KR100198447B1 - Call generating method in atm - Google Patents

Abstract

The present invention relates to the simulation of a call processing processor in an ATM switching system, and to provide a method for generating a Q.2931 signaling call in the form of a Poisson arrival process in a call simulator that tests the performance and other functions of the call processing process. will be.

ATM protocol analyzer, which is used as a conventional call processing simulator, has a problem that it is not possible to freely set up call attempt traffic because the call generation function, which is essential for measuring the call processing capability of the ATM exchange, is weak and the call attempt generation type is not diverse. have.

The present invention provides a method for implementing a call simulator that performs the above functions using a general workstation or a personal computer, and for generating a call attempt in the form of a Poisson arrival process, which is generally modeled as a call attempt arrival form.

Description

How to generate Q.2931 signaling call in Poisson arrival process form ATM call simulator

The present invention belongs to an ATM test apparatus, and at present there are not many ATM test apparatuses that are commercially available. However, only ATM protocol analyzers are widely used commercially. However, ATM protocol analyzers are very expensive equipment and require a lot of time for the user to learn how to use them.

In particular, the call attempt occurrence behavior of the ATM protocol analyzer is in the form of a single call attempt caused by an operator request, in the form of several call attempts simultaneously caused by an operator request, or by the operator request for the same time interval. This is very limited in the form of continuous call attempts. Therefore, there is a problem that can not be applied to the various types of call arrival behavior.

The present invention provides a method for generating a Q.2931 signaling call in the form of a Poisson arrival process in a call simulator of an ATM switching system.

In order to achieve the above object, the present invention generates a Q.2931 block for performing the operation of the call simulator by defining a practical procedure of user-manganese Q.2931 signaling, a SALL block for providing a transfer mechanism, and a call generation. It consists of a call generation block which handles a call, a call processing block that processes the generated call, and an operator matching block that connects the operator and the call generation unit to generate a large number of calls in the call generation block. Q.2931 signaling is generated.

1 is a configuration of a test environment for measuring the call processing performance according to the present invention.

2 is a hierarchical structure diagram of a call simulator function unit according to the present invention;

3 is a detailed operation flowchart of the call generation block according to the present invention.

The present invention relates to a method for implementing an ATM call attempt in the form of a Poisson arrival process in implementing an ATM call simulator apparatus that can be used to measure call processing performance of an ATM switch supporting Q.2931 signaling. .

Call simulators are implemented by mounting an ATM card on a general workstation or personal computer and loading a software stack called a call simulator function.

The call generation step of the call simulator according to the present invention includes the steps of submitting a call attempt to a call processing block, assigning an average arrival interval received from an operator matching block for the variable λ, and using the variable λ as a parameter. The distribution function calls the coded Expon () routine to assign the value returned to the variable t, and calls the system call of the usleep () with the variable t as the variable. If the process is awakened by the operating system after t time elapses, immediately submit a call attempt to the call processing block, Expon ( Calling the routine assigns the value returned to the variable t, and calls the system call of the usleep () with the variable t as a parameter.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a test environment for measuring call processing performance to which the present invention is applied.

As shown in FIG. 1, an ATM switch 3 supporting Q.2931 signaling, a call processing processor 4 for processing a call submitted to an ATM switch, and an ATM switch incorporating such a call processing processor ( 3) Call simulator 1 (1) and call simulator 2 (2) serving as a terminal for checking the call processing status and performance of the ATM switch.

When the call simulator 1 (1) makes a large number of call attempts to the ATM exchanger 3, the call processing processor 4 of the ATM exchanger 3 performs a series of call processing on the submitted call and call simulator 1 (1). ) And call simulator 2 (2). That is, the call simulator (1, 2) acts as an ATM terminal to the ATM switch, and from the point of view of the ATM switch, the call simulator (1) 1 is the originating ATM terminal, and the call is submitted from the call simulator (1, 2). When the call processing process is performed, the call processing process of the call processing processor 4 exchanges information required for call processing with the call simulator 1, 2, which is the originating and receiving terminal, in the Q.2931 signaling method, and accordingly the call simulator (1, 2) can collect the current execution state of the ATM exchange through the signaling method, and can test the call processing state and its performance of the ATM exchange.

2 is a hierarchical structure diagram of a call simulator function unit 10 which is a software part of the present invention.

