JP3593640B2 - ATM exchange and ATM cell relay transmission method - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ATM switch for relaying and transmitting ATM cells and a method for relaying and transmitting ATM cells.
The ATM (Asynchronous Transfer Mode) system transmits a 53-byte ATM cell including a 5-byte header and 48-byte user information. The 5-byte header includes a virtual path identifier VPI, a virtual channel identifier VCI, The ATM exchange relays the ATM cell based on the above. As the size of the ATM network increases, the number of relays via many ATM exchanges increases, and there is a demand for facilitating such relay transmission processing.
[0002]
[Prior art]
FIG. 11 is an explanatory diagram of an ATM network. 100-1 to 100-n are ATM exchanges, 101 is a terminal, 102 is a trunk line, 103 and 106 are line port units, 104 is a header conversion unit, and 105 is an ATM switch. is there. This figure shows a case where an ATM network is constituted by a plurality of ATM exchanges 100-1 to 100-n. Line port units 103 and 106 of each of the ATM exchanges 100-1 to 100-n accommodate a terminal 101 or a trunk line 102 and a header. The converter 104 converts the VPI / VCI in the header of the ATM cell into the VPI / VCI to be output to the line port. The ATM switch 105 routes the ATM cell based on the VPI / VCI converted by the header conversion unit 104 and outputs the ATM cell to the line port unit.
[0003]
FIG. 12 is an explanatory view of main parts of a conventional ATM exchange, showing main parts corresponding to the ATM exchanges 100-1 and 100-n accommodating the terminal 101 of FIG. 11, 110 is a header conversion table, and 111 is a UPC. (Usage Parameter Control; usage parameter control) unit, 112 is a connection management control unit, 113 is a failure detection unit, and 114 is a terminal line interface unit.
[0004]
The header conversion unit 104 converts the header of the ATM cell into VPI / VCI corresponding to the outgoing route with reference to the header conversion table 110. The UPC unit 111 monitors whether or not the terminal 101 has transmitted an ATM cell exceeding the declared bandwidth, and performs a control function such as discarding the ATM cell so as not to cause congestion if the ATM cell is transmitted. Have Further, the failure detection unit 113 detects an alarm notification by an OAM (Operation Administration and Maintenance) cell or the like transmitted via the trunk line 102, collects failure information of each unit, and collects failure information of each unit. Notify The connection management control unit 112 controls each unit to control the transfer of ATM cells between the terminals 101.
[0005]
[Problems to be solved by the invention]
The conventional ATM exchange identifies whether it is addressed to a terminal accommodated in its own ATM exchange or a terminal accommodated in another ATM exchange based on the VPI / VCI of the header of the received ATM cell. Then, routing is performed. In this case, the VPI of the UNI (User Network Interface) is 8 bits and the VCI is 16 bits, and the VPI of the NNI (Network Node Interface) is 12 bits and the VCI is 16 bits. That is, each ATM exchange in the ATM network performs routing by identifying information of 24 bits or 28 bits in total. Therefore, the processing load of each ATM exchange is large and there is a problem of processing delay.
An object of the present invention is to reduce the processing load and reduce the relay processing time.
[0006]
[Means for Solving the Problems]
The ATM switch of the present invention will be described with reference to FIG. 1. In an ATM switch having at least a relay ATM switch 5, a routing header including a node address bit indicating a destination ATM switch is added to an ATM cell. Alternatively, a routing header attaching / detaching unit 11 for deleting, a relay monitoring unit 12 for extracting a routing header added to the ATM cell, and whether or not the packet is addressed to the own ATM switch is determined based on the routing header extracted by the relay monitoring unit 12. And a connection management control unit 15 for relaying and transmitting an ATM cell to which a routing header is added when the ATM cell is not addressed to the own ATM exchange. An ATM exchange that relays ATM cells can identify the transmission destination of ATM cells only by the node address bits of the routing header.
[0007]
Further, in the above-described ATM exchange, the own network relay information management table 13 for registering information on the originating terminal and information on the destination terminal and the destination ATM exchange can be provided.
