JP2017059910A - Communication speed setting method, communication speed setting program, modem and connection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate communication setting of a plurality of devices on a line.SOLUTION: Upon receiving a communication speed setting request D0, an own modem 100a transmits first setting information D1, including the information of communication speed received by setting request and the identification information of the own modem 100a to other modem 100b connected via one or more connection devices 110, and the one or more connection devices 110. Thereafter, when receiving the second setting information D2 including the information of communication speed and the identification information of the own modem 100a and the identification information of other modem 100b from other modem 100b received the first setting information D1, via one or more connection devices 100, communication speed between the own modem 100a and the connection device 110a adjacent to the own modem 100a, out of the one or more connection devices 110, is set based on the information of communication speed.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a communication speed setting method for setting a communication speed, a communication speed setting program, a modem, and a connection device.

  Among the modems that perform xDSL communication, an SHDSL (Single Pair High Bit Rate Subscriber Line) modem is suitable for long-distance communication, but the maximum length is about 10 Km in practical use. In order to further increase the communication distance between the SHDSL modems, a plurality of devices (hereinafter referred to as repeater devices) that relay in a cascade connection on the SHDSL line between the SHDSL modems are installed.

  As a prior art, for example, a technique is disclosed in which a plurality of remote routers are connected to a single center router via individual P-P lines, and the center router sets a plurality of remote routers (for example, the following patents). Reference 1).

JP 2000-324170 A

  However, when a repeater device is installed between the SHDSL modems, it is necessary to set the clock mode (Master / Slave) between the SHDSL lines and the communication speed to each SHDSL line in the SHDSL modem and the repeater device. At this time, it is necessary to set the same value (SHDSL line speed, etc.) for the SHDSL modem and the repeater device connected in cascade.

  When the settings of the SHDSL modem and the repeater device are performed via the SHDSL line, it is necessary to consider the setting order for each device, and the setting work becomes complicated. For example, when setting the communication speed of the SHDSL modem, a link down occurs for each SHDSL line between the SHDSL modem and the adjacent repeater device connected in cascade, so it may take time to set the entire communication system. is there. Further, in a configuration in which a plurality of remote routers are connected to one center router through individual PP lines, the center router needs to individually set the plurality of remote routers.

  In one aspect, an object of the present invention is to facilitate communication setting of a plurality of devices on a communication path.

  In one proposal, in a communication speed setting method using a modem, when a communication speed setting request is received, the setting is made to another modem connected via one or more connection devices and the one or more connection devices. The first setting information including the communication speed information received in the request and the identification information of the own modem is transmitted, and from the other modem that has received the first setting information, the one or more connection devices are transmitted. And receiving the second setting information including the communication speed information, the identification information of the own modem, and the identification information of the other modem, and the one or more of the own modem and the one or more based on the information of the communication speed It is necessary to set a communication speed with a connection device adjacent to the own modem among the connection devices.

  According to one embodiment, there is an effect that communication settings of a plurality of devices on a communication path can be easily performed.

FIG. 1 is a diagram illustrating a configuration example of a communication system including a modem and a connection device according to an embodiment. FIG. 2 is a diagram illustrating an internal configuration example of the modem according to the embodiment. FIG. 3 is a diagram illustrating an internal configuration example of the connection device according to the embodiment. FIG. 4 is a diagram for explaining exchange of setting information in the communication system according to the embodiment. FIG. 5 is a diagram for explaining a setting state of setting information for the modem and the repeater device in the communication system according to the embodiment. FIG. 6 is a table showing an example of the contents of setting information used between communication systems according to the embodiment. (Part 1) FIG. 7 is a table showing an example of the contents of setting information used between communication systems according to the embodiment. (Part 2) FIG. 8A is a flowchart of the communication setting process performed by the modem according to the embodiment. (Part 1) FIG. 8B is a flowchart illustrating processing contents of communication setting performed by the modem according to the embodiment. (Part 2) FIG. 9 is a flowchart illustrating processing contents of communication setting performed by the repeater apparatus according to the embodiment. FIG. 10 is a diagram illustrating a setting state of setting information for a modem and a repeater device in an existing communication system.

(Embodiment)
Embodiments of the disclosed communication speed setting method, communication speed setting program, modem, and connection device will be described in detail. In the embodiment, connection devices are connected in cascade on a communication line between a pair of modems, and communication setting is performed only for one representative (representative device, one modem) that supervises setting processing. Then, the representative device causes the setting to be performed in a setting order considering the connection configuration of each device arranged on the communication line. Although a specific example will be described later, the communication setting process is executed in the order of the device closest to the representative device (the other modem) from the representative device. Thus, communication settings for a pair of modems and a plurality of repeater devices can be automatically and efficiently performed by a single setting operation and transmission of setting information, thereby eliminating the complexity of communication settings.

  FIG. 1 is a diagram illustrating a configuration example of a communication system including a modem and a connection device according to an embodiment. In the following description, a pair of modems is an SHDSL (DSL) modem 100, a connection device is a repeater device 110, and a communication line is a DSL line 101. In the following description, communication speed and line speed are synonymous, and communication path and communication line (DSL line) are synonymous.

  On the DSL line 101 between the pair of DSL modems 100 (100a, 100b), a plurality of repeater devices 110 are arranged in a cascade connection. Thereby, for example, the users of the pair of DSL modems 100 (100a, 100b) which are separated from each other can be connected for communication. Further, as shown in FIG. 1, networks (Ethernet, Ethernet) 102 such as individual LANs respectively connected to a pair of DSL modems 100 (100a, 100b) which are separated from each other can be connected to each other. it can. The DSL line 101 is an existing metallic cable (telephone line) and can connect and connect users between distant points as described above without laying a new communication path.

