JP6504958B2 - Communication apparatus, image processing system, control method, and program - Google Patents

Description

The present invention relates to a communication apparatus , an image processing system, a control method, and a program .

Conventionally, when an image forming apparatus which receives designation of document data or the like and performs printing or previewing can not convert document data or the like in the image forming apparatus, it converts document data or the like using an external image processing server. There is a technology (see Patent Document 1).
On the other hand, there is a use case in which image processing is performed on image data captured by an image forming apparatus having a scanner function, and image data after image processing is transmitted to a predetermined destination. Image processing in this use case includes, for example, skew correction, format conversion, or translation conversion after optical character recognition (OCR) on image data captured by a scanner. Also, transmission to a predetermined destination in this use case includes, for example, transfer to an arbitrary folder or mail transmission to a specific user.

JP, 2011-131382, A

Here, it may be considered that the use case described above is realized by an image processing system in which an image processing is performed by a server outside the image forming apparatus. However, this image processing system has a problem that it is not possible to automatically select whether to transmit image data after image processing from the server or to transmit from the image forming apparatus according to the situation.
Specifically, even when image processing is performed by the server, the server may not be able to transmit the image data after image processing to a predetermined destination depending on the situation. For example, the device signature may be applied to the image data after image processing. The device signature needs to be performed by the image forming apparatus which has taken in the image data to the image data after the image processing. However, when transmitting image data after image processing from the server, the image forming apparatus can not perform this device signature. Therefore, when performing device signing, the server can not transmit image data to a predetermined destination.
Further, even when image processing is performed by the server, it may be more efficient to transmit the image data after image processing from the image forming apparatus to a predetermined destination instead of from the server. For example, it is a case where the image data after image processing is previewed on the image forming apparatus. In this case, the image forming apparatus receives image data after image processing from the server for preview display. Therefore, the image forming apparatus transmits the instruction to transmit and the image data after the image processing to the server using the received image data after the image processing after receiving the image data after the image processing. It is more efficient because it can reduce the amount of communication as a whole.
Therefore, the present invention has an object of efficiently transmitting image data by flexibly determining a transmission path of image data after image processing according to the situation of an image processing apparatus that performs image processing.

The communication device according to the present invention is a communication device capable of executing transmission processing for transmitting data, which is an instruction for image processing to execute a predetermined processing on a first image to generate a second image. Reception means for receiving a transmission processing instruction to transmit the second image to a predetermined destination, and determination means for determining whether or not the image processing apparatus performing the image processing is to execute the transmission processing. An instruction unit that instructs the image processing apparatus on the basis of the determination by the determination unit, the image processing instruction and the transmission process, or instructs the image processing without the transmission process instruction; Transmitting means for executing the transmission process using the second image received from the image processing apparatus when the instruction means does not instruct the image processing apparatus for the transmission process , the determination means The image processing When it is determined that the transmission process can not be performed, the control unit determines that the image processing apparatus is not to execute the transmission process, and the instruction unit determines that the image processing apparatus does not execute the transmission process. It is when was the the image processing apparatus, and wherein to Rukoto an indication of the image processing without an indication of the transmission process.

  According to the present invention, the determination means determines whether to cause the image processing apparatus to execute the transmission process. Therefore, it is possible to flexibly transmit the image data by flexibly determining the transmission path of the image data after the image processing according to the condition of the image processing apparatus which performs the image processing.

It is a block diagram showing composition of an image processing system. FIG. 2 is a block diagram showing the hardware configuration, (a) is a block diagram showing the hardware configuration of the server, and (b) is a block diagram showing the hardware configuration of the image forming apparatus. FIG. 2 is a block diagram showing a functional configuration, (a) is a block diagram showing a functional configuration of a server, and (b) is a block diagram showing a functional configuration of an image forming apparatus. 5 is a flowchart of processing for executing a transmission job of the image forming apparatus in the first embodiment. It is a flowchart of the process for transmission job execution of the server in 1st Embodiment. It is a figure which shows the example of a scan transmission setting screen. It is a flowchart of the process which the image forming apparatus and server in 2nd Embodiment perform for a preview display. It is a figure which shows the example of a preview display screen.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The following embodiment is merely an example and is not intended to limit the scope of the present invention.
First Embodiment
First, the configuration of the image processing system of the present embodiment will be described with reference to FIG. FIG. 1 is a block diagram showing the configuration of an image processing system.
The image processing system according to the present embodiment includes image forming apparatuses 101 and 102, which are an example of a communication apparatus, information processing terminals 103 and 104, and a server 105, which is an example of an image processing apparatus. Can communicate with each other. The network may be any method as long as devices in the image processing system can communicate with each other, such as a LAN (Local Area Network) or the Internet. Although the image forming apparatus 101 will be described below, the same applies to the image forming apparatus 102. Although two image forming apparatuses, two information processing terminals, and one server are shown in FIG. 1, the number is not limited to this number.

