JP2009239757A - Communication device, communicating system, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication device, communication system, and program capable of preventing others from easily acquiring data in comparison to a case when the data is transmitted in the same communication environment, and capable of improving a security level. <P>SOLUTION: A communication system 1 includes: a power line 43 capable of performing power line communication; and a data communication line 45 for performing Ethernet (R). An image forming device 2A and an information processor 3A are connected to the power line 43 and the data communication line 45, and also includes a power line communication function. Thus, the image forming device 2A and the information processor 3A can perform data transmission by using either the power line communication or the Ethernet (R) communication or using both of them. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a communication device, a communication system, and a program.

  For example, Patent Literature 1 discloses a data transmission apparatus including both a data transmission control unit and a data reception control unit having means for restoring them. That is, in Patent Document 1, the transmission-side data transmission device and the reception-side data transmission device divide user data requested for transmission into sub-user data, and randomly divide the sub-user data divided in the packet data to be transmitted. Means for rearrangement and transmission are provided. Further, the communication control packet and the user data packet are provided with means for adding and transmitting random data so as to have the same packet length and transmitting the packet. Also, means for intentionally rearranging packet data to be transmitted in a random order and transmitting means, and means for transmitting packet data by encrypting only a fixed-length communication control information portion in the packet data to be transmitted Is given.

Japanese Patent Laid-Open No. 9-18473

  Here, for example, when data is transmitted in the same communication environment, it is possible for another person to easily acquire the data.

  The present invention provides a communication device, a communication system, and a program capable of preventing others from easily acquiring the data and improving the security level as compared with the case where the data is transmitted in the same communication environment. The purpose is to do.

The invention according to claim 1 is a first transmission unit that performs communication by being connected to a first communication medium using a power line as a communication medium, and a second communication medium that is different from the first communication medium. A second transmission unit connected to a communication medium and performing communication; and a dividing unit that divides transmission data instructed to be transmitted into a plurality of pieces of data. A communication apparatus is characterized in that either one of the first transmission unit and the second transmission unit transmits and the remaining data is transmitted by the other transmission unit.
The invention according to claim 2 is characterized in that the division unit of the transmission data divided by the dividing means is a partial packet composed of one unit of the packet or a part of the one unit. It is a communication apparatus of description.
According to a third aspect of the present invention, the first transmission unit transmits a packet having a high security level or a first packet among a plurality of pieces of data divided by the dividing unit. It is a communication device.
According to a fourth aspect of the present invention, the dividing unit divides the packet as the transmission data into a plurality of fragments, and adds partial information indicating the order of the fragments from the head in the packet. The communication device according to claim 2, wherein the communication device is generated.
According to a fifth aspect of the present invention, information on a communication method indicating whether transmission of data obtained by division by the dividing unit is performed by the first transmission unit or the second transmission unit is added to the data. The communication apparatus according to claim 2, further comprising an additional unit.
According to a sixth aspect of the present invention, in the addition unit, the transmission in the first transmission unit and the transmission in the second transmission unit are alternately performed in the order in which one unit of the packet or the partial packet is acquired. 6. The communication apparatus according to claim 5, wherein information on a communication method is added.
According to a seventh aspect of the present invention, the adding unit continuously transmits one unit of the packet or the transmission at the first transmission unit and the transmission at the second transmission unit in the order in which the partial packets are acquired. 6. The communication apparatus according to claim 5, wherein information on the communication method in which the other is continuously performed after being performed is added.
According to an eighth aspect of the present invention, the adding unit adds the information on the communication method, ie, transmission by the first transmission unit or transmission by the second transmission unit, based on the acquired security level. The communication apparatus according to claim 5, wherein the communication apparatus is characterized in that:
The invention according to claim 9 is characterized in that the adding unit adds information of the communication method only to the partial packet located at the head of the packet among the partial packets by the dividing unit. 5. The communication device according to 5.
The invention according to claim 10 further includes a detection unit that detects that a failure has occurred in the first communication medium or the second communication medium. The communication device according to the item.
The invention according to claim 11 is characterized in that when the occurrence of a failure is detected by the detection unit, the plurality of data are not transmitted by the first transmission unit and the second transmission unit. It is a communication device.