  FIG. 2 is a diagram illustrating an internal configuration example of the modem according to the embodiment. The DSL modem 100 includes a CPU (computer, control unit) 201, a memory 202, a LAN-SW 203, a communication conversion unit 204, and a bus 205. The CPU 201 governs overall control of the DSL modem 100. The CPU 201 executes the program stored in the memory 202 and stores data at the time of executing the program in the memory 202. As the memory 202, for example, a RAM or a flash memory is used.

  The LAN-SW 203 switches the path between user data (communication data) and inter-device communication (inter-CPU communication) of setting information exchanged in the communication system, and inputs / outputs inter-CPU communication setting information to the CPU 201. As for user data, user data transmitted from the network 102 is transmitted to the DSL line 101, and user data received from the DSL line 101 is output to the network 102. Further, the setting information received through inter-CPU communication is output to the CPU 201, and the CPU 201 performs communication settings for the communication conversion unit 204. The communication conversion unit 204 has a memory, and the CPU 201 performs communication settings for this memory.

  The communication conversion unit 204 performs data conversion between the Ethernet on the network 102 side and the DSL line 101. The communication conversion unit 204 includes a CPU and a memory (not shown). In the communication setting described in the embodiment, setting information received by the CPU 201 is set in a memory in the communication conversion unit 204 (for example, firmware update). A bus 205 connects the CPU 201 to the communication conversion unit 204 via a bus.

  FIG. 3 is a diagram illustrating an internal configuration example of the connection device according to the embodiment. The repeater device 110 that is a connection device includes a CPU (computer, control unit) 301, a memory 302, a LAN-SW 303, a communication conversion unit 304, and a bus 305. The CPU 301 controls the entire repeater device 110. The CPU 301 executes a program stored in the memory 302 and stores data at the time of executing the program in the memory 302. For example, a RAM or a flash memory is used as the memory 302.

  The LAN-SW 303 switches a route between user data (communication data) on the DSL line 101 and communication between devices of the communication system (communication between CPUs). Data of inter-CPU communication received from the DSL line 101 is input / output to / from the CPU 301 and sent out on the DSL line 101. As for user data, the data from the DSL line 101 is sent to the DSL line 101 again. Also, the setting information received through inter-CPU communication is output to the CPU 301, and the CPU 301 performs communication settings for the communication conversion unit 304.

  The communication conversion unit 304 performs data conversion between the Ethernet and the DSL line 101. The communication conversion unit 304 includes a CPU and a memory (not shown). In the communication setting described in the embodiment, setting information received by the CPU 301 is set in a memory in the communication conversion unit 304 (for example, firmware update). The bus 305 connects the CPU 301 to the communication conversion unit 304 via a bus.

  As shown in FIG. 3, a pair of communication conversion units 304 are provided with the LAN-SW 303 interposed therebetween. The line data input from the DSL line 101 side is converted into Ethernet by one communication conversion unit 304 and then output to the other communication conversion unit 304 via the LAN-SW 303. The other communication conversion unit 304 converts Ethernet data into DSL data and sends the data to the DSL line 101. In this way, the DSL data of the DSL line 101 is once converted to Ethernet and then converted again to DSL data, thereby reproducing user data and increasing the communication distance.

  The pair of DSL modems 100 (100a, 100b) and the plurality of repeater apparatuses 110 on the DSL line 101 shown in FIGS. 1 to 3 have an automatic link-up function (see, for example, Japanese Patent Application Laid-Open No. 2011-160164). ). Thereby, the clock mode (Master / Slave) of the DSL line 101 between the adjacent DSL modems 100 (100a, 100b) or the plurality of repeater apparatuses 110 can be automatically set.

  The pair of DSL modems 100 and the plurality of repeater apparatuses 110 according to the embodiment perform clock mode setting between the DSL lines 101 by an automatic link-up function. Further, even when the DSL line 101 is linked down when the speed of the DSL line 101 is set, the link up is automatically performed again. In the following description, the clock mode setting by the automatic link-up function is expressed as AUTO setting (or simply AUTO). Then, the clock mode of the DSL modem 100 and the plurality of repeater devices 110 is set to AUTO. As a result, the DSL modem 100 and the repeater apparatus 110 are set to Master / Slave, and the DSL line 101 is linked up.

At this time, it is assumed that the pair of DSL modems 100 and the plurality of repeater apparatuses 110 satisfy the following conditions.
1. The DSL lines 101 are linked up at the initial (default) line speed.
2. Each DSL modem 100 and repeater device 110 have unique identification information (for example, an IP address).
3. Whether the device itself is the DSL modem 100 or the repeater device 110 can recognize the type.
4). A dedicated VLAN is configured for communication (inter-CPU communication) between each DSL modem 100 and the repeater device 110 (see FIG. 2).
5). Of the pair of DSL modems 100 and the plurality of repeater devices 110, a device for setting is a single DSL modem 100 (100a), and this DSL modem 100 (100a) is referred to as a representative device.

  FIG. 4 is a diagram for explaining exchange of setting information in the communication system according to the embodiment. In FIG. 4, for the sake of convenience, the number of repeater devices 110 is one. Of the pair of DSL modems 100, one DSL modem (first modem) 100a is a representative device, and the DSL modem 100a of the representative device corresponds to a plurality of repeater devices 110 and the other DSL modem (second modem) 100b. Set communication information.

  At the time of this setting, one DSL modem 100a, which is a representative device, performs communication (inter-CPU communication) with the other DSL modem 100b and a plurality of repeater devices 110 using a VLAN. As shown in FIG. 4, the DSL modem 100 and the repeater device 110 of the communication system constitute a VLAN having a unique VLAN-ID (for example, VLAN-ID = 5) in advance.

  Then, the CPU 201 of one DSL modem 100a, which is the representative device, performs communication settings for the DSL line 101 based on the setting information. At this time, setting information is transmitted by a broadcast packet using a VLAN for inter-CPU communication. As shown in the path A of FIG. 4, the LAN-SW 203 of one DSL modem 100 a that is a representative device sends setting information by CPU communication sent from the CPU 201 onto the DSL line 101.