  The image forming apparatus 101 receives a print request for image data from the information processing terminal 103 or 104 and prints an image, reads an image using a scanner provided in the image forming apparatus 101, or reads an image You can print Also, the image forming apparatus 101 can be connected to a storage device. The storage device may be any device as long as it can communicate with the image forming apparatus 101. An example of the storage device is an SMB (Server Message Block) shared folder in the information processing terminal 103 or 104. The storage device may be an external Web-based Distributed Authoring and Versioning server or the like. The image forming apparatus 101 can display image data stored in the storage device for the user or store the image data generated by the image forming apparatus 101 in the storage device by connecting to the storage device. Furthermore, the image forming apparatus 101 can request the server 105 to perform image processing that can not be performed by the image forming apparatus 101 and cause the server 105 to execute the processing.

Next, the hardware configuration of the server 105 will be described with reference to FIG. FIG. 2A is a block diagram showing the hardware configuration of the server 105. As shown in FIG.
The server 105 includes a CPU 201, a RAM 202, an HDD 203, and a network I / F 204.
The CPU 201 controls the entire server 105, and can control exchange of data with the RAM 202, the HDD 203, and the network I / F 204. Further, the CPU 201 develops the control program (instruction) read from the HDD 203 on the RAM 202 and executes the instruction stored in the RAM 202.
The RAM 202 develops and stores instructions and data stored in the HDD 203. An instruction or the like stored in the RAM 202 can be read from the CPU 201. The RAM 202 can also store various data necessary for the CPU 201 to execute an instruction.
The HDD 203 stores a control program (instruction) that can be executed by the CPU 201 to implement image processing. Further, the HDD 203 can appropriately save the processing content and the document data received by the server 105.
A network I / F 204 is an interface for performing network communication with an apparatus in the image processing system, and can transmit data reception to the CPU 201 and can transmit data on the RAM 202 to the network.

Next, the hardware configuration of the image forming apparatus 101 will be described with reference to FIG. FIG. 2B is a block diagram showing the hardware configuration of the image forming apparatus 101. As shown in FIG.
The image forming apparatus 101 includes a controller 211, a printer 212, a scanner 213, and an operation unit 214.
The controller 211 includes a CPU 221, a RAM 222, an HDD 223, a network I / F 224, a printer I / F 225, a scanner I / F 226, an operation unit I / F 227, and an expansion I / F 228, and controls the entire image forming apparatus 101.
The CPU 221 controls the entire controller 211, and can exchange data with the RAM 222, the HDD 223, the network I / F 224, the printer I / F 225, the scanner I / F 226, the operation unit I / F 227, and the expansion I / F 228. Further, the CPU 221 loads the control program (instruction) read from the HDD 223 in the RAM 222 and executes the instruction stored in the RAM 222.

The RAM 222 develops and stores instructions and data stored in the HDD 223. An instruction or the like stored in the RAM 222 can be read from the CPU 221. The RAM 222 can also store various data necessary for the CPU 221 to execute an instruction.
The HDD 223 can store an instruction executable by the CPU 221, setting values used by the image forming apparatus 101, data regarding processing requested by the user, and the like.
A network I / F 224 is an interface for performing network communication with devices in the image processing system, and can transmit data reception to the CPU 221 and can transmit data on the RAM 222 to the network.
The printer I / F 225 can transmit print data received from the CPU 221 to the printer 212, and can transmit the status of the printer received from the printer 212 to the CPU 221.

The scanner I / F 226 is an interface capable of transmitting an image reading instruction received from the CPU 221 to the scanner 213 and transmitting image data received from the scanner 213 to the CPU 221. The scanner I / F 226 is an interface that can transmit the status of the scanner 213 received from the scanner 213 to the CPU 221.
The operation unit I / F 227 is an interface capable of transmitting an instruction from the user input from the operation unit 214 to the CPU 221, or transmitting screen information for the user to operate to the operation unit 214.
The expansion I / F 228 is an interface that enables external devices to be connected to the image forming apparatus 101. The expansion I / F 228 includes, for example, an interface of USB (Universal Serial Bus) format. Connecting an external storage device such as a USB memory to the expansion I / F 228 enables reading of data from the external storage device and writing of data to the external storage device.

