WO2005029782A1 - 集線装置、中継制御方法、中継制御プログラム、中継制御プログラムを記録した記録媒体、情報処理装置、dhcpサーバ、dhcp処理方法、dhcp処理プログラム、dhcp処理プログラムを記録した記録媒体、および情報処理システム - Google Patents
集線装置、中継制御方法、中継制御プログラム、中継制御プログラムを記録した記録媒体、情報処理装置、dhcpサーバ、dhcp処理方法、dhcp処理プログラム、dhcp処理プログラムを記録した記録媒体、および情報処理システム Download PDFInfo
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- WO2005029782A1 WO2005029782A1 PCT/JP2004/013338 JP2004013338W WO2005029782A1 WO 2005029782 A1 WO2005029782 A1 WO 2005029782A1 JP 2004013338 W JP2004013338 W JP 2004013338W WO 2005029782 A1 WO2005029782 A1 WO 2005029782A1
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- information processing
- concentrator
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/46—Interconnection of networks
- H04L12/4641—Virtual LANs, VLANs, e.g. virtual private networks [VPN]
Definitions
- the present invention relates to a line concentrator and a relay control method provided in an information processing system such as an image output system in which a plurality of external devices such as a copier, a scanner, and an MFP (Multi Function Printer) are connected via a network.
- An information processing device a DHCP server, and a DHCP processing method.
- Peripheral devices shared in a communication network include, for example, image forming apparatuses such as copiers, scanners, and MFPs.
- image forming apparatuses such as copiers, scanners, and MFPs.
- a print job transmitted from a computer can be executed by the plurality of image forming apparatuses.
- a device that performs output is usually specified at the time when an output instruction is issued, and the print job is transmitted to the device.
- job output requests may concentrate on a specific image forming apparatus.
- a situation may occur in which one device can output a job, but another device is waiting for a job to be output. This may make the use of the image forming apparatus inefficient.
- an image forming apparatus that executes a print job is selected according to the printing status of each image forming apparatus. Further, for example, when the data amount of a print job is large, it is possible to perform processing in a distributed manner by a plurality of image forming apparatuses. Preferably.
- Japanese Patent Application Laid-Open Publication No. Hei 9-319533 discloses that printers having common features are grouped so that output data is automatically output to a printer having a function desired by the user.
- An image output system for distributing is disclosed.
- the printer server groups and manages printers having the same function.
- the host instructing the print job does not individually designate a printer for executing the print job, but designates a printer gnorape corresponding to a function required for a print process of the print job.
- the printer server selects a printer to execute the print job in consideration of the operation status of the printers included in the printer group specified by the host, transmits the print data to the selected printer, and executes the print data.
- the print server When the print server receives a print job from the host, it temporarily stores this data. Then, after selecting a printer to execute the print job from a printer group corresponding to a function required for print processing of the print job in consideration of the operation status, the temporarily stored print job is copied to the corresponding printer. Will be sent to In other words, the print job transmitted by the host temporarily stays on the printer server and is transmitted to the printer after the distribution process in the printer server is completed. Therefore, the processing time from the print instruction to the start of printing is long. Will be. This problem is particularly noticeable when multiple print jobs are sent to the printer server at the same time.
- the print job is transmitted only to the printer selected by the print server. Therefore, if any trouble occurs in the printer and the printing process cannot be performed, the process of transferring the print job to be processed by the printer to another printer is performed by the printer server. Must be able to do so.
- the printer server detects that a trouble has occurred in a certain printer, the printer server performs a process of selecting another printer for executing the print job instructed by the printer, and then executes the print job. Processing for transmitting to the newly selected printer will be performed. Therefore, the transfer processing of the print job, which not only increases the processing load of the printer server, also takes time, and there is a problem that prompt response cannot be performed.
- the present invention has been made in view of the above problems, and an object of the present invention is to solve problems such as concentration of jobs in a specific information processing apparatus and to transfer data.
- Concentrator, relay control method, relay control program, recording medium recording relay control program, information processing device, DHCP server, DHCP processing method, DHCP processing program, and DHCP processing program that can perform processing quickly It is to provide a recording medium and an information processing system.
- a concentrator is a concentrator that relays data transmission via a transmission medium, and controls a process in the concentrator.
- Control means and, according to the functions of the information processing devices connected via the transmission medium, classify the information processing devices into groups, and store a virtual address information table in which virtual addresses corresponding to the groups are recorded.
- Storage means for storing, when the control unit receives data addressed to the virtual address, the control unit refers to the group information table stored in the storage unit and stores the data in the group corresponding to the virtual address.
- Data monitoring means for controlling transmission of the received data to all of the information processing apparatuses to which the information processing apparatuses belong.
- a relay control method is a relay control method for a concentrator that relays data transmission via a transmission medium, the information processing being connected via the transmission medium.
- a host instructing information processing of data transmits the data to a virtual address corresponding to a group having a function necessary for processing the data. It would be good. In other words, the host does not need to send data as a job to a specific information processing device, but needs to send data to a virtual address corresponding to a group having functions necessary for executing the job. Re, that would be. Therefore, the host does not need to consider the operation status of the information processing apparatus that instructs the job.
- the concentrator transfers the received data to all of the information processing devices belonging to the group corresponding to the virtual address, it is the earliest of the information processing devices that have received this data.
- the processing is performed from those capable of processing the data. Therefore, it is possible to solve a problem such as a job being concentrated on a specific information processing apparatus, and to perform data processing quickly.
- the concentrator When the line concentrator receives the data addressed to the virtual address, the concentrator receives the group information tape. By referring to the file, the group to which the data is to be transmitted is specified, and the transmission processing may be performed to the information processing apparatuses belonging to the group. That is, since the judgment processing in the concentrator is extremely simple, the data transfer processing can be performed quickly.
- a printer server determines a transfer destination printer of a print job.
- the transfer destination in the printer server is determined.
- the printer server needs to perform relatively sophisticated judgment processing, and the configuration becomes complicated, so that a problem such as a server going down may occur.
- the concentrator according to the present invention it is not necessary to set up a printer server, and the processing and functions of the concentrator itself are relatively simple. Can solve the problem of the system in which the printer server is provided.
- An information processing apparatus is an information processing apparatus connected to the concentrator according to the present invention via a transmission medium, and stores device information indicating a function of the information processing apparatus.
- the concentrator can group the corresponding information processing device based on the received device information, or the device information can be transmitted to the DHCP server or the like via the concentrator, so that the DHCP server It becomes possible to categorize the corresponding information processing devices based on device information.