The invention described in claim 12 is a first device connected to a first communication medium using a power line as a communication medium and a second communication medium which is another communication medium different from the first communication medium. And a second device connected to the first communication medium and the second communication medium, wherein the second device divides transmission data instructed to be transmitted into a plurality of data Means for transmitting a part of a plurality of data obtained by the division by the dividing means in one of the first communication medium and the second communication medium, and transmitting the remaining data in the other communication medium. This is a communication system characterized by the above.
The invention according to claim 13 is characterized in that the first device further includes a storage unit for storing the data received by the first communication medium and the second communication medium. Item 13. The communication system according to Item 12.
According to a fourteenth aspect of the present invention, the second device further includes a detecting unit that detects that a failure has occurred in the first communication medium, and communication on the first communication medium by the detecting unit. By detecting the occurrence of a failure, power supply to the first transmission unit that performs transmission using the first communication medium is interrupted, and power supply to the second transmission unit that performs transmission using the second communication medium is started. The communication system according to claim 12, characterized in that it is a communication system.

According to the fifteenth aspect of the present invention, communication is connected to a first communication medium having a power line as a communication medium and connected to a second communication medium which is another communication environment different from the first communication medium. A division function for dividing transmission data instructed to be transmitted to a computer included in the apparatus into a plurality of data, and a part of a plurality of pieces of data resulting from the division by the division function as the first communication medium and the second communication And a transmission function for transmitting one of the media and transmitting the remaining data through the other communication medium.
According to a sixteenth aspect of the present invention, information on a communication method indicating whether the data obtained by the division by the division function is transmitted by the first communication medium or the second communication medium is stored in the data. The program according to claim 15, further realizing an additional function to be added.
The invention according to claim 17 is the program according to claim 15, further realizing a detection function for detecting that a failure has occurred in the first communication medium or the second communication medium.

According to the first aspect, compared to the case where data is transmitted in the same communication environment, it is possible to prevent others from easily acquiring the data and to improve the security level.
According to claim 2, in addition to the effect of claim 1, generation of data is facilitated.
According to claim 3, it is possible to further improve the security level compared to the case of claim 1.
According to the fourth aspect, it is possible to generate the partial packet so that the receiving side can combine the partial packets and restore the original packet.
According to the fifth aspect, it is possible to acquire information on the communication method on the receiving side.
According to claim 6, it is possible to increase the security level in data transmission.
According to the seventh aspect, it is possible to increase the security level in data transmission.
According to claim 8, it is possible to perform data transmission suitable for the security level.
According to claim 9, the amount of data to be transmitted can be reduced as compared with the case where the present invention is not applied.
According to the tenth aspect, it is possible to detect the occurrence of a failure in the first communication medium or the second communication medium.
According to the eleventh aspect, it is possible to cope with the problem that the security level is lowered even if a failure occurs in the first communication medium or the second communication medium.
According to the twelfth aspect, compared to the case where data is transmitted in the same communication environment, it is possible to prevent others from acquiring the data easily and to improve the security level.
According to the thirteenth aspect, it is possible to cope with a problem that data is lost when data transmission is performed using the first communication medium and the second communication medium.
According to the fourteenth aspect, even when a failure occurs in the first communication medium, communication using the second communication medium is possible without any user operation.
According to the fifteenth aspect, compared to the case where data is transmitted in the same communication environment, it is possible to prevent others from easily acquiring the data and to improve the security level.
According to the sixteenth aspect, communication method information can be acquired on the receiving side.
According to the seventeenth aspect, it is possible to detect the occurrence of a failure in the first communication medium or the second communication medium.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
[First Embodiment]
FIG. 1 is a diagram illustrating an overall configuration of a communication system 1 to which the first exemplary embodiment is applied. The communication system 1 shown in the figure is constructed including, for example, one power line 43 among a plurality of power lines in which power from an external power line 41 is branched by a distribution board 42. Image forming apparatuses 2A and 2B and information processing apparatuses 3A and 3B as examples of the first apparatus and the second apparatus are connected to the power line 43 via an outlet 44, and power is supplied to each from the power line 43. .

Further, of the image forming apparatuses 2A and 2B and the information processing apparatuses 3A and 3B of the present embodiment connected to the power line 43, the image forming apparatus 2A and the information processing apparatus 3A are connected to the power line 43 as described later. Has a function of transmitting and receiving signals (power line communication (PLC) function). As a result, the image forming apparatus 2A and the information processing apparatus 3A transmit and receive signals to and from each other via the power line 43, as indicated by a broken line in FIG. In this power line communication, a high frequency signal is superimposed on a commercial frequency power waveform supplied from the power line 43 and transmitted, and the high frequency signal is separated from the power waveform and received. This is a method for transmitting and receiving.
Note that the image forming apparatus 2 </ b> B and the information processing apparatus 3 </ b> B do not have a power line communication function and cannot transmit and receive signals via the power line 43.