The printer 212 can print the image data received from the printer I / F 225 on a sheet, or can transmit the status of the printer 212 to the printer I / F 225.
The scanner 213 reads a sheet placed on the scanner 213 according to an image reading instruction received from the scanner I / F 226, converts it into digital data, transmits it to the scanner I / F 226, and transmits the status of the scanner 213 to the scanner I / F 226. You can
The operation unit 214 is a member used by the user to operate the image forming apparatus 101. The operation unit 214 includes, for example, a liquid crystal screen having a touch panel, provides the user with an operation screen, and receives an operation from the user.

Next, with reference to FIG. 3A, the function of the server 105 will be described. FIG. 3A is a block diagram showing a functional configuration of the server 105. As shown in FIG.
The server 105 includes a transmission / reception unit 301, a determination unit 302, an image processing unit 303, and a control unit 304.
The transmission and reception unit 301 transmits and receives data to and from an external apparatus such as the image forming apparatus 101.
The determination unit 302 analyzes the content of the data received by the transmission / reception unit 301, and transmits an instruction to the image processing unit 303 or the control unit 304 as necessary.
The image processing unit 303 performs image processing based on an instruction or the like received from the determination unit 302. Image processing refers to performing processing on input image data to generate a product. Examples of image processing include processing such as format conversion on an input image, skew correction, and generation of translation data after OCR, but other processing may be used.
The control unit 304 executes a job. The job represents the final processing of the data on which image processing has been performed. The job includes a transmission job for transmitting data on which image processing has been performed to a predetermined folder or mail address, and FAX transmission of data on which image processing has been performed. The transmission job corresponds to the transmission process of the present invention.
The server 105 may have the function of the image forming apparatus 101.

Next, functions of the image forming apparatus 101 will be described with reference to FIG. FIG. 3B is a block diagram showing a functional configuration of the image forming apparatus 101. As shown in FIG.
The image forming apparatus 101 includes a transmission / reception unit 311, a determination unit 312, a ticket generation unit 313, an image processing unit 314, and a control unit 315.
The transmission / reception unit 311 can transmit / receive data to / from external devices such as the server 105, the SMB server, and the WebDav server. The transmitting / receiving unit 311 also has a function of transmitting data to the mail address stored in the HDD 223 of the image forming apparatus 101.
The determination unit 312 determines the content of the image processing request to the server 105, and determines whether or not to request the server 105 for a transmission job.

The ticket generation unit 313 generates a request for processing to the server 105 determined by the determination unit 312 as a ticket that can be identified by the server 105. A ticket is data in which information necessary for the server 105 to execute a process is described. The ticket is described in a format that can be interpreted by the server 105 such as Json (JavaScript (registered trademark) Object Notation) or XML (Extensible Markup Language). The information described in the ticket includes the attribute values necessary for the server 105 to execute the image processing and the transmission job, such as the content of the image processing, the transmission job execution request, and the content of the transmission job such as destination information. included. The form of the ticket and the information described in the ticket may be other than those described here.
The image processing unit 314 performs image processing on the input image. The image processing unit 314 performs image processing such as resolution conversion and output format conversion.
The control unit 315 uses the function of the image forming apparatus 101 to execute a job. The job represents the final processing on the image processed data as described above. Jobs that can be executed by the control unit 315 include print, preview, fax transmission, and transmission jobs for data on which image processing has been performed.

Next, with reference to FIG. 6, a scan transmission setting screen 601 which is a screen displayed on the operation unit 214 when scan transmission is performed will be described. FIG. 6 is a diagram showing an example of the scan transmission setting screen 601. As shown in FIG. Note that scan transmission is a function of performing predetermined image conversion or the like on data acquired by the scanner 213 of the image forming apparatus 101 as necessary, and transmitting the data to a predetermined destination. Further, in the following, reading of data by the scanner 213 is also referred to as scanning. The data read by the scanner 213 is also referred to as scan data.
First, the operation unit 214 of the image forming apparatus 101 receives an operation of performing scan transmission by the user. When the CPU 221 of the image forming apparatus 101 receives a scan transmission request from the operation unit 214, the CPU 221 displays a scan transmission setting screen 601 shown in FIG. 6 on the operation unit 214.

The scan transmission setting screen 601 includes a destination display unit 602, a destination setting button 603, an image processing setting button 604, a scan and preview button 605, and a scan and send button 606.
The destination setting button 603 is a button for the user to set a destination. By pressing the destination setting button 603, the user can perform settings relating to the destination of the storage device to which scan data is to be sent. Also, when the user wants to scan and send an E-mail, the user can press the destination setting button 603 to set the destination e-mail address as the destination. When the user presses a destination setting button 603 to set a destination, the destination set in the destination display unit 602 is displayed.
The destination display unit 602 displays the destination set by the user. The destination display unit 602 displays, in addition to the destination, the type of the destination such as the WebDav server or the e-mail address, and the name of the destination.

