JP4749885B2 - Information transfer device - Google Patents

Description

  The present invention relates to an information transfer device that realizes information transfer between a communication network and a wireless terminal device and information transfer between wireless terminal devices.

Information transfer apparatuses that transmit information acquired from a communication network to another communication network are widely used. FIG. 8 shows a communication system 100 to which such an information transfer apparatus 10 is applied. The communication system 100 includes an information transfer device 10, a backbone communication network 12, base station devices 14-1 to 14-n, communication lines 16L-1 to 16L-n, and wireless terminal devices 18-1-1 to 18-nm. _n (n is a positive integer indicating the number of base station apparatuses connected to the information transfer apparatus 10, and _mn is an arbitrary positive integer corresponding to n). The information transfer apparatus 10 includes communication ports 16-0 to 16-n. The information transfer apparatus 10 is connected to the backbone communication network 12 via the communication port 16-0 and the communication line 16L-0. Base station apparatuses 14-1 to 14-n are connected to communication ports 16-0 to 16-n via communication lines 16L-1 to 16L-n, respectively.

The information transfer apparatus 10 transmits / receives information to / from the backbone communication network 12 via the communication port 16-0 and the communication line 16L-0. The information transfer apparatus 10 transmits / receives information to / from the base station apparatus 14-i via the communication port 16-i and the communication line 16L-i (i is an integer of 1 to n). The base station device 14-i performs transmission / reception of information by wireless communication with the wireless terminal devices 18-i-1 to 18-i-m _i (m and i are arbitrary positive integers). Area in which radio terminal apparatuses 18-i-1 to 18-i-m _i (m _i is an arbitrary positive integer corresponding to i) can transmit / receive information to / from base station apparatus 14-i Is the base station area 20-i. Further, the entire area including the base station areas 20-1 to 20-n is defined as a service area.

The communication ports 16-0 to 16-n and the wireless terminal apparatuses 18-1-1-1 to 18-n- _mn are the basic communication network 12 or other communication networks (not shown) connected to the basic communication network 12. A unique IP address is assigned that can be identified at. In general, an IP address is a 32-bit binary number divided into 8 bits and expressed by four decimal numbers such as “X1.X2.X3.X4”. When the IP address is expressed in binary, a binary number consisting of a predetermined number of upper digits is a network address, and a binary number consisting of the remaining lower digits is a host address. In the following description, the lower 8 bits are a host address.

The radio terminal device 18-i-1~18-i- m you, with assigned a common network address, different host addresses are allocated, respectively. For example, the wireless terminal apparatuses 18-1-1 to 18-1-m ₁ in FIG. 8 have IP addresses “10.1.1.1”, “10.1.1.2”,. 10.1.1.m ₁ ”is assigned to the wireless terminal apparatuses 18-2-1 to 18-2-m ₂ as IP addresses“ 10.1.2.1 ”and“ 10.1.2 ”, respectively. .2 ”,...“ 10.1.2.m ₂ ”are allocated. Similarly, until the i becomes n, the wireless terminal devices 18-i-1 to 18-i-m _i have IP addresses of “10.1.i.1” and “10.1.i.2”, respectively. ,... "10.1.i.m _i " is assigned.

The communication port 16-i has the same network address as that assigned to the wireless terminal devices 18-i-1 to 18 -i-m _i and the wireless communication terminals 18-i-1 to 18 -i-m _i. A host address different from the host address assigned to each is assigned. For example, "10.1.1.0" to "10.1.1.n" are assigned as IP addresses to the communication ports 16-1 to 16-n in FIG.

The information transfer device 10 receives packet information from the backbone communication network 12. The packet information includes an IP address that identifies one of the wireless communication terminals 18-i-1 to 18-i- _mn and data that the packet information is to be transmitted. Then, the data in the wireless terminal device 18-i-1~18-i- m radio terminal apparatus identified by the IP address of the _n 18-i-j (j is any integer of 1 to m _i) Packet information is transmitted from the communication port 16-i so as to be acquired. The base station device 14-i receives the packet information, converts it into a radio signal, and transmits it. The wireless terminal device 18-ij acquires packet information addressed to itself.

