 310 transmits one or more execution instructions passed from the analysis unit 304 to the transmission address of the corresponding composite device. At this time, if the destination address of the composite device is the composite device 102, it is transmitted to the instruction receiving unit 311 of the composite device 102. If the composite device 103 is to be executed remotely, it is transmitted to the instruction receiving unit 311 of the composite device 103. Therefore, the instruction transmission unit 310 corresponds to a first transmission unit that transmits the acquired access instruction to the composite device 103.

  As described above, the Web browser 301 exchanges contents indicating screen display and operation instructions in the composite device 102 with the Web application 321. Further, when receiving an execution instruction, the Web browser 301 communicates with the instruction receiving unit 311 of each composite device.

  The instruction receiving unit 311 receives the execution instruction transmitted from the instruction transmitting unit 310 in its own composite device 102 or the external composite device 103. The received execution instruction is passed to the execution instruction execution unit 312.

  The execution instruction execution unit 312 performs processing corresponding to the execution instruction passed from the instruction reception unit 311. When the execution instruction is an instruction to access the Web server 101 which is a feature of the present embodiment, a process of passing the execution instruction to the execution instruction acquisition unit 313 is performed.

  Note that the execution instruction execution unit 312 causes the print service application 306 to execute each function according to the execution instruction when the execution instruction is a print instruction, for example, and when the execution instruction is a scan instruction, according to the execution instruction. Therefore, the execution instruction execution unit 312 corresponds to an execution unit that executes processing according to the acquired execution instruction.

  The execution instruction acquisition unit 313 receives the execution instruction from the execution instruction execution unit 312. The received execution instruction is an access instruction to the Web server 101 which is a feature of the present embodiment, and an execution instruction managed by the execution instruction management unit 325 of the Web server 101 set as a parameter according to the access instruction is acquired. Get the access address for Accordingly, the execution instruction acquisition unit 313 accesses the Web server 101 according to the access instruction received from the composite device 102, and obtains an execution instruction indicating a process executed by the composite device 103 in the cooperation process. Correspond.

  The execution instruction acquisition unit 313 acquires an execution instruction stored in the Web server 101 as a final execution instruction using the access address. The acquired execution instruction is transferred to the execution instruction execution unit 312, and the execution instruction execution unit 312 executes each function in accordance with the final execution instruction.

  A print service application 306 is a service application that causes the print function unit 308 of the composite device 102 to operate according to an instruction from the execution instruction execution unit 312.

  The scan service application 307 is a service application that causes the scan function unit 309 of the composite device 102 to operate according to an instruction from the execution instruction execution unit 312.

  The print function unit 308 controls the printer 212 via the printer I / F 207. The scan function unit 309 controls the scanner 213 via the scanner I / F 208.

  Next, software functions of the Web server 101 will be described.

  The web server 101 includes a web application 321. Further, the Web application 321 includes a presentation unit 322, a logic unit 323, an execution instruction creation unit 324, and an execution instruction management unit 325.

  The presentation unit 322 communicates with the communication unit 305 and transmits display GUI data of the Web browser 301 to the communication unit 305 in response to a request from the Web browser 301.

  In addition, the presentation unit 322 receives a request from the operation unit 303 for the screen displayed on the display unit 302 of the Web browser 301. Furthermore, when the received request is a request related to the selection function, the presentation unit 322 passes the request for the selection function to the logic unit 323 and performs processing related to each execution instruction corresponding to the selection function.

  The logic unit 323 receives a request for a selection function from the presentation unit 322. Then, in order to create an execution instruction corresponding to the request for the selection function, an execution instruction is created using the execution instruction creation unit 324.

  Note that the logic unit 323 performs the following processing that is a feature of the present embodiment when the composite device that is the target of the execution instruction is a composite device other than the request source.

  The logic unit 323 first performs processing for registering the created execution instruction in the execution instruction management unit 325, and acquires access information to the registered execution instruction. Then, the logic unit 323 creates an access instruction using the access information acquired by the execution instruction creation unit 324.

  As described above, when the target composite device is not the composite device to be operated, the logic unit 323 registers the execution instruction in the execution instruction management unit 325 and uses the access information to the execution instruction management unit 325 to access the instruction. Can be created.