  The LAN-SW 303 of the repeater apparatus 110 branches and outputs the setting information by inter-CPU communication received from the DSL line 101 to the CPU 301. Further, the LAN-SW 303 sends out setting information by inter-CPU communication received from one DSL line 101 from the other DSL line 101 and transfers it to an adjacent device. The CPU 301 of the repeater apparatus 110 performs communication setting processing based on the received setting information.

  Further, the LAN-SW 203 of the other DSL modem 100 b outputs the setting information received from the DSL line 101 to the CPU 201. The CPU 201 performs communication settings based on the setting information.

  As will be described later, the timing at which each device connected in cascade on the DSL line 101 actually performs communication setting processing is sequentially executed from the other DSL modem 100b to the representative device (one DSL modem 100a).

  FIG. 5 is a diagram for explaining a setting state of setting information for the modem and the repeater device in the communication system according to the embodiment. In the example of FIG. 5, a console terminal 501 such as a PC is externally connected to the representative device (one DSL modem 100a).

  The console terminal 501 outputs setting information (first setting information) D1 by telnet communication to the maintenance port of the representative device (one DSL modem 100a) by an operation input. As a result, the representative device (one DSL modem 100a) centrally performs setting processing using the setting information D1 for the plurality of repeater devices 110 connected in cascade on the DSL line 101 and the other DSL modem 100b.

  The console terminal 501 transmits a setting request D0 including the speed setting of the DSL line 101 to the representative apparatus (one DSL modem 100a) (step S501).

  In the representative device (one DSL modem 100a), the CPU 201 creates setting information D1 based on the setting request D0, and transmits the setting information D1 to the DSL line 101 (step S502). At this time, the CPU 201 transmits the setting information D1 to the opposite DSL modem 100b using the VLAN for inter-CPU communication. Further, the CPU 201 temporarily holds the setting information D1 in the memory 202 (step S503a). Thereafter, the CPU 201 waits for reception of the loopback setting information D2 returned by the other DSL modem 100b. The return setting information D2 is information returned from the other DSL modem 100b that has received the first setting information D1 toward the one DSL modem 100a (second setting information).

  The plurality of repeater apparatuses 110 (110a, 110b,..., 110n) receive setting information D1 transferred from the preceding repeater apparatus 110 connected in cascade on the DSL line 101. At this time, the CPUs 301 of the plurality of repeater apparatuses 110 temporarily hold the setting information D1 in the memory 302 (steps S503b and S503c).

  When the setting information D1 reaches the other DSL modem 100b via the DSL line 101, the CPU 201 of the other DSL modem 100b temporarily stores the setting information D1 in the memory 302 (step S503d).

  The setting information D1 transferred by inter-CPU communication stores a VLAN-ID unique to the communication system and a private protocol number indicating the setting information D1 by the DSL modem 100a of the representative device. Thereby, each device (the repeater device 110 and the other DSL modem 100b) on the DSL line 101 recognizes the setting information D1 by detecting the private protocol number.

  Thereafter, each device (DSL modem 100 and repeater device 110) on the DSL line 101 performs communication setting processing based on the received setting information D1. First, the other DSL modem 100b sets predetermined identification information in the received setting information D1, and transmits the loopback setting information D2 toward the representative device (one DSL modem 100a) (step S504).

  At this time, the other DSL modem 100b has identification information indicating that the setting information D2 is the return setting information D2 transmitted from the other DSL modem 100b (for example, identification information of the other DSL modem 100b). (IP address) is added and transmitted.

  Then, the other DSL modem 100b executes communication setting for the DSL line 101 connected to the port on one side of the own device (one DSL modem 100a side) based on the setting information D1 temporarily stored in the memory 202. (Step S505a).

  Next, when the plurality of repeater apparatuses 110 receive the loopback setting information D2, the CPU 301 compares the received loopback setting information D2 with the setting information D1 temporarily stored in the memory 302, and the contents (data ) Are the same. If the determination results are the same, the CPU 301 executes communication settings for the DSL line 101 connected to the ports at both ends of the own device based on the setting information D1 temporarily stored in the memory 302 (steps S505b and S505c). .

  The plurality of repeater apparatuses 110 determine that the received setting information does not include the return information (identification information), and determines that the setting information D1 is included. If the return information (identification information) is included, the plurality of repeater apparatuses 110 determine the return setting information. Judged to be D2.

  Further, the plurality of repeater apparatuses 110 can confirm the presence / absence of data corruption and the contents of the line settings by comparing the contents (data) regarding the line settings of the setting information D1 and the loopback setting information D2.

  When the loopback setting information D2 reaches the DSL modem 100a as the representative device via the DSL line 101, the CPU 201 compares the received loopback setting information D2 with the setting information D1 temporarily held in the memory 202. To do. At this time, it is determined whether the contents (data) related to the line setting are the same. If the determination results are the same, the CPU 201 executes communication settings for the DSL line 101 connected to the port on one side of the own apparatus based on the setting information D1 temporarily stored in the memory 202 (step S505d).

  As described above, the same communication setting (same line speed or the like) can be set for all the DSL lines 101. At this time, one of the DSL modems 100a becomes the representative device, transmits the setting information D1, and each device (repeater device 110) on the DSL line 101 transfers the setting information D1 to the other DSL modem 100b. Then, when the other DSL modem 100b returns the setting information D1 and returns it to the one DSL modem 100a as the representative device as the return setting information D2, communication setting processing is executed in order from the other DSL modem 100b side. Go.

  In this way, by transferring the setting information D1 on the DSL line 101, the communication of a plurality of apparatuses on the DSL line 101 can be performed only by one DSL modem 100a as a representative apparatus transmitting the setting information D1 once. Settings can be made.