An image processing setting button 604 is a button for setting image processing to be performed on scan data by the user. The image processing that can be set by the user includes image processing that can be executed by the server 105 in addition to the image processing that can be executed by the image forming apparatus 101. The user can select an image process to be performed by pressing the image processing setting button 604.
The scan and preview button 605 is a button for enabling previewing of an image after image processing set by the user has been performed.
A scan and send button 606 is a button for starting scan, image processing set by the image processing setting button 604, and transmission to the destination set by the destination setting button 603. After the user performs setting of the destination and setting of the image processing, when the user presses a scan and presses the transmission button 606, the CPU 221 of the image forming apparatus 101 detects the pressing. Then, the CPU 221 transmits a scan instruction to the scanner 213 through the scanner I / F 226. When the scanner 213 receives a scan command, the scanner 213 starts a scan on a document to be scanned installed in the image forming apparatus 101. Thereafter, the image forming apparatus 101 performs the process shown in FIG. 4, and the server 105 performs the process of FIG. 5 as necessary, and the transmission job is executed by the image forming apparatus 101 or the server 105.

Next, processing of the image forming apparatus 101 will be described with reference to FIG. FIG. 4 is a flowchart of processing for executing a transmission job of the image forming apparatus 101.
After the user performs setting of destination and setting of image processing on the scan transmission setting screen 601, scanning and pressing the transmission button 606 and the scanner 213 scans, the process of step S401 starts.
In step S401, the CPU 221 of the image forming apparatus 101 executes the content of the image processing set by the user using the image processing setting button 604, the content of the transmission job such as the destination information set by the user using the destination setting button 603, and the scan data. To receive. Step S401 is an example of processing by the receiving unit.
In step S402, the CPU 221 determines whether the image forming apparatus 101 can execute the image processing set by the user. When the CPU 221 determines that the process can be executed, the process proceeds to step S403. When the CPU 221 determines that the process can not be executed, the process proceeds to step S405.
In step S403, the CPU 221 executes image processing set by the user on scan data.

In step S404, the CPU 221 executes a transmission job on data after image processing. When the device signature described below is set, the CPU 221 performs device signature on the data after image processing before execution of the transmission job, and for the data after image processing on which the device signature is performed. Execute the sending job. Step S404 is an example of processing by the transmission unit of the image forming apparatus 101.
In step S405, the CPU 221 determines whether the server 105 executes a transmission job. In the present embodiment, whether or not the transmission job is to be executed by the server 105 is determined depending on whether or not the device signature is set. More specifically, it is analyzed whether or not there is a device signature setting in the content of the transmission job received by the CPU 221. The device signature is a function of identifying a device scanned by using a unique device certificate and a secret key stored in the device, thereby enabling tampering detection. The device signature is validated by the system administrator setting it in the image forming apparatus 101.
When the device signature is set, the CPU 221 needs to guarantee the scanned device with respect to the storage device which is the destination of data after image processing. Therefore, the CPU 221 determines that the transmission job is to be executed by the image forming apparatus 101, and advances the process to step S406.
When the device signature is not set, the CPU 221 does not have to guarantee the scanned device with respect to the device that is the destination of data after image processing. Therefore, the CPU 221 determines that the transmission job is to be executed by the server 105, and advances the process to step S410.
Step S405 is an example of processing by the determination unit.

In step S406, the CPU 221 confirms whether data after image processing in which image processing set by the user for scan data has been executed is stored in the HDD 223 or not. The CPU 221 advances the process to step S404 when there is data after image processing, and advances the process to step S407 when there is no data after image processing. Note that when step S406 is processed in the present embodiment, the data after image processing is not stored in the HDD 223, so the CPU 221 advances the process to step S407. As described later, when executing the preview, the CPU 221 advances the process to step S404.
In step S407, the CPU 221 generates a ticket in which the content of the image processing set by the user is described.
In step S <b> 408, the CPU 221 transmits the generated ticket and scan data to the server 105. Scan data is treated as an input image in the server 105.
In step S409, the CPU 221 receives the result of the image processing and the data after the image processing from the server 105, and advances the processing to step S404.