  Further, the communication system 1 according to the present embodiment is constructed including a data communication line 45 arranged separately from the power line 43. A plurality of image forming apparatuses 2A and 2B and information processing apparatuses 3A and 3B are connected to the data communication line 45. Thus, a network such as a LAN (Local Area Network) is configured. In the present embodiment, such a network is configured using Ethernet (registered trademark).

In the present embodiment, the image forming apparatus 2 </ b> A and the information processing apparatus 3 </ b> A can send and receive signals via the power line 43 (first communication medium) and send and receive signals via the data communication line 45. (Second communication medium). In addition, the image forming apparatus 2 </ b> B and the information processing apparatus 3 </ b> B can transmit and receive signals via the data communication line 45. In addition, before performing data transmission (data transfer) between the plurality of image forming apparatuses 2A and 2B and the information processing apparatuses 3A and 3B, negotiation for establishing data communication between the transmission source and the transmission destination. (negotiation). The term “negotiation” can also be said to mean that hardware devices exchange information regarding communication (communication conditions).
Normally, power line communication via the power line 43 is used for the negotiation, but communication via the data communication line 45 may be used. In addition, it is usually communication via the data communication line 45 that is used for data transmission, but there is also a case of power line communication via the power line 43.
In the present embodiment, the configuration in which the image forming apparatuses 2A and 2B and the information processing apparatuses 3A and 3B are connected to each other is employed, but the configuration in which a plurality of other communicable devices are connected may be employed. I do not care.

  The information processing apparatuses 3A and 3B according to the present embodiment have a function of creating and saving image data including documents, figures, photographs, and the like. Then, when printing the created image data or the stored image data, the information processing apparatuses 3A and 3B convert the image data into a print command for one of the image forming apparatuses 2A and 2B, and print it as a print job. Generate and output data. In addition to the image data, the print data includes attribute data that is information for setting various printing functions and specifying one of the image forming apparatuses 2A and 2B for performing printing. As the information processing apparatuses 3A and 3B here, for example, personal computers (PCs) are used.

  The image forming apparatuses 2A and 2B according to the present embodiment are multi-function machines that are combined with a copying function, a facsimile function, a printing function, and the like. For example, image data generated by the information processing apparatuses 3A and 3B is used. Printing, printing of image data received by facsimile, copying of images, and the like.

FIG. 2 is a block diagram illustrating the communication device 5 of the image forming apparatus 2A and the information processing apparatus 3A according to the present embodiment. The communication apparatus 5 is provided in each of the image forming apparatus 2A and the information processing apparatus 3A. In addition, the image forming apparatuses 2A and 2B and the information processing apparatuses 3A and 3B are used as a CPU (Central Processing Unit) (not shown) that performs arithmetic processing when controlling the entire apparatus, a work memory of the CPU, or the like. A memory (not shown) or the like for storing a processing program to be executed is stored. Further, the image forming apparatuses 2A and 2B include an ASIC (Application Specific Integrated Circuit) unit (not shown) on which a plurality of application functions for controlling each device and the like are mounted.
As shown in the figure, the communication device 5 controls a packet (data obtained from an acquired packet) to control data transmission / reception, a LAN controller unit 50, and an Ethernet (registered trademark) environment. A PHY (physical layer device) 51 as an example of a second transmission unit that is located between a certain general-purpose communication environment (second communication medium) and transmits / receives a physical layer, a LAN controller unit 50, and a power line communication environment ( PHY 52 as an example of a first transmission unit that is located between the first communication medium and performs transmission / reception of the physical layer. The PHY 51 converts between bus data and power line communication data, and the PHY 52 converts between bus data and Ethernet (registered trademark) data.

  The communication device 5 includes a connection unit (output unit) 53 that is a standard bus for connecting the LAN controller unit 50 and the PHY 51 to each other and connecting the LAN controller unit 50 and the PHY 52 to each other. The connection unit 53 is configured by an MII (Media Independent Interface) as a connection interface.