Q.2931 block 14, which establishes and implements the actual procedures of user-to-manufacture Q.2931 signaling, establishes and releases virtual circuits for subscriber-to-network signaling, and the reliability of signal information with respect to upper Q.2931 blocks. SAAL block 15 that provides a forwarding mechanism, a call generation block 12 that generates a call attempt in the form of a Poisson process, and a call originating / receiving state with respect to the call generation block 12, and is called. Waiting for a call attempt request from the originating block 12, and if a call attempt occurs, immediately establishes a connection using the Q.2931 block 14, and then releases it immediately. The call processing block 13 for establishing / testing / release processing a call and processing the information reported from the call processing block 13 and outputting it to the operator or waiting for a new test condition (e.g.,Force comprises a matching operator block 11 that the command to the changed operating conditions, the test call generation block (12 such that when the specified traffic parameters)).

Looking at the operation in the functional unit 10 made as follows.

The call origination block 12 generates a call attempt in the form of a Poisson process for the ATM switch to be tested. When the call attempt is generated in this way, the call processing block 13 receives the call attempt signal and processes it. If the call processing block 13 originates, it waits for a call attempt request from the call generation block 12, and if a call attempt occurs, it immediately releases the connection using the Q.2931 block 14 immediately after establishing the connection. In the case of an incoming call, it waits for a connection establishment request to be received, and when the establishment request is received, a call is established / tested / released. At this time, the connection made in the call processing block 13 transitions the state according to the state transition diagram defined by Q.2931 signaling method, and in this state transition process, the state information of the connection is collected and the operator state is integrated. Reported to the block 11, the operator block 11 is to test the call processing performance of the ATM exchange to be tested by collecting the information reported from the call processing block 13 to the operator.

In addition, if the operator wants to test the ATM exchange by specifying a new test condition (for example, an input traffic parameter), the operator may instruct the call generation block 12 to operate under the changed test condition through the operator matching block 11 and then change the test procedure. Can be done.

3 is a detailed operation flowchart of the call generation block of the present invention. The present invention will be described in detail with reference to the drawings.

A step 20 of submitting a call attempt to the call processing block is performed, and a step 21 of assigning an average arrival interval received from the operator registration block 11 for the variable λ is performed. Then, the exponential distribution function is coded with the variable λ as a parameter, and the step (22) of assigning the returned value to the variable t is executed by calling the Exon () routine coded. Step 23 of calling the system call of the sleep (usleep ()) is performed. Then, at this time, the process of the call generation block goes to sleep.

If the process wakes up by the operating system after t hours have elapsed (24), immediately perform a step 25 of submitting a call attempt to the call processing block, and extract the coded exponential distribution function with the variable λ as a parameter. Invoking the pawn (Expon ()) routine assigns the value returned to the variable t (26), then sets the system call of the usleep () using the variable t as a parameter. The calling step is performed (27). Then, the process of the call generation block goes to sleep and returns to the standby state shown in the middle of FIG. This call generation process can increase the execution speed by coding the exponential function in the call generation block.

According to the present invention, it is possible to generate an ATM call attempt in the form of a Poisson arrival process, so that the test environment can be set up in the same way as in the real world. Accordingly, a large number of calls can be generated and a graphic user interface can be provided. There is an effect that can provide detailed information about the performance of the signaling between the user and manganese.

The present invention relates to the simulation of a call processing processor in an ATM switching system. In particular, a call simulator performing detailed investigation or testing of a call processing process of a call processing process generates a Q.2931 signaling call in the form of a Poisson arrival process. The purpose of the present invention is to provide a method for generating a call, generating a call attempt in the form of a Poisson arrival process, providing a graphical user interface, and providing detailed information on performing user-to-manga signaling. have.

Claims (1)

A method for generating a call in a call simulator for testing the call processing performance of an ATM switch, the method comprising: submitting a call attempt to a call processing block, assigning an average arrival interval received from an operator matching block for a variable? Invoke the expon () routine coded with the exponential distribution function using λ as a parameter, assigning the returned value to the variable t, and using the variable t as a parameter to usleep (). Calling a system call, if a process wakes up by the operating system after t hours have elapsed, immediately submits a call attempt to the call processing block, and exponential distribution function with the variable λ as a parameter. Assigning the returned value to the variable t by calling the coded exponent (Expon ()) routine, and calling the system call of assure () with the variable t as a parameter. Follow the steps And generating a Q.2931 signaling call in the form of a Poisson arrival process. Where λ and t are arbitrary constants