JP2021096763A - Information processing system, apparatus, method, and program - Google Patents

Abstract

To simplify the entire configuration of a system.SOLUTION: An information processing system includes a gateway device connected with a cloud system and a plurality of input devices. The input devices each include an input unit that transmits data to the gateway device. The gateway device comprises: a confidentiality determination unit that determines the confidentiality of the data acquired from the input devices; an image processing unit that executes processing on data determined to have high confidentiality; and a transmission unit that transmits data determined to have low confidentiality to the cloud system and causes to execute the processing.SELECTED DRAWING: Figure 5

Description

The present invention relates to information processing systems, devices, methods, and programs.

Conventionally, an image processing system that executes image processing by either an image forming apparatus or a cloud system is known depending on the confidentiality of print data. In Patent Document 1, an image processing unit that is connected to a cloud system having an image processing unit that executes image processing required for printing and executes image processing required for printing, and a confidentiality determination unit that determines the confidentiality of print data. An image forming apparatus having the above is disclosed (paragraph [0014] of the specification of Patent Document 1).

However, in Patent Document 1, it is determined whether the image forming apparatus determines the confidentiality of the print data and executes the image processing on the print data by the image processing unit of the image forming apparatus or the image processing unit of the cloud system. You have to control. Therefore, the configuration of the image forming apparatus has become complicated, and the overall configuration of the system has also become complicated.

Therefore, in one embodiment of the present invention, it is an object to simplify the overall configuration of the system.

In order to solve the above-mentioned problems, the gateway device includes a gateway device connected to a cloud system and a plurality of input devices, and each input device includes an input unit for transmitting data to the gateway device. , The confidentiality determination unit that determines the confidentiality of the data acquired from each of the input devices, the image processing unit that executes the processing of the data determined to be highly confidential, and the determination that the confidentiality is low. It is provided with a transmission unit that transmits the data to the cloud system and executes processing.

According to the present invention, the overall configuration of the system can be simplified.

It is a block diagram of the whole information processing system which concerns on one Embodiment of this invention. It is a conventional whole block diagram. It is a hardware block diagram of the gateway device which concerns on one Embodiment of this invention. It is a hardware block diagram of the MFP which concerns on one Embodiment of this invention. It is a functional block diagram of the information processing system which concerns on one Embodiment of this invention. It is a sequence diagram of the initial setting process which concerns on one Embodiment of this invention. It is a sequence diagram of the status confirmation processing to the registered device which concerns on one Embodiment of this invention. It is a sequence diagram of the printing process on a plotter which concerns on one Embodiment of this invention. It is a sequence diagram of the scan process from the scanner which concerns on one Embodiment of this invention.

Hereinafter, each embodiment will be described with reference to the accompanying drawings. In the present specification and the drawings, components having substantially the same functional configuration are designated by the same reference numerals, so that duplicate description will be omitted.

<System configuration>
FIG. 1 is an overall configuration diagram of an information processing system 1 according to an embodiment of the present invention. The information processing system 1 includes a gateway device 10, a plurality of input devices 20, and a cloud system 40. The information processing system 1 may be configured to include an output device 30. The gateway device 10 is communicably connected to the input device 20, the output device 30, and the cloud system 40 via an arbitrary network 50. Each will be described below.

The gateway device 10 acquires data from the input device 20 and determines whether to process the data in the gateway device 10 or the data on the cloud system 40 according to the confidentiality of the data. When the data is highly confidential, the gateway device 10 processes the data acquired from the input device 20. For example, the gateway device 10 can execute image processing for printing on the data acquired from the input device 20, and transmit the data obtained by performing the image processing to the output device 30. Further, the gateway device 10 can store the image data acquired from the input device 20 in the storage device of the gateway device 10. The gateway device 10 will be described in detail later with reference to FIG.

The input device 20 is a device for inputting data to the gateway device 10. The input device 20 is, for example, an edge device (smartphone, personal computer, etc.) 20a, a scanner 20b, or the like.