  In the communication system 100, in order to increase the area of the service area, the total number n of base station apparatuses 14-1 to 14-n may be increased. Moreover, when providing a service area in the area | region with many obstructions with respect to electromagnetic waves, it is preferable that the shape can be set flexibly. For this purpose, the area of the base station areas 20-1 to 20-n may be reduced and the number n of the base station areas 20-1 to 20-n may be increased. This can be realized by reducing the transmission power of the base station apparatuses 14-1 to 14-n and increasing the total number n of the base station apparatuses 14-1 to 14-n.

  In the communication system 100 shown in FIG. 8, one communication port 16-i is required for one base station apparatus 14-i, and one network address is assigned to the communication port 16-i. Therefore, when the total number n of base station apparatuses 14-1 to 14-n is increased, the total number of network addresses assigned to each increases.

  On the other hand, since a plurality of wireless terminal devices move within the service area of the communication system 100, the number of wireless terminal devices existing in each of the base station areas 20-1 to 20-n is fluid. For this reason, it is preferable that the number of wireless terminal devices capable of transmitting / receiving information to / from one base station device 14-i is as large as possible, and it is preferable to assign the wireless terminal devices to one base station area 20-i. The number of possible host addresses is preferably as large as possible.

  However, since the IP address is composed of a finite number of digits, the number of digits occupied by the network address among the digits constituting the IP address and the number of digits occupied by the host address among the digits constituting the IP address. It cannot be increased at the same time. Therefore, if the number of digits occupied by the network address is increased in order to increase the total number of base station apparatuses, the number of digits that can be occupied by the host address decreases, and wireless communication is performed within the area of the base station area 20-i. There arises a problem that the total number of host addresses that can be allocated to the terminal apparatus is reduced, and the number of wireless terminal apparatuses that can transmit / receive information to / from one base station apparatus 14-i is reduced.

  On the other hand, if the number of digits occupied by the host address is increased in order to increase the number of wireless terminal devices capable of transmitting / receiving information to / from one base station device 14-i, the network address is occupied. The number of digits that can be reduced decreases, the total number of network addresses that can be assigned to the base station apparatus decreases, and the total number of base station apparatuses cannot be increased.

  The present invention has been made for such a problem. That is, the present invention provides an information transfer apparatus capable of effectively using addresses even if the number of wireless terminal apparatuses that exchange information with an information transfer apparatus via a base station is fluid.

The present invention is an information transfer apparatus to which a network address for identification in a backbone communication network is assigned, and an IP address, a MAC address, and a port number , each having the same network address but different host addresses, A plurality of communication ports that are allocated and exchange information with a base station, and information including MAC addresses that are uniquely assigned to wireless terminal devices that exchange information with the base station. from any of the communication ports acquired as specific code information, assign a host address for identifying the wireless terminal device to said specific code information, and a network address identical to the network address of the communication ports of a terminal address generator for generating an IP address configured by the host address, the solid Associating said MAC address included in the code information, the a-specific code information the IP address of the terminal address generator has generated on the basis of, and the specific code information obtained port number assigned to the communication port, the and the corresponding information correspondence information generation unit for generating, Bei example, said via said communication port from the backbone communication network, packet information including the transfer information to the MAC address and IP address of the destination of the destination subject to transfer The MAC address of the communication port that has received the packet information and the MAC address of the destination are collated, and the packet information is transmitted from the communication port to which the port number is assigned based on the collation result It is characterized by doing.

Further, the information transfer device according to the present invention, when the MAC address of the communication port and the MAC address of the destination match, collates the correspondence information with the IP address of the destination, and the wireless terminal device Obtaining the port number of the communication port corresponding to the MAC address of the packet, and transmitting the packet information from the communication port to which the acquired port number is assigned,
When the MAC address of the communication port and the MAC address of the destination do not match, the correspondence information and the MAC address of the destination are collated, and the port number of the communication port corresponding to the MAC address of the destination It is preferable that the packet information is transmitted from the communication port to which the acquired port number is assigned .

  Further, in the information transfer device according to the present invention, information including the unique code and transfer information to be transferred is acquired as downstream information from any one of the plurality of communication ports, and the correspondence Based on the information and the unique code included in the downstream information, a port identification code corresponding to the unique code included in the downstream information is acquired, and the transfer information included in the downstream information is It is preferable to transmit from a communication port to which a port identification code corresponding to the unique code included in the downstream information is assigned.