[0008]
In addition, in a system having a local network having a plurality of ATM switches and another network, a routing header including a node address bit indicating a destination ATM switch is added to or deleted from an ATM cell. A routing header attaching / detaching section 11, a relay monitoring section 12 for extracting a routing header added to the ATM cell, and a routing header extracted by the relay monitoring section 12 for determining whether or not the packet is addressed to the own ATM exchange; If not, the connection management control unit 15 that controls to relay and transmit the ATM cell to which the routing header is added, and the own network that registers information on the calling terminal and information on the called terminal and the called ATM switch. Relay information management table 13, information on the originating terminal and the terminating terminal of another network, And a network relay information management table 14 for registering information on the destination ATM exchange accommodating the destination terminal, and for transmitting ATM cells between networks when a plurality of types of ATM networks exist. , A routing header is added for transmission, and relay processing can be simplified.
[0009]
The above-mentioned routing header attaching / detaching unit 11 has a function of adding a routing header to an ATM cell relaying and transmitting the own network and deleting the routing header added to the ATM cell to the terminal accommodated in the own ATM exchange. It has a function of replacing ATM cells transmitted between a network and another network with routing headers corresponding to the respective networks.
[0010]
Further, the ATM cell relay transmission method of the present invention identifies a destination ATM exchange of this ATM cell based on a virtual path identifier VPI and a virtual channel identifier VCI of a header of the ATM cell, and indicates a node indicating the destination ATM exchange. A routing header including address bits is added to the ATM cell and relayed and transmitted. The routing header added to the ATM cell identifies whether the packet is addressed to the own ATM exchange or not. It includes a step of relaying and transmitting the ATM cell to which the routing header is added. Therefore, compared with the routing process by VPI / VCI, the routing process is simplified by using the routing header having a smaller bit configuration, thereby simplifying the relay process.
[0011]
The routing header in the above-mentioned ATM cell relay transmission method includes a routing bit for routing to the destination ATM exchange in the own ATM exchange, and performs a detour at the time of trunk line failure or trunk line congestion. Can be included. Also, the network identification bit indicating whether the destination ATM exchange is its own network or another network is included in the routing header if the destination ATM exchange is another network, and is included in the routing header if the destination ATM exchange is its own network. May or may not be included.
[0012]
Also, information on the originating terminal and information on the destination terminal and the destination ATM exchange are registered in the own network relay information management table, and the ATM cell to be relayed and transmitted in the own network is registered in the own network relay information management table. , The step of rewriting the routing bits can be included, and the rewriting of the routing bits included in the routing header can be simplified.
[0013]
In the other network relay information management table, information on the originating terminal and information on the destination terminal and the destination ATM exchange of the other network are registered. Including the step of rewriting the routing header of the ATM cell with another network, the routing header can be replaced according to the bit configuration and the like when the scales and the like between different networks are different.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is an explanatory view of a main part of an ATM exchange according to an embodiment of the present invention, wherein 1 is a terminal, 2 is a trunk line, 3 and 6 are line port units, 4 is a terminal line interface unit, and 5 is a relay ATM. Switch 5a, ATM switch, 7 is a header conversion unit, 8 is a header conversion table, 9 is a UPC unit, 10 is a failure detection unit, 11 is a routing header attaching / detaching unit, 12 is a relay monitoring unit, and 13 is local network relay information management. Table 14 is another network relay information management table, and 15 is a connection management controller.
[0015]
In this embodiment, a routing header attaching / detaching unit 11, a relay monitoring unit 12, a local network relay information management table 13, and another network relay information management table 14 are provided for a conventional ATM exchange. Also, a configuration in which the functions are divided into an ATM switch 5a and a relay ATM switch 5 is shown, and an ATM switch exclusively for relay can be configured to omit the ATM switch 5a. A routing header indicating the destination ATM switch is added by the routing header attaching / detaching unit 11 to the ATM cell relayed and transmitted through the relay ATM switch 5.
[0016]
Further, the relay monitoring unit 12 extracts the routing header added to the ATM cell and notifies the connection management control unit 15 of the extracted routing header. The connection management control unit 15 controls the routing header attaching / detaching unit 11 with reference to the own network relay information management table 13 or the other network relay information management table 14, and adds a routing header to ATM cells to be relayed and transmitted. The ATM cell to be sent to the terminal accommodated in the own ATM exchange has a routing header deleted.