In step S410, the CPU 221 generates a ticket in which the content of the image processing set by the user, the transmission job execution request, and the content of the transmission job are described.
In step S411, the CPU 221 transmits the generated ticket and scan data to the server 105. Scan data is treated as an input image in the server 105. Steps S408 and S411 are an example of processing by the instruction unit.
In step S412, the CPU 221 receives, from the server 105, the result of the image processing and the execution result of the transmission job. Further, the CPU 221 refers to the received execution result of the transmission job and displays on the operation unit 214 whether or not the data after the image processing has been correctly transmitted.

Next, processing of the server 105 that has received a ticket or the like from the image forming apparatus 101 will be described with reference to FIG. FIG. 5 is a flowchart of the process for the transmission job execution of the server 105.
In step S501, the CPU 201 of the server 105 receives an input image and a ticket from the image forming apparatus 101 via the network I / F 204. Step S501 is an example of processing by the receiving unit of the server 105.
In step S502, the CPU 201 analyzes the received ticket.
In step S503, the CPU 201 executes image processing on the received input image in accordance with the content of the image processing described in the ticket. Step S503 is an example of processing by the generation unit.
In step S504, the CPU 201 determines whether a request for execution of a transmission job is described in the ticket. The CPU 201 advances the process to step S506 when the request for execution of the transmission job is described in the ticket, and advances the process to step S505 when not described.

In step S505, the CPU 201 transmits the result of the image processing and the data after the image processing to the image forming apparatus 101.
In step S506, the CPU 201 executes the transmission job on the data after the image processing according to the content of the transmission job described in the ticket. Step S506 is an example of processing by the transmission unit of the server 105.
In step S <b> 507, the CPU 201 transmits the result of the image processing and the execution result of the transmission job to the image forming apparatus 101.

  As described above, in the present embodiment, it is determined whether the transmission job is to be executed or the server 105 is to be executed, in accordance with the presence or absence of the setting of the device signature in the image forming apparatus 101. When the device signature is set, the server 105 can not execute the transmission job, so the image forming apparatus 101 executes the transmission job. As described above, the transmission path of data after image processing can be flexibly determined according to the state of the image forming apparatus 101, and the data after image processing can be efficiently transmitted.

Second Embodiment
In the first embodiment, an apparatus that executes a transmission job is determined according to the presence or absence of the setting of the device signature. In the present embodiment, an example will be described in which an apparatus for executing a transmission job is determined according to whether or not to display a preview in the image forming apparatus 101. In addition, description of the same portions as the first embodiment in the present embodiment will be simplified or omitted.

  After the user performs setting of the destination and setting of the image processing on the scan transmission setting screen 601 shown in FIG. 6, when the user presses the preview button 605 for scanning, the CPU 221 of the image forming apparatus 101 detects this pressing. Then, the CPU 221 transmits a scan instruction to the scanner 213 through the scanner I / F 226. When the scanner 213 receives a scan command, the scanner 213 starts a scan on a document to be scanned installed in the image forming apparatus 101. Thereafter, the image forming apparatus 101 and the server 105 start the process of preview display shown in FIG.

Next, with reference to FIG. 7, processing performed by the image forming apparatus 101 and the server 105 for preview display will be described. FIG. 7 is a flowchart of processing performed by the image forming apparatus 101 and the server 105 for preview display.
First, processing of the image forming apparatus 101 shown in FIG. 7 will be described.
After the user performs setting of the destination and setting of the image processing, the user presses a scan and presses the transmission button 606, and when the scanner 213 scans, the process of step S701 starts.
In step S 701, the CPU 221 of the image forming apparatus 101 receives the content of the image processing set by the user using the image processing setting button 604 and the scan data.
In step S702, the CPU 221 determines whether the image forming apparatus 101 can execute the image processing set by the user. When the CPU 221 determines that the process can be executed, the process proceeds to step S703. When the CPU 221 determines that the process can not be executed, the process proceeds to step S705.
In step S703, the CPU 221 executes image processing set by the user on scan data.
In step S704, the CPU 221 displays a preview display screen 801, which will be described later, on the operation unit 214 using the data after image processing, and executes preview display. Step S704 is an example of processing by the display unit.

In step S 705, the CPU 221 generates a ticket in which the content of the image processing set by the user is described.
In step S706, the CPU 221 transmits the generated ticket and scan data to the server 105. Scan data is treated as an input image in the server 105.
In step S 707, the CPU 221 receives the result of the image processing and the data after the image processing from the server 105.

Next, processing of the server 105 shown in FIG. 7 will be described.
In step S711, the CPU 201 of the server 105 receives an input image and a ticket from the image forming apparatus 101 via the network I / F 204.
In step S712, the CPU 201 analyzes the received ticket.
In step S713, the CPU 201 executes image processing on the received input image in accordance with the content of the image processing described in the ticket.
In step S 714, the CPU 201 transmits the result of the image processing and the data after the image processing to the image forming apparatus 101.