- the DHCP server according to the present invention is a DHCP server connected to the concentrator according to the present invention via a transmission medium, wherein the control means controls processing in the DHCP server; Storage means for classifying each information processing device into groups according to the functions of the information processing devices connected to the concentrator and storing a group information table in which IP addresses corresponding to each group are recorded;
- the above control Means for receiving device information indicating a function of the information processing device from the information processing device connected to the concentrator via the concentrator, based on the device information, A group to which the group belongs, set an IP address corresponding to the group, register the information processing device in the group information table, and transmit the set IP address to the line concentrator. It is characterized by having DHCP processing means.
- a DHCP processing method is a DHCP processing method using a DHCP server connected to the concentrator according to the present invention via a transmission medium, wherein the DHCP server is connected to the concentrator, Categorizing each information processing device into groups according to the functions of the information processing devices, and storing a gnorape information table recording an IP address corresponding to each group; and
- a group to which the information processing device belongs is specified based on the device information, and the group
- the group In addition to setting the IP address corresponding to the IP address, registering the information processing device in the group information table, and setting the set IP address to the line concentrator Les and a step of performing control to transmit for, Les Featuring Rukoto, Ru.
- the DHCP server performs the process of grouping in consideration of the function of the information processing device and the like, so that the concentrator does not need to perform such a process. Therefore, the configuration of the concentrator can be simplified. In addition, since the process of converting the IP address given by the DHCP server to the internal IP address in the concentrator becomes unnecessary, the transfer processing speed by the concentrator can be increased. Further, since it is not necessary to provide a configuration for performing the address conversion process in the concentrator, the configuration of the concentrator can be further simplified.
- an information processing system includes the concentrator according to the present invention, and the information processing apparatus according to the present invention connected to the concentrator via a transmission medium.
- the host instructing the information processing of the data does not need to transmit the data as a job to the specific information processing apparatus, and does not need to transmit the data as a job. It is only necessary to transmit data to the virtual address corresponding to the group having. Therefore, the host does not need to consider the operation status of the information processing apparatus that instructs the job.
- the concentrator transfers the received data to all of the information processing devices belonging to the group corresponding to the virtual address, and therefore, is the earliest of the information processing devices that have received this data.
- the processing is performed from those capable of processing the data. Therefore, it is possible to solve a problem such as a job being concentrated on a specific information processing apparatus, and to perform data processing quickly.
- the concentrator When the line concentrator receives the data addressed to the virtual address, the concentrator refers to the group information table to identify the group to which the data is to be transmitted, and transmits the data to the information processing apparatuses belonging to the group. It is only necessary to perform the processing. That is, since the judgment processing in the concentrator is extremely simple, the data transfer processing can be performed quickly.
- the information processing system includes the concentrator according to the present invention, the information processing apparatus according to the present invention connected to the concentrator via a transmission medium, and the concentrator. And a DHCP server connected via a transmission medium
- the IP address of the data transmitted / received to / from each information processing device is converted, and the IP address of each information processing device is hidden from the outside, so that security is improved. Performance can be improved. Also, since a DHCP server having a normal DHCP function can be used, there is no need to set up a special DHCP server.
- the information processing system includes the concentrator according to the present invention, the information processing apparatus connected to the concentrator via a transmission medium, and the concentrator. And the DHCP server according to the present invention connected via a transmission medium.
- the configuration of the concentrator can be simplified.
- the configuration of the concentrator can be further simplified.
- FIG. 1 is a block diagram showing a schematic configuration of a concentrator provided in an image output system according to an embodiment of the present invention.
- FIG. 2 is a block diagram showing a schematic configuration of an image output system as a configuration example 1 according to the present embodiment.
- FIG. 3 is a diagram schematically showing a state where a concentrator, a PC, and a plurality of printers are connected.
- FIG. 4 is a diagram conceptually showing VLAN grouping.
- FIG. 5 is a block diagram showing a schematic configuration of a printer.
- FIG. 6 is a timing chart showing a flow of an initial setting process when a printer is connected to the line concentrator.
- FIG. 7 is a timing chart showing a flow of an initial setting process when a printer is connected to the concentrator in Configuration Example 2.
- FIG. 8 is a timing chart showing a flow of an initial setting process when a printer is connected to a concentrator in Configuration Example 3.
- FIG. 9 is a diagram showing an example of a VLAN table.
- FIG. 10 is a diagram showing an example of an address conversion table.
- FIG. 11 is a diagram showing an example of an address conversion table in Configuration Example 3.
- FIG. 12 is a flowchart showing a processing flow when the concentrator receives some frame from the communication network.
- FIG. 13 is a flowchart showing the flow of a printer selection process.
- FIG. 14 is a flowchart showing a flow of processing for a notification from a printer.
- FIG. 15 is a block diagram showing a schematic configuration of a concentrator in Configuration Example 2.
- FIG. 16 is a block diagram illustrating a schematic configuration of a DHCP server in Configuration Example 2.
- FIG. 17 is a diagram showing an example of a VLAN table in Configuration Example 2.
- FIG. 18 is a diagram showing an example of a VLAN table in Configuration Example 3.
- FIG. 2 is a block diagram illustrating a schematic configuration of an image output system 1 as Configuration Example 1 according to the present embodiment. As shown in FIG. 1, the image output system 1 is configured by a star LAN centered on a router 2.
- the router 2 controls communication by the concentrators 4 and 5 and the switching hub 6 connected to the switch 3 in cooperation with the switch 3. Further, the norator 2 has a function of connecting the image output system 1 to an external communication network (network).
- Each of the concentrators 4 and 5 has a configuration in which a plurality of printers 7 and PCs (hosts) 8 are connected in a star configuration.
- the switching hub 6 has a configuration in which a plurality of PCs 8 and a Dynamic Host Configuration Protocol (DHCP) server 9 are connected in a star configuration. Then, the communication is performed using the TCP / 1P (Transmission Control Protocol / Internet Protocol) protocol.
- TCP / 1P Transmission Control Protocol / Internet Protocol
- the printer 7 is a device that, upon receiving a print job, prints and outputs an image on a medium such as paper based on the print job.
- the printer 7 may be an MFP or the like in addition to a printer having a normal print function.
- the PC 8 corresponds to an information processing terminal that performs various types of information processing, and transmits a print job to the line concentrator 4 or 5 according to a print instruction from a user.
- a desktop computer, a notebook computer, or the like is assumed.