  According to the present invention, even if the number of wireless terminal devices that exchange information with an information transfer device is interposed between the information transfer devices, the information transfer device can achieve effective use of addresses even if the number of wireless terminal devices is fluid. Can be realized.

  FIG. 1 shows a configuration of a communication system 102 according to an embodiment of the present invention. The same components as those of the communication system 100 are denoted by the same reference numerals, and description thereof is omitted. The communication system 102 includes a backbone communication network 12, an information transfer device 22, base station devices 24-1 to 24-n, wireless terminal devices 26-1 to 26-m, and communication lines 28L-1 to 28L-n. (N is a positive integer indicating the number of base station apparatuses connected to the information transfer apparatus 22, and m is a positive integer indicating the number of wireless terminal apparatuses). The information transfer device 22 includes communication ports 28-1 to 28-n and a table storage unit 22a. The information transfer device 22 is connected to the backbone communication network 12 via the communication line 28L-0. Base station apparatuses 24-1 to 24-n are connected to communication ports 28-1 to 28-n via communication lines 28L-1 to 28L-n, respectively.

  The communication port 28-0 and the communication ports 28-1 to 28-n respectively have Mac addresses MacPx and MacP1 to MacPn, which are identification codes unique to hardware. The wireless terminal devices 26-1 to 26-m have Mac addresses Mac1 to Macm, respectively. The Mac address is a permanent identification code that is not changed by the counterpart device that performs communication.

  Further, the communication port 28-0 and the communication ports 28-1 to 28-n have port numbers Px and P1 to Pn, respectively, in addition to the MAC address. The port number is a number for identifying a communication port in processing executed by the information transfer apparatus, and is a number uniquely assigned in the information transfer apparatus 22.

  The base station device 24-i (i is an integer of 1 to n) communicates with a specific wireless terminal device among the wireless terminal devices 26-1 to 26-m in accordance with a predetermined wireless communication protocol to which a Mac address is applied. Packet information is transmitted and received by wireless communication. As the wireless communication protocol, it is preferable to apply IEEE 802.16 or the like.

  Between the wireless terminal device 26-j (j is an integer of 1 to m) and at least one of the base station devices 24-1 to 24-n, the predetermined wireless communication protocol is established before the wireless communication network is established. The following processing is executed according to the above.

  The wireless terminal device 26-j performs preliminary wireless communication with the base station device 24-i, and the base station device 24-i is different from the wireless terminal device 26-j. (K is an integer from 1 to m different from j), the frequency of communication with the base station device 24-i, the goodness of the propagation status of electromagnetic waves transmitted to and received from the base station device 24-i, and up to the base station device 24-i Measure the communication goodness defined by distance and so on. Then, based on the communication goodness, one that performs wireless communication is selected from the base station devices 24-1 to 24-n. The wireless terminal device 26-j transmits information including the Mac address Macj to the selected base station device 24-i. The base station device 24-i that has received the information recognizes the Mac address Macj.

  Through such processing, the base station device 24-i recognizes the Mac address Macj of the wireless terminal device 26-j with which the base station device 24-i communicates. For example, in the communication system 102 of FIG. 1, the base station device 24-1 recognizes Mac addresses Mac1, Mac3, and Mac7, the base station device 24-2 recognizes Mac addresses Mac2, Mac6, and Mac8, and the base station device 24 -N recognizes Mac addresses Mac4, Mac5 and Macm. The base station devices 24-1 to 24-n transmit and receive packet information by wireless communication with the wireless terminal device 24-j specified by the recognized Mac address Macj. A region where the wireless terminal device 26-j can transmit / receive information to / from the base station device 24-i is defined as a base station area 30-i.

  A unique IP address defined in the backbone communication network 12 is assigned to each of the communication ports 28-0 to 28-n. A common network address and different host addresses are assigned to the communication ports 28-1 to 28-n. In the information transfer apparatus 22 of FIG. 1, “10.1.3.3.1” is assigned to the communication port 28-0 as an IP address, and “10.1.2.1” is assigned to the communication ports 28-1 to 28-n as IP addresses. 1 "to" 10.1.2.n "are assigned. However, the upper 24 bits of the IP address are the network address and the lower 8 bits are the host address.