  The execution instruction creation unit 324 creates an execution instruction to be executed by the execution instruction execution unit 312 of the composite device 102 in accordance with an instruction from the logic unit 323. This execution instruction includes an access instruction.

  The execution instruction management unit 325 manages the execution instruction according to the registration instruction from the logic unit 323 and provides access information. When accessed according to the provided access information, the execution instruction management unit 325 provides a target execution instruction.

  Note that the registered execution instruction may be deleted when the access is completed, or may be deleted by providing a timer for a certain period of time, and is not particularly limited in the present embodiment.

  FIG. 4 is a view showing a menu display example displayed by the Web browser 301 of the composite device 102 in FIG.

  Note that this menu display example is an example in which the GUI data generated in advance by the presentation unit 322 is displayed by the Web browser 301.

  In FIG. 4, a screen 401 shows the entire screen displayed by the Web browser 301 in the composite device 102, and includes a menu 402 and a menu 403.

  A menu 402 and a menu 403 are menu examples for selecting and printing an arbitrary document.

  A menu 402 is an example of a menu for printing the selected document on the composite device 102 only by the print service application 306.

  On the other hand, the menu 403 is an example of a menu for performing distributed printing of the print processing of the selected document using the print service application 306 of another multifunction peripheral such as the multifunction device 102 or the multifunction device 103.

  The Web server 101 has a mechanism for executing an HTTP request for transmitting a selection function corresponding to the selected menu for each of the menus 402 and 403. However, a known means may be used as the mechanism.

  Also, it is assumed that the response to the HTTP request corresponding to the selected menu is received by the communication unit 305 of the composite device 102 for all execution instructions for the composite device 102 and the composite device 103 used remotely.

  FIG. 5 is a flowchart showing a procedure of response processing executed by the Web application 321 when the CPU 223 in FIG. 2 operates.

  The response process in FIG. 5 is a process from when the Web application 321 receives a request from the Web browser 301.

  In FIG. 5, when a request is received, the received request content is analyzed (step S501). Next, it is determined whether or not the request content is a function selection (step S502). The request content is either a function selection such as screen update or a screen update instruction. If the requested content is function selection, the target composite device and service application are analyzed.

  If the result of determination in step S502 is that the requested content is not function selection (NO in step S502), normal screen processing, for example, processing for creating an update screen is performed (step S503), and the flow proceeds to step S510.

  On the other hand, if the result of determination in step S502 is that the requested content is function selection (YES in step S502), an instruction to execute the target function is created (step S504). The execution instruction includes, for example, an example of creating an XML file, but is not particularly limited in the present embodiment and may be a known method.

  Next, it is determined whether or not the created execution instruction is an execution instruction for the requesting composite device 102 (step S505). An example of the composite device other than the request source is the composite device 103.

  As a result of the determination in step S505, when the execution instruction is an execution instruction for the request source (YES in step S505), the process proceeds to step S508.

  On the other hand, if the result of determination in step S505 is that the execution instruction is not an execution instruction for the request source (NO in step S505), the created execution instruction is registered in the execution instruction management unit 325 (step S506). By this registration, the registered execution instruction becomes acquirable from the composite device 103, and the access information is transmitted as a registration result. The above step S506 corresponds to a registration unit that registers an execution instruction when a cooperation process is requested from the composite device 103.

  Next, an access instruction is created using the access information acquired when the execution instruction is registered in step S506 (step S507), and the process proceeds to step S508. This step S507 corresponds to creating means for creating an access instruction.

  This access instruction becomes an execution instruction for the execution instruction acquisition unit 313 to acquire from the execution instruction management unit 325 in order to acquire a final execution instruction from the Web server 101 in the execution instruction execution unit 312 of the composite device. .

  Then, the execution instruction acquired by the execution instruction acquisition unit 313 from the execution instruction management unit 325 using the access instruction is finally executed by the execution instruction execution unit 312 for the service application indicated by the execution instruction.

  Next, when the execution instruction is the requesting composite device 102, the execution instruction created in step S504 is added to the HTTP response (step S508). If the execution instruction is the composite device 103 other than the request source, the access instruction execution instruction created in step S507 is added to the HTTP response to the request source request (step S508).

  Next, it is determined whether or not all execution instructions have been created (step S509). This is a step of determining whether or not execution instructions have been created for all the composite devices that create execution instructions when a function selection request is made to a plurality of composite devices.