The internal configuration of the LAN controller unit 50 will be described.
The LAN controller unit 50 includes a network controller control unit 54 having a function of controlling general-purpose communication and power line communication.
The network controller control unit 54 controls and divides and combines packets, and determines whether to use general-purpose communication or power line communication to transmit data. The network controller control unit 54 is provided in the packet control unit 57 and a packet control unit 57 (dividing means, adding unit) for instructing packet division, combination and transmission, and for combining received packets. A packet combining internal memory 57a and a network failure detection unit 58 as an example of a detection unit for detecting a communication failure in the general-purpose communication environment and the power line communication environment are used. The network failure detection unit 58 detects that either general-purpose communication or power line communication is in a communication disabled state.
The network controller control unit 54 includes a signal line 59 that electrically connects the packet control unit 57 and the network failure detection unit 58 to each other.

  The LAN controller unit 50 includes a general-purpose communication memory 55 used during general-purpose communication and a power-line communication memory 56 used during power-line communication. The general-purpose communication memory 55 includes a transmission memory 55a and a reception memory (storage unit) 55b. The power line communication memory 56 includes a transmission memory 56a and a reception memory (storage unit) 56b.

FIG. 3 is a diagram for explaining processing performed when data is transmitted in the communication system 1 according to the present embodiment.
The transmission instruction data (transmission data instructed to be transmitted) 100 shown in the figure is data instructed to be transmitted by the user. When transmitting the transmission instruction data 100, the packet control unit 57 ( 2), the transmission instruction data 100 is divided into divided data (a plurality of data obtained by division by the dividing means. Data obtained by division by the dividing means) 110, 120,..., 1n0, and divided data 110, .., 3n0 are generated by adding headers 210, 220,..., 2n0 to 120,. That is, the packet 310 is composed of the header 210 and the divided data 110, the packet 320 is composed of the header 220 and the divided data 120, and the packet 3n0 is composed of the header 2n0 and the divided data 1n0. These headers 210, 220, and 2n0 are control information such as addresses of transmission sources and transmission destinations, packet types, and serial numbers.

As described above, the packets 310, 320, and 3n0 are small pieces of the transmission instruction data 100 to which information such as transmission destination addresses is added as headers 210, 220, and 2n0 in communication. That is, when transmitting information with a large amount of data, the information is divided into small pieces, and packets 310, 320,..., 3n0 are created with headers 210, 220,.
More specifically, when receiving the packets 310, 320,..., 3n0 on the receiving side, the packets are temporarily stored in the reception memories 55b and 56b, and then the packet controller 57 receives the packets 310, 320,. , 3n0 are sequentially read and combined, and stored in the packet combining internal memory 57a. Thus, the packet control unit 57 generates the transmission instruction data 100.
In general, a communication method for transmitting / receiving the transmission instruction data 100 in units of packets is referred to as packet communication. By transmitting and receiving the transmission instruction data 100 in units of packets, a midway line is not occupied for communication between two points, and the communication line can be used efficiently. The size of one packet differs depending on the system, and may be fixed to 128 bytes, for example.

  Here, the contents of the headers 210, 220, and 2n0 differ depending on the protocol, but in this embodiment, as shown in FIG. 3, the header 210 of the packet 310 has an example of communication method information as shown in FIG. Transmission method information 400 is included. The transmission method information 400 is not included in the headers 220 and 2n0 of the other packets 320 and 3n0. Thus, the header 210 of the packet 310 that is the first packet or the head packet has the transmission method information 400. Although the transmission method information 400 shown in the figure is located at the head of the header 210, it may be located at other positions.

FIG. 4 is a table showing the relationship between the transmission method information 400 included in the header 210 of the first packet and the transmission method. Note that the table shown in FIG. 4 is provided on both the transmission side and the reception side.
The transmission method information 400 included in the header 210 of the packet 310 indicates the transmission method. Specifically, as shown in the figure, when the transmission method information 400 is “0000”, it is a case of transmitting only by general-purpose communication, and when it is “0001”, it is a case of transmitting only by power line communication. Further, when the transmission method information 400 is “0002”, general-purpose communication and power line communication are alternately output, and when “0003” is specified, the output destination is changed after two transmissions.

In addition, when the transmission method information 400 is “0002” and “0003”, transmission is performed using both general-purpose communication and power line communication. That is, when the transmission method information 400 is “0002”, the packets 310, 320, and 3n0 are transmitted using general-purpose communication when the order is odd, and the even-number is transmitted using power line communication. As another aspect, it is also conceivable to change the output destination alternately for each packet without determining the output destination between the odd number and the even number.
When the transmission method information 400 is “0003”, for example, the output destination is changed every two packets so that the next two packets are transmitted by power line communication after the packets 310 and 320 are transmitted by general-purpose communication. Is the case.
When the transmission method information 400 is “0002” and “0003”, the security level (confidentiality) can be increased as compared with the cases of “0000” and “0001”. Therefore, it is conceivable to select the transmission method information 400 in accordance with an instruction from the user regarding the security level.
Note that the packet 310, which is the first packet in the transmission instruction data 100, is transmitted using power line communication, or a packet with a higher security level among the packets 310, 320, 3n0 is transmitted using power line communication. It may be possible to secure a security level by