Next, the preview display screen 801 will be described with reference to FIG.
The preview display screen 801 is a screen displayed on the operation unit 214 of the image forming apparatus 101, and is a screen on which data after image processing is displayed. The preview display screen 801 includes a preview area 802, a cancel button 803, and a send button 804.
The preview area 802 is an area for displaying data after image processing, and is an area where preview of data after image processing is performed.
A cancel button 803 is a button for canceling a transmission job for data after image processing. When the CPU 221 of the image forming apparatus 101 detects that the cancel button 803 is pressed, the transmission job for the data after image processing is not performed, and the preview display is interrupted and the scan transmission setting screen 601 is displayed on the operation unit 214. .
The transmission button 804 is a button for executing a transmission job on data after image processing. When detecting that the transmission button 804 is pressed, the CPU 221 of the image forming apparatus 101 starts processing for executing a transmission job on data after image processing for which previewing has been performed.

  When the user presses the transmission button 804 of the preview display screen 801 and the CPU 221 of the image forming apparatus 101 detects this pressing, the image forming apparatus 101 performs processing for executing a transmission job. The image forming apparatus 101 performs the same process as the process shown in FIG. 4 except for a predetermined process. Therefore, in the present embodiment, among the processing performed by the image forming apparatus 101 as processing for executing a transmission job, processing different from the processing in FIG. 4 will be described next.

In step S401, when preview display is performed, the CPU 221 of the image forming apparatus 101 obtains the data after image processing, and therefore does not receive the content of the image processing set by the user and the scan data. It is also good.
In step S402, the CPU 221 determines whether preview display has been performed before determining whether the image processing apparatus 101 can execute the image processing set by the user. When the preview display is performed, the CPU 221 proceeds to step S405 because the data after image processing is obtained. When the preview display is not performed, the CPU 221 performs the process of step S402 described in the first embodiment.

In step S405, the CPU 221 determines whether the server 105 executes a transmission job. In the present embodiment, whether or not the transmission job is to be executed by the server 105 is determined depending on whether or not the preview display is executed.
When the CPU 221 does not execute the preview display, it determines that the transmission job is to be executed by the server 105, and advances the process to step S410.
When the CPU 221 executes the preview display, it determines that the server 105 does not execute the transmission job, and advances the process to step S406.

  Step S406 is the same as in the first embodiment. However, when the preview display is executed, data after image processing displayed in the preview area 802 of the preview display screen 801 is stored in the image forming apparatus 101. Therefore, the CPU 221 advances the process to step S404 after step S406.

  As described above, in the present embodiment, when preview display is performed, the image forming apparatus 101 executes a transmission job in step S404 in FIG. Therefore, when the preview display is performed, the image forming apparatus 101 does not need to transmit the transmission job execution request, the content of the transmission job, and the data after the image processing to the server 105. Therefore, the amount of communication can be reduced, and the performance of the image processing system can be improved. Therefore, according to the condition of the image forming apparatus 101, it is possible to flexibly determine the transmission path of data after image processing and efficiently transmit the image data.

<Other Embodiments>
In the first embodiment, which of the image forming apparatus 101 and the server 105 is to execute the transmission job is determined based on the presence or absence of the setting of the device signature. However, the present invention is not limited to the presence or absence of the setting of the device signature, and which of the image forming apparatus 101 and the server 105 may execute the transmission job may be determined based on whether the server 105 can execute the transmission job. .
For example, which of the image forming apparatus 101 and the server 105 is to execute the transmission job may be determined based on whether the server 105 can access the destination of the transmission job. In this case, the image forming apparatus 101 inquires of the server 105 whether or not the destination of the transmission job can be accessed. The image forming apparatus 101 refers to the response from the server 105 and determines that the server 105 executes the transmission job when the server 105 can access the destination of the transmission job. When the server 105 can not access the destination of the transmission job, the image forming apparatus 101 determines to execute the transmission job on the image forming apparatus 101.

