KR100294045B1 - An atm signalling call control method for load sharing and balancing - Google Patents

Abstract

PURPOSE: A method of setting an ATM(Asynchronous Transfer Mode) signaling call for load sharing and load balancing is provided to perform efficiently a call service by processing a multitude of physical port as one logical group port. CONSTITUTION: An ATM terminal of a transmitter requests an operation of call setup to an ATM terminal of a receiver. The ATM terminal of the receiver transmits a release message or a release complete message to the ATM terminal of the transmitter if the ATM terminal of the receiver does not perform the call setup operation by an error between terminals. The ATM terminal of the transmitter searches a physical address by using an AGC group. The ATM terminal of the receiver transmits a call connection message to the ATM terminal of the transmitter if the call setup operation is completed. The ATM terminal of the receiver transmits a connect acknowledge message to the ATM terminal of the transmitter. A call service is provided by using the connected call.

Description

Asynchronous transfer mode signaling call setup for load sharing and balancing {AN ATM SIGNALLING CALL CONTROL METHOD FOR LOAD SHARING AND BALANCING}

The present invention relates to an asynchronous transfer mode (ATM) signaling call setup method for load sharing and balancing, and in particular, in processing asynchronous transfer mode signaling call control, Asynchronous transmission for load balancing and balancing, which implements load balancing by sharing multiple physical ports as one identical logical group port to perform call service. The present invention relates to a mode signaling call setup method.

1 shows a conventional protocol flow chart when a physical port failure occurs in an asynchronous transmission mode network, and FIG. 2 shows n + between a receiving side asynchronous transmission mode switch AS2 and a receiving terminal AU2 in a conventional asynchronous transmission mode network. If there is a problem with the first physical port, a flow chart of connection establishment failure is shown.

The Address Translation Client (ATC) translates the destination Asynchronous Transfer Mode Network Service Access Point (NSAP) address sent from the SVC Manager (SVCM) into a physical port internal address (INA). Tells SVCM the value.

On an asynchronous transmission mode network, the calling asynchronous transmission mode terminal and the receiving asynchronous transmission mode terminal are either UNI3.1 / UNI4.0 or Q, which is a recommendation of the asynchronous transmission mode forum or the International Telecommunication Union (ITU). Use the Broadband Integrated Service Digital Network (B-ISDN) specified in .2931 / Q.2971.

In addition, users are connected to each other by sending and receiving asynchronous transfer mode signaling (SVC) protocol messages. The message consists of SETUP, CALL PROCEEDING, CONNECT, CONNECT ACKNOWLEDGE, RELEASE and RELEASE COMPLETE.

3 is a basic software block diagram of an asynchronous transmission mode applied to the present invention. The SVCM 20 establishes an asynchronous transmission mode SVC connection according to the procedure and configuration of a User Network Interface (UN) protocol message defined in the asynchronous transmission mode Forum UNI3.1 / UNI4.0 or Q.2931 / Q.2971. As a part of controlling and managing the entire resource, CAC and call connection are established and released.

The BBCP (Backbone Connection Control Processing) 30 is a part that controls and manages the establishment and release of a call connection between an outgoing asynchronous transfer mode switch and a receiving asynchronous transfer mode switch, and the Routing and Link State Protocol (RLSP) 40 It is responsible for obtaining the most optimal user cell path from the originating asynchronous transmission mode terminal to the receiving asynchronous transmission mode terminal.

Q.93B (50) is the coding of protocol messages as defined in the Asynchronous Transmission Mode Forum UNI3.1 / UNI4.0 or Recommendations of the International Telecommunication Union (ITU), Q.2931 / Q.2971. Decoding is performed and protocol message exchange is performed between the asynchronous transmission mode terminal and the asynchronous transmission mode switch.

The Q.SALL 60 performs transmission and error recovery of the Q.93B message according to the procedure and configuration of protocol messages defined in ITU Q.2110 and Q.2130. The AAL5 & ATM 70 performs assembly and disassembly functions of the Q.SAAL data in the form of ATM Adaption Layer 5 (AAL5) and asynchronous transmission mode.

In the asynchronous transmission mode network, the originating asynchronous transmission mode terminal and the receiving asynchronous transmission mode terminal are UNI3.1 / UNI4. Use the Broadband Integrated Service Digital Network (B-ISDN) specified in 0 or Q.2931 / Q.2971.