  In the above processing, each device (DSL modem 100 and repeater device 110) performs communication setting using the temporarily stored setting information D1. Not limited to this, when it is determined that the contents (data) related to the line setting of the setting information D1 and the loopback setting information D2 are the same, the communication setting may be performed using the loopback setting information D2.

  As shown in FIG. 5, based on the transfer of the loopback setting information D2, after the other DSL modem 100b starts the setting process first, the repeater device 110 sequentially performs the setting process, and finally, the one DSL modem 100a performs the setting process. The time from the start to the end is T1. At this time, each device has already received the contents related to the line setting as the setting information D1, and starts the communication setting process almost simultaneously based on the reception of the loopback setting information D2. Therefore, the link down / link of the DSL line 101 is started. All ups are done in parallel at almost the same time. For example, the time for performing the setting process in each device is about one minute.

  In addition, after the DSL modem 100a, which is the representative device, transmits the setting information D1, it takes about 1 second to receive the return setting information D2. Thereby, according to the embodiment, the time T1 required for the communication setting process for each device (DSL modem 100 and repeater device 110) in the entire communication system can be completed in about 1 minute.

  As described above, one DSL modem 100a, which is a representative device, transmits the setting information D1, and is transferred to the other DSL modem 100b via the repeater device 110. Then, the other DSL modem 100b returns the setting information D1 to the one DSL modem 100a which is the representative device as the setting information D2. As a result, even if a plurality of repeater apparatuses 110 are connected on the DSL line 101, the setting information D1 from one DSL modem 100a that is the representative apparatus is the other DSL that is arranged farthest from each repeater apparatus 110. It is transmitted to the modem 100b.

  Then, when the loopback setting information D2 returns to one DSL modem 100a which is the representative device, the setting information is reflected on each device (repeater device 110 and DSL modem 100), and the other DSL modem 100b farthest away. Settings are executed in order. Therefore, even if the link state of the SHDSL line 101 is linked down due to the speed setting, the setting of all the DSL lines 101 is completed when the setting of one DSL modem 100a as the representative apparatus is completed and the link is up. Can be guaranteed.

  A setting request D0 is input from both DSL modems 100a and 100b arranged at both ends of the DSL line 101, and setting information D1 is sent from both DSL modems 100a and 100b, and setting information D1 is transmitted on the DSL line 101. May compete. However, as described above, after the setting information D1 is transferred on the DSL line 101, communication setting is performed by confirming that the setting contents of the setting information D1 and the setting information D2 match when the return setting information D2 is transferred. Thereby, only the setting based on the setting information D1 having valid setting contents can be executed. For example, when invalid transmission source apparatus identification information 611a (see FIG. 6) or unnecessary return apparatus identification information 611b is set in the setting information D1, and return apparatus identification information 611b is set in the return setting information D2. When there is no such setting, the setting based on the setting information D1 and D2 is not performed.

  In addition, exclusion processing (for example, setting communication with priority on the latest time setting information D1) may be performed when the setting information D1 competes by adding time information at the time of transmission to the setting information D1.

  6 and 7 are tables showing examples of the contents of setting information used between communication systems according to the embodiment. FIG. 6 shows setting information D1 transmitted by one DSL modem 100a as a representative device, and FIG. 7 shows loop setting information D2 transmitted (response) by the other DSL modem 100b that has received the setting information D1.

  In the example shown in FIG. 6, the setting information D1 is set in the data 600g portion using an Ethernet frame 600. The Ethernet frame 600 includes information of a preamble 600a, an SFD (Start of Frame Delimiter) 600b, a destination MAC (address) 600c, a source MAC (address) 600d, and a VLAN tag 600e. In addition, information on length / type 600f, data 600g, and FCS (Frame Check Sequence) 600h is included.

  The VLAN-ID “5” described above is set in the VLAN tag 600e. The IP packet of the data 600g portion includes an IP header 610 and IP data 611. The IP header 610 includes information of version 610a, header length 610b, TOS (Type Of Service) 610c, datagram length 610d, ID 610e, flag 610f, and fragment offset 610g. It also includes information on TTL (Time To Live) 610h, protocol number 610i, header checksum 610j, source IP 610k, destination IP 610l. As described above, a predetermined protocol number indicating the setting information D1 (for example, “5555” other than the number already defined in telnet) is set in the protocol number.

  The IP data 611 includes information of transmission source device identification information 611a, loopback device identification information 611b, and line setting information 611c. The transmission source device identification information 611a stores identification information (for example, an IP address) of one DSL modem 100a that is a representative device that transmits the setting information D1. At the time of transmission of the setting information D1, the return device identification information 611b is set to an empty state (NULL). In the line setting information 611, the line speed, SNR margin, modulation method, and the like of the DSL line 101 are set as line information for setting communication in each device (DSL modem 100 and repeater device 110).

  When the other DSL modem 100b receives the setting information D1 including each information described in FIG. 6, the other DSL modem 100b generates the loopback setting information D2 shown in FIG. 7 and transmits it to the one DSL modem 100a. (reply.

  At this time, as shown in FIG. 7, the other DSL modem 100b generates the return setting information D2 in which the return device identification information 611b is set in addition to the information set in the setting information D1. In the return device identification information 611b, the identification information of the other DSL modem 100b that has received the setting information D1, for example, an IP address is stored.

  FIG. 8A and FIG. 8B are flowcharts showing processing contents of communication setting performed by the modem according to the embodiment. An example of processing performed by each CPU 201 of one DSL modem 100a and the other DSL modem 100b, which are representative devices, is shown. The processing shown in FIGS. 8A and 8B is executed after link-up in which DSL modem 100 (100a, 100b) is set to Master / Slave by AUTO setting.