Further, which of the image forming apparatus 101 and the server 105 is to execute the transmission job may be determined by a method other than the above.
For example, which of the image forming apparatus 101 and the server 105 is to execute the transmission job may be determined based on whether the server 105 holds the transmission job destination. In this case, the image forming apparatus 101 receives, from the server 105, a list of destinations held by the server 105. As the destinations, there are e-mail addresses and IP (Internet Protocol) addresses, but other types of addresses may be used. The image forming apparatus 101 determines that the transmission job is to be executed by the server 105 when the transmission job destination is included in the list of destinations held by the server 105. When the destination of the transmission job is not included in the list of destinations held by the server 105, the image forming apparatus 101 determines that the transmission job is to be executed by the image forming apparatus 101.
In this way, it is possible to prevent the server 105 from transmitting data after image processing to destinations not held by the server 105. Therefore, it is possible to prevent transmission of information on destinations not held by the server 105 to the server 105, and to improve management and security of personal information. The process in which the image forming apparatus 101 receives the list of destinations held by the server 105 is an example of the process by the receiving unit of the image forming apparatus 101.

Further, which one of the image forming apparatus 101 and the server 105 executes the transmission job may be determined based on the presence or absence of authentication for accessing the destination of the transmission job. In this case, the image forming apparatus 101 determines that the transmission job is to be executed by the image forming apparatus 101 when there is authentication, and determines that the transmission job is to be executed by the server 105 when there is no authentication.
In this manner, transmission of information necessary for authentication from the image forming apparatus 101 to the server 105 can be prevented, and security can be improved.

Further, which of the image forming apparatus 101 and the server 105 is to execute the transmission job may be determined based on the location of the storage device to which the transmission job is to be sent and the location of the server 105. In this case, the image forming apparatus 101 determines that the transmission job is to be executed by the server 105 when the storage device serving as the transmission job destination and the server 105 are arranged to be connected to the same intranet. The image forming apparatus 101 determines that the transmission job is to be executed by the image forming apparatus 101 when the storage device serving as the destination of the transmission job and the server 105 are arranged to connect to different intranets.
Here, it is assumed that the storage device serving as the destination of the transmission job and the server 105 are connected to the same intranet. In this case, the server 105 executes the transmission job. Therefore, the amount of communication can be reduced compared to the case where the image forming apparatus 101 receives data after image processing and the image forming apparatus 101 executes a transmission job.

Here, the image forming apparatus 101 determines whether the storage device serving as the destination of the transmission job and the server 105 are connected to the same intranet. However, the present invention is not limited to the same intranet, and the image forming apparatus 101 may determine whether the storage device serving as the destination of the transmission job and the server 105 are disposed within a predetermined range in the network. Good.
Further, the image forming apparatus 101 obtains, for example, the storage device serving as the transmission job destination and the location of the storage device serving as the transmission job destination by inquiring of the server 105 serving as the transmission job destination. However, the system administrator may store in advance the storage device as the destination of the transmission job and the location of the server 105 in the HDD 223 of the image forming apparatus 101. At this time, the image forming apparatus 101 obtains, from the HDD 223, the storage device as the destination of the transmission job and the location of the server 105.
Further, the image forming apparatus 101 may determine to execute the transmission job by the server 105 when the storage device serving as the destination of the transmission job, the server 105, and the image forming apparatus 101 are connected to the same intranet. . In this case, when at least one of the storage device serving as the destination of the transmission job, the server 105, and the image forming apparatus 101 is connected to a different intranet, it is determined that the transmission job is to be executed by the image forming apparatus 101.

  Further, the determination of which of the image forming apparatus 101 and the server 105 is to execute the transmission job may be performed by combining two or more of the above-described determination methods. In this case, when it is determined that the transmission job is to be executed by the image forming apparatus 101 in any of the determination methods, the transmission job may be determined to be executed by the image forming apparatus 101 as a whole.

The present invention supplies a program that implements one or more functions of the above-described embodiments to a system or apparatus via a network or storage medium, and one or more processors in a computer of the system or apparatus read and execute the program. Can also be realized. It can also be implemented by a circuit (eg, an ASIC) that implements one or more functions.
As mentioned above, although the present invention was explained with an embodiment, the above-mentioned embodiment shows only an example of the embodiment in the case of carrying out the present invention, and the technical scope of the present invention is interpreted restrictively by these. It is a must-have. That is, the present invention can be implemented in various forms without departing from the technical concept or the main features thereof.