  In this embodiment, when transmitting the generated packets 310, 320,..., 3n0, the network controller control unit 54 selects a transmission method in the table of FIG. 4 and transmits a transmission method corresponding to the selected transmission method. The information 400 is added to the header 210 of the packet 310 that is the first packet. Thereafter, the network controller control unit 54 stores the packets 310, 320,..., 3n0 in the transmission memory 55a of the general-purpose communication memory 55 and / or the transmission memory 56a of the power line communication memory 56. The packets 310, 320,..., 3n0 stored in the transmission memories 55a and 56a are transmitted under the control of the network controller control unit 54.

[Second Embodiment]
FIG. 5 is a diagram illustrating processing performed when data is transmitted in the communication system 1 according to the second embodiment. The transmission instruction data 100 and the packets 310 and 320 shown in FIG. 5 are basically the same as those shown in FIG. In other words, the transmission method information 400 is not included in the header 210 of the packet 310 shown in FIG. 5, which is different from that shown in FIG.
As shown in FIG. 5, in the present embodiment, the packet control unit 57 (see FIG. 2) further divides the packet (transmission data instructed to be transmitted) 310 into a plurality of fragments, thereby obtaining a partial packet 610. , 620 are created. That is, the packet 310 is divided (redivided) into divided packets (a plurality of pieces of data obtained by division by the division means. Fragments. Data obtained by division by the division means) 111, 112, and then transmitted to the divided packet 111. 400 and order information 511 and 512 are added to generate a partial packet 610. Further, the partial packet 620 is generated by adding the order information 512 and 513 to the divided packet 112. As described above, the partial packet 610 includes the transmission method information 400, the order information 511 and 512, and the fragment packet 111, and the partial packet 620 includes the order information 512 and 513 and the fragment packet 112. The fragment packet 111 includes a header 210, but the fragment packet 112 does not include a header 210.

  More specifically, in the partial packet 610, the transmission method information 400 and the order information 511 are added before the fragment packet 111, and the order information 512 is added after the fragment packet 111. In the partial packet 620, the order information 512 is added before the fragment packet 112, and the order information 513 is added after the fragment packet 112. The transmission method information 400 is the same as that shown in FIG. 4 described in the case of the first embodiment.

Here, the order information 511, 512, and 513 is information indicating the divided order, and is information indicating the order from the top in the packet 310. That is, the order information 511, 512, 513 is added before and after the divided packets 111, 112 so that the original packet 310 is obtained when the partial packets 610, 620 are combined. The order information 511, 512, and 513 will be described with specific examples. The order information 511 is “0”, the order information 512 is “1”, and the order information 513 is “2”.
Since it is configured in this manner, the packet control unit 57 on the receiving side (see FIG. 2) can grasp the partial packet by using the order information 511, 512, and 513. The received partial packets 610 and 620 can be combined with each other to restore the packet 310.

By further dividing the packet 310 in this way, it is possible to increase the security level at the time of transmission / reception of the transmission instruction data 100 as compared with the case of the first embodiment.
Although FIG. 5 mainly illustrates the processing of the packet 310, other packets 320 can be processed in the same manner. In addition, although it is conceivable to re-divide all the packets 310 and 320 constituting the transmission instruction data 100, it is also conceivable to re-divide only the packet corresponding to the portion of the transmission instruction data 100 that is particularly desired to improve security. . That is, it is possible to adopt a process of partial re-division.
In the present embodiment, the packet 310 is divided into two, but it is also possible to divide into three or four. Further, in this embodiment, the packet 310 is equally divided and the partial packets 610 and 620 are processed so as to have the same data amount. However, it is also possible to use arbitrary different data amounts.

Here, the general-purpose communication and the power line communication are not the same equipment (infrastructure) but are physically different equipments independent from each other. Therefore, when data is transmitted using these together, the receiving side receives asynchronously. That is, even if the transmission side transmits the partial packets 610 and 620 in order, the reception side does not always receive them in the order of transmission. The communication device 5 according to the present embodiment includes the reception memory 55b of the general-purpose communication memory 55 and the reception memory 56b of the power line communication memory 56. Therefore, the LAN controller unit 50 has received from a bus that operates asynchronously. When detecting this, the packet control unit 57 judges the partial packets while rearranging them in the order determined from the order information 511, 512, 513 added to the partial packets 610, 620 stored in the reception memories 55b, 56b. 610 and 620 are combined.
It should be noted that such asynchronous reception occurs in the same manner in the case of the first embodiment, and therefore it is conceivable to perform the same processing.