[0017]
FIG. 2 is an explanatory diagram of a format according to the embodiment of the present invention. As is well known, an ATM cell includes a 5-byte header and a 48-byte information field, and a GFC (Generic Flow Control; general) of the header. Flow control) is used in the case of UNI, and in the case of NNI, it becomes VPI (Virtual Path Identifier; virtual path identifier). Therefore, the VPI in the case of UNI is 8 bits, and the VPI in the case of NNI is 12 bits. . The VCI (Virtual Channel Identifier) has a 16-bit configuration.
[0018]
Also, PT (Payload Type; payload type) is 3 bits, CLP (Cell Loss Priority; cell loss priority indication) is 1 bit, and HEC (Header Error).
Control (header error control) has an 8-bit configuration. For such 53-byte ATM cells, a node address bit NAB indicating the destination exchange, a routing bit RB for routing in the local exchange, and a detour indicating whether or not the ATM cell is a detour target ATM cell. A routing header including an information bit BB and a network identification bit NB indicating whether the network is the own network or another network is added in the routing header attaching / detaching unit 11 in FIG.
[0019]
The routing header shown includes a 4-bit node address bit NAB and a 4-bit routing bit RB. Therefore, 16 ATM switches can be designated by the node address NAB. In addition, 16 outgoing routes can be designated by the routing bit RB. That is, the bit configuration of the node address bit NAB and the routing bit RB can be selected according to the scale of the ATM network, and the scale of the ATM network is expanded by increasing the number of bits in advance. It is also possible to be able to respond at times. It is also possible to select the node address bits NAB and the routing bits RB to have different numbers of bits.
[0020]
When the bypass information bit BB is set to, for example, "1", the ATM cell is determined to be a bypass target ATM cell. When a fault or a congestion occurs in a trunk line, a bypass transmission process is performed when a bypass route exists. When "0" is set, the ATM cell can be set as an ATM cell which is not a detour target. When the network identification bit NB is set to, for example, "1", the other network is designated, and when set to "0", the own network can be indicated. When there are a plurality of types of other networks connected to the own network, an ATM network including a destination ATM switch can be designated by configuring the network identification bits NB to have a plurality of bits. The routing header has a 10-bit configuration, but when processing is performed in byte units, the routing header has a 2-byte configuration, and 6 bits in the first byte can be all “0”, for example.
[0021]
The above-mentioned own network relay management table 13 of the ATM exchange shown in FIG. 1 registers information on the originating terminal and information on the destination terminal and the destination ATM exchange. For example, the originating terminal address and the VPI , VCI, a destination terminal address, a node address bit NAB indicating a destination ATM exchange, a routing bit RB, a network identification bit NB, and a detour information bit BB. Information about the terminal on the receiving side can be registered.
[0022]
Further, the relay monitoring unit 12 monitors the node address bit NAB, the bypass information bit BB, and the network identification bit NB of the routing header, and notifies the connection management control unit 15 of the result. In this case, the connection management control unit 15 determines whether the node address bit NAB, the detour information bit BB, and the network identification bit NB are addressed to the local exchange, the ATM cell to be detoured, or the own network. In accordance with the result of the determination, control is performed to relay and transmit the ATM cell to which the routing header is added or to transmit the ATM cell to the terminal accommodated in the own ATM exchange. The relay monitoring unit 12 performs the above-described determination process, notifies the connection management control unit 15 of the determination result, and the connection management information control unit 15 controls each unit according to the notified content. You can also.
[0023]
The routing header attaching / detaching unit 11 adds and deletes a routing header for routing the ATM cell by the relay ATM switch 5, and rewrites the node address bit NAB and the routing bit RB of the routing header.
[0024]
The relay ATM switch 5 outputs an ATM cell to the line port units 3 and 6 or outputs the ATM cell to the ATM switch 5a in accordance with the routing bit RB in the routing header. The routing of the ATM cell received from the terminal 1 via the interface unit 4 and the routing for outputting the ATM cell via the relay ATM switch 5 from the interface unit 4 to the terminal 1 are performed.
[0025]
The failure detector 10 detects a failure or congestion of the trunk line 2 in the same manner as in the conventional example. The header converter 7 refers to the header conversion table 8 to check the header of the ATM cell. VPI / VCI conversion is performed. The UPC unit 9 monitors the flow rate of ATM cells from the terminal 1 so as not to exceed the band at the time of call setting.