101 Image Forming Apparatus 105 Server

Claims (9)

A communication apparatus capable of executing transmission processing for transmitting data, wherein
Accepting means for accepting an instruction of image processing for performing a predetermined process on the first image to generate a second image, and an instruction of a transmission process for transmitting the second image to a predetermined destination;
A determination unit configured to determine whether to execute the transmission process on an image processing apparatus that performs the image processing;
An instruction unit that instructs the image processing apparatus on the basis of the determination by the determination unit, the image processing instruction and the transmission process, or instructs the image processing without the transmission process instruction; ,
Transmission means for executing the transmission process using the second image received from the image processing apparatus when the instruction means does not instruct the image processing apparatus for the transmission process;
Equipped with
The determining unit determines not to cause the image processing apparatus to execute the transmission process when it is determined that the image processing apparatus can not execute the transmission process.
The instruction unit, when it does not perform the transmission processing in the image processing apparatus has been determined, the image processing apparatus, a to Rukoto an indication of the image processing without an indication of the transmission process Communication device characterized by The communication apparatus according to claim 1, wherein the determination unit determines that the image processing apparatus can not execute the transmission process when the image processing apparatus can not access the predetermined destination . The image processing apparatus further comprises receiving means for receiving a list of destinations held by the image processing apparatus,
3. The image processing apparatus according to claim 1, wherein the determination unit determines that the image processing apparatus can not execute the transmission process when the predetermined destination is not included in the list of destinations received by the reception unit. The communication device according to. The determination unit determines not to cause the image processing apparatus to execute the transmission process when the apparatus signature is set to be performed.
When it is determined that the image processing apparatus is not caused to execute the transmission processing, the instruction unit instructs the image processing apparatus to instruct the image processing without instructing the transmission processing. The communication apparatus according to any one of claims 1 to 3, wherein It further comprises display means for displaying the second image,
Said determining means, wherein when the display unit is Ru setting have to display the second image, determines not to execute the transmission processing to the image processing apparatus,
When it is determined that the image processing apparatus is not caused to execute the transmission processing, the instruction unit instructs the image processing apparatus to instruct the image processing without instructing the transmission processing. The communication apparatus according to any one of claims 1 to 4, wherein: An image processing system, comprising: an image processing apparatus; and a communication apparatus for transmitting an instruction to the image processing apparatus,
In the communication device, an instruction of image processing for performing a predetermined process on the input first image to generate a second image, and an instruction of transmission process for transmitting the second image to a predetermined destination , Accepting means for accepting
A determining unit configured to determine whether to cause the image processing apparatus to execute the transmission process in the communication apparatus;
Generation means for generating the second image according to the instruction of the image processing in the image processing apparatus;
First transmission means for executing the transmission process by the image processing apparatus using the second image when the determination means determines that the image processing apparatus is to execute the transmission process;
A second transmission unit that executes the transmission process by the communication device using the second image acquired from the image processing apparatus when the determination unit determines not to cause the image processing apparatus to execute the transmission process; When,
Equipped with
The image processing system, wherein the determination means determines not to cause the image processing apparatus to execute the transmission process when it is determined that the image processing apparatus can not execute the transmission process. A control method in a communication apparatus capable of executing transmission processing for transmitting data , comprising:
An accepting step of accepting an instruction of image processing for performing a predetermined process on the first image to generate a second image, and an instruction of a transmission process for transmitting the second image to a predetermined destination ;
The pre-Symbol transmission processing, a determination step of determining whether or not to perform the image processing apparatus that performs the image processing,
Instructing the image processing apparatus to instruct the image processing and the transmission processing based on the determination in the determination step, or instructing the image processing without instructing the transmission processing. When,
A transmitting step of executing the transmission process using the second image received from the image processing apparatus when the image processing apparatus is not instructed to perform the transmission process in the instructing step;
Have
In the determination step, when it is determined that the image processing apparatus can not execute the transmission process, it is determined not to cause the image processing apparatus to execute the transmission process.
In the instructing step, when it is determined not to cause the image processing apparatus to execute the transmission process, the image processing apparatus is instructed to instruct the image processing without instructing the transmission process. And the control method. A control method in an image processing system, comprising: an image processing apparatus; and a communication apparatus for transmitting an instruction to the image processing apparatus ,
In the communication device, an instruction of image processing for performing a predetermined process on the input first image to generate a second image, and an instruction of transmission process for transmitting the second image to a predetermined destination , And an accepting step,
In the communication device, a determining step of determining whether to execute the transmission processing to the image processing apparatus,
A generation step of generating the second image according to the instruction of the image processing in the image processing apparatus;
A first transmission step of executing the transmission process in the image processing apparatus using the second image when it is determined in the determination step to cause the image processing apparatus to execute the transmission process;
When it is determined in the determination step that the image processing apparatus is not to be subjected to the transmission process, a second transmission in which the communication apparatus executes the transmission process using the second image acquired from the image processing apparatus Step and
Have
In the determining step, when it is determined that the image processing apparatus can not execute the transmission process, it is determined that the image processing apparatus is not caused to execute the transmission process . The program for functioning a computer as each means of the communication apparatus of any one of Claims 1-5.

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