JP2022147666A - Download device, download system, and server - Google Patents

Abstract

To reduce a burden on receiving download data with a simple configuration in a download device, a download system, and a server.SOLUTION: First to third image forming apparatuses 100-300 (example of download devices) comprise: device receiving units 131, 231 that each receive, from a server 1, part of a plurality of pieces of division firmware (example of division data) obtained by dividing firmware (example of download data); device transmission units 132, 232 that each transmit the received part of the division firmware to one or more other image forming apparatuses; and coupling units 111, 211 that each couple the plurality of pieces of division firmware. The device receiving units 131, 231 each receive the other division firmware from the other image forming apparatuses, and the coupling units 111, 211 each couple the part of the division firmware received from the server 1 and the other firmware received from the other image forming apparatuses to each other.SELECTED DRAWING: Figure 2

Description

The present invention relates to a download system, a download system comprising a plurality of download systems and servers, and a server.

Conventionally, in order to reduce the load of receiving firmware for updating firmware for a plurality of devices, there has been proposed a terminal device that supplies firmware received from a server device at once to a plurality of devices (for example, Patent Document 1).

JP 2012-78916 A

However, when the firmware is updated using the terminal devices described above, one terminal device communicates with the server, which places a load on this terminal device. In addition to the need to prepare this terminal device, when this terminal device is in a system down state or a power saving state, it may not be possible to transmit all the firmware to the device.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a download device, a download system, and a server that can reduce the load of receiving download data with a simple configuration.

In one aspect, a download device includes: a device receiving unit that receives from a server a part of a plurality of divided data obtained by dividing download data; a device transmission unit for transmitting data to a download device; and a combining unit for combining the plurality of divided data, wherein the device receiving unit receives the other divided data from the other download device, and the combining unit comprises: The part of the divided data received from the server and the other divided data received from the other download device are combined.

According to the aspect, it is possible to reduce the load of receiving download data with a simple configuration.

1 is a configuration diagram showing a download system according to an embodiment; FIG. FIG. 10 is an explanatory diagram for explaining firmware download processing according to an embodiment; 4 is a flow chart showing the flow of firmware download processing in one embodiment.

A download device, a download system, and a server according to an embodiment of the present invention will be described below by taking an example in which download data is firmware and the download device is an image forming apparatus.

FIG. 1 is a configuration diagram showing a download system S according to one embodiment.

A download system S shown in FIG. 1 includes a server 1, and a first image forming apparatus 100 and a second image forming apparatus 200, which are examples of a plurality of download devices. For example, the first image forming apparatus 100 and the second image forming apparatus 200 are connected to each other via a wireless LAN or a wired LAN (intranet), and are connected to the server 1 via the Internet, for example. Note that the download system S may further include the third image forming apparatus 300 shown in FIG. 2, and may include two or more image forming apparatuses (download devices).

The server 1 includes a control section 10 , a storage section 20 and an interface section 30 .

The control unit 10 has, for example, a processor (for example, CPU: Central Processing Unit) that functions as an arithmetic processing device that controls the operation of the entire server 1 .

The storage unit 20 is a ROM (Read Only Memory), which is a read-only semiconductor memory in which a predetermined program is recorded in advance. It has a memory such as a random access memory (RAM) that is a writable and readable semiconductor memory, a hard disk device, and the like.

The storage unit 20 includes a divided data storage unit 21 that stores a plurality of divided firmware (an example of divided data) into which firmware (an example of download data) is divided, and a division information storage unit that stores division information of the plurality of divided firmware. 22, for example in a common memory.

A plurality of pieces of divided firmware stored in the divided data storage unit 21 are obtained by dividing the firmware acquired by the server 1 by the control unit 10, for example. The divided firmware (for example, 500 MB) is preferably divided into a plurality of pieces (for example, 500 pieces) so that each piece of divided firmware has a predetermined capacity (for example, 1 MB). Note that the server 1 may acquire a plurality of pieces of divided firmware that have been divided in advance.

For example, in the example shown in FIG. 2, the firmware of version V1.00.000 is divided into 9 pieces of divided firmware.

The division information stored in the division information storage unit 22 includes the division number of each divided firmware, the number of divisions of the firmware, the data size, etc. For example, the number of divisions is included in the firmware list for each firmware version.

The interface unit 30 exchanges various information with the first image forming apparatus 100 and the second image forming apparatus 200 . The interface unit 30 is controlled by the control unit 10 when the control unit 10 reads out a predetermined program from the storage unit 20 or the like and executes it. 200, it functions as a server transmission unit 31 that transmits the

Each of first image forming apparatus 100 and second image forming apparatus 200 includes control units 110 and 210 , storage units 120 and 220 , interface units 130 and 230 , and operation panel units 140 and 240 . Note that the first image forming apparatus 100, the second image forming apparatus 200, and the third image forming apparatus 300 shown in FIG. Operate.