- the PC 8 is assumed as a host that outputs a print job instruction.
- the present invention is not limited to this. Any device may be used as the host.
- the DHCP server 9 is a server that performs automatic setting of network parameters.
- the DHCP server 9 dynamically assigns an IP address to each communication device at the time of startup, notifies network parameters such as a default route, and collects the assigned IP address at the time of termination. Perform processing.
- the DHCP server 9 is configured to be connected to the switching hub 6. The network is not limited to this. It may be connected.
- a trunk link is different from a setting (access link) in which one VLAN is assigned to one port (details will be described later), and is a port that does not belong to a specific VLAN. It is a connection method that can pass multiple VLAN traffic. Of course, if the traffic of multiple VLANs is transferred at random, the switch that received the frame cannot identify which VLAN traffic, so tags are attached to the frame at the entrance of the trunk using a tagging protocol (ISL, IEEE802.3Q, etc.). By removing it at the trunk exit, it is possible to pass multiple VLAN traffic.
- ISL tagging protocol
- a VLAN is a virtual LAN configured by grouping various devices connected to the LAN according to their use, eliminating restrictions on the physical configuration of the LAN.
- VLANs devices that are physically separated but have the same functions and uses are placed in the same VLAN, and conversely, devices that are physically close but have different functions and uses are used. It is possible to place them in different VLANs.
- FIG. 3 schematically shows a state where the concentrator 4, the PC 8, and the plurality of printers 7 are connected.
- the printers 7 are classified into the first VLAN 10a, the second VLAN 10b, and the third VLAN 10c according to their functions.
- the printers 7 having the color print function and the A4 output function belong to the first VLAN lOa
- the printers 7 having the monochrome print function (color cannot be used) and the A3 output function belong to the second VLAN 10b.
- printers 7 with monochrome print function (color not available) and A4 output function belong to the third VLAN 10c.
- the printers 7 included in the same VLAN may be physically separated in an actual system.
- each printer 7 eventually belongs to four VLANs.
- the present invention is not limited to this.
- One printer 7 may belong to a plurality of VLANs at the same time. It may be.
- FIG. 4 is a diagram conceptually illustrating VLAN grouping.
- printer A has an A3 output function and a color output function.
- the printer B'C has an A4 output function and a color output function.
- the printer D'E has an A3 output function and a monochrome print function (color not available).
- the printer F'G has an A4 output function and a monochrome print function (color not available).
- a printer having an A3 output function and a color output function that is, only a printer A belongs to VLAN-A, and a printer having a color output function, ie, a printer, belongs to VLAN-B.
- A'B'C belongs, and a printer having an A3 output function, that is, a printer A'D'E belongs to VLAN-C, and all printers A'D'E belong to VLAN-D. All the printers, that is, the printers A'B * C'D * E'F'G belong.
- VLANs may be divided according to parameters such as whether double-sided printing is possible and whether or not a paper has a fischer function such as a stapling process.
- the line concentrator 4 When receiving the print job addressed to the virtual address, the line concentrator 4 broadcasts the print job to the VLAN corresponding to the virtual address. That is, the print job is transmitted to all the printers 7 belonging to the VLAN composed of the printers 7 having the functions required for the print job.
- the printer 7 When one of the printers 7 ... that has received the print job starts processing the print job, the printer 7 is notified to that effect.
- the concentrator 4 receives the processing start notification of the print job, the concentrator 4 instructs the printers 7 ... which transmitted the relevant print job to the printers 7 ... other than the printer 7 which has started the processing to start processing the relevant print job. Notify to pause. Thus, it is possible to prevent a plurality of printers 7 from processing a single print job at the same time.
- the printer 7 that has transmitted the relevant print job from the concentrator temporarily stops the processing of the relevant print job for the printers 7 other than the printer 7 that has started the processing.
- a unicast to each printer is performed, so traffic is generated by the number of printers.
- the printer 7 when the printer 7 that has started the processing of the print job ends the processing of the print job, the printer 7 is notified to that effect.
- the concentrator 4 receives the print job processing completion notification, the concentrator 4 cancels the relevant print job to the printers 7 ... other than the printer 7 which has completed the processing among the printers 7 which have transmitted the relevant print job. Make a notification.
- the corresponding print job is transmitted to the printers 7 ... other than the printer 7 that has completed the processing.
- a unicast to each printer is performed, so traffic is generated by the number of printers.
- printer 7 finishes processing the print job and broadcasts a completion notification to the VLAN to which it belongs the same effect as above can be obtained and traffic is greatly reduced. It is possible to do.
- the print process is performed by the printer 7 that can perform the print process earliest in the VLAN corresponding to the print job. .
- the concentrator 4 since the concentrator 4 only needs to broadcast the print job to the VLAN corresponding to the virtual address, there is no need to perform a complicated determination or the like. Therefore, the concentrator 4 can be realized with a relatively simple configuration, and the processing time in relaying a print job can be reduced. Further, since the print job is not transmitted to the printers 7 other than the VLAN corresponding to the print job, traffic on the communication network can be reduced. (Configuration of Concentrator)
- the concentrator 4 has a configuration including a control unit 15, a storage unit 16, and an IZF unit 17.
- the IZF unit 17 includes first to N-th ports 34 ... and is an interface for connection to external devices such as a printer 7, a PC 8 "", a concentrator 5, and a switch 3. It functions as
- the control unit 15 includes, as functional blocks, a processing unit 21, a collation unit 22, a monitoring unit 23, a transmission control unit.
- the monitoring unit 23 monitors the data received by the I / F unit 17 and either needs to update the VLAN table 29 or needs to update the address translation table 28. Judge whether it is necessary to transfer data or perform various processing, and send or send the data to the VLAN setting unit 25, conversion setting unit 26, matching unit 22, or processing unit 21. It instructs the control unit 24 to perform the corresponding transmission processing. Since the data received by the I / F unit 17 is temporarily stored in the data buffer 30 in the storage unit 16, the monitoring unit 23 monitors the data stored in the data buffer 30.
- VLAN setting unit 25 updates and sets a VLAN table 29 that stores information about the device. Processing is performed. The details of the VLAN table 29 and the setting processing by the VLAN setting unit 25 will be described later.
- the conversion setting unit 26 sets the internal IP address corresponding to the subnet address of the VLAN to which the device belongs.
- a process for setting the address translation table 28 to be translated is performed.
- FIG. 10 shows an example of the address conversion table 28.