  If it is determined in step S509 that there is an execution instruction that has not yet been created (NO in step S509), the process returns to step S504 to create the next execution instruction.

  For example, in the example of FIG. 4, when the menu 402 is selected, printing is performed only by the requesting composite device 102. However, when the menu 403 is selected, execution instructions are generated for the two composite devices of the request source composite device 102 and the composite device 103 other than the request source. Note that the execution instruction here is an access instruction for the composite device 103 as described above.

  As a result of the determination in step S509, when all execution instructions have been created (YES in step S509), a response to which each execution instruction reflecting the processing of each step is added to the web browser 301 as a response to the request ( Step S510), the process is terminated. The step S510 corresponds to a second transmission unit that transmits the created access instruction to the composite device 102.

  According to the response processing described above, the Web application 321 which is a feature of the present embodiment determines whether the requested selection function is a request source or another composite device. It can be managed by the Web server 101 and an access instruction can be transmitted.

  FIG. 6 is a flowchart showing the procedure of the execution instruction handling process executed by the CPU 202 in FIG.

  The execution instruction to the composite device 102 is included when the composite device 102 instructed from the Web browser 301 has received a response to the selection function request transmitted in step S510. Further, the execution instruction to the composite device includes an instruction transmitted by the instruction transmission unit 310 to the instruction reception unit 311 such as the composite device 102 or another composite device 103.

  In FIG. 6, first, an execution instruction is received (step S601). Next, the received execution instruction is analyzed (step S602). Here, it is analyzed whether the execution instruction is a final execution instruction or an access instruction. Step S601 corresponds to a first acquisition unit that acquires an access instruction for the composite device 103 to access the Web server 101 from the Web server 101 in response to a request.

  Next, it is determined whether or not the execution instruction is a final execution instruction or an access instruction to an execution instruction managed by the execution instruction management unit 325 in the Web server 101 (step S603).

  This execution instruction is either the execution instruction created in step S504 or the access instruction created in step S507.

  If the result of determination in step S603 is a final execution instruction (“final execution instruction” in step S603), the function is executed in accordance with the execution instruction (step S605), and the process proceeds to step S606. The execution of the function here is the execution of the target function such as a service application.

  On the other hand, if the result of determination in step S603 is an access instruction (“access instruction” in step S603), an execution instruction is acquired according to the access instruction (step S604). In step S604, the execution instruction management unit 325 of the Web server 101 acquires the execution instruction managed by the registration in step S506 using the execution instruction acquisition unit 313 according to the access instruction. In step S604, a final execution instruction is acquired, and the process advances to step S605.

  Next, the result executed in step S605 is transmitted to the execution instruction source (step S606), and this process ends.

  According to the execution instruction handling process of FIG. 6, in the composite device that is a feature of the present embodiment, it is determined whether it is an execution instruction or an access instruction, and in the case of an access instruction, the final execution instruction managed on the Web server 101 The function can be executed by acquiring. As shown in FIGS. 5 and 6, the Web server 101 transmits another execution instruction indicating processing executed by the composite device 102 in the cooperation processing to the composite device 102, and the composite device 102 The process is executed according to the execution instruction.

  FIG. 7 is a diagram illustrating an example of an execution instruction and an access instruction.

  In FIG. 7, each parameter is described in units of one line. However, the XML format may be used, and the format is not particularly limited in the present embodiment.

  An execution instruction example 701 shown in FIG. 7 shows an example of print processing in which “command” is “print”.

  As shown in the figure, in the case of print processing, the document to be printed, the number of copies, layout, paper size, paper orientation, etc. are listed, but various other parameters related to printing should be set. May be.

  On the other hand, in the access instruction example 702, the “command” is “execution instruction acquisition”. That is, the access instruction example 702 indicates access instruction acquisition.

  Another parameter is “location”, which indicates the access address of the Web server 101 to be acquired.

  As described above, compared to the execution instruction example 701, the access instruction example 702 has a limited parameter and a small data size, so that the load on the composite device 102 via the execution instruction and the access instruction can be reduced. it can.

  As described above, by using this embodiment as described with reference to the drawings, the following becomes possible.