The control units 110 and 210 have, for example, a processor (for example, CPU) that functions as an arithmetic processing device that controls the overall operation of the first image forming apparatus 100 or the second image forming apparatus 200 . These processors function as coupling units 111 and 211, installation units 112 and 212, and assignment determination units 113 and 213 by reading out predetermined programs such as firmware from storage units 120 and 220 and executing them.

The combining units 111 and 211 combine the divided data received from the server 1 and other image forming apparatuses into the original firmware, as will be described later.

The installing units 112 and 212 install the firmware combined by the combining units 111 and 211 .

The allotment determining units 113 and 213 determine which of the image forming apparatus, which is the own apparatus, and the other image forming apparatus receives the divided firmware from the server 1 for each of the plurality of pieces of divided firmware. The image forming apparatus to be assigned the task may acquire in advance information about the image forming apparatus that controls the control units 110 and 210 using common firmware. Note that the allotment determining units 113 and 213 may be provided in at least one image forming apparatus. Further, the sharing determination units 113 and 213 may determine the sharing by receiving a user's operation on the operation panel units 140 and 240 (described later) of at least one image forming apparatus. Note that the assignment may be made by dividing the number of divisions of the divided firmware by the number of image forming apparatuses that receive the divided firmware so that each image forming apparatus has the same number or almost the same number. The higher the CPU usage rate of the units 110 and 210 or the higher the network load, the smaller the number (capacity) ratio of receiving divided firmware, or the sharing may be removed. Also, the image forming apparatus in the system-down state may be removed from sharing.

The storage units 120 and 220 are read-only semiconductor memory ROMs in which predetermined programs are recorded in advance, and are used as working storage areas as necessary when the processor executes various programs. It has a memory such as a RAM, which is a semiconductor memory, and a hard disk device.

The storage units 120 and 220 store divided firmware and the like received by the device reception units 131 and 231, which will be described later.

The interface units 130 and 230 exchange various information with the server 1 and other image forming apparatuses. The interface units 130 and 230 are controlled by the control units 110 and 210 by reading and executing a predetermined program from the storage units 120 and 220 or the like. , 232.

The device receiving units 131 and 231 receive from the server 1 some of the plurality of pieces of divided firmware obtained by dividing the firmware described above.

For example, when a third image forming apparatus 300 is arranged in addition to the first image forming apparatus 100 and the second image forming apparatus 200 as shown in FIG. Of the nine pieces of divided firmware, No. 1 to No. 3 divided firmware are received, the device receiving unit 231 of the second image forming apparatus 200 receives No. 4 to No. 6 divided firmware, and the third image forming apparatus 300 (not shown) receives divided firmware Nos. 4 to 6. The device receiver receives the divided firmware Nos. 7-9.

The device transmission units 132 and 232 transmit the divided firmware received by the device reception units 131 and 231 to other image forming apparatuses. Then, the device receiving units 131 and 231 receive other divided firmware that has not been received from other image forming apparatuses.

The operation panel unit 140 has a display unit such as a display that displays various types of information, and an input unit such as operation keys that receive user operations. Note that when the display unit has a touch panel, the display unit also functions as an input unit.

FIG. 2 is an explanatory diagram for explaining the firmware download process according to the present embodiment.

FIG. 3 is a flow chart showing the flow of firmware download processing in one embodiment of the present embodiment.

The flowchart shown in FIG. 3 shows the flow of processing of the download system S as a whole, which is performed by the server 1 and the first to third image forming apparatuses 300. FIG.

First, as shown in FIGS. 1 to 3, the control unit 10 of the server 1 divides firmware of version V1.00.000 into nine pieces of divided firmware and stores them in the divided data storage unit 21 (step S1). Further, the control unit 10 causes the division information storage unit 22 to store the division number of each divided firmware, the division number of the firmware, the data size, and the like.

The control units 110 and 210 of the first to third image forming apparatuses 100 to 300 control the device transmission units 132 and 232, access the server 1, and request the firmware list when firmware update information is acquired. do. Accordingly, the control unit 10 of the server 1 controls the server transmission unit 31 to transmit the firmware list, and the device reception units 131 and 231 receive the firmware list (step S2).

Then, one of the first to third image forming apparatuses 100 to 300, the assignment determining unit 113 or 213, divides the obtained firmware list into a plurality of divisions based on the number of divisions corresponding to the update firmware program. It is determined which of the first to third image forming apparatuses 100 to 300 receives the firmware from the server 1 (step S3). The assignment determined in this way is shared with other image forming apparatuses by, for example, broadcast communication.