The output device 30 is a device for outputting data obtained by executing image processing by the gateway device 10 or the cloud system 40. The output device 30 is, for example, a plotter 30a.

The cloud system 40 provides computer resources to the gateway device 10 via a network such as the Internet. Specifically, the cloud system 40 acquires data from the gateway device 10 and processes the data acquired from the gateway device 10. For example, the cloud system 40 can execute image processing for printing on the data acquired from the gateway device 10 and transmit the data obtained by performing the image processing to the gateway device 10. Further, the cloud system 40 can store the image data acquired from the gateway device 10 in the storage device of the cloud system 40.

Although the input device 20 and the output device 30 have been described as separate devices in FIG. 1, the input device 20 and the output device 30 may be mounted in one device.

The input device 20 and the output device 30 are not limited to the image forming device as long as they are devices having a communication function. The input device 20 and the output device 30 are, for example, an output device such as a PJ (Projector: projector), an IWB (Interactive White Board: a white board having an electronic whiteboard function capable of intercommunication), a digital signage, and a HUD (Head Up). Display) devices, industrial machines, imaging devices, sound collectors, medical devices, network home appliances, automobiles (Connected Cars), notebook PCs (Personal Computers), mobile phones, smartphones, tablet terminals, game machines, PDA (Personal Digital Assistant) , Digital camera, wearable PC, desktop PC, etc.

<Conventional configuration>
Hereinafter, the conventional configuration will be described with reference to FIG.

FIG. 2 is a conventional overall configuration diagram. Conventionally, the image forming apparatus 60 acquires print data from the edge device 20a and executes image forming in the image forming apparatus 60 or image forming on the cloud system 40 according to the confidentiality of the print data. Was determined to execute.

<Hardware configuration>
Hereinafter, the hardware configuration of the gateway device 10 will be described.

FIG. 3 is a hardware configuration diagram of the gateway device 10 according to the embodiment of the present invention. As shown in FIG. 3, the gateway device 10 is constructed by a computer, and as shown in FIG. 3, the CPU 101, ROM 102, RAM 103, HD 104, HDD (Hard Disk Drive) controller 105, and display. It includes 106, an external device connection I / F (Interface) 108, a network I / F 109, a data bus 110, a keyboard 111, a pointing device 112, a DVD-RW (Digital Versatile Disk Rewritable) drive 114, and a media I / F 116.

Of these, the CPU 101 controls the operation of the entire gateway device 10. The ROM 102 stores a program used to drive the CPU 101 such as an IPL. The RAM 103 is used as a work area of the CPU 101. The HD104 stores various data such as programs. The HDD controller 105 controls reading or writing of various data to the HD 104 according to the control of the CPU 101. The display 106 displays various information such as cursors, menus, windows, characters, or images. The external device connection I / F 108 is an interface for connecting various external devices. The external device in this case is, for example, a USB (Universal Serial Bus) memory, a printer, or the like. The network I / F 109 is an interface for performing data communication using the communication network 50. The bus line 110 is an address bus, a data bus, or the like for electrically connecting each component such as the CPU 101 shown in FIG.

Further, the keyboard 111 is a kind of input means including a plurality of keys for inputting characters, numerical values, various instructions and the like. The pointing device 112 is a kind of input means for selecting and executing various instructions, selecting a processing target, moving a cursor, and the like. The DVD-RW drive 114 controls reading or writing of various data to the DVD-RW 113 as an example of the removable recording medium. In addition, it is not limited to DVD-RW, and may be DVD-R or the like. The media I / F 116 controls reading or writing (storage) of data to a recording medium 115 such as a flash memory.

FIG. 4 is a hardware configuration diagram of MFPs (Multifunction Peripheral / Printer / Product) 20 and 30 according to an embodiment of the present invention. As shown in FIG. 4, the MFP includes a controller 210, a short-range communication circuit 220, an engine control unit 230, an operation panel 240, and a network I / F 250.