In addition, users are connected to each other by sending and receiving asynchronous transfer mode signaling (SVC) protocol messages. The message consists of SETUP, CALL PROCEEDING, CONNECT, CONNECT ACKNOWLEDGE, RELEASE and RELEASE COMPLETE.

The following phenomenon may occur when asynchronous transmission mode Switched Virtual Channel (SVC) is connected. That is, when a call connection establishment request is made from the originating asynchronous transmission mode terminal to the originating asynchronous transmission mode switch, the conventional originating asynchronous transmission mode switch call control is included in the connection setup message of the originating asynchronous transmission mode terminal. Called party number in the included Information Element, that is, one physical port (receive-side asynchronous) mapped with the destination Asynchronous Transfer Mode Address. Only one physical port between the transmission mode switch and the receiving asynchronous transmission mode terminal could make a call connection request.

Therefore, there is a large demand for call connection, or there is a shortage of physical port resource capacity because data traffic is already heavily used at the same physical port where the receiving exchange and the receiving terminal are connected. When the asynchronous transmission mode connection support is no longer possible due to an abnormal physical link, call connection service becomes impossible.

For example, as follows. In Fig. 1 or 2, AU1 (calling side asynchronous transmission mode terminal) 110a and AS1 (calling side asynchronous transmission mode switch) 120a are connected to physical ports numbered 1 to n, and AU2 (receiving side asynchronous) Transmission mode terminal) 110b and AS2 (receive side asynchronous transmission mode switch) 120b are connected to physical port numbers n + 1 to n + n.

If the destination asynchronous transfer mode address requested by AU1 110a is 39.30.30.30 ....... 33 (see Fig. 5), and is mapped to the number n + 1 physical port on the asynchronous transfer mode network, AU1 119a requires a call connection to a physical port of n + 1.

At this time, if there is an error in the n + 1 physical port or the resource capacity of the physical port is not enough to support the data traffic required by the source AU1 (110a), the AU1 (110a) to make a call to the AU2 (110b). I can't.

In this case, in order for the AU1 110a to connect to the AU2 110b, a destination asynchronous transfer mode address mapped to the next physical port number n + 2 physical port (for example, 39.30. 30.30 ....... 34) The connection could not be established until the originating AU1 110a retries the connection establishment request. Of course, this also assumes that the physical port resource capacity is sufficient and maintains a normal state.

Meanwhile, prior patents related to the present invention are as follows. U. S. Patent 5,600, 795 discloses a “local network operating in asynchronous transmission mode” and U. S. Patent 5,719, 863 discloses “method and role for high speed processing connection of a virtual connection in an asynchronous transmission mode communication system”. Patent 4,956,839 discloses an "asynchronous transfer mode switching system" but is quite different from the asynchronous transfer mode signaling call control method for load sharing and balancing according to the present invention.

According to the present invention, a plurality of different physical ports connected to a plurality of different asynchronous transfer mode switching systems can be sequentially used, thereby providing load connection and balancing by providing call connection services to the plurality of different physical ports. It is an object of the present invention to provide a signaling call control method of an asynchronous transmission mode.

The above and other objects and novel features of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a block diagram illustrating a conventional call setup process when a physical port failure occurs in an ATM network.

2 is a flowchart illustrating a conventional call setup process when a service is disabled between a receiving ATM switch and a receiving ATM terminal.

3 is a basic software block diagram of an asynchronous transmission mode applied to the present invention.

4 is a flowchart showing an operation description from the standpoint of only the outgoing-side asynchronous transmission mode switch according to the present invention.

5 is a diagram illustrating an embodiment of an ACG address mapping table according to the present invention.

6 is a flowchart illustrating a call setup process when a physical port failure occurs in an ATM network according to an embodiment of the present invention.

7 is a flowchart illustrating a call setup process when a service is disabled between a receiving ATM switch and a receiving ATM terminal according to an exemplary embodiment of the present invention.