[0026]
FIGS. 3 to 5 are explanatory diagrams of ATM cell relay transmission according to the embodiment of the present invention, and include an ATM switch 20-1 accommodating terminals A and C, and an ATM switch 20-8 accommodating terminal B. A case is shown in which an ATM network including ATM exchanges 20-1 to 20-8 and an ATM network including an ATM exchange 20-12 accommodating a terminal D and an ATM exchange 20-11 are provided. The ATM exchanges 20-3 to 20-6 and the ATM exchange before the ATM exchange 20-11 are not shown. Also, a case is shown in which the connection between the own network and another network is performed by the ATM switch 20-7.
[0027]
In each figure, 30, 40, 50, 60, and 70 are relay monitoring units, 23, 26, 33, 36, 43, 46, 46a, 53, 56, 63, 66, 73, and 76 are line port units. 24, 34, 54, 64, and 74 are ATM switches; 25, 35, 45, 55, 65, and 75 are relay ATM switches; 27, 37, 47, 57, 67, and 77 are routing header attaching / detaching sections; , 48, 58, 68, 78 are own network relay information management tables, and 29, 39, 49, 59, 69, 79 are other network relay information management tables.
[0028]
The terminal A accommodated in the ATM exchange 20-1 transmits to the terminal B accommodated in the ATM exchange 20-8, and the terminal C accommodated in the ATM exchange 20-1 accommodates in the ATM exchange 20-12 of another network. The case where the transmission to the terminal D is performed will be described. The terminal A sends out a connection request cell including the address of the terminal B, a requested band, a traffic type (CBR; Constant Bit Rate / VBR; Variable Bit Rate), a service class (video / message type), and the like.
[0029]
The ATM switch 20-1 registers the content of the connection request from the terminal A in the own network relay information management table 28, and checks whether or not a connection corresponding to the connection request can be established in the ATM network. At this time, the other ATM exchanges 20-2 to 20-8 that have received the connection establishment request also register the connection request of the terminal A in the own network relay information management tables 38, 48, and 58 of the own exchange. When the connection can be established, the ATM switch 20-8 accommodating the terminal B notifies the ATM switch 20-1 on the calling side of the VPI / VCI for routing by the ATM switch 54.
[0030]
Upon receiving the notification from the destination ATM switch 20-8, the originating ATM switch 20-1 registers the received VPI / VCI in its own network relay information management table 28 and permits the terminal A to communicate. I do. In this case, the own network relay information management table 28 has, for example, the contents shown in FIG. That is, as shown in the figure, the call number CALL No. for the terminal = A and the terminal address = “0001” as the transmission information. = "100011", VPI = "001", and VCI = "011" are registered.
[0031]
Also, as incoming information, terminal = B, its terminal address = “0011”, network identification bit NB = “0” indicating that the terminal is in its own network, VPI = “100”, and VCI = “110”. , The node address bit NAB = "0111" indicating the destination ATM switch 20-8, the routing bit RB = "0001", and the bypass information bit BB = "1" are registered. The terminal names and addresses of the terminals A, C,... Accommodated in the ATM exchange 20-1 are set in the own network relay information management table 28 in advance. The case where the node address bits NAB of 1 to 20-8 are set to “0000” to “0111” is shown.
[0032]
The own network relay information management table 38 of the ATM exchange 20-2 has, for example, the contents shown in FIG. That is, the outgoing information is the same as the contents of the own network relay information management table 28 of the ATM exchange 20-1, the VPI and VCI of the incoming information are not registered, and the node address bit NAB is set to the node address bit NAB. "0111" which is the same as the above, and the case where the routing bit RB becomes "0010".
[0033]
The own network relay information management table 58 of the ATM exchange 20-8 has, for example, the contents shown in FIG. 7C. That is, the transmission information and the reception information are the same as the contents of the own network relay management information table 38 of the ATM switch 20-2 except for the routing bit RB. In this case, the routing bit RB indicates “0000”.