Of these, the controller 210 is a CPU 201, a system memory (MEM-P) 202, a north bridge (NB) 203, a south bridge (SB) 204, an ASIC (Application Specific Integrated Circuit) 206, and a storage unit, which are the main parts of the computer. It has a local memory (MEM-C) 207, an HDD controller 208, and a storage unit HD209, and has a configuration in which the NB 203 and the ASIC 206 are connected by an AGP (Accelerated Graphics Port) bus 221.

Of these, the CPU 201 is a control unit that controls the entire MFP. The NB 203 is a bridge for connecting the CPU 201, the MEM-P202, the SB204, and the AGP bus 221. The NB 203 includes a memory controller that controls reading and writing to the MEM-P202, a PCI (Peripheral Component Interconnect) master, and an AGP target. Has.

The MEM-P202 includes a ROM 202a which is a memory for storing programs and data that realizes each function of the controller 210, and a RAM 202b which is used as a memory for drawing programs and data and a memory for drawing at the time of memory printing. The program stored in the RAM 202b is configured to be recorded and provided on a computer-readable recording medium such as a CD-ROM, CD-R, or DVD in an installable format or an executable format file. You may.

SB204 is a bridge for connecting NB203 to a PCI device and peripheral devices. The ASIC 206 is an IC (Integrated Circuit) for image processing applications having hardware elements for image processing, and has a role of a bridge connecting the AGP bus 221 and the PCI bus 222, the HDD 208, and the MEM-C207, respectively. The ASIC 206 is a PCI target and an AGP master, an arbiter (ARB) that forms the core of the ASIC 206, a memory controller that controls the MEM-C207, and a plurality of DMACs (Direct Memory Access Controllers) that rotate image data by hardware logic or the like. , And a PCI unit that transfers data between the scanner unit 231 and the printer unit 232 via the PCI bus 222. A USB (Universal Serial Bus) interface or an IEEE 1394 (Institute of Electrical and Electronics Engineers 1394) interface may be connected to the ASIC 206.

The MEM-C207 is a local memory used as a copy image buffer and a code buffer. The HD209 is a storage for accumulating image data, accumulating font data used at the time of printing, and accumulating forms. The HD209 controls reading or writing of data to the HD209 according to the control of the CPU 201. The AGP bus 221 is a bus interface for a graphics accelerator card proposed for speeding up graphic processing, and the graphics accelerator card can be speeded up by directly accessing the MEM-P202 with high throughput. ..

Further, the short-range communication circuit 220 includes a short-range communication circuit 220a. The short-range communication circuit 220 is a communication circuit such as NFC or Bluetooth (registered trademark).

Further, the engine control unit 230 is composed of a scanner unit 231 and a printer unit 232. Further, the operation panel 240 displays the current setting value, the selection screen, and the like, and displays the panel display unit 240a such as a touch panel that accepts the input from the operator, and the setting value of the condition related to image formation such as the density setting condition. It is provided with an operation panel 240b including a numeric keypad for receiving and a start key for receiving a copy start instruction. The controller 210 controls the entire MFP, for example, drawing, communication, input from the operation panel 240, and the like. The scanner unit 231 or the printer unit 232 includes an image processing portion such as error diffusion and gamma conversion.

The MFP can be selected by sequentially switching the document box function, the copy function, the printer function, and the facsimile function by using the application switching key on the operation panel 240. When the document box function is selected, the document box mode is set, when the copy function is selected, the copy mode is set, when the printer function is selected, the printer mode is set, and when the facsimile mode is selected, the facsimile mode is set.

Further, the network I / F 250 is an interface for performing data communication using the communication network 50. The short-range communication circuit 220 and the network I / F 250 are electrically connected to the ASIC 206 via the PCI bus 222.

<Functional block>
FIG. 5 is a functional block diagram of the information processing system 1 according to the embodiment of the present invention. Each will be described below.