- the address translation tape store 28 stores a set of an IP address assigned by the DHCP server 9 and an internal IP address assigned by the translation setting unit 26. Details of the setting process by the conversion setting unit 26 will be described later.
- the collating unit 22 refers to the VLAN table 29 and / or the address conversion table 28, and performs a transmission process by performing an IP address conversion process or the like.
- the processing unit 21 performs various processes in the concentrator 4.
- the transmission control unit 24 controls processing for transmitting various data specified by the monitoring unit 23, the conversion setting unit 26, the collation unit 22, or the processing unit 21, and the like.
- the control by the transmission control unit 24 is performed on the IZF unit 17, and the IZF unit 17 transmits data temporarily stored in the data buffer based on this control.
- the printer 7 includes a printer controller 41, a power source 42, an operation unit 43, and a printer engine 44.
- the printer controller 41 includes a communication I / F unit 46, a communication control unit 47, a control unit 48, and a buffer 49.
- the / F section 46 functions as an interface when connecting to the concentrator 4 or the like.
- the communication control unit 47 controls a communication operation in the printer 7.
- the communication control unit 47 performs a process of transmitting device information, a process of transmitting a DHCPDISCOVER to the DHCP server 9, a process of receiving a D HCPOFFER from the DHCP server 9, and a process of printing when the device is first connected to the concentrator 4.
- Data reception processing, print processing start notification processing, print processing end notification processing, notification processing when an error occurs, notification processing when recovery from an error occurs, and the like are performed. The details of these processes will be described later.
- the communication setting information storage unit 51 stores various setting information used for performing communication, for example, configuration information such as MAC address information, device information, and IP address information of the own device.
- the control unit 48 controls various operations in the printer 7.
- the buffer 49 is storage means for temporarily storing data transmitted and received by the communication IZF unit 46.
- the image processing unit 50 performs a process of converting data received as a print job into image data suitable for printing.
- the power supply 42 supplies power to each component included in the printer 7.
- the power supply 42 has a sub-power supply, and the sub-power supply can constantly supply power to the communication I / F unit 46 and the communication control unit 47. That is, in normal times, power is supplied only to the communication IZF unit 46 and the communication control unit 47 by only the sub power supply, and switching is performed so as to supply power to the entire printer 7 according to the communication contents. It is possible to build a power saving system.
- the operation section 43 is for the operator to input image forming conditions and the like and to make various settings.
- the printer engine 44 prints out an image on a medium such as paper, for example.
- FIG. 9 shows an example of the VLAN table 29.
- the VLAN table 29 stores virtual MAC addresses, MAC addresses, port information, device information, VLAN numbers, and subnet addresses for each device.
- the virtual MAC address is a virtual MAC address set corresponding to each VLAN.
- the PC 8 instructs a print job for the first time, data having this virtual MAC address as a destination is transmitted.
- the MAC address is the MAC (Media) set for the device connected to the concentrator 4.
- the port information indicates to which port in the I / F unit 17 of the concentrator 4 the relevant device is connected.
- the device information indicates the function of the corresponding device. This device information is set based on information sent from the relevant device when the connection between the relevant device and the concentrator 4 is activated. As described above, the VLAN is set based on the device information indicating the function of each device.
- the VLAN number indicates a unique number corresponding to the VLAN to which the device belongs.
- the subnet address is a subnet address indicating the VLAN to which the device belongs. In FIG. 9, the subnet address is represented by, for example, “192.168.11.0/24”. The last “24” indicates that the upper 24 bits (3 bytes) are the address of the subnetwork. This indicates that In other words, the IP address of each device in the same VLAN is distinguished by the lower 8 bits (1 byte).
- the virtual MAC address A is assigned as belonging to the printer 7 having the MAC addresses 13 and 13 and belonging to the first VLAN.
- the virtual MAC address B is assigned to the harmful IJ as belonging to the 2 VLANs, and the virtual MAC address C is assigned to the 3rd VLAN as a printer belonging to the MAC address 6-7.
- the device corresponding to the MAC address “a” corresponds to the PC 8, and the attribute “host” is indicated as device information. Further, the MAC address (own MAC address) of the concentrator 4 itself is stored in the VLAN table 29, and "own” indicating the own device and device attributes are shown as device information.
- a VLAN S is constructed according to the function of each printer 7, and the group S of the printers 7 is realized by the VLAN.
- the printer 7 may be grouped by using a table that associates a virtual MAC address with a MAC address or an IP address of each printer without using a VLAN.
- VLANs when VLANs are not used, there is no problem when the system scale is small, but when the system scale is large, there is a problem that traffic is congested.
- Step 1 when a printer 7 is connected to the concentrator 4 (Step 1, hereinafter referred to as S1), the communication control unit 47 of the printer 7 stores the printer 7 stored in the communication setting information storage unit 51. Device information indicating this function is transmitted from the printer 7 to the line concentrator 4 (S2).
- S1 the connection between the printer 7 and the concentrator 4 may be established when a communication line is physically connected or the printer 7 is turned on while the communication line is connected. Case etc.
- the concentrator 4 is connected to the device 7 at the port 34 of the I / F unit 17 connected to the printer 7.
- this data is stored in the data buffer 30.
- the monitoring unit 23 detects the data stored in the data buffer 30, confirms that the data is data indicating device information, and transmits this information to the VLAN setting unit 25.
- the VLAN setting unit 25 determines to which VLAN the printer 7 should belong based on the received device information. Then, the VLAN setting unit 25 stores the virtual MAC address corresponding to the VLAN to which the VLAN belongs, the MAC address of the printer 7, the port information to which the printer 7 is connected, the device information, the VLAN number of the corresponding VLAN, and the Register the subnet address corresponding to this VLAN.
- DHCPDISCOVER is a message that the client (corresponding to the printer 7) broadcasts to find the DHCP server 9.
- the concentrator 4 When the concentrator 4 receives the DHCPDISCOVER from the printer 7, the data is also transmitted to the data buffer 30 via the I / F unit 17, and the monitoring unit 23 confirms that the received data is the DHCPDI SCOVER. When confirming that it is DHCPDISCOVER, the monitoring unit 23 instructs the transmission control unit 24 to broadcast this to the communication network.
- the concentrator knows the address of the DHCP server, the address may be multicast to that address, or if the concentrator functions as a DHCP relay agent, it may be connected to an appropriate LAN. Only the DHCPDISCOVER broadcast can be forwarded. Thereby, the DHCPDIS COVER is transferred to the DHCP server 9 (S5).