[0034]
When the ATM cell is transmitted from the terminal A, the ATM switch 20-1 converts the ATM cell into VPI / VCI for routing in the ATM switch 24 by a header conversion unit (not shown). The routing header is attached to the ATM cell routed by the ATM switch 24 by the routing header attaching / detaching unit 27 with reference to the own network relay information management table 28 as indicated by hatching. That is, according to the contents of the own network relay information table 28 shown in FIG. 6A, the routing bit RB = "0001", the node address bit NB = "0111", the network identification bit NB = "0", and the bypass information bit BB = "1" is added to the routing header.
[0035]
In this case, according to the routing bit RB of "0001" in the routing header, the line port unit 26 on the outgoing route in the direction of the destination exchange is selected by the relay ATM switch 25, and the ATM cell with the routing header added thereto is transferred to the trunk line. Sent to
[0036]
In the ATM switch 20-2, when the ATM port transmitted through the trunk line is received by the line port unit 33, the trunk monitoring unit 30 reads the network identification bit NB and the node address bit NAB of the routing header. Then, it notifies the connection management control unit 15 (see FIG. 1). The connection management control unit 15 determines that the destination exchange belongs to its own network by the network identification bit NB = "0", and that the ATM exchange 20-8 is the destination exchange by the node address bit NAB = "0111". can do. The routing header RB is rewritten in the routing header attaching / detaching section 37 with reference to the own network relay information management table 38.
[0037]
In this case, the contents of the own network relay information management table 38 of the ATM exchange 20-2 are the contents shown in FIG. 6B as described above, and the routing bit RB of the incoming information is registered as "0010". Therefore, the routing bit RB is rewritten to “0010” in the above-mentioned routing header attaching / detaching section 37 and input to the relay ATM switch 35.
[0038]
Accordingly, the ATM cell is routed from the terminal A to the terminal B by the relay ATM switch 35, and transmitted from the line port unit 36 to the relay line. Similarly, in each ATM exchange, the node address bit NAB of the routing header is extracted to identify the destination ATM exchange, and the ATM cell to which the routing header including the node address bit NAB is added is relayed and transmitted.
[0039]
The ATM exchange 20-7 (see FIG. 4) also operates in the same manner as the above-described ATM exchange on the transit route, rewrites the routing bits in its own exchange, and performs the routing by the transit ATM switch 45 to switch the line port. The ATM cell to which the routing header is added is transmitted from the unit 46 to the trunk line.
[0040]
In the ATM exchange 20-8 accommodating the terminal B, when the ATM cell with the routing header added thereto is received via the line port unit 53, the relay monitoring unit 50 performs the routing in the same manner as the above-described ATM exchanges. The node address bit NAB = “0111” of the header is read, and the connection management control unit 15 (see FIG. 1) determines that the address is “0111” of the local exchange 20-8. Based on the contents of the relay information management table 58 (see FIG. 7), the routing bit RB is rewritten to “0000” and input to the relay ATM switch 55.
[0041]
After the routing by the relay ATM switch 55, the routing header is deleted by the routing header attaching / detaching unit 57, and is input to the ATM switch 54. In the ATM switch 54, the ATM cell is routed based on the VPI / VCI of the header of the ATM cell, and the ATM cell is transmitted to the terminal B.
[0042]
In this case, the ATM exchanges 20-2 to 20-7 that relay the ATM cells from the terminal A to the terminal B determine whether or not the own exchange is based on the 4-bit node address bit NAB. In this case, the ATM cell to which the routing header including the node address bit NAB is added is transmitted to the trunk line, and the 4-bit node address is compared with the case where a total of 28 bits of NNI VPI / VCI are processed. Since processing can be performed by processing the bit NAB, the processing load as a transit exchange becomes very light, thereby reducing processing delay.
[0043]
Further, when transmitting an ATM cell from the terminal C accommodated in the ATM exchange 20-1 to the terminal D accommodated in the ATM exchange 20-12 of another network, the ATM exchange 20-1 is operated by the connection request from the terminal C. , The terminal D on the receiving side is identified by the network management information and the like as being accommodated in another network, and the information about the connection request is registered in the own network relay information management table 28 and the other network relay information management table 29. It checks whether a connection can be established between the own network and the other network. At this time, the other ATM exchanges that have received the connection establishment request also register the connection request of the terminal C in the own network relay information management table and the other network relay information management table.