  The IP addresses of the communication ports 28-0 to 28-n are assigned in advance when the information transfer device 22 and the base station devices 24-1 to 24-n are installed, whereas the wireless terminal devices 26-1 to 26- The IP address of m is assigned later by the wireless terminal registration process described below, which is executed between the information transfer apparatus 22 and the base station apparatuses 24-1 to 24-n.

  The wireless terminal registration process will be described with reference to the sequence diagram of FIG. Here, a description will be given together with a specific example in which when the base station device 24-1 newly recognizes the Mac address Mac7 of the wireless terminal device 26-7, the IP address of the wireless terminal device 26-7 is newly assigned. In this example, before an IP address is assigned to the wireless terminal device 26-7, the wireless terminal devices 26-1 to 26-3 are assigned IP addresses “10.1.2.n + 1” to “10.1. 2.n + 3 "has already been assigned, and the assignment of IP addresses to other wireless terminal devices 26-4 to 26-m has not been completed.

  When the base station device 24-i newly recognizes the Mac address Macj, the base station device 24-i sends the connection notification packet information including the connection notification packet identifier in the header portion and the new Mac address Macj in the data portion to the communication line 28L-i. And it transmits to the information transfer apparatus 22 via the communication port 28-i (S1). In the example of FIG. 1, connection notification packet information including a new Mac address Mac7 in the data portion is transmitted to the information transfer device 22 via the communication line 28L-1 and the communication port 28-1.

  When the information transfer device 22 determines that the connection notification packet identifier is included in the header portion of the packet information received from the communication port 28-i, the information transfer device 22 extracts the Mac address Macj included in the data portion (S2). In the example of FIG. 1, the Mac address extracted from the data part is Mac7.

  The information transfer device 22 determines an IP address corresponding to the extracted Mac address Macj (S3). The network address of the IP address to be determined is the same as the common network address assigned to the communication ports 28-1 to 28-n. The host address of the IP address to be determined is different from any of the host addresses assigned to the communication ports 28-1 to 28-n, and is already assigned to the wireless terminal device 26-k other than the wireless terminal device 26-j. It shall be different from any of the already assigned host addresses. In the example of FIG. 1, the information transfer apparatus 22 determines that the IP address corresponding to the Mac address Mac7 is “10.1.2.n + 7”. The assigned host address is different from any of the host addresses “n + 1” to “n + 3” already assigned to the wireless terminal devices 26-1 to 26-3.

  If the wireless terminal devices 26-1 to 26-m existing in the base station areas 30-1 to 30-n are constant, IP addresses are associated with the Mac addresses Mac1 to Macm in advance. The information may be stored in advance in storage means (not shown) of the information transfer device 22. In this case, the same network address as the common network address assigned to the communication ports 28-1 to 28-n is associated with the Mac addresses Mac1 to Macm, and assigned to the communication ports 28-1 to 28-n. A different host address is associated with each of the Mac addresses Mac1 to Macm. In step S3, the information transfer device 22 may determine an IP address corresponding to the extracted Mac address Macj based on the information stored in the storage unit.

  The information transfer device 22 adds the contents of the address correspondence table TB stored in the table storage unit 22a based on the determined IP address (S4). As shown in FIG. 3A, the address correspondence table TB includes the determined IP address, the port number Pi of the communication port 28-i from which the connection notification packet information is received, and the data portion of the connection notification packet information. It is a table in which the included Mac address Macj is associated.

  In the communication system 102, the address correspondence table TB is connected to an IP address determined as an IP address to be assigned to the wireless terminal device 26-j and a base station device 24-i that transmits / receives information to / from the wireless terminal device 26-j. It has a meaning as a table in which the port number Pi of the communication port 28-i is associated with the Mac address Macj of the wireless terminal device 26-j.

  In the address correspondence table TB of FIG. 3A, “10.1.2.n + 1” is determined as the IP address for the wireless terminal device 26-1 having the Mac address Mac1, and the port number of the communication port 28-1 P1 is associated. Further, “10.1.2.n + 2” is determined as the IP address for the wireless terminal device 26-2 having the Mac address Mac2, and the port number P2 of the communication port 28-2 is associated therewith. Further, “10.1.2.n + 3” is determined as the IP address for the wireless terminal device 26-3 having the Mac address Mac3, and the port number P1 of the communication port 28-1 is associated.