- the DHCP server 9 Upon receiving the DHCPDISCOVER, the DHCP server 9 performs a setting process of configuration information such as network parameters according to the contents (S6). Then, the result of the setting is transmitted to the concentrator 4 as a DHCPOFFER including the configuration information as a response to the DHCPDISCOVER (S7).
- the concentrator 4 Upon receiving the DHCPOFFER, the concentrator 4 first stores the DHCPOFFER in the data buffer 30. When detecting the DHCPOFFER, the monitoring unit 23 transmits this information to the conversion setting unit 26. [0087] First, the conversion setting unit 26 checks the IP address set for the printer 7 by the DHCP server 9, which is indicated in DHCPOFFER. Further, the conversion setting unit 26 refers to the VLAN table 29, checks the subnet address of the printer 7, and sets an IP address belonging to the subnet address as an internal IP address of the printer 7 (S8). Then, the conversion setting unit 26 registers information on a set of the IP address and the internal IP address indicated by DHCPOFFER in the address conversion table 28 (S9).
- the conversion setting unit 26 rewrites the information on the IP address in the DHCPOFFER to the internal IP address set above, and transmits the DHCPOFFER to the printer 7 (S10).
- the printer 7 When the printer 7 receives the DHCPOFFER in the communication I / F unit 46, the communication information is stored in the communication setting information storage unit 51 by the communication control unit 47 (Sl). l). With the above processing, the initial setting processing when the printer 7 is connected to the concentrator 4 is completed.
- the device information is acquired from the connected printer 7.
- the device information is not limited to this.
- a printer server storing the device information of each printer 7 may be used. If provided, device information about the connected printer 7 may be obtained from the printer server.
- the frame is temporarily stored in the data buffer 30. Then, the monitoring unit 23 analyzes the frame, extracts the MAC address as the source address, and determines whether or not the source address is stored (registered) in the VLAN table 29 (see FIG. 4). S22).
- the monitoring unit 23 stores the source address of the transmitted frame in the VLAN table 29. It is determined whether the MAC address is the registered MAC address of the printer 7 (S24). In other words, the monitoring unit 23 determines whether the frame 7 has been transmitted from the printer 7 registered in the VLAN table 29.
- the collating unit 22 refers to the address translation table 28 and rewrites the source address of the frame to an IP address as an external IP address (S25). After that, the processing shifts to the processing from S26 described later.
- the monitoring unit 23 analyzes the above-mentioned frame to extract a destination address (S26), and determines a transmission destination of the frame based on the extracted destination address. Specifically, the monitoring unit 23 determines that the destination address of the frame is an unknown address not registered in the VLAN table 29 ⁇ a known MAC address registered in the VLAN table 29, a virtual MAC address. Is determined, or whether it is the MAC address of its own machine.
- the monitoring unit 23 sends to the transmission control unit 24 all the ports except the port 34 from which the frame was transmitted. Instruct 34 to transmit (flood) the frame. Based on this, the transmission control unit 24 performs transmission processing (S27), and ends the processing.
- transmission processing S27
- flooding refers to sending traffic received on a certain interface to all interfaces other than the received interface. However, in this case, the frame is transmitted to all the ports 34 except for the port 34 receiving the frame and the port 34 to which the printer 7 is connected.
- a known address registered in the destination address VLAN table 29 is set.
- the monitoring unit 23 refers to the VLAN table 29 and instructs the transmission control unit 24 to transmit the frame to the address. Based on this, the transmission control unit 24 performs transmission processing (S29), and ends the processing.
- S26 if it is determined that the destination address is a virtual MAC address, a printer selection process is performed (S28). Details of the printer selection process will be described later. Then, the corresponding frame is transmitted to the selected printer 7 (S29).
- processing unit 21 updates the settings in concentrator 4 based on the contents of the setting change request (S31). Specifically, it changes the virtual MAC address stored in the VLAN table 29 or changes its own address. Then, the process ends.
- the processing unit 21 determines whether the data is a notification from the printer 7 (S32). If it is determined in S32 that the data is a notification from the printer 7, the processing unit 21 performs processing for the notification (S33). Processing for this notification will be described later.
- the processing unit 21 performs an appropriate process based on the content of the data (S34), and ends the process. I do.
- the monitoring unit 23 determines whether or not the frame is a frame indicating a print request (S42).
- the monitoring unit 23 refers to the VLAN table 29 and specifies a VLAN corresponding to the virtual MAC address Then, it instructs the transmission control unit 24 to broadcast the frame to all the printers 7 belonging to the VLAN. As a result, the received print job power is transmitted to all the printers 7... Belonging to the corresponding VLAN (S43), and the process ends.
- the processing unit 21 confirms the content of the frame, performs an appropriate process according to the content (S44), and ends the process.
- the processing here may be, for example, a reply processing when an inquiry about waiting time information or the like in the printer 7 is made from the PC 8 as a host, the PC 8 that has previously issued a print instruction, or an instruction from its own machine. Processing when a request for priority processing of a given print job is requested.
- the processing unit 21 determines whether or not the notification notifies the start of a print job (S52).
- the processing unit 21 controls the transmission control unit 24, and thereby the printers 7 belonging to the VLAN that transmitted the print job Among them, a notification is sent to the printers 7 other than the printer 7 which has started the processing, to the effect that the processing start of the print job is temporarily stopped (S53).
- the processing unit 21 determines whether the notification is to notify the end of the print job. (S54). If it is determined in S54 that the end of the print job has been notified, the processing unit 21 controls the transmission control unit 24 to perform processing among the printers 7 belonging to the VLAN that transmitted the print job. The printer 7 ... other than the printer 7 that has completed the process is notified of the cancellation of the print job (S55). On the other hand, if it is determined in S54 that the print job is not to be notified, the processing unit 21 notifies the processing unit 21 that the notification indicates that an abnormality has occurred in the printer 7. It is determined whether or not (S56).
- the processing unit 21 issues an instruction to disable the port 34 that has received the notification (S57).
- the setting of the VLAN table 29 corresponding to the port 34 is saved.
- the printer 7 corresponding to the port 34 is removed from the VLAN membership. In other words, communication between the printer 7 and the concentrator 4 cannot be performed, and thereafter, when a print job is broadcast to the VLAN to which the printer 7 belongs, printing is not performed on the printer 7. The job will not be sent.