[0044]
In this case, the own network relay information management table 28 of the ATM switch 20-1 is, for example, as shown in FIG. That is, as the transmission information, the terminal = C, the terminal address = “0011”, and the call number CALL No. = "10011", VPI = "100", and VCI = "110" are registered. As incoming information, network connection bit = "1" is registered as connection to another network, and node address bit is registered. This shows a case where NAB = "0110", routing bit RB = "0001", and bypass information bit BB = "1" are registered. In this case, the node address bit NAB indicates the node address of the ATM switch 20-7 connected to another network.
[0045]
The other network relay information management table 29 of the ATM switch 20-1 has, for example, the contents shown in FIG. 8B. That is, terminal = C and terminal address = “0011” are registered as outgoing information, and terminal = D, terminal address = “1100”, VPI = “110”, and VCI = “100” as incoming information. ", The node address bit NAB =" 01001 "indicating the destination ATM switch 20-12 and the detour information bit BB" 1 "are registered.
[0046]
The own network relay information management table 38 of the ATM switch 20-2 has, for example, the contents shown in FIG. 9C. That is, the outgoing information is, like the outgoing information in the own network relay information management table 28 of the ATM exchange 20-1, the terminal = C, the terminal address = “0011”, and the call number CALL No. = “10011”, VPI = “100”, and VCI = “110” are registered, and as incoming information, a network identification bit NB = “1”, a routing bit RB = “0010”, and a detour information bit BB = "1" is registered.
[0047]
The own network relay information management table 48 of the ATM switch 20-7 has, for example, the contents shown in FIG. 9D. That is, the outgoing information is the same as the outgoing information in the own network relay information management table 38 of the ATM exchange 20-2, ie, terminal = C, terminal address = “0011”, and call number CALL No. = “10011”, VPI = “100”, and VCI = “110” are registered, and the network identification bit NB = “1”, the node address bit NAB = “0110”, and the routing bit RB = "0000" and detour information bit BB = "1" are registered.
[0048]
The other network relay information management table 49 of the ATM switch 20-7 has, for example, the contents shown in FIG. That is, in the outgoing information, the terminal = C and the terminal address = “0011” are registered, and as the incoming information, the terminal = D, the terminal address = “1100”, and a node address bit designating the ATM switch 20-12. NAB = "01001", routing bit RB = "0000", and detour information bit BB = "1" are registered.
[0049]
The own network relay information management table 78 of the ATM exchange 20-12 accommodating the terminal D has, for example, the contents shown in FIG. That is, as the transmission information, the terminal = C, the terminal address = “0011”, and the call number CALL No. = “100011” is registered, and as incoming information, terminal = D, terminal address = “1100”, network identification bit NB = “1”, VPI = “110”, VCI = “100”, A node address bit NAB = "01001" indicating the own ATM switch 20-12, a routing bit RB = "00000", and a bypass information bit BB = "1" are registered.
[0050]
When the terminal C can establish a connection in response to the connection request to the terminal D, the ATM switch 20-12 accommodating the terminal D transmits the VPI / VCI for routing the ATM cell from the terminal C to the terminal C, Notify the accommodated ATM switch 20-1. The ATM switch 20-1 registers the VPI / VCI in the other network relay information management table 29. That is, VPI = "110", VCI = "100", and the node address bit NAB = "01001" indicating the ATM switch 20-12 of the incoming call information of FIG. 8B are registered.
[0051]
Then, the ATM switch 20-1 permits the terminal C to perform communication. As a result, the terminal C starts transmitting the ATM cell. The ATM switch 20-1 identifies the VPI / VCI of the header of the ATM cell from the terminal C, converts the VPI / VCI by a header conversion unit (not shown), and inputs the converted VPI / VCI to the ATM switch 24. The routing header is added to the ATM cell routed by the routing 24 by the routing header attaching / detaching unit 27.
[0052]
In this case, the routing header attaching / detaching unit 27 refers to the own network relay information management table 28 and the other network relay information management table 29, and adds a routing header in the format shown in FIG. 2 to the ATM cell. In this case, the routing header includes the node address bit NAB = "0110", the routing bit RB = "0001", the network identification bit NB = "1", and the bypass information bit BB = "1". The ATM cell to which the routing header is added is routed by the relay ATM switch 25 and transmitted from the line port 26 to the relay line.