  The information transfer device 22 determines the IP address determined for the Mac address Macj included in the data portion of the connection notification packet information, the port number Pi of the communication port 28-i that has received the connection notification packet information, and the connection notification. Information associated with the Mac address Macj included in the data part of the packet information is added to the address correspondence table TB and stored in the table storage unit 22a. In the example of FIG. 1, the information transfer device 22 has the IP address “10.1.2.n + 7” determined for the Mac address Mac7, and the port number P1 of the communication port 26-1 that has received the connection notification packet information. The MAC address Mac7 included in the data part of the connection notification packet information is associated, the address correspondence table TB is updated as shown in FIG. 3B, and stored in the table storage unit 22a.

  When the information transfer device 22 updates the address correspondence table TB, the header portion includes the address assignment packet identifier, the data portion includes the Mac address Macj, the IP address corresponding to the Mac address Macj, and the Mac address of the communication port 28-i. The address assignment packet information including MacPi is transmitted to the base station apparatus 24-i via the communication port 28-i and the communication line 28L-i (S5). In the example of FIG. 1, the information transfer device 22 includes the MAC address Mac7 in the data portion, the IP address “10.1.2.n + 7” corresponding to the Mac address Mac7, and the Mac address MacP1 of the communication port 28-1. The address assignment packet information is transmitted to the base station device 24-1 via the communication port 28-1 and the communication line 28L-1.

  If the base station device 24-i determines that the header of the received packet information includes the address assignment packet identifier, the base station device 24-i extracts the Mac address Macj, the IP address, and the Mac address MacPi from the data portion. Then, packet information including the IP address and the Mac address MacPi is transmitted to the wireless terminal device 26-j having the Mac address Macj (S6). The wireless terminal device 26-j extracts and stores the IP address and Mac address MacPi from the received packet information (S7). In the example of FIG. 1, if the base station apparatus 24-1 determines that the address-added packet identifier is included in the header portion of the received packet information, the MAC address Mac7 and the IP address “10.1.2” from the data portion. .N + 7 ”and the Mac address MacP1 is extracted. Then, information including the IP address “10.1.2.n + 7” and the Mac address MacP1 is transmitted to the wireless terminal device 26-7 having the Mac address Mac7. The wireless terminal device 26-7 extracts and stores the IP address “10.1.2.n + 7” and the Mac address MacP1 from the received information.

  The process in which the wireless terminal device 26-j obtains the IP address and the Mac address MacPi from the information transfer device 22 can also be performed by a widely known ARP (Address Resolution Protocol).

  Here, an example in which IP addresses have already been assigned to the wireless terminal devices 26-1 to 26-3 has been described, but an IP address is assigned to any of the wireless terminal devices 26-1 to 26-m. Even if not, the process in which the information transfer device 22 updates the address correspondence table TB is performed in the same manner. In this case, the contents of the table are added from the top column of the address correspondence table TB.

  In the above description, the wireless terminal registration process is started when the base station device 24-i recognizes a new Mac address Macj. However, the wireless terminal registration process is started at a predetermined time interval. Also good.

  According to the wireless terminal registration process, the same network address as the common network address assigned to the communication ports 28-1 to 28-n is assigned to the wireless terminal devices 26-1 to 26-m. Further, different host addresses from the host addresses assigned to the communication ports 28-1 to 28-n are assigned to the wireless terminal devices 26-1 to 26-m, respectively. In addition, the wireless communication terminals 26-1 to 26-m can acquire and store the Mac address Pi of the communication port 28-i to which the base station device 24-i that transmits and receives information to and from the wireless communication terminals 26-1 to 26-m is connected. .

  Processing in which the wireless terminal devices 26-1 to 26-m of the communication system 102 acquire packet information from the backbone communication network 12, and the wireless terminal device 26-j of the communication system 102 is transferred to another wireless terminal device 26-k. Processing for transmitting packet information will be described. It is assumed that IP addresses have already been assigned to the wireless terminal devices 26-1 to 26-m by the wireless terminal registration process. In addition, the wireless terminal devices 26-1 to 26-m acquire and store the Mac address Pi of the communication port 28-i to which the base station device 24-i that transmits / receives information to / from itself is connected by wireless terminal registration processing. Suppose you are.