In order to achieve the above object, the present invention includes the steps of requesting a call setup from the asynchronous transmission mode terminal to the receiving side asynchronous transmission mode terminal; When the receiving side asynchronous transmission mode switch fails to set up the call due to a failure between terminals, transmitting a release or release completion message to the calling side asynchronous transmission mode switch; Receiving the release or release complete message, the originating side asynchronous transmission mode switch retrieving a next physical destination address and attempting to establish a call to the receiving side asynchronous transmission mode terminal; When the call setup is completed, transmitting a call connection message to an originating asynchronous transmission mode terminal; Transmitting a connection acknowledgment message for the call connection message to an originating asynchronous transmission mode switch; And providing a service through the call connection.

In an embodiment of the present invention, in the step in which the calling asynchronous transmission mode switch finds a next physical destination address and attempts to set up a call to a receiving asynchronous transmission mode terminal again, ACG logical representing the physical destination addresses as one logical group. The next physical destination address is searched using a group, and in the physical destination address corresponding to the ACG number, (39,30,30,30, ..., 3 0) or (39,30,30, 30, ..., 31) is assigned to the ACG number 1, if the ACG number is set to Oxff, the corresponding address indicates that the address is not registered ACG. In the step of the calling asynchronous transmission mode switch to find the next physical destination address and retry call setup to the receiving asynchronous transmission mode terminal, the call connection state of the calling asynchronous transmission mode switch is the receiving asynchronous transmission mode switch or asynchronous transmission It further includes the step of confirming that the configuration request from the mode terminal has not received the connection message. In the step of the sender asynchronous transmission mode switch to find the next physical destination address and retry setting up the call to the receiving asynchronous transmission mode terminal, and confirms whether the release or release completion message received from the receiving asynchronous transmission mode switch or the terminal. Further steps are provided. While the invention is susceptible to various modifications and alternative forms, only specific embodiments thereof are shown in the drawings and will be described in detail. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the specification, but rather that the invention is intended to cover all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to include. A method of establishing an asynchronous transmission mode signaling call for load sharing and balancing according to the present invention will be described with reference to FIGS. 4 to 7. 4 is a flowchart illustrating the operation of the originating side of the asynchronous transmission mode switch according to the present invention.

In an embodiment of the present invention, a setup protocol message (Setup Message) from the originating asynchronous transmission mode terminal is transmitted to the SVCM of the originating asynchronous transmission mode switch that controls call control (S210).

The source asynchronous transmission mode switch SVCM analyzes the information element included in the configuration message, and checks the CAC and the destination number to determine whether the connection requirement of the source asynchronous transmission mode terminal is appropriate (S220).

If the calling asynchronous transfer mode switch is capable of supporting the calling asynchronous transfer mode terminal requirement, the calling asynchronous transfer mode switch will be used for the calling asynchronous transfer mode terminal. That is, a call processing message including vpi / vci is made and transmitted, and the connection asynchronous transmission mode switch requests a connection setup (Connect Setup) (S230), and then waits in a message reception state (S240).

In this case, if the status of the SVCM for the corresponding connection of the calling asynchronous transmission mode switch is not the release or release completion message or the first message from the receiving asynchronous transmission mode switch or the terminal (S250). It operates according to the existing normal operation procedure.

Checking the release / release complete message is to determine what message received. If the above conditions are satisfied, the process proceeds to the next step (S290).

First, it is checked whether the destination-side asynchronous transmission mode address requested by the source-side asynchronous transmission mode terminal is an ACG address (S260). When the destination side asynchronous transmission mode address is the ACG address, the destination physical port of the next order is searched in the ACG address mapping table (S270).

The calling side asynchronous transmission mode switch transmits a configuration message to the discovered physical port, and then returns to the process (S240) (S280).

If the ACG number is the same in the ACG address mapping table, it is recognized as one asynchronous transmission mode terminal. If it is set to Oxff, it is recognized as a destination address that has not been registered with ACG.

5 is a diagram illustrating an embodiment of an ACG address mapping table according to the present invention. As shown in the table, the ACG number is associated with the asynchronous transfer mode NASP address, and the physical port INA is also set.

And, for each ACG number 1, two destination physical addresses are mapped, namely 39.30.30.30.3 0.30 ...... 30 and 39.30.30.30.30.30 ...... 31.

This means that if the call is first set to 39.30.30.30.30.30 ...... 30 for the same ACG number 1 and fails, then the call is set back to the next destination physical address of 39.30.30.30.30.30 .... 31. It can be.