[0053]
In the ATM switch 20-2, the ATM cell transmitted via the trunk line is received by the line port unit 33, and the relay monitoring unit 30 reads the network identification bit NB and the node address bit NAB of the routing header. The connection management control unit (not shown) performs communication to the other network by NB = "1", but relays and transmits the ATM cell to the ATM switch 20-7 of the own network by NAB = "0110". Then, based on the contents of the own network relay information management table 38 (see FIG. 9C), the routing header attaching / detaching section 37 is controlled, and the routing bit RB is rewritten to “0010”.
[0054]
According to the routing bit RB = “0010”, the data is routed by the relay ATM switch 35 and transmitted from the line port unit 36 to the relay line. The other ATM exchanges 20-3 to 20-6 (not shown) operate similarly. In the ATM switch 20-7, the relay monitoring unit 40 reads the node address bit NAB and the network identification bit NB of the routing header, and the connection management control unit (not shown) sets the node address bit NAB = “0110”. "Indicates that it is the local exchange, and the network identification bit NB =" 1 "determines that it is connected to another network.
[0055]
Then, the routing header attaching / detaching unit 47 rewrites the routing bit RB to “0000” based on the contents of the own network relay information management table 48 (see FIG. 9D). As a result, the relay ATM switch 45 routes the ATM cell to the line port unit 46a side, and the routing header attaching / detaching unit 47 deletes the routing header of the own network for the ATM cell and relays the other network relay information. Based on the contents of the management table 49 (see FIG. 10E), a routing header for another network is formed and added. In this case, the routing header has the node address bit NAB = "01001", the routing bit RB = "0000", the network identification bit NB = "1", and the detour identification bit BB = "1".
[0056]
The ATM cell to which the routing header of the other network is added is transmitted from the line port unit 46a to the trunk line. Then, the data is transmitted to the ATM switch of another network via the trunk line. For example, when transmitted to the ATM switch 20-11 (see FIG. 5) of the other network, the ATM switch operates in the same manner as the ATM switch which relayed and transmitted the above-mentioned ATM cells, and the node address bit NAB = "01001" causes After identifying that the ATM cell is an ATM cell to be transmitted to the ATM switch 20-12, the routing header attaching / detaching section 67 rewrites a routing bit RB for routing in the relay ATM switch 65. An ATM cell with a routing header added to a trunk line is transmitted.
[0057]
In the ATM switch 20-12, for the ATM cell received by the line port unit 73, the relay monitoring unit 70 reads the node address bit NAB and the network identification bit NB of the routing header, and connects to the connection management control unit (shown in FIG. ) Is identified as an ATM cell from another network or an ATM cell to be transmitted to another network by NB = "1", and is identified to the own exchange by a node address bit NAB = "01001". Then, based on the contents of the own network relay information management table 78 (see FIG. 10F), the routing header attaching / detaching unit 77 rewrites the routing bit RB to “00000”.
[0058]
Thereby, the relay ATM switch 75 routes the ATM cell to the ATM switch 74, and the routing header attaching / detaching unit 77 deletes the routing header from the ATM cell and inputs the ATM cell to the ATM switch 74. The ATM switch 74 performs routing according to the VPI / VCI of the ATM cell, so that the ATM cell is transmitted to the terminal D. Accordingly, the ATM cell has been transmitted from the terminal C accommodated in the ATM exchange 20-1 to the terminal D accommodated in the ATM exchange 20-12.
[0059]
In the above case, the number of bits of the node address bit NAB and the number of bits of the routing bit RB are different for each network. Therefore, in the ATM exchange 20-7 connecting the networks, the routing header of the own network is deleted. Then, a routing header of another network is added. Further, the routing header added to the ATM cell from the other network can be deleted, the routing header of the own network can be added, and the packet can be relayed and transmitted into the own network.
[0060]
When the detour information bit BB is "0", during the communication between the terminals, even if a failure occurs in the connection, the detour transmission processing of the ATM cell is not performed. In the case of "1", if a bypass route exists, it indicates that the importance of the ATM cell is high, so that the bypass transmission process is performed.
[0061]
The present invention is not limited to the above-described embodiments, and can be variously added and changed. For example, a relay line can be configured by an optical transmission line. As the flow control of the ATM cell, a method based on ABR other than the above-mentioned CBR and VBR can be applied.