For example, as shown in FIG. 2, the division determining units 113 and 213 divide firmware with division numbers 1 to 3 into the first image forming apparatus 100, and divide firmware into division numbers 4 through 6 into the second image forming apparatus 200. , and division numbers 7 to 9 are assigned to the third image forming apparatus 300, respectively. The assignment may be determined by the server 1, and the assignment information may be transmitted from the server 1 to the first to third image forming apparatuses 100-300.

Control units 110 and 210 of first to third image forming apparatuses 100 to 300 control device transmission units 132 and 232, access server 1, and request division firmware corresponding to the allocated division number. Accordingly, the control unit 10 of the server 1 controls the server transmission unit 31 to transmit the corresponding divided firmware, and the device reception units 131 and 231 receive the divided firmware (step S4).

After acquiring the divided firmware, the control units 110 and 210 of the first to third image forming apparatuses 100 to 300 control the device transmission units 132 and 232 to transmit the acquired divided firmware to the other image forming apparatuses, and The receiving units 131 and 231 receive other divided firmware from other image forming apparatuses (step S5).

For example, as shown in FIG. 2, the first image forming apparatus 100 transmits the divided firmware of division numbers 1 to 3 received from the server 1 to the second image forming apparatus 200 and the third image forming apparatus 300, and The image forming apparatus 200 transmits the divided firmware of the division numbers 4 to 6 received from the server 1 to the first image forming apparatus 100 and the third image forming apparatus 300, and the third image forming apparatus 300 receives the firmware from the server 1. The divided firmware with division numbers 7 to 9 is transmitted to the first image forming apparatus 100 and the second image forming apparatus 200 .

Note that if the divided firmware cannot be obtained from another image forming apparatus, the first to third image forming apparatuses 100 to 300 check the state of the image forming apparatus that does not transmit the divided firmware, and if the state is a power saving state, For example, the image forming apparatus is activated by WOL (Wake On LAN). In addition, if the system is down, it is preferable that the sharing determination unit 113 or 213 of the image forming apparatus (or another image forming apparatus) performs the sharing determination again, or the own apparatus receives the corresponding divided firmware from the server 1. .

Next, the combining units 111 and 211 combine part of the divided firmware received from the server 1 and other divided firmware received from other image forming apparatuses (step S6). Thereby, the first to third image forming apparatuses 100 to 300 can acquire the firmware before division.

Then, the processing shown in FIG. 3 ends. After that, the installation units 112 and 212 of the first to third image forming apparatuses 100 to 300 install the firmware at arbitrary timing.

In the above description, firmware is used as an example of download data, but the download data may be other download data such as print data (print job data, image data). When the download data is print data, a computer that transmits the print data to the first to third image forming apparatuses 100 to 300 functions as the server 1 . Also, the download device is not limited to the first to third image forming apparatuses 100 to 300, and may be another device such as a personal computer. Further, when the sharing determination by the sharing determination units 113 and 213 is not performed, the first to third image forming apparatuses 100 to 300 receive any divided firmware from the server 1, and communicate with the other image forming apparatuses. , search for an image forming apparatus that has received another piece of divided firmware, and request this image forming apparatus to send another piece of divided firmware.

In the embodiment described above, the download system S includes the server 1 and a plurality of first to third image forming apparatuses 100 to 300 (an example of download devices).

Each of the first to third image forming apparatuses 100 to 300 includes a device receiving unit 131 that receives part of a plurality of divided firmware (an example of divided data) obtained by dividing firmware (an example of downloaded data) from the server 1, 231, device transmission units 132 and 232 for transmitting a part of received divided firmware to one or more other image forming apparatuses, and combining units 111 and 211 for combining a plurality of divided firmware. Device receiving units 131 and 231 receive other divided firmware from other image forming apparatuses, and combining units 111 and 211 receive part of the divided firmware received from server 1 and other parts received from other image forming apparatuses. split firmware and combine.

Further, in the present embodiment, server 1 transmits each of the plurality of pieces of divided firmware to any one of first to third image forming apparatuses 100 to 300 . The server 1 also includes a split data storage unit 21 that stores a plurality of pieces of split firmware, and a split information storage unit 22 that stores split information for the plurality of pieces of split firmware.