  First, in the Web application 321 which is a feature of the present embodiment, the execution instruction management unit 325 manages an execution instruction when a function selection request from the Web browser 301 is an instruction to a composite device other than the request source. The access instruction can be transmitted.

  Further, in the execution instruction execution unit 312 which is a feature of the present embodiment, when the received instruction is an access instruction, the final execution managed by the execution instruction management unit 325 using the execution instruction acquisition unit 313 An instruction can be acquired and a function can be executed.

  With the above two implementations, when the Web server 101 is on the Internet, when executing functions on each composite device via the operated composite device 102, the Web system that reduces the load on the composite device 102 Can be realized.

(Other embodiments)
The present invention is also realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, etc.) of the system or apparatus reads the program code. It is a process to be executed. In this case, the program and the storage medium storing the program constitute the present invention.

DESCRIPTION OF SYMBOLS 100 Image processing system 101 Web server 102,103 Composite device 104 Network 201 Control part 202,223 CPU
209,222 Network I / F
211 Operation unit 212 Printer 213 Scanner 310 Web browser 302 Display unit 304 Analysis unit 305 Communication unit 310 Instruction transmission unit 311 Instruction reception unit 312 Execution instruction execution unit 313 Execution instruction acquisition unit 321 Web application 322 Presentation unit 323 Logic unit 324 Execution instruction generation Unit 325 Execution instruction management unit

Claims (7)

An image processing system in which a plurality of image processing devices execute cooperative processing via a host device,
Of the plurality of image processing devices, a request source image processing device that requests cooperation processing is:
Request means for requesting the host device to execute cooperation processing with another image processing device;
First acquisition means for acquiring an access instruction for the other image processing apparatus to access the higher order apparatus from the higher order apparatus in response to a request by the request means;
First transmission means for transmitting the access instruction acquired by the first acquisition means to the other image processing apparatus;
With
The other image processing apparatus includes:
A second acquisition unit configured to access the higher-level apparatus according to the access instruction received from the request source image processing apparatus and to acquire an execution instruction indicating a process executed by the other image processing apparatus in the cooperation process;
Execution means for executing processing in accordance with the execution instruction acquired by the second acquisition means;
With
The host device is
When cooperation processing is requested from the request source image processing apparatus, registration means for registering the execution instruction;
Creating means for creating the access instruction;
Second transmission means for transmitting the access instruction created by the creation means to the request source image processing apparatus;
An image processing system comprising: When the request processing is requested from the request source image processing device, the higher-level device further sends another execution instruction indicating processing executed by the request source image processing device in the cooperation processing to the request source image processing device To
The image processing system according to claim 1, wherein the request source image processing apparatus executes processing according to the other execution instruction.   3. The plurality of image processing apparatuses can communicate with each other without using a firewall, and the host apparatus exists outside the firewall of the plurality of image processing apparatuses. Image processing system. A plurality of image processing devices is an image processing device in an image processing system that executes cooperation processing via a host device,
Request means for requesting the host device to execute cooperation processing with another image processing device;
In response to a request by the request unit, an acquisition unit that acquires an access instruction for the other image processing device to access the host device from the host device;
An image processing apparatus comprising: a transmission unit that transmits the access instruction acquired by the acquisition unit to the other image processing apparatus.   The image processing apparatus according to claim 4, wherein a process executed by the image processing apparatus in the cooperation process is indicated, and the process is executed in accordance with an execution instruction created by the host apparatus. A control method of an image processing apparatus in an image processing system in which a plurality of image processing apparatuses execute cooperative processing via a host device,
A requesting step for requesting the host device to execute cooperation processing with another image processing device;
In response to a request by the request step, an acquisition step for acquiring an access instruction for the other image processing device to access the host device from the host device;
A control method comprising: a transmission step of transmitting the access instruction acquired in the acquisition step to the other image processing apparatus. A program for causing a computer to execute a control method of an image processing apparatus in an image processing system in which a plurality of image processing apparatuses execute cooperative processing via a host device,
The control method is:
A requesting step for requesting the host device to execute cooperation processing with another image processing device;
In response to a request by the request step, an acquisition step for acquiring an access instruction for the other image processing device to access the host device from the host device;
A transmission step of transmitting the access instruction acquired in the acquisition step to the other image processing apparatus.

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