[0062]
【The invention's effect】
As described above, according to the ATM exchange and the ATM cell relay transmission method of the present invention, the routing header including the node address bit indicating the destination ATM exchange by the routing header attaching / detaching unit 11 in the ATM exchange for relaying and transmitting the ATM cells. Is transmitted and the node address bit is used to determine whether or not the packet is addressed to the own ATM switch. Therefore, compared with the conventional example in which the routing is performed based on the VPI / VCI of the header of the ATM cell, the relay processing is performed. Can be simplified. For example, if the node address bit NAB has an 8-bit configuration, a destination ATM exchange in an ATM network including a 256 ATM exchange can be designated. If the routing bit RB has an 8-bit configuration, routing for 256 ports can be performed. In this case, if the ATM network includes at least four or more ATM exchanges, and if it includes an outgoing route of four or more ports, compared to the conventional relay processing using VPI / VCI, This has the effect of reducing the processing load.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a main part of an ATM exchange according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram of a format according to an embodiment of the present invention.
FIG. 3 is an explanatory diagram of ATM cell relay transmission according to the embodiment of the present invention.
FIG. 4 is an explanatory diagram of ATM cell relay transmission according to the embodiment of the present invention.
FIG. 5 is an explanatory diagram of ATM cell relay transmission according to the embodiment of the present invention.
FIG. 6 is an explanatory diagram of a local network relay information management table according to the embodiment of this invention.
FIG. 7 is an explanatory diagram of a local network relay information management table according to the embodiment of this invention.
FIG. 8 is an explanatory diagram of table contents when another network is connected according to the embodiment of this invention.
FIG. 9 is an explanatory diagram of table contents when another network is connected according to the embodiment of this invention.
FIG. 10 is an explanatory diagram of table contents when another network is connected according to the embodiment of this invention.
FIG. 11 is an explanatory diagram of an ATM network.
FIG. 12 is an explanatory view of a main part of a conventional ATM exchange.
[Explanation of symbols]
1 terminal
2 trunk lines
3, 6 line port
4 Interface section
5 ATM switch for relay
5a ATM switch
7 Header conversion unit
8 Header conversion table
9 UPC section
10 Failure detection unit
11 Routing header attachment / detachment part
12 Relay monitoring unit
13 Own network relay information management table
14 Other network relay information management table
15 Connection management control unit

Claims (2)

In an ATM switch in a system having a local network and another network each including a plurality of ATM switches ,
A routing header attaching / detaching unit for adding or deleting a routing header including a node address indicating the destination ATM switch and a network identification bit indicating whether the destination ATM switch belongs to the own network or another network with respect to the ATM cell. When,
A relay monitoring unit for extracting a routing header added to the ATM cell;
A connection management control unit that determines whether or not the packet is addressed to the own ATM switch based on the routing header extracted by the relay monitoring unit, and, if not addressed to the ATM switch, relays and transmits the ATM cell to which the routing header is added; ,
A self-network relay information management table for registering information on the calling terminal and information on the called terminal and the called ATM switch;
And a network relay information management table for registering information on the terminal on the originating side and information on the terminal on the destination side of the other network and the destination ATM exchange accommodating the terminal on the destination side. Characteristic ATM switch. In an ATM cell relay transmission method in a system having own network and another network each including a plurality of ATM exchanges,
The destination ATM exchange of the ATM cell is identified based on the virtual path identifier and the virtual channel identifier of the header of the ATM cell, and the node address bit indicating the destination ATM exchange and the destination ATM exchange are transmitted to the own network. A routing header including a network identification bit indicating whether the packet belongs to the ATM cell or not belongs to the ATM cell, and the packet is relayed and transmitted.
The ATM switch that has received the ATM cell identifies whether or not the packet is addressed to its own ATM switch based on the routing header added to the ATM cell. If the ATM cell is addressed to the ATM switch, it deletes the routing header and deletes the ATM cell. If the ATM cell is not addressed to the own ATM exchange but is addressed to another ATM exchange in the own network, the ATM cell to which the routing header is added is relayed and transmitted. In the case of indicating the destination to the exchange, a step of rewriting to a routing header corresponding to the other network and relaying and transmitting is included.
An ATM cell relay transmission method, comprising:

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