[Third Embodiment]
FIG. 6 is a flowchart showing a processing procedure of the communication system 1 according to the third embodiment.
In the flowchart shown in the figure, when the network failure detection unit 58 detects the occurrence of a communication failure in the general-purpose communication environment or the power line communication environment (step 101), the packet control unit 57 is notified via the signal line 59 (step 102). ). When the packet control unit 57 obtains an instruction about the security level together with the data transmission instruction by the user, the packet control unit 57 determines whether or not the security level is high (step 103). When the packet control unit 57 determines that the security level is not high, the packet control unit 57 selects a communication environment in which no failure has occurred from the general-purpose communication environment and the power line communication environment, determines a transmission method (step 104), and the corresponding transmission method Information 400 is added. That is, “0000” or “0001” is added as the transmission method information 400. Thereafter, the data to be transmitted is transmitted after performing the processing in the first or second embodiment described above (step 105), and the series of processing is terminated. The transmission in step 105 is performed in the same manner as in the first and second embodiments described above.
In step 103, when the packet control unit 57 determines that the security level is high, only one of the general-purpose communication environment and the power line communication environment is transmitted, and a high security level cannot be secured. Do not perform the process. Then, the communication device 5 displays a data transmission impossible indication on a UI unit (not shown) (step 106), and ends a series of processing.

[Fourth Embodiment]
FIG. 7A is a diagram showing a partial configuration of the communication system 1 to which the fourth embodiment is applied, and FIG. 7B is a case where a failure occurs in the general-purpose communication environment of the copying machine 21A. FIG.
As shown in FIG. 7A, the communication system 1 includes a switching hub 61 connected to a general-purpose communication environment, a hub 62 connected to the switching hub 61 and fed from the power line 43, and having a power line communication function. And a hub 63 connected to the switching hub 61.

  The hub 62 is connected to a copying machine 21A and a printer 22A as the image forming apparatus 2A. Further, the information processing apparatus 3 </ b> A is connected to the hub 62. Each of the copying machine 21A, the printer 22A, and the information processing apparatus 3A has a power line communication function. For this reason, the copying machine 21A, the printer 22A, and the information processing apparatus 3A are in the same general-purpose communication environment as the hub 62 and in the same power line communication environment.

  The hub 63 is connected to the copying machine 21B and the printer 22B as the image forming apparatus 2B, and to the information processing apparatus 3B. The copier 21B, the printer 22B, and the information processing apparatus 3B are in the same general-purpose communication environment as the hub 63. Note that none of the copier 21B, the printer 22B, and the information processing apparatus 3B has a power line communication function.

  Here, as shown in FIG. 7B, when a failure occurs in the general-purpose communication environment connected to the copying machine 21A, communication is performed using the power line communication environment, as will be described later. A processing procedure after detecting a communication failure will be described below.

FIG. 8 is a flowchart showing a processing procedure of the communication system 1 according to the present embodiment.
The flowchart shown in the figure shows a processing procedure when a copy machine 21A is newly connected to the communication system 1. First, when the copying machine 21A is connected to the communication system 1 and turned on (step 201), the LAN controller unit 50 (see FIG. 2) of the communication device 5 of the copying machine 21A performs the initial setting to set up the general-purpose communication environment. It can be used (step 202). That is, when the power is turned on, the power supply of the PHY 51 for general-purpose communication is turned on, and the power supply of the PHY 52 for power line communication is kept off. In this way, the initial setting is performed using the general-purpose communication environment and not using the power line communication environment.

  Thereafter, when the network failure detection unit 58 detects the occurrence of a general-purpose communication failure (step 203), the LAN controller unit 50 switches the power supplies of the PHYs 51 and 52 (step 204). Specifically, the LAN controller unit 50 turns off the power supply of the PHY 51 for general-purpose communication and turns on the power supply of the PHY 52 for power line communication. That is, the PHY 52 is changed from the unused state to the used state, register settings are performed, and settings are made so that the power line communication environment can be used (step 205). After the authentication of the power line communication with the copying machine 21A is confirmed, the hub 62 is notified to the hub 62 that it can be used by the LAN controller unit 50 (see FIG. 2) of the copying machine 21A. In this way, the configuration is changed from the general-purpose communication environment to the power line communication environment. Therefore, for example, when data is transmitted from the information processing apparatus 3B to the copying machine 21A via general-purpose communication, the data is output from the hub 62 to the copying machine 21A through power line communication. Therefore, the user can communicate until the problem of the general-purpose communication environment is resolved.