<< Gateway device >>
The gateway device 10 includes a confidentiality determination unit 11, an image processing unit 12, a transmission unit 13, a registration unit 14, and a status processing unit 15. Further, the gateway device 10 functions as a confidentiality determination unit 11, an image processing unit 12, a transmission unit 13, a registration unit 14, and a status processing unit 15 by executing a program. Hereinafter, a detailed description will be given.

The confidentiality determination unit 11 receives the data to be printed or the scanned image data and the confidentiality information of the data from the input device 20. Further, the confidentiality determination unit 11 determines the confidentiality of the data received from the input device 20. Specifically, the confidentiality determination unit 11 causes the image processing unit 12 of the gateway device 10 to process the data when the data is highly confidential, based on the confidentiality information received from the input device 20. If the confidentiality of the data is low, the data is transmitted to the image processing unit 41 of the cloud system 40 to process the data.

The image processing unit 12 executes processing of data determined to be highly confidential. For example, the image processing unit 12 can execute image processing for printing (drawing processing for interpreting PDL data and converting it into CMYK data) on the data received from the input device 20. Further, the image processing unit 12 can store the image data received from the input device 20 in the storage device of the gateway device 10.

The transmission unit 13 transmits the data determined to be low confidentiality to the cloud system 40 to execute the process. Further, the transmission unit 13 acquires the data in which the image processing unit 12 or the image processing unit 41 has executed the image processing and transmits the data to the output device 30.

The registration unit 14 registers the device information of the input device 20 and the output device 30. In other words, the registration unit 14 stores the device information of the input device 20 and the output device 30 in the storage device.

The status processing unit 15 manages the status information of the input device 20 and the output device 30.

<< Input device >>
The input device 20 includes an input unit 21, a registration unit 22, and a status processing unit 23. Further, the input device 20 functions as an input unit 21, a registration unit 22, and a status processing unit 23 by executing a program. Hereinafter, a detailed description will be given.

The input unit 21 transmits the data to be printed (data converted into PDL (page description language) by the driver) or the scanned image data to the gateway device 10. Further, the input unit 21 transmits confidentiality information (for example, information that the confidentiality is high or information that the confidentiality is low) of the data to be printed or the scanned image data to the gateway device 10.

The registration unit 22 transmits the device information to the gateway device 10 in response to the device registration request from the gateway device 10.

The status processing unit 23 transmits the status information of whether or not it can be used to the gateway device 10 in response to the request from the gateway device 10 for transmitting the status information.

<< Output device >>
The output device 30 includes an output unit 31, a registration unit 32, and a status processing unit 33. Further, the output device 30 functions as an output unit 31, a registration unit 32, and a status processing unit 33 by executing a program. Hereinafter, a detailed description will be given.

The output unit 31 receives data from the gateway device 10 that has been subjected to image processing by the gateway device 10 or the cloud system 40. Further, the output unit 31 prints the data received from the gateway device 10.

The registration unit 32 transmits the device information to the gateway device 10 in response to the device registration request from the gateway device 10.

The status processing unit 33 transmits the status information of availability to the gateway device 10 in response to the request from the gateway device 10 to transmit the status information.

<< Cloud System >>
The cloud system 40 includes an image processing unit 41. Further, the cloud system 40 functions as an image processing unit 41 by executing a program. Hereinafter, a detailed description will be given.

The image processing unit 41 receives data from the gateway device 10. Further, the image processing unit 41 executes processing of data received from the gateway device 10. For example, the image processing unit 41 executes image processing for printing (drawing processing that interprets PDL data and converts it into CMYK data) on the data received from the gateway device 10, and uses the data for which the image processing is executed as the gateway device. It can be transmitted to 10. Further, the image processing unit 41 can store the image data received from the gateway device 10 in the storage device of the cloud system 40.

It should be noted that each function of the embodiment described above can be realized by one or a plurality of processing circuits. Here, the "processing circuit" in the present specification is a processor programmed to execute each function by software such as a processor implemented by an electronic circuit, or a processor designed to execute each function described above. It shall include devices such as ASIC (Application Specific Integrated Circuit), DSP (digital signal processor), FPGA (field programmable gate array) and conventional circuit modules.