  First, the DSL modem 100 determines whether the own DSL modem is a representative device (step S801). For example, one DSL modem 100a of the pair of DSL modems 100 (100a, 100b) is set as the representative device by the operation setting by the console terminal 501. In this case, one DSL modem 100a is determined to be a representative device (step S802: Yes), and one DSL modem 100a, which is the representative device, executes the processing after step S803. Further, the other DSL modem 100b is determined not to be a representative device (step S802: No), and the processing after step S802 is executed.

  One DSL modem 100a, which is the representative device, waits to receive a setting request D0 for the DSL line 101 from the console terminal 501 (step S803). When the setting request D0 is received, the setting content indicated by the setting request D0 is stored in the DSL modem 100a (memory 202) (step S804). Then, the DSL modem 100a stores the setting contents and the own DSL modem identification information in the packet of the setting information D1 (step S805). The setting contents at this time are the line setting information 611c shown in FIG. 6, and the own DSL modem identification information is the transmission source apparatus identification information 611a.

  Thereafter, the DSL modem 100a, which is the representative device, broadcasts the setting information D1 packet on the DSL line 101 (step S806). Thereafter, one DSL modem 100a waits for reception of a packet of the loopback setting information D2 (step S807).

  Thereafter, when one of the DSL modems 100a as the representative apparatus receives the loopback setting information D2, the setting contents (line setting information 611c) of the stored setting information D1 and the line setting information of the packet of the loopback setting information D2 611c is compared (step S808). If the setting contents of the setting information D1 and the setting contents of the return setting information D2 are the same (step S809: Yes), the DSL modem 100a proceeds to step S810, and if the setting contents are different (step S809: No) ), The process proceeds to step S816.

  In step S810, one of the representative DSL modems 100a compares the source device identification information 611a of the packet of the loopback setting information D2 with the identification information of the own DSL modem 100a (step S810). If the comparison result of the identification information is the same (step S811: Yes), the DSL modem 100a proceeds to step S812, but if the comparison result of the identification information is different (step S811: No), the process proceeds to step S816. To do.

  In step S812, one of the representative DSL modems 100a checks the return device identification information 611b of the return setting information D2 packet (step S812). The DSL modem 100a proceeds to step S814 if the return setting information D2 includes the return device identification information 611b (step S813: YES). If there is no folding device identification information 611b in the folding setting information D2 (step S813: No), the process proceeds to step S816.

  In step S814, one DSL modem 100a, which is the representative device, sets the setting contents (line setting information 611c) stored in the memory 202 to the DSL line 101 of the own DSL modem 100a (step S814). Specifically, the CPU 201 sets the setting content (line setting information 611c) stored in the memory 202 in the communication conversion unit 204 of the own DSL modem 100a. Thereafter, the DSL modem 100a, which is the representative device, responds to the setting request source (console terminal 501) to complete the communication setting for each device on the DSL line 101 (step S815), and returns to step S803.

  As shown in FIG. 5, one DSL modem 100a, which is a representative device, transmits a packet of setting information D1, and after setting by the other DSL modem 100b and repeater device 110 (110a to 110n), Finally, set up communication. As a result, when the communication setting by one of the representative DSL modems 100a is completed, the setting completion request is returned to the setting request source.

  On the other hand, if all of the determination results in Step S809, Step S811, and Step S813 are No, one DSL modem 100a that is the representative device discards the received loopback setting information D2 in Step S816 (Step S816). ). These are because the setting contents (one of the identification information 611a and 611b and the line setting information 611c) of the setting information D1 and the loop setting information D2 are different, and are determined to be based on packet damage or the like and discarded. Then, one DSL modem 100a clears the setting content stored in the memory 202 (step S817), responds to the setting request source (console terminal 501) to the abnormal setting end (step S818), and returns to step S803. .

  In step S802, if the local DSL modem is not the representative device but the other DSL modem 100b (step S802: No), the other DSL modem 100b executes the processing from step S820 onward.

  In step S820, the other DSL modem 100b waits for reception of a packet of setting information D1 (step S820). Then, the other DSL modem 100b stores the transmission source apparatus identification information 611a of the packet of the setting information D1 and the setting contents (line setting information 611c) in the memory 202 of the own DSL modem 100b (step S821).

  Next, the other DSL modem 100b stores the identification information of the DSL modem 100b in the aliasing device identification information 611b of the setting information D1, and creates the aliasing setting information D2 (step S822). Then, the other DSL modem 100b broadcasts the packet of the loopback setting information D2 on the DSL line 101 (step S823).

  Next, the other DSL modem 100b sets the setting contents (line setting information 611c) stored in the memory 202 to the DSL line 101 of the own DSL modem 100a (step S824). Specifically, the CPU 201 sets the setting content (line setting information 611c) stored in the memory 202 in the communication conversion unit 204 of the DSL modem 100b.

  Next, the other DSL modem 100b clears the setting contents (identification information 611a, 611b, line setting information 611c) stored in the memory 202 (step S825), and returns to step S820.

  FIG. 9 is a flowchart illustrating processing contents of communication setting performed by the repeater apparatus according to the embodiment. The example of a process which each CPU301 of the repeater apparatus 110 performs is shown. The process shown in FIG. 9 is executed after the link-up in which the repeater apparatus 110 sets Master / Slave by AUTO setting.

  First, the repeater apparatus 110 waits for reception of a packet of setting information D1 (step S901). Then, when receiving the setting information D1, the repeater apparatus 100 checks whether or not the return device identification information 611b is set in the setting information D1 (step S902). If the return device identification information 611b is not set in the setting information D1 (step S903: No), the repeater device 110 determines that the setting information D1 has been received. Then, the repeater apparatus 110 stores the transmission source apparatus identification information 611a of the received packet of the setting information D1 and the setting content (line setting information 611c) in the memory 302 of the own repeater apparatus 110 (step S904), and the process proceeds to step S901. Return.