  Packet information Pck transmitted / received between the backbone communication network 12 and the information transfer device 22, packet information Pck transmitted / received between the information transfer device 22 and the base station devices 24-1 to 24-n, and a base station device The packet information Pck transmitted / received between the 24-i and the wireless terminal device 26-j includes a first header part H1, a second header part H2, and a data part DA as shown in FIG. Consists of. The first header portion H1 includes a destination address D1 and a source address S1, and the second header portion H2 includes a destination address D2 and a source address S2. The destination address D1 is set with the mac address of the device that transfers the packet information to the device that is the destination of the packet information Pck or the device that is the destination of the packet information Pck. In the destination address D2, the IP address of the device that is the destination of the packet information Pck is set. The MAC address of the device that is the transmission source or transfer source of the packet information Pck is set in the transmission source address S1, and the IP address of the device that is the transmission source of the packet information Pck is set in the transmission source address S2. The data part DA includes data to be transmitted by the packet information Pck.

  The processing executed by the information transfer device 22 will be described with reference to the flowchart of FIG. The information transfer device 22 receives the information packet Pck via any one of the communication ports 28-0 to 28-n (S11).

  When the destination address D1 of the packet information Pck matches the MAC address assigned to the communication port that has received the packet information Pck, the information transfer device 20 refers to the network address assigned to the communication port. It is determined that the packet information Pck is addressed to a device that performs communication via a communication port to which a different network address is assigned. In that case, the information transfer device 20 refers to the address correspondence table TB based on the IP address set in the destination address D2, and acquires the MAC address and the corresponding port number of the corresponding wireless terminal device (S12, S13). . Hereinafter, the corresponding wireless communication terminal MAC address and the corresponding port number are used.

  The information transfer device 22 generates packet information PckC in which the setting of the destination address D1 of the packet information Pck is changed to the corresponding wireless communication terminal mac address (S14). The information transfer device 22 transmits the packet information PckC as the downstream packet information PckL from the communication port 28-i having the corresponding port number (S15).

  On the other hand, if the destination address D1 of the packet information Pck does not match the MAC address assigned to the communication port that received the packet information Pck, the same network address as the network address assigned to the communication port is set. It is determined that the packet information Pck is addressed to a device that performs communication via the assigned communication port. In this case, the information transfer device 22 refers to the address correspondence table TB based on the Mac address set in the destination address D1, and acquires the corresponding port number (S12, S16). The information transfer device 22 transmits the packet information Pck as the downstream packet information PckL from the communication port 28-i having the corresponding port number (S17).

  In step S16, instead of referring to the address correspondence table TB based on the MAC address set in the destination address D1 and obtaining the corresponding port number, the address is based on the IP address set in the destination address D2. The corresponding port number may be acquired by referring to the correspondence table TB.

  The base station device 24-i receives the downstream packet information PckL from the information transfer device 22, converts it into a radio signal, and transmits it. Based on the setting of the destination address D1 of the received downstream packet information PckL, the wireless terminal device 26-j determines that the packet information is addressed to the wireless terminal device 26-j, and acquires the downstream packet information PckL. To do.

  As a first processing example, the information transfer device 22 receives the information packet Pck from the backbone communication network 12 via the communication line 28L-0 and the communication port 28-0, and wirelessly transmits the data part DA included in the information packet Pck. The case where it transmits to the terminal device 26-7 is demonstrated. It is assumed that “10.1.2.1” to “10.1.2.m” are assigned to the wireless terminal devices 26-1 to 26 -m as IP addresses by the wireless terminal registration process, respectively. At this time, the address correspondence table TB stored in the table storage unit 22a of the information transfer device 22 is as shown in FIG. In addition, the wireless terminal devices 26-1 to 26-m acquire and store the Mac address MacPi of the communication port 28-i to which the base station device 24-i that transmits / receives information to / from itself is connected by wireless terminal registration processing. Suppose you are.

  As shown in FIG. 4B, the communication port 28-0 communicates packet information Pck in which the Mac address MacPx and the IP address “10.1.2.n + 7” are set in the destination address part D1 and the destination address D2, respectively. Receive from port 28-0.