- the processing unit 21 determines that the notification indicates that the abnormality in the printer 7 in which the abnormality had previously occurred has been repaired and recovered. It is determined whether or not the notification is a recovery notification indicating the status (S58). If it is determined in S58 that the notification is a recovery notification, the processing unit 21 restores the setting saved in the VLAN table 29 corresponding to the port 34 and disables the port 34. A command is issued (S59). By enabling the corresponding port 34, the corresponding port 34 again belongs to the original VLAN, and at the same time, the corresponding printer 7 also belongs to the same VLAN. Thereafter, even when the print job is broadcast to the corresponding VLAN, the print job is transmitted to the corresponding printer 7.
- the VLAN is realized by converting the external IP address assigned to each printer 7 by the DHCP server 9 into the internal IP address in the concentrator 4.
- a system may be used in which the DHCP server 9 determines the assignment of the IP address to each printer 7 in consideration of the VLAN.
- Such an image output system 1 will be described below as Configuration Example 2.
- the configuration of the image output system 1 is the same as the configuration shown in FIGS. 2 and 3 described above. The differences are the configuration of the concentrator 4 and the configuration of the DHCP server 9.
- FIG. 15 shows a configuration of the concentrator 4 in the configuration example 2. The differences from the configuration shown in FIG. 1 are that the control unit 15 does not include the matching unit 22 and the conversion setting unit 26, and that the storage unit 16 does not include the address conversion table 28. is there .
- the other configuration is the same as the above-described configuration, and a description thereof will be omitted.
- FIG. 16 shows the configuration of the DHCP server 9 in Configuration Example 2.
- the DHCP server 9 has a configuration including a communication IZF unit 61, a control unit 62, an operation unit 63, and a storage unit 64.
- the communication I / F unit 61 functions as an interface when connecting to a communication network.
- the operation unit 63 is used when the operator performs various setting operations in the DHCP server 9.
- the control unit 62 controls various operations in the DHCP server 9 and includes a DHCP processing unit 65.
- the DHCP processing unit 65 configures a VLAN according to the function of the printer 7 when assigning an IP address to the printer 7 in addition to the DHCP processing function of a normal DHCP server, and It has a function of assigning an IP address to the printer 7 so that it belongs to the VLAN.
- the DHCP processing unit 65 uses the VLAN table 66 in the storage unit 64.
- VLAN table 66 stores virtual MAC address, MAC address, device information, VLAN number, subnet address, and IP address information corresponding to each device.
- the virtual MAC address, MAC address, device information, VLAN number, and subnet address are the same as in the VLAN table 29 shown in FIG. 9 described above.
- the IP address is an IP address assigned to each device by the DHCP processing unit 65 so as to belong to each VLAN.
- the communication control unit 47 of the printer 7 sets communication settings.
- the device information indicating the function of the printer 7 stored in the information storage unit 51 is transmitted to the printer 7 power concentrator 4, and subsequently, DHCPDISCOVER is transmitted to the concentrator 4 (S62).
- the concentrator 4 When the concentrator 4 receives the device information and the DHCPDISCOVER from the printer 7, it is transmitted from the power / F unit 17 to the data buffer 30, and the monitoring unit 23 confirms that the received data is the device information and the DHCPDISCOVER. It is confirmed.
- the monitoring unit 23 confirms the device information and the DHCPDISCOVER, the monitoring unit 23 instructs the transmission control unit 24 to broadcast this to the communication network.
- the concentrator knows the address of the DHCP server, it may perform multicasting on that address. Only the DHCPDISCOVER broadcast may be forwarded. As a result, the device information and the DHCPDISCOVER are transferred to the DHCP server 9 (S63).
- the DHCP processing unit 65 When the DHCP server 9 receives the device information and the DHCPDISCOVER, the DHCP processing unit 65 first determines to which VLAN the printer 7 should belong based on the device information. Then, the DHCP processing unit 65 registers, in the VLAN table 66, the virtual MAC address corresponding to the VLAN to which it belongs, the MAC address of the printer 7, the device information, the VLAN number of the VLAN, and the subnet address corresponding to the VLAN. (S64). Further, the DHCP processing unit 65 performs setting processing of configuration information such as network parameters according to the contents of DHCPDISCOVER (S65). Then, the setting result is transmitted to the concentrator 4 as a DHCPOFFER including the configuration information as a response to the DHCPDISCOVER (S66).
- the setting result is transmitted to the concentrator 4 as a DHCPOFFER including the configuration information as a response
- the concentrator 4 Upon receiving the DHCPOFFER, the concentrator 4 first stores the DHCPOFFER in the data buffer 30. When detecting the DHCPOFFER, the monitoring unit 23 informs the VLAN setting unit 25 of the detection, and registers the VLAN table 29 based on the contents of the DHCPOFFER. Thereafter, the transmission control unit 24 transmits the DHCPOFFER to the printer 7 (S67).
- the printer 7 When the printer 7 receives the DHCPOFFER in the communication I / F 46, the printer 7 includes the DHCPOFFER.
- the configuration information such as the IP address is stored in the communication setting information storage unit 51 by the communication control unit 47 (S68). With the above processing, the initial setting processing when the printer 7 is connected to the concentrator 4 is completed.
- the process of the concentrator 4 in the configuration example 2 is basically the same as the flow of the process in the flowchart shown in FIG. 12 described above. The difference is that in S25 in FIG. 12, the source address rewriting process is performed. In Configuration Example 2, this process is not performed. This is because the IP address given to the printer 7 uses the one given by the DHCP server 9 as it is. That is, in the configuration example, the determination processing in S24 in FIG. 12 is also unnecessary.
- the concentrator 4 and the DHCP server 9 are provided separately, but if the system is a small-scale system in which only one concentrator 4 is provided, for example, Device 4 is a system with a simple DHCP server function.
- Such an image output system 1 will be described below as a configuration example 3.
- the configuration of the image output system 1 is basically the same as the configuration shown in FIG. The difference is that the DHCP server 9 is not provided, and the configuration of the concentrator 4 is different.
- the concentrator 4 in the configuration example 3 is basically the same as the configuration shown in FIG. The difference lies in that the VLAN setting unit 25 has a function of assigning an IP address to the printers 7 connected to the concentrator 4, the address conversion processing by the conversion setting unit 26 is different, and the VLAN table is different. 29 and the address conversion table 28 are different.
- the other configuration is the same as the above-described configuration, and a description thereof will be omitted.
- FIG. 29 An example of the VLAN table 29 in the configuration example 3 is shown in FIG. As shown in FIG.
- the LAN table 29 stores information on virtual MAC addresses, MAC addresses, port information, device information, VLAN numbers, subnet addresses, and IP addresses for each device.