  On the other hand, if the return device identification information 611b is set in the setting information D1 (step S903: Yes), the repeater device 110 determines that the return setting information D2 has been received. The repeater apparatus 110 executes the following process when receiving the loopback setting information D2.

  First, the repeater apparatus 110 includes, in the setting information D1 stored in the memory 302, information in which the contents of the transmission source apparatus identification information 611a and the line setting information 611c of the received return setting information D2 match. Search is performed (step S905).

  Then, the repeater apparatus 110 determines whether there is a setting in which the contents of the transmission source apparatus identification information 611a stored in the memory 302 and the line setting information 611c match the received loopback setting information D2 (step S906). If there is no matching setting (step S906: No), the repeater apparatus 110 stores the transmission source apparatus identification information 611a and the setting content (line setting information 611c) of the return setting information D2 in the memory 302 of the own repeater apparatus 110. Save (step S907). Thereafter, the process returns to step S901.

  On the other hand, if there is a matching setting in step S906 (step S906: Yes), the matching setting contents (line setting information 611c) are set in the two DSL lines 101 of the repeater device 110 (step S908). Specifically, the CPU 301 sets the setting contents (line setting information 611c) stored in the memory 302 in the two communication conversion units 304 of the repeater device 110, respectively. Then, the repeater apparatus 110 clears the data with the matching setting contents from the setting contents stored in the memory 302 (step S909), and returns to step S901.

  One DSL modem 100a, which is a representative device, may send setting information D1 a plurality of times by operating the console terminal 511 or the like. Similarly, one DSL modem 100a may send the setting information D1 a plurality of times in response to the disconnection of the DSL line 101. In the above processing, the repeater apparatus 110 stores the plurality of setting information D1 in the memory 302. If a plurality of transmission source device identification information 611a and line setting information 611c of the packet of the setting information D1 are stored in the memory 302 by the above search, the setting information D1 stored at the end of the memory 302 is stored. Used for actual settings. It should be noted that, later, by retrieving data stored in the memory 302, for example, the data content of the setting information D1 that has not been used for communication setting can be referred to and analyzed.

  According to the above-described processing, the return setting information after each repeater device 110 autonomously receives the setting information D1 without considering (determining) where the repeater device 110 is placed on the DSL line 101. Communication settings can be made with correct settings when D2 is received. As a result, the console terminal 511 does not need to determine the number and arrangement of devices (DSL modem 100 and repeater device 110), the implementation status of communication settings, and the like, and the setting contents of the setting request D0 can be simplified.

  FIG. 10 is a diagram illustrating a setting state of setting information for a modem and a repeater device in an existing communication system. It is assumed that DSL modems 1000a and 1000b are arranged at both ends of the DSL line 1001, and a plurality of repeater apparatuses 1010 (1010a to 1010n) are arranged between the DSL modems 1000a and 1000b.

  A console terminal 1111 is provided at one end of the DSL line 1001, and commands for setting communication settings D11a to D11n are output on the DSL line 1001 by operation input. At this time, the console terminal 1111 sends a plurality of setting requests D11a to D11n to directly set each device (DSL modem 1000a, 1000b, repeater device 1010) arranged on the DSL line 1001. become.

  In the illustrated example, first, the console terminal 1111 sends a setting request D11a to the other DSL modem 1000b on the DSL line 1001. As a result, the DSL modem 1000b executes communication setting for the DSL line 1001 connected to the port on one side of the device (one DSL modem 1000a side) (step S1001a).

  Thereafter, the console terminal 1111 sends a setting request D11b to the repeater apparatus 1010n on the DSL line 1001. Accordingly, the repeater apparatus 1010n executes communication setting for the DSL line 1001 connected to the port on one side of the own apparatus (the DSL modem 1000b side) (step S1001b). Communication settings are similarly made for the plurality of repeater apparatuses 1010 up to the repeater apparatus 1010a on the DSL modem 1000a side.

  Finally, the console terminal 1111 sends a setting request D11n to one DSL modem 1000a on the DSL line 1001. As a result, the DSL modem 1000a executes communication setting for the DSL line 1001 connected to the port on one side of the device (the other DSL modem 1000b side) (step S1001n). The setting order of the communication setting shown in FIG. 10 is set from the device located farthest from the console terminal 1111 for setting in consideration of the occurrence of link down due to the line speed setting.

  As described above, communication settings for all the DSL lines 1001 are performed. However, in the existing technology, it is necessary to send command requests for setting requests D11a to D11n corresponding to the number of devices of the DSL line 1001.

  Each device executes communication setting after receiving the setting requests D11a to D11n. When each device performs the setting process, link down / link up of the DSL line 1001 occurs (about 1 minute). In the existing technology, the repeater apparatus 1010 (1010a to 1010n) sequentially performs the setting process after the other DSL modem 1000b first starts the setting process, and finally, the one DSL modem 1000a starts the setting process and ends. The time to do is Tx (several minutes). For this reason, in the existing technology, it takes time for communication setting of the entire system as compared with the embodiment (FIG. 5).

  On the other hand, in the embodiment, as shown in FIG. 5, the console terminal 501 only needs to send the setting request D0 once to the representative apparatus on the DSL line 101, and the setting operation can be performed easily. . Thereafter, one DSL modem 100a, which is the representative device, transmits the setting information D1 once on the DSL line 101 in response to the setting request D0, so that a plurality of devices on the DSL line 101 receive the setting information D1. Transfer to the next device. Each device temporarily holds the setting information D1, and sequentially executes the actual communication setting process when receiving the return setting information D2.

  At this time, since each device receives the loopback setting information D2 almost simultaneously, each device can start the communication setting process almost simultaneously, and the link down / link up of the DSL line 101 can be performed almost simultaneously. Therefore, the communication setting process in the embodiment only takes time T1 (see FIG. 5), and can be performed in a shorter time than the time Tx required by the existing technology. In particular, as the number of devices on the DSL line, for example, the number of repeater devices increases, it takes time for communication setting in the existing technology.