The ACG number recognition is performed in the calling asynchronous transmission mode switch, and a call reset is attempted by the receiving asynchronous transmission mode terminal.

6 is a flowchart illustrating a call setup process when a physical port failure occurs in an ATM network according to an embodiment of the present invention, and FIG. 7 is a service unavailable between a receiving ATM switch and a receiving ATM terminal according to an embodiment of the present invention. This is a flowchart of the call setup process.

6 and 7, in one embodiment of the present invention, the first destination asynchronous transmission mode address requested by AU1 (originating asynchronous transmission mode terminal) is 39.30 according to the ACG mapping table shown in FIG. .30.30 ....... 30, the ACG is set to 1 and the INA for the destination is (AS1, 1).

Then, AS1 (calling side asynchronous transmission mode switch) attempts a call, AS1 sends a call processing progress message (Call Proceeding Message) back to AU1 (receiving side asynchronous transmission mode terminal), and AS2 (receiving side asynchronous transmission) Send a Setup Message to the mode switch.

Therefore, AS2 may send a setup message to AU2, or if a problem occurs between AS2 and a receiver in asynchronous transmission mode and cannot connect under the conditions of the initial call, it may transmit a release or release completion message to AS1. .

As a result, the AS1 receiving the release or release completion message does not send a message back to the calling asynchronous transmission mode terminal, but instead sends a configuration message to the receiving asynchronous transmission mode terminal via AS2.

Then, the call processing progress message for the setup message is transmitted to AS1. If the asynchronous transfer mode NSAP address is 39.30.30.30.30 .... 30 and the connection fails, then the same ACG number goes to the next asynchronous transfer mode NSAP address 39. 30.30.30.30 .... 31. Attempt to connect the call.

In the same way, if a call is established and connected, the call is connected to the asynchronous transmission mode terminal. In addition, the sender asynchronous transmission mode terminal transmits a connection acknowledgment message (Connect Acknowledge Message) to the AS1.

Therefore, the call of the originating asynchronous transmission mode terminal and the receiving asynchronous transmission mode terminal is connected to be in a state where communication is possible. And, if all physical ports are normal, AU1 attempts the destination physical port sequentially. Thus, the present invention enables load balancing and balancing between physical ports.

In the present invention operating as described above, the call is distributed to a plurality of physical ports by sequentially attempting a call service, which was only available to one physical port, to a call service to a plurality of physical ports. An asynchronous transmission mode signaling call control method that enables load balancing and sharing is provided.

In addition, even if an error occurs in one physical port or a lot of data traffic becomes impossible, call service is enabled on another physical port, thereby enabling continuous call service.

Claims (3)

CLAIMS 1. A method for establishing a signaling call in an asynchronous transmission mode for load sharing and balancing, comprising: requesting a call establishment from a calling side asynchronous transmission mode terminal to a receiving asynchronous transmission mode terminal; When the receiving side asynchronous transmission mode switch fails to set up the call due to a failure between terminals, transmitting a release or release completion message to the calling side asynchronous transmission mode switch; Receiving the release or release complete message, the originating asynchronous transmission mode switch finds the next physical destination address and attempts to establish a call again to the asynchronous transmission mode terminal using the AGC group representing the physical destination addresses as one logical group. Finding the next physical address; When the call setup is completed, transmitting a call connection message to an originating asynchronous transmission mode terminal; Transmitting a connection acknowledgment message for the call connection message to an originating asynchronous transmission mode switch; And And providing a service over the call connection. The method of claim 1, Wherein the calling asynchronous transmission mode switch to find the next physical destination address and attempts to call again to the receiving asynchronous transmission mode terminal, And checking whether the call connection state of the originating asynchronous transmission mode switch is a request for setting from a receiving asynchronous transmission mode switch or an asynchronous transmission mode terminal and not receiving a connection message. Asynchronous transmission mode signaling call setup method. 2. The method of claim 1, wherein the calling asynchronous transmission mode switch attempting to establish a call to a receiving asynchronous transmission mode terminal again by finding a next physical destination address is released or released from the receiving asynchronous transmission mode switch or the terminal. And confirming whether the message is a completion message.