  In this case, the Mac address MacPx of the communication port 28-0 is set in the destination address D1 of the packet information Pck received by the information transfer apparatus 22 from the communication port 28-0. Therefore, the Mac address set as the destination address D1 matches the Mac address MacPx of the communication port 28-0 that has received the packet. Therefore, the information transfer device 22 refers to the address correspondence table TB based on the IP address set in the destination address D2, and acquires the corresponding port number and the corresponding wireless communication terminal MAC address.

  In the packet information Pck of FIG. 4B, the IP address set in the destination address part D2 is “10.1.2.n + 7”, and according to the address correspondence table TB of FIG. The MAC addresses of the wireless terminal devices are P1 and Mac7, respectively.

  The information transfer device 22 generates packet information PckC as shown in FIG. 4C in which the setting of the destination address part D1 of the packet information Pck is changed to the corresponding wireless communication terminal Mac address Mac7. The information transfer device 22 transmits the packet information PckC as the downstream packet information PckL from the communication port 28-1 having the corresponding port number P1.

  The base station device 24-1 receives the downstream packet information PckL from the information transfer device 22, converts it into a radio signal, and transmits it. Based on the setting of the destination address part D1 of the received downstream packet information PckL, the wireless terminal device 26-7 determines that the downstream packet information PckL is addressed to the wireless terminal device 26-7, and the downstream packet information PckL To get.

  As a second processing example, a case will be described in which the wireless terminal device 26-7 of the communication system 102 transmits packet information Pck to the wireless terminal device 26-3.

  The wireless terminal device 26-7 transmits packet information Pck in which the MAC address Mac3 of the wireless terminal device 26-3 is set to the destination address D1 as shown in FIG. The base station device 24-1 that has received the packet information Pck transmits the packet information Pck to the information transfer device 22.

  The information transfer device 22 receives the packet information Pck from the communication port 28-1. Then, the address correspondence table TB stored in the table storage unit 22a is referred to.

  In this case, the MAC address Mac3 of the wireless terminal device 26-3 is set as the destination address D1 of the packet information Pck received by the information transfer device 22 from the communication port 28-1. Therefore, the Mac address set as the destination address D1 does not match the Mac address Mac1 of the communication port 28-1 that has received the packet. Therefore, the information transfer device 22 refers to the address correspondence table TB based on the destination address D1 and acquires the corresponding port number. In the packet information Pck of FIG. 4D, the Mac address set in the destination address part D1 is Mac3, and according to the address correspondence table TB of FIG. 6, the corresponding port number is P1.

  The information transfer device 22 transmits the packet information Pck as the downstream packet information PckL from the communication port 28-1 having the corresponding port number P1.

  The base station device 24-1 receives the downstream packet information PckL from the information transfer device 22, converts it into a radio signal, and transmits it. Based on the setting of the destination address part D1 of the received downstream packet information PckL, the wireless terminal device 26-3 determines that the downstream packet information PckL is addressed to the wireless terminal device 26-3, and the downstream packet information PckL To get.

  According to the communication system 102 according to the embodiment of the present invention, the same network address as the common network address assigned to the communication ports 28-1 to 28-n for the wireless terminal devices 26-1 to 26-m. Is assigned. Thus, even if the total number n of the base station devices 24-1 to 14-n is increased under the condition that the total number of the radio communication terminals 26-1 to 26-m is constant, the information transfer device 22 The IP address occupied by the IP address does not increase, and the IP address can be used effectively. As a result, the number n of the base station areas 30-1 to 30-n can be increased without increasing the IP address occupied by the information transfer device 22, and the shape of the service area can be set flexibly.

  Further, when the network addresses are assigned to the wireless terminal devices 26-1 to 26-m in this way, when the wireless terminal devices 26-1 to 26-m transmit / receive information to / from the information transfer device 22, It becomes impossible to specify the intervening communication port only with the assigned network address. Therefore, the information transfer device 22 according to the present embodiment includes the port number Pi of the communication port 28-i that is interposed when the wireless terminal devices 26-1 to 26-m transmit / receive information to / from the information transfer device 22. Are associated with the determined IP address and added to the address correspondence table TB. As a result, in the process in which the wireless terminal device 26-j acquires packet information from the backbone communication network 12 and the process in which the wireless terminal device 26-j transmits packet information to another wireless terminal device 26-k, the information Based on the address correspondence table TB, the transfer device 22 can specify a communication port to which the downstream packet information PckL is to be transmitted from among the communication ports 28-1 to 28-n to which the same network address is assigned. .