  In addition, the existing technology only sends a communication setting command to each device, and does not consider the validity (damage, etc.) of the command itself. There is no. Also, for example, if an incorrect communication speed is transmitted when a certain command is sent, different communication speeds are set between the devices, and communication between the devices connected in cascade cannot be performed normally.

  On the other hand, in the embodiment, the setting information D1 is transferred by each device. Also, after sending the setting information D1, when the return setting information D2 is received, the setting contents of the setting information D1 and the setting information D2 are compared, and each device confirms that the setting information D1 is normal. As a result, according to the embodiment, the same communication settings (line speed, etc.) can be set for both the DSL modem and the repeater device on the cascade-connected communication paths, and normal communication can be performed.

  Further, in the existing technology, only a communication setting command is directly transmitted to each device, and communication settings for all devices on the DSL line cannot be easily confirmed. On the other hand, in the embodiment, when the return setting information D2 returns to the DSL modem 100a that is the representative device, the setting information is reflected in each device (the repeater device 110 and the DSL modem 100). Setting is executed in order from the other distant DSL modem 100b. Therefore, when the setting of one DSL modem 100a as the representative apparatus is completed and the link is up, it can be easily confirmed that the setting of all the DSL lines 101 is completed.

  According to the embodiment described above, the communication setting such as the line speed of all the DSL lines on the communication path (communication line) between the pair of DSL modems only needs to be made to a predetermined representative device. . Based on the setting request, the representative device can transmit setting information of communication setting to each device on behalf of each device, and each device can easily set a uniform communication setting value by transferring the communication setting. The complexity of communication settings for the entire communication system can be eliminated. The communication path can be extended by arranging a plurality of repeater devices between DSL modems on the communication path. Even when a plurality of repeater devices are provided in this way, the communication of the entire communication system including the DSL modems at both ends of the communication path is possible. Easy to set up.

  The following additional notes are disclosed with respect to the embodiment described above.

(Supplementary note 1) When a communication speed setting request is received, information on the communication speed received in the setting request to another modem connected via one or more connection devices and the one or more connection devices; Transmitting first setting information including identification information of the own modem;
From the other modem that has received the first setting information, the communication speed information, the identification information of the own modem, and the identification information of the other modem are included via the one or more connection devices. When the setting information of 2 is received, the communication speed between the own modem and the connection device adjacent to the own modem among the one or more connection devices is set based on the communication speed information.
A communication speed setting method using a modem.

(Supplementary Note 2) The second setting information is returned to the own modem side by adding the identification information of the other modem to the first setting information by the other modem that has received the first setting information. To send,
2. A communication speed setting method using a modem according to appendix 1.

(Supplementary Note 3) The first setting information is temporarily saved when the first setting information is received, and the second setting information and the setting contents of the first setting information are received when the second setting information is received. The communication speed is set when the two match, and the communication speed is not set when the two do not match.
3. A communication speed setting method using a modem according to appendix 1 or 2.

(Supplementary Note 4) The first setting information and the second setting information are broadcast to the communication path by IP packets using a VLAN unique to the communication system including the own modem, the other modem, and the connection device. ,
The communication speed setting method using a modem according to any one of appendices 1 to 3, wherein

(Supplementary Note 5) The first setting information and the second setting information set a predetermined protocol number indicating communication setting information in the IP packet.
5. A communication speed setting method using a modem according to appendix 4.

(Supplementary Note 6) The local modem and the other modem start processing the communication speed setting in the order in which the second setting information is received.
A communication speed setting method using a modem according to any one of appendices 1 to 4, characterized in that:

(Appendix 7) The own modem receives the second setting information after transmitting the first setting information, thereby completing the communication setting with the other modem and all of the one or more connection devices. Judging that
A communication speed setting method using a modem according to any one of appendices 1 to 6, characterized in that:

(Supplementary Note 8) First information including communication speed information received in the setting request and identification information of the first modem from the first modem that has received the communication speed setting request via the first connection device. 1 setting information is received,
The received first setting information is transmitted to the second modem via the second connection device, and from the second modem that has received the first setting information via the second connection device. , Receiving second setting information including the communication speed information, the identification information of the first modem, and the identification information of the second modem;
The received second setting information is transmitted to the first modem via the first connection device, and communication between the own connection device and the first connection device is performed based on the received communication speed information. Setting the speed and the communication speed between the self-connection device and the second connection device;
A communication speed setting method using a connection device.

(Supplementary Note 9) The self-connection device, the first connection device, and the second connection device start processing the communication speed setting in the order in which the second setting information is received.
9. A communication speed setting method using a modem according to appendix 8.

(Supplementary note 10)
When a communication speed setting request is received, the communication speed information received in the setting request from the other modem connected via one or more connection devices and the one or more connection devices, and identification of the own modem First setting information including information,
From the other modem that has received the first setting information, the communication speed information, the identification information of the own modem, and the identification information of the other modem are included via the one or more connection devices. When the setting information of 2 is received, the communication speed between the own modem and the connection device adjacent to the own modem among the one or more connection devices is set based on the communication speed information.
A communication speed setting program by a modem, characterized in that processing is executed.

(Appendix 11) In the computer of the self-connection device,
First setting information including communication speed information received in the setting request and identification information of the first modem from the first modem that has received the communication speed setting request via the first connection device. Receive
The received first setting information is transmitted to the second modem via the second connection device, and from the second modem that has received the first setting information via the second connection device. , Receiving second setting information including the communication speed information, the identification information of the first modem, and the identification information of the second modem;
The received second setting information is transmitted to the first modem via the first connection device, and communication between the own connection device and the first connection device is performed based on the received communication speed information. Setting the speed and the communication speed between the self-connection device and the second connection device;
A communication speed setting program by a connection device, characterized by causing processing to be executed.