  Then, the LAN controller unit 50 displays on the UI unit (not shown) that the communication environment has been changed (step 206). That is, the UI unit (not shown) displays that the power line communication environment has been changed and that the power is turned on again after the general-purpose communication environment is restored.

  As described above, when the communication system 1 can connect to the general-purpose communication environment and can also connect to the power-line communication environment, the communication system 1 detects that the general-purpose communication environment has become unable to communicate for some reason. The general-purpose communication environment is switched to the unused state and the power line communication environment is switched to the used state. For this reason, the user does not need to be aware that the communication environment has been switched, and can perform data transfer via power line communication even if some trouble occurs in the general-purpose communication environment. And it notifies to a user by displaying that it changed.

Here, a modification of the present embodiment will be described.
FIG. 9 is a diagram showing a partial configuration of a modification of the fourth embodiment.
As shown in the figure, the switching hub 61 is connected with two hubs 63 that do not have a power line communication function. The copier 21A, the printer 22A, and the information processing apparatus 3A are connected to the hub 63.
The hub 63 and the copying machine 21A are connected to each other by a data communication line 45. Further, the copying machine 21A and the information processing apparatus 3A are connected to each other by a power line 64.
In such a configuration, when a failure occurs in the data communication line 45 for some reason and general communication becomes impossible, the general communication is changed to the power line communication using the power line 64 by the processing procedure of FIG. Be changed. More specifically, the information processing apparatus 3A notifies the information processing apparatus 3A that it can be used by the LAN controller unit 50 (see FIG. 2) of the copying machine 21A after confirming the authentication of the power line communication on the power line 64 when supporting the power line communication. Is done. Therefore, for example, when it is desired to transmit data from the information processing apparatus 3A to the copying machine 21A, it can be executed by power line communication via the power line 64.

  Here, the data communication line 45 is not connected to the copying machine 21A that is not used in the general-purpose communication environment. In such a case, general-purpose communication has become impossible, and the power line communication environment is changed according to the processing procedure described above. For this reason, since the power line communication can be used when the copying machine 21A is in an abnormal state, it is possible to easily collect internal data from the information processing apparatus 3A capable of the power line communication.

  The various processes described in the above-described embodiments are realized by application programs executed using a memory as a working memory of the image forming apparatus 2A and / or the information processing apparatus 3A. This application program is provided in a state where it is installed in the apparatus when providing the image forming apparatus 2A or / and the information processing apparatus 3A, which is a computer, to a customer (including a user). A form in which a program to be executed by a computer is provided on a storage medium or the like stored in a computer-readable manner is conceivable. As this storage medium, for example, a CD-ROM medium or the like corresponds, and a program is read and executed by a CD-ROM reader (not shown) or the like. These programs may be provided via a network interface via a network by a program transmission device (not shown), for example. As this program transmission apparatus, for example, provided in the image forming apparatus 2A and / or the information processing apparatus 3A, a memory for storing a program and a program transmission means for providing the program via a network are provided.

1 is a diagram illustrating an overall configuration of a communication system to which a first embodiment is applied. 1 is a block diagram illustrating a communication device of an image forming apparatus and an information processing apparatus according to an embodiment. It is a figure explaining the process performed when transmitting the data in the communication system of this Embodiment. It is a table which shows the relationship between the transmission method information which the header of a 1st packet has, and a transmission method. It is a figure explaining the process performed when transmitting the data in the communication system of 2nd Embodiment. It is a flowchart which shows the process sequence of the communication system which concerns on 3rd Embodiment. (A) is a figure which shows the partial structure of the communication system to which 4th Embodiment is applied, (b) is a figure which shows the case where a failure generate | occur | produces in the general purpose communication environment of a copying machine. . It is a flowchart which shows the process sequence of the communication system which concerns on this Embodiment. It is a figure which shows the partial structure of the modification of 4th Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Communication system, 2A, 2B ... Image forming apparatus, 3A, 3B ... Information processing apparatus, 41 ... External power line, 42 ... Distribution board, 43, 64 ... Power line, 44 ... Outlet, 45 ... Data communication line, 5 ... Communication device 50... LAN controller unit 51, 52... PHY 53. Connection unit 54. Network controller control unit 55. General purpose communication memory 55 a 56 a Send memory 55 b 56 b Receive memory 56. Power line communication memory, 57... Packet control unit, 57 a... Packet coupling internal memory, 58... Network failure detection unit, 59... Signal line, 100 ... transmission instruction data, 110, 120, 1n0. Divided packet, 210, 220, 2n0 ... header, 310, 320, 3n0 ... packet, 400 ... transmission method information, 511 12,513 ... the order information, 610, 620 ... partial packet