<Processing method>
FIG. 6 is a sequence diagram of the initial setting process according to the embodiment of the present invention. First, each scanner 20b and each plotter 30a are registered in the gateway device 10.

In step 11 (S11), the gateway device 10 requests each scanner 20b to register the device.

In step 12 (S12), each scanner 20b transmits device information to the gateway device 10 in response to the request of S11. Specifically, each scanner 20b transmits unique information such as the resolution, paper size, and color compatibility of each scanner 20b to the gateway device 10.

In step 13 (S13), the gateway device 10 stores the device information acquired in S12 as a setting file in the non-volatile memory in the gateway device 10.

In step 14 (S14), the gateway device 10 requests each plotter 30a to register the device.

In step 15 (S15), each plotter 30a transmits device information to the gateway device 10 in response to the request of S14. Specifically, each plotter 30a transmits unique information such as the resolution, paper size, and color compatibility of each plotter 30a to the gateway device 10.

In step 16 (S16), the gateway device 10 stores the device information acquired in S15 as a setting file in the non-volatile memory in the gateway device 10.

FIG. 7 is a sequence diagram of status confirmation processing for the registered device according to the embodiment of the present invention.

It is assumed that the gateway device 10 is activated in step 21 (S21).

In step 22 (S22), the gateway device 10 requests each registered scanner 20b to transmit information on the status of availability.

In step 23 (S23), the gateway device 10 requests each registered plotter 30a to transmit information on the status of availability.

In step 24 (S24), each scanner 20b transmits information on the status of availability to the gateway device 10 in response to the request of S22.

In step 25 (S25), each plotter 30a transmits information on the status of availability to the gateway device 10 in response to the request of S23.

In step 26 (S26), the gateway device 10 stores the status information acquired in S24 and S25 in the gateway device 10.

The status confirmation process is not only executed when the gateway device 10 is started, but is also repeatedly executed at regular intervals even after the gateway device 10 is started, and is always updated to the latest state.

FIG. 8 is a sequence diagram of a printing process on a plotter according to an embodiment of the present invention.

In step 31 (S31), the edge device 20a prints data to the gateway device 10 (file to be printed) and data confidentiality information (for example, highly confidential information or confidentiality). Send information that it is less likely) and request printing.

In step 32 (S32), the gateway device 10 determines the confidentiality of the data to be printed by S31 based on the confidentiality information of S31. If the confidentiality is low, the process proceeds to step 33, and if the confidentiality is high, the process proceeds to step 36.

In step 33 (S33), the gateway device 10 transmits data to be printed to the cloud system 40 and requests image processing.

In step 34 (S34), the cloud system 40 executes image processing for printing.

In step 35 (S35), the cloud system 40 transmits the data obtained by performing the image processing in S34 to the gateway device 10.

In step 36 (S36), the gateway device 10 executes image processing for printing.

In step 37 (S37), the gateway device 10 determines the output destination (that is, the output device 30) of the data on which the image processing for printing has been executed. For example, the gateway device 10 can specify the output destination specified at the time of requesting printing in S31. Further, the gateway device 10 can specify an output destination closest to the edge device 20a that requested printing of S31 based on device information, status information, and the like.

In step 38 (S38), the gateway device 10 transmits the data on which the image processing has been executed to the output destination (output device such as the plotter 30a) determined in S37, and requests printing. For example, the gateway device 10 can transmit information on print settings suitable for the output device 30 such as the plotter 30a and data after image processing to the output device 30. Further, for example, the gateway device 10 performs an encryption process that can be decrypted only by the registered output device 30 on the data after the image processing, and the data subjected to the encryption process is the registered output device 30. It can be transmitted to the designated output device 30.

In step 39 (S39), the gateway device 10 notifies the edge device 20a that the printing of S31 is completed.

FIG. 9 is a sequence diagram of scanning processing from a scanner according to an embodiment of the present invention.