(Supplementary Note 12) Upon receiving a communication speed setting request, information on the communication speed received in the setting request to another modem connected via one or more connection devices and the one or more connection devices; The first setting information including the identification information of the own modem is transmitted, and the communication speed information and the communication information are transmitted from the other modem that has received the first setting information via the one or a plurality of connection devices. When receiving the second setting information including the identification information of the own modem and the identification information of the other modem, the own modem and the own modem among the one or a plurality of connection devices are received based on the communication speed information. A control unit for setting a communication speed between adjacent connection devices;
A modem characterized by comprising:

(Supplementary Note 13) First information including communication speed information received in the setting request and identification information of the first modem from the first modem that has received the communication speed setting request via the first connection device. Receiving the first setting information, transmitting the received first setting information to the second modem via the second connection device, and receiving the first setting information from the second modem, The second setting information including the communication speed information, the first modem identification information, and the second modem identification information is received via the second connection device, and the received second setting information is received. The setting information is transmitted to the first modem via the first connection device, and the communication speed between the self connection device and the first connection device based on the received information of the communication speed, and the self connection A control unit for setting a communication speed between a device and the second connection device;
A connection device comprising:

100 (100a, 100b) DSL modem (modem)
101 DSL line (communication path)
110 (110a to 110n) Repeater device 102 Network 201, 301 CPU (control unit)
202, 302 Memory 204, 304 Communication converter 501 Console terminal 600 Ethernet frame 600e VLAN tag 610i Protocol number 611a Transmission source device identification information 611b Return device identification information 611c Line setting information D0 setting request D1 setting information (first setting information)
D2 Return setting information (second setting information)

Claims (11)

When a communication speed setting request is received, the communication speed information received in the setting request from the other modem connected via one or more connection devices and the one or more connection devices, and identification of the own modem First setting information including information,
From the other modem that has received the first setting information, the communication speed information, the identification information of the own modem, and the identification information of the other modem are included via the one or more connection devices. When the setting information of 2 is received, the communication speed between the own modem and the connection device adjacent to the own modem among the one or more connection devices is set based on the communication speed information.
A communication speed setting method using a modem. In the second setting information, the other modem that has received the first setting information adds identification information of the other modem to the first setting information and transmits it back to the modem side. is there,
The communication speed setting method by a modem according to claim 1. When the first setting information is received, the first setting information is temporarily stored, and when the second setting information is received, it is determined whether the setting contents of the second setting information and the first setting information match. The communication speed is set when they match, and the communication speed is not set when they do not match.
The communication speed setting method by a modem according to claim 1 or 2. The first setting information and the second setting information are broadcast to a communication path by IP packets using a unique VLAN in a communication system including the own modem, the other modem, and the connection device.
The communication speed setting method by a modem according to any one of claims 1 to 3. The local modem and the other modem start processing the communication speed setting in the order in which the second setting information is received;
The method for setting a communication speed by a modem according to any one of claims 1 to 4. The local modem receives the second setting information after transmitting the first setting information, and determines that the communication setting of the other modem and all of the one or more connection devices is completed. about,
A method for setting a communication speed by a modem according to any one of claims 1 to 5. First setting information including communication speed information received in the setting request and identification information of the first modem from the first modem that has received the communication speed setting request via the first connection device. Receive
The received first setting information is transmitted to the second modem via the second connection device, and from the second modem that has received the first setting information via the second connection device. , Receiving second setting information including the communication speed information, the identification information of the first modem, and the identification information of the second modem;
The received second setting information is transmitted to the first modem via the first connection device, and communication between the own connection device and the first connection device is performed based on the received communication speed information. Setting the speed and the communication speed between the self-connection device and the second connection device;
A communication speed setting method using a connection device. To your modem computer,
When a communication speed setting request is received, the communication speed information received in the setting request from the other modem connected via one or more connection devices and the one or more connection devices, and identification of the own modem First setting information including information,
From the other modem that has received the first setting information, the communication speed information, the identification information of the own modem, and the identification information of the other modem are included via the one or more connection devices. When the setting information of 2 is received, the communication speed between the own modem and the connection device adjacent to the own modem among the one or more connection devices is set based on the communication speed information.
A communication speed setting program by a modem, characterized in that processing is executed. In the computer of the self-connection device,
First setting information including communication speed information received in the setting request and identification information of the first modem from the first modem that has received the communication speed setting request via the first connection device. Receive
The received first setting information is transmitted to the second modem via the second connection device, and from the second modem that has received the first setting information via the second connection device. , Receiving second setting information including the communication speed information, the identification information of the first modem, and the identification information of the second modem;
The received second setting information is transmitted to the first modem via the first connection device, and communication between the own connection device and the first connection device is performed based on the received communication speed information. Setting the speed and the communication speed between the self-connection device and the second connection device;
A communication speed setting program by a connection device, characterized by causing processing to be executed. When a communication speed setting request is received, the communication speed information received in the setting request from the other modem connected via one or more connection devices and the one or more connection devices, and identification of the own modem Information of the communication speed and the identification of the own modem from the other modem that has received the first setting information via the one or more connection devices. When receiving the second setting information including the information and the identification information of the other modem, the own modem and the connection device adjacent to the own modem among the one or more connection devices based on the communication speed information Control unit to set the communication speed between
A modem characterized by comprising: First setting information including communication speed information received in the setting request and identification information of the first modem from the first modem that has received the communication speed setting request via the first connection device. The first setting information received is transmitted to the second modem via the second connection device, and the second connection is received from the second modem that has received the first setting information. The second setting information including the communication speed information, the identification information of the first modem, and the identification information of the second modem is received via the device, and the received second setting information is Based on the received communication speed information transmitted to the first modem via the first connection device, the communication speed between the own connection device and the first connection device, and the own connection device and the first A control unit for setting a communication speed between the two connection devices;
A connection device comprising:

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