Claims (17)

A first transmitter connected to a first communication medium having a power line as a communication medium and performing communication;
A second transmitter that is connected to and communicates with a second communication medium that is another communication medium different from the first communication medium;
Dividing means for dividing the transmission data instructed to be transmitted into a plurality of data;
Including
A part of a plurality of data divided by the dividing unit is transmitted by one of the first transmitter and the second transmitter, and the remaining data is transmitted by the other transmitter. apparatus.   2. The communication apparatus according to claim 1, wherein a division unit of the transmission data divided by the dividing unit is a partial packet composed of one unit of the packet or a part of the one unit.   The communication apparatus according to claim 2, wherein the first transmission unit transmits a packet having a high security level or a first packet among a plurality of pieces of data divided by the dividing unit.   The division means divides a packet as the transmission data into a plurality of fragments, and adds partial information indicating the order of the fragment from the head in the packet to generate a partial packet. Item 3. The communication device according to Item 2.   It further includes an adding unit that adds information on a communication method indicating whether transmission of data obtained by the division by the dividing unit is performed by the first transmitting unit or the second transmitting unit to the data. The communication device according to any one of claims 2 to 4.   The adding unit adds information on the communication method in which transmission in the first transmitting unit and transmission in the second transmitting unit are alternated in the order in which one unit of the packet or the partial packet is acquired. The communication device according to claim 5, wherein:   The addition unit is configured such that one of the packets or the partial packet is acquired in the order in which the first transmission unit and the second transmission unit transmit one after the other. The communication apparatus according to claim 5, wherein information on the communication method that is repeatedly performed is added.   The said addition part adds the information of the said communication method of transmission in the said 1st transmission part or transmission in the said 2nd transmission part based on the acquired security level, The transmission method of Claim 5 characterized by the above-mentioned. Communication device.   6. The communication apparatus according to claim 5, wherein the adding unit adds the information on the communication method only to the partial packet positioned at the head of the packet among the partial packets by the dividing unit.   The communication apparatus according to claim 1, further comprising a detection unit that detects that a failure has occurred in the first communication medium or the second communication medium.   The communication device according to claim 10, wherein when the occurrence of a failure is detected by the detection unit, the plurality of data are not transmitted by the first transmission unit and the second transmission unit. A first device connected to a first communication medium using a power line as a communication medium and a second communication medium that is another communication medium different from the first communication medium;
A second device connected to the first communication medium and the second communication medium;
Including
The second device includes:
Dividing means for dividing transmission data instructed to be transmitted into a plurality of data;
A part of a plurality of data divided by the dividing means is transmitted by one of the first communication medium and the second communication medium, and the remaining data is transmitted by the other communication medium. Communication system. The first device includes:
The communication system according to claim 12, further comprising a storage unit that stores the data received by the first communication medium and the second communication medium. The second device includes:
And further comprising detecting means for detecting that a failure has occurred in the first communication medium,
By detecting the occurrence of a communication failure in the first communication medium by the detection means, power supply to the first transmission unit that performs transmission on the first communication medium is cut off, and transmission on the second communication medium is performed. The communication system according to claim 12, wherein power supply to the second transmission unit is started. A computer provided in a communication device that is connected to a first communication medium having a power line as a communication medium and connected to a second communication medium that is another communication environment different from the first communication medium,
A division function for dividing transmission data instructed to be transmitted into a plurality of data;
A transmission function for transmitting a part of a plurality of data by the division in the division function in one of the first communication medium and the second communication medium and transmitting the remaining data in the other communication medium;
A program that realizes   Claims for further realizing an additional function of adding information on a communication method indicating whether transmission of data obtained by division by the division function is performed by the first communication medium or the second communication medium to the data. Item 16. The program according to Item 15.   The program according to claim 15, further realizing a detection function of detecting that a failure has occurred in the first communication medium or the second communication medium.

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