In step 41 (S41), the scanner 20b selects a confidential mode (for example, a highly confidential mode or a less confidential mode) in response to an instruction from the user.

In step 42 (S42), the scanner 20b performs a scan.

In step 43 (S43), the scanner 20b transmits the image data scanned in S42 to the gateway device 10. Further, the scanner 20b transmits the confidential mode information selected in S41 to the gateway device 10.

In step 44 (S44), the gateway device 10 notifies the scanner 20b that the transmission of the image data is completed. The gateway device 10 determines the confidentiality of the image data of S43 based on the information of the confidential mode of S43. If the confidential mode is a mode with low confidentiality, the process proceeds to step 45, and if the confidential mode is a mode with high confidentiality, the process proceeds to step 48.

In step 45 (S45), the gateway device 10 transmits image data to the cloud system 40.

In step 46 (S46), the cloud system 40 stores the image data on the cloud system 40 (that is, stores it in the storage device).

In step 47 (S47), the cloud system 40 notifies the gateway device 10 that the image data has been stored.

In step 48 (S48), the gateway device 10 stores the image data in the gateway device 10 (that is, stores it in the storage device).

As described above, in one embodiment of the present invention, a plurality of image forming devices and the like share the confidentiality determination unit and the image processing unit provided in the gateway device to simplify the overall configuration of the system. Can be done. In addition, by centrally managing the confidentiality determination unit, it is possible to facilitate updates such as changing the requirements for confidentiality determination.

The present invention is not limited to the configurations shown here, such as combinations with other elements in the configurations and the like described in the above embodiments. These points can be changed without departing from the spirit of the present invention, and can be appropriately determined according to the application form thereof.

1 Information processing system 10 Gateway device 20 Input device 20a Edge device 20b Scanner 30 Output device 30a Plotter 40 Cloud system 50 Network 60 Image forming device 11 Confidentiality determination unit 12 Image processing unit 13 Transmission unit 14 Registration unit 15 Status processing unit 21 Input Unit 22 Registration unit 23 Status processing unit 31 Output unit 32 Registration unit 33 Status processing unit 41 Image processing unit

JP-A-2019-001057

Claims (9)

Including a gateway device connected to a cloud system and multiple input devices,
Each input device includes an input unit that transmits data to the gateway device.
The gateway device is
A confidentiality determination unit that determines the confidentiality of the data acquired from each of the input devices, and
An image processing unit that executes processing of the data determined to be highly confidential, and
An information processing system including a transmission unit that transmits data determined to have low confidentiality to the cloud system and executes processing. The information processing system according to claim 1, wherein the data processing is image processing for printing. The information processing system according to claim 1, wherein the data processing is a process of storing scanned image data in a storage device. Including an output device
The information processing system according to claim 2, wherein the gateway device transmits information of print settings suitable for the output device and data after image processing to the output device. The gateway device is
A registration unit for registering the output device is provided.
The information processing system according to claim 4, wherein the data that has been subjected to decryption processing by the registered output device is transmitted to a designated output device among the registered output devices. The information processing system according to any one of claims 1 to 5, wherein each input device transmits information regarding the confidentiality of the data to the gateway device. Connected to the cloud system
Confidentiality determination unit that determines the confidentiality of data acquired from each input device,
An image processing unit that executes processing of the data determined to be highly confidential, and
A gateway device including a transmission unit that transmits data determined to be low in confidentiality to the cloud system and executes processing. This is the method executed by the gateway device connected to the cloud system.
Steps to determine the confidentiality of the data acquired from each input device,
When it is determined that the confidentiality is high, the processing of the data is executed, and when it is determined that the confidentiality is low, the data is transmitted to the cloud system to execute the processing. How to include. The gateway device connected to the cloud system,
Confidentiality determination unit that determines the confidentiality of data acquired from each input device,
An image processing unit that executes processing of data determined to be highly confidential,
A program for functioning as a transmission unit that transmits data determined to have low confidentiality to the cloud system and executes processing.

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