- the virtual MAC address, MAC address, port information, device information, VLAN number, and subnet address are the same as those in the VLAN table 29 shown in FIG. 9 described above.
- the IP address is an internal IP address assigned to each device by the VLAN setting unit 25 so as to correspond to each device.
- FIG. 11 An example of the address conversion table 28 in the configuration example 3 is shown in Fig. 11. As shown in the figure, the address translation table 28 stores a set of an external IP address and a port number and an internal IP address and a port number.
- the internal IP address set to each printer 7 by the VLAN setting unit 25 is not disclosed to the network outside the concentrator 4, and as the external IP address, Only one virtual IP address corresponding to all the printers 7 connected to the concentrator 4 is set. Therefore, as shown in the address translation table 28, a TCP (transmission control protocol) port number is used as a means for identifying traffic. In the address conversion table 28, the port number is also taken into account for the internal IP address S. This is the case when multiple traffics are generated for one printer 7 at the same time. In order to distinguish each traffic.
- TCP transmission control protocol
- the communication control unit 47 of the printer 7 sends device information indicating the function of the printer 7 stored in the communication setting information storage unit 51 to the printer 7. Is transmitted to the concentrator 4 (S72).
- the line concentrator 4 When the line concentrator 4 receives the device information from the printer 7 (S73), the device information is transmitted from the I / F unit 17 to the data buffer 30 and stored. Then, the monitoring unit 23 detects the data stored in the data buffer 30, confirms that the data is data indicating device information, and transmits this information to the VLAN setting unit 25. The VLAN setting unit 25 determines which VLAN the printer 7 should belong to based on the received device information.
- the VLAN setting unit 25 stores, in the VLAN table 29, the virtual MAC address corresponding to the VLAN to which it belongs, the MAC address of the printer 7, the port information to which the printer 7 is connected, the device information, the VLAN number of the corresponding VLAN, the corresponding VL Register the subnet address corresponding to the AN and the internal IP address (S74). Then, information on the internal IP address set by the VLAN setting unit 25 is transmitted to the printer 7 (S75).
- the printer 7 When the printer 7 receives the information on the internal IP address in the communication I / F unit 46, the information is stored in the communication setting information storage unit 51 by the communication control unit 47 (S76). With the above processing, the initial setting processing when the printer 7 is connected to the concentrator 4 is completed.
- the processing of the concentrator 4 in the configuration example 3 is basically the same as the processing flow in the flowchart shown in FIG. 12 described above.
- the difference is the processing content in S25 when it is determined in S24 in FIG. 12 that the MAC address or the internal IP address of the printer 7 registered in the source address VLAN table 29 is used. If it is determined in this way, the fact is transmitted to the matching unit 22, and the matching unit 22 refers to the address translation table 28 and rewrites the source address of the frame to a virtual MAC address or a virtual IP address ( S25). After that, the processing shifts to the processing from S26.
- the concentrator 4 is provided with a control unit 15, and various functional blocks are provided in the control unit 15. These functional blocks are stored in, for example, a recording medium of a CPU (Central Processing Unit). Can be realized by executing the stored program code
- the storage unit 16 included in the line concentrator 4 can be realized by a nonvolatile storage medium such as a flash EEPROM.
- the printer 7 is provided with a printer controller 41, and a functional block called a communication control unit 47 is provided in the printer controller 41.
- This functional block can also be realized by, for example, an arithmetic unit such as a CPU executing a program code stored in a recording medium such as a ROM or a RAM.
- the communication setting information storage unit 51 provided in the printer controller 41 can be realized by a nonvolatile storage medium such as a flash EEPROM.
- the DHCP server 9 is provided with a control unit 62, and a functional block called a DHCP processing unit 65 is provided in the control unit 62.
- This functional block includes arithmetic means such as a CPU. This can be realized by executing a program code stored in a recording medium such as a ROM or a RAM.
- the storage unit 64 provided in the DHCP server 9 can be realized by a nonvolatile storage medium such as a flash EEPROM and a hard disk.
- each functional block has been described as an example in which “functions such as a CPU are implemented by executing a program code stored in a recording medium such as a ROM or a RAM”. It may be realized by hardware that performs similar processing. Further, the present invention can also be realized by combining hardware for performing a part of the processing and the above-described arithmetic means for executing a program code for controlling the hardware and performing the remaining processing. Further, among the above-mentioned members, even if the member is described as hardware, hardware for performing a part of the processing and the arithmetic means for executing a program code for controlling the hardware and performing the remaining processing are included. Combinations can also be realized.
- the arithmetic means may be a single unit, or a plurality of arithmetic means connected via a bus or various communication paths inside the device may execute the program code in cooperation.
- the program code itself directly executable by the arithmetic means, or a program as data capable of generating a program code by a process such as decompression described later, stores the program (program code or the data) in a recording medium. In a storage medium and distribute the recording medium, or transmit the program via a wired or wireless communication path. The information is transmitted or distributed by a communication means for transmission, and is executed by the arithmetic means.
- each transmission medium forming the communication path includes:
- the above program is transmitted via the communication path by propagating a signal sequence indicating the above.
- the transmitting device may superimpose the signal system J on the carrier wave by modulating the carrier with the signal sequence indicating the program. In this case, the signal sequence is restored by the receiving device demodulating the carrier.
- the transmitting device may divide the signal system'J as a digital data sequence into packets and transmit the signal. In this case, the receiving device concatenates the received packet groups and restores the signal sequence.
- the transmitting device may multiplex the signal sequence with another signal sequence and transmit the signal sequence by a method such as time division / frequency division / code division. In this case, the receiving device extracts and restores each signal sequence from the multiplexed signal sequence. In any case, the same effect can be obtained if the program can be transmitted via the communication path.
- the recording medium for distributing the program is removable, but it does not matter whether the recording medium after distributing the program is removable. Further, as long as the recording medium stores a program, it does not matter whether it is rewritable (writable), whether it is volatile or not, and the recording method and shape.
- Examples of recording media are tapes such as magnetic tapes and force-set tapes, magnetic disks such as floppy (registered trademark) disks and hard disks, CD-ROMs and magneto-optical disks (M ⁇ ), mini disks (MD) And a digital video disc (DVD).
- the recording medium may be a card such as an IC card or an optical card
- a certain layer may be a semiconductor memory such as a mask ROM, an EPR ⁇ M, an EEPROM or a flash ROM.
- a certain memory may be a memory formed in arithmetic means such as a CPU.