  Note that the wireless terminal registration process described above can be executed by applying a widely used DHCP (Dynamic Host Configuration Protocol) server. FIG. 7 shows a configuration of a communication system 104 to which the DHCP server 32 is applied. The DHCP server 32 is connected to the communication port 28- (n-1) via the communication line 28L- (n-1). The same components as those of the communication system 102 are denoted by the same reference numerals, and description thereof is omitted.

  When the wireless communication terminal 26-j establishes a wireless communication connection with the base station device 24-i, the wireless communication terminal 26-j transmits packet information including predetermined control information via the information transfer device 22 to thereby establish the wireless communication terminal 26-j. The DHCP server 32 is caused to execute the numbering process of the IP address assigned to j. The base station device 24-i acquires packet information including the issued IP address from the DHCP server 32 via the information transfer device 22, and transmits packet information including the IP address to the wireless communication terminal 26-j. To do.

  The information transfer device 22 extracts the information included in the packet information transmitted / received between the base station device 24-i and the DHCP server 32, and thereby the IP address issued by the DHCP server 32 and the communication port 28- Information that associates the port number Pi of i with the Mac address Macj of the wireless communication terminal 26-j is acquired, added to the address correspondence table TB, and stored in the address storage unit 22a.

  By applying the DHCP server, the information transfer device 22 can be easily configured, so that the design and manufacturing cost of the information transfer device 22 can be reduced.

It is a figure which shows the structure of the communication system which concerns on embodiment of this invention. It is a figure explaining a wireless terminal registration process. It is a figure which shows an address corresponding table. It is a figure which shows the structure of packet information. It is a flowchart of the process which an information transfer apparatus performs. It is a figure which shows the address corresponding table after a radio | wireless terminal registration process is performed. It is a figure which shows the structure of the communication system which applied the DHCP server. It is a figure which shows the structure of a communication system.

Explanation of symbols

100, 102 Communication system, 10, 22 Information transfer device, 12 backbone communication network, 14-1 to 14-n, 24-1 to 24-n base station device, 16-0 to 16-n communication port, 16L-0 -16L-n, 28L-0 to 28L-n communication line, 18-1-1 to 18-n- _n wireless terminal device, 20-1 to 20-n, 22a table storage unit, 30-1 to 30n base Station area, 26-1 to 26-m wireless terminal device, 32 DHCP server.

Claims (2)

An information transfer apparatus to which a network address for identification in a backbone communication network is assigned,
A plurality of communication ports, each of which has the same network address and a different host address, a MAC address, and a port number, and is used to exchange information with a base station;
The information including the MAC address uniquely assigned to the radio terminal apparatus that exchanges information with the base station, obtains the specific code information from any of the plurality of communication ports, the wireless terminal device wherein the host address for identifying the assignment for specific code information, the network address identical to the network address of each communication port, the terminal address generator for generating an IP address configured by the host address,
The MAC address included in the unique code information, the IP address generated by the terminal address generation unit based on the unique code information, and the port number assigned to the communication port that acquired the unique code information, e Bei a correspondence information generation unit for generating a corresponding information associating a,
Receiving packet information including a destination MAC address, a destination IP address, and transfer information to be transferred from the backbone communication network via the communication port;
The MAC address of the communication port that has received the packet information is collated with the MAC address of the destination, and the packet information is transmitted from the communication port to which the port number is assigned based on the collation result. Information transfer device. The information transfer device according to claim 1,
When the MAC address of the communication port matches the MAC address of the destination, the correspondence information and the IP address of the destination are collated, and the communication port corresponding to the MAC address of the wireless terminal device Acquiring a port number, and transmitting the packet information from the communication port to which the acquired port number is assigned;
When the MAC address of the communication port and the MAC address of the destination do not match, the correspondence information and the MAC address of the destination are collated, and the port number of the communication port corresponding to the MAC address of the destination And the packet information is transmitted from the communication port to which the acquired port number is assigned .

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