As a result, in the first to third image forming apparatuses 100 to 300, the load when downloading the firmware is reduced to receiving a part of the divided firmware from the server 1 and receiving a part of the divided firmware from one or more other image forming apparatuses. are distributed when and when receiving the split firmware. In addition, compared to a mode in which a terminal device for transmitting firmware received from the server 1 to the first to third image forming apparatuses 100 to 300 is newly used, such a terminal device can be omitted and this terminal device can be used. Firmware can be acquired by the first to third image forming apparatuses 100 to 300 even when the apparatus is in a system down state. Therefore, according to the present embodiment, it is possible to reduce the load of receiving firmware (download data) with a simple configuration.

In addition, in the present embodiment, at least one of the first to third image forming apparatuses 100 to 300, for each of the plurality of pieces of divided firmware, selects one of the image forming apparatus itself and the other image forming apparatuses. is received from the server 1 or not.

As a result, it becomes clear which of the first to third image forming apparatuses 100 to 300 acquires which divided firmware from the server 1, so that the first to third image forming apparatuses 100 to 300 acquire the received divided firmware. By transmitting to other assigned image forming apparatuses, it is possible to simplify the control of transmission and reception of divided firmware between image forming apparatuses. Also, duplicate downloads of split firmware can be avoided.

It should be noted that the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying constituent elements without departing from the scope of the present invention at the implementation stage. Also, various inventions can be formed by appropriate combinations of the plurality of constituent elements disclosed in the above-described embodiments. For example, all the components shown in the embodiments may be combined as appropriate. It goes without saying that various modifications and applications are possible without departing from the spirit of the invention. The invention described in the scope of claims at the time of filing of the present application will be additionally described below.

[Appendix 1]
a device receiving unit that receives from a server a part of a plurality of divided data obtained by dividing download data;
a device transmission unit that transmits the received partial data to one or more other download devices;
a joining unit that joins the plurality of divided data,
the device receiving unit receives the other divided data from the other download device;
The download device, wherein the combining unit combines the part of the divided data received from the server and the other divided data received from the other download device.
[Appendix 2]
An additional note, further comprising: a division determining unit that determines which of the download device, which is the local device, and the other download device receives from the server, each of the plurality of divided data. 1. The download device of claim 1.
[Appendix 3]
a server that transmits each of a plurality of divided data obtained by dividing download data to one of a plurality of download devices;
a plurality of download devices that receive a portion of the plurality of divided data from the server;
each of the plurality of download devices,
a device receiving unit that receives a part of the plurality of divided data from the server;
a device transmission unit configured to transmit the partial data received to one or more other download devices among the plurality of download devices;
a joining unit that joins the plurality of divided data,
the device receiving unit receives the other divided data from the other download device;
The download system, wherein the combining unit combines the part of the divided data received from the server and the other divided data received from the other download device.
[Appendix 4]
a split data storage unit for storing a plurality of split data obtained by splitting download data;
a division information storage unit that stores division information of the plurality of division data;
and a server transmission unit that transmits each of the plurality of divided data to one of the plurality of download devices.

Reference Signs List 1 server 10 control unit 20 storage unit 21 divided data storage unit 22 division information storage unit 30 interface unit 31 server transmission unit 100 first image forming apparatus (download device)
200 second image forming device (download device)
300 third image forming device (download device)
110, 210 control unit 111, 211 coupling unit 112, 212 installation unit 113, 213 allocation determination unit 120, 220 storage unit 130, 230 interface unit 131, 231 device reception unit 132, 232 device transmission unit 140, 240 operation panel unit S download system

Claims (4)

a device receiving unit that receives from a server a part of a plurality of divided data obtained by dividing download data;
a device transmission unit that transmits the received partial data to one or more other download devices;
a joining unit that joins the plurality of divided data,
the device receiving unit receives the other divided data from the other download device;
The download device, wherein the combining unit combines the part of the divided data received from the server and the other divided data received from the other download device. The apparatus further comprises a division determining unit that determines which of the download device, which is the local apparatus, and the other download device, receives the plurality of pieces of divided data from the server. The download device according to item 1. a server that transmits each of a plurality of divided data obtained by dividing download data to one of a plurality of download devices;
a plurality of download devices that receive a portion of the plurality of divided data from the server;
each of the plurality of download devices,
a device receiving unit that receives a part of the plurality of divided data from the server;
a device transmission unit configured to transmit the partial data received to one or more other download devices among the plurality of download devices;
a joining unit that joins the plurality of divided data,
the device receiving unit receives the other divided data from the other download device;
The download system, wherein the combining unit combines the part of the divided data received from the server and the other divided data received from the other download device. a split data storage unit for storing a plurality of split data obtained by splitting download data;
a division information storage unit that stores division information of the plurality of division data;
and a server transmitting unit configured to transmit each of the plurality of divided data to one of a plurality of download devices.

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