- the program code may be a code for instructing the arithmetic means in all procedures of each of the above processes, or a part or all of each of the above processes may be executed by calling in a predetermined procedure. If a possible basic program (for example, operating system or library) already exists, a part or all of the above procedure is replaced with a code or pointer that instructs the arithmetic means to call the basic program. Is also good.
- a basic program for example, operating system or library
- the format for storing a program in the recording medium is, for example, It may be a storage format that can be accessed and executed by the arithmetic means as in the state shown in the figure, or may be a local recording medium that can always be accessed by the arithmetic means (for example, real memory or Storage format after installation on a hard disk, etc., or storage format before installation on a local recording medium from a network or transportable recording medium.
- the program may be stored as source code, which is not limited to compiled object code, or as intermediate code generated during interpretation or compilation.
- the above operation is performed by decompressing the compressed information, decoding the encoded information, interpreting, compiling, linking, or allocating to real memory, or a combination of the respective processes. If the means can convert the program into an executable format, the same effect can be obtained irrespective of the format in which the program is stored in the recording medium.
- the IP address of a frame transmitted / received to / from the printer 7 is converted in the concentrator 4. Therefore, since the IP address of each printer 7 is hidden from the outside, security is improved. In addition, since a normal DHCP server can be used as the DHCP server 9, there is no need to set up a special DHCP server.
- the DHCP server 9 sets the IP address in consideration of the VLAN according to the function of the printer 7. Therefore, since it is not necessary to perform the address conversion process in the concentrator 4, the transfer processing speed by the concentrator 4 is higher than that of the configuration example 1. In addition, since it is not necessary to provide the concentrator 4 with a configuration for performing the address conversion process, the configuration of the concentrator 4 can be simplified.
- the line concentrator and the relay control method according to the present invention classify each information processing device into a gnope in the storage means and correspond to each group.
- a group information table in which virtual addresses are recorded is stored.
- the data monitoring means performs control so as to transmit the data to all the information processing apparatuses belonging to the group corresponding to the virtual address. It has become.
- the group information table may further store information on ports to which the information processing devices are connected. In this case, it is possible to accurately grasp the relationship between each connected information processing device and the port connecting each information processing device. In other words, which information processing device can be connected to which port and which information processing device can be appropriately dealt with, so that the connection of the information processing device to the port can be freely performed.
- the group information table may further store information on subnet addresses corresponding to each group.
- the data monitoring means may perform control to transmit the received data to all information processing apparatuses included in the subnet address corresponding to the corresponding group. Will be. That is, since it is not necessary to consider the address of each information processing apparatus, it is possible to perform the transfer processing more quickly.
- the processing unit when the data monitoring unit detects that the start notification data has been received, the processing unit transmits the relevant data to the previously transmitted information processing unit.
- an information processing device other than the information processing device that transmitted the start notification data may be instructed not to start information processing of the data. In this way, it is possible to prevent a plurality of information processing apparatuses that have received the data from performing the same data processing repeatedly.
- the data monitoring means If it is detected that the end notification data has been received, the processing means sends the information processing device to the information processing devices other than the information processing device that transmitted the end notification data among the information processing devices that previously transmitted the corresponding data. Then, the user may be instructed to cancel the information processing of the data. In this way, one information processing device is prepared to perform information processing on the data even though the processing of the data has been completed by the other information processing device. Can be prevented.
- the device classifying means may be capable of performing a setting'update process of the group information table. According to such a configuration, even when the connected information processing device changes, it is possible to update the gnorape information table appropriately in response to the change.
- the group information table registration process is performed by the device classifying unit based on the device information received from the connected information processing device. It may be. According to such a configuration, the device information is received from the information processing device when the connection with the information processing device becomes active, so that the information processing device is immediately registered in the group information table. Therefore, it is possible to flexibly cope with a change in connection.
- the IP address and the IP address are set by the address conversion setting means.
- an address conversion table indicating the correspondence with the internal IP address corresponding to the group may be stored in the storage means. According to such a configuration, in the concentrator, the IP address of data transmitted / received to / from each information processing device is converted. Therefore, the IP address of each information processing device is hidden from the outside, so that security can be improved.
- a DHCP server that has a normal DHCP function can be used, there is no need to provide a special DHCP server.
- the device classifying unit may be configured such that, based on the device information received from the connected information processing apparatus, , The internal IP address corresponding to the group may be assigned.
- an IP address can be assigned to the connected information processing device by the concentrator, so that it is necessary to provide a DHCP server in the communication network to which the concentrator and the information processing device belong. Will not be. Therefore, for example, in the case of a small-scale system, a network system can be realized only by providing a concentrator. Also, since the IP address of each information processing device can be hidden from the outside, security can be improved.
- the device classification is performed.
- Means may be adapted to register this IP address in the gnolap information table.
- the configuration of the concentrator can be simplified.
- the configuration of the concentrator can be further simplified.
- the information processing system according to the present invention has a configuration in which the line concentrator according to the present invention and the information processing apparatus according to the present invention are connected via a transmission medium. I have.
- the information processing system includes the line concentrator according to the present invention, the information processing apparatus according to the present invention, and the DHCP server connected via a transmission medium.
- the configuration is
- the information processing system according to the present invention includes the line concentrator according to the present invention, the information processing apparatus according to the present invention, and the DHCP server according to the present invention as a transmission medium. It is a configuration that is connected via
- the group information table may be shared among a plurality of concentrators. This makes it possible for multiple concentrators to operate as if they were one concentrator. Therefore, even if the scale of the network becomes large, it is possible to appropriately cope with this. Sharing the group information table among multiple concentrators can be realized by operating VTP on the trunk link between the concentrators.
- the image output system includes, for example, a copier, a scanner,
- Printer can be applied to an image output system such as a printing system connected via a network.
- optimal distribution control of print jobs can be performed without providing an effective device such as a printer server or increasing unnecessary traffic. Further, the processing time from the print instruction from the host to the print output can be reduced.
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Abstract
Description
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US10/572,421 US8934116B2 (en) | 2003-09-22 | 2004-09-13 | Line concentrator and information processing system using the same, assigning transmitted data to all devices in the group of information processing devices |
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Also Published As
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US20070081541A1 (en) | 2007-04-12 |
JP3703824B2 (ja) | 2005-10-05 |
CN100431310C (zh) | 2008-11-05 |
US8934116B2 (en) | 2015-01-13 |
CN1871821A (zh) | 2006-11-29 |
JP2005101722A (ja) | 2005-04-14 |
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