KR20030058102A - Simulation method for ce and svc quality measurement of mobile telecommunication system - Google Patents

Abstract

PURPOSE: A simulation method for measuring a call resource quality of a mobile communication system is provided to test a call resource new board and detect a defective board after being serviced by using an auto page task, a virtual MSC(Mobile Switching Center) task and a transmission and reception task in an SVC(Selector Vocoder Controller). CONSTITUTION: A CCP(Call Control Processor) transmits a loopback mode start signal to a base station processor and an SVC, and, at the same time, generates an auto page task(1A) and a virtual MSC task(1B). The base station processor is switched to a virtual paging response mode and transmits a loopback mode signal to a CE(Channel Element). The SVC is switched to a D/S loopback mode and switches a transmission task(TX) to a Markov pattern transmission mode. The CCP generates a paging message corresponding to a given parameter and keeps transmitting it to the base station processor until a simulation is stopped. Then, the base station processor generates a virtual response message and reports it to the CCP. Upon receiving the virtual paging response message, the CCP transmits a call setup message to the virtual MSC task(1B), and the virtual MSC task(1B) transmits a call setup completion message to the CCP. Then, the CCP allocates a call resource in the SVC, and the base station processor also allocates a call resource in the CE. The SVC and the CE exchange a packet bearing the Markov pattern generated in the transmission task(TX). The transmission task(TX) compares the pattern of the packet received through a D/S loopback and the pattern of the packet transmitted to the CE and measures a quality.

Description

SIMULATION METHOD FOR CE AND SVC QUALITY MEASUREMENT OF MOBILE TELECOMMUNICATION SYSTEM

The present invention relates to an efficient sound quality measurement and bad board detection technology of a channel element and a selector vocoder controller, which are call resources of a mobile communication system. Simulation method for measuring call resource quality of a mobile communication system.

In the MCS (Mobile Call Simulator) for measuring the call resource quality of the conventional mobile communication system, a large number (about 10 Thirty terminals) and exchanges were used to measure the quality of call resources.

However, in the conventional call resource quality measurement technology, a large number of terminals and switching stages must be provided, which requires a lot of costs, and the number of call resource experiments is limited to the number of terminals.

Accordingly, an object of the present invention is to use a mobile page task, a virtual MSC task, and a transmit / receive task in an SVC on a CE-SVC automatic call simulator to detect a defect in a test and after-service board of a call resource new board. To provide a simulation method for measuring the quality of call resources.

1 is a task structure diagram of a CE-SVC auto call simulator according to a simulation method for measuring call resource quality of a mobile communication system of the present invention.

2 is a signal flow diagram of a CE-SVC auto call simulation setup process;

3 is a signal flow diagram of a CE-SVC auto call simulation release process;

Signal flow diagram of normal call release process and CE-SVC auto call simulation release process.

*** Explanation of symbols for the main parts of the drawing ***

1: Call Control Processor 1A: Auto Page Task

1B: Virtual MS Task 2: Selector Vocoder Controller

3: channel element 4: base station processor

In a simulation method for measuring call resource quality of a mobile communication system according to the present invention, a call control processor transmits a loopback mode start signal to a base station processor and a selector vocoder controller, and generates a first auto page task and a virtual MS task. Process; The call control processor transmits a paging message to the base station processor, and also transmits a call setup message to a virtual MS task, allocates call resources at the selector vocoder controller and the base station processor, and then transmits a D / S task. Comparing the packet received through the loopback with the packet transmitted through the channel element and measuring a quality; The call control processor transmits a loopback mode stop signal to the base station processor and the selector vocoder controller, and terminates the auto page task and the virtual MS task to stop the simulation.

1 is a task structure diagram of a CE-SVC auto call simulator according to a simulation method for measuring call resource quality in a mobile communication system according to the present invention. As shown in FIG. 1, a call control processor transmits paging to a base station according to a given parameter value. An Auto_Page Task 1A for exchanging packets between a Call Control Processor (CCP) 1 and a Selector Vocoder Controller (SVC) 2; A virtual MSC (Mobile Switching Center) task 1B, which performs a role of an exchange to allow the CE-SVC auto call simulator to operate even in the absence of an actual exchange; After generating a packet with a random pattern through a Markov algorithm, the packet is transmitted to a channel element (CE), and the transmitted and received packets are compared and analyzed to determine the channel element (3) and the selector. With reference to FIGS. 2 and 3 attached to the operation of the present invention constituted of the transmission task TX in the selector vocoder controller 2 for measuring the sound quality between the vocoder controllers 2 and determining their defects. It will be described in detail as follows.

First, referring to Figure 1 will be described the operation of each task that is a key element of the CE-SVC auto call simulation process on the call processing device of the mobile communication system as follows.

The auto page task 1A automatically transmits paging to the base station according to a given parameter value. As a result, a normal call processing routine is performed to exchange packets between the call control processor 1 and the selector vocoder controller 2. At this time, of course, the channel element 3 and the selector vocoder controller 2 operate in the loopback mode through a signal indicating the start of the loopback mode between the base station processor (BSP) 4 and the call control processor 1. Should be doing.

At this time, the virtual MS task (1B) is to perform the role of the exchange, due to this task (1B) CE-SVC auto call simulator is operated even in the absence of the actual exchange.

The transmission task TX in the selector vocoder controller 2 generates a packet of a random pattern through a Markov algorithm and transmits the packet to the channel element 3. In addition, the transmission task TX is a transmitted packet and a received packet, that is, a transmission task TX ⇒ a SI (SVC Interface) loopback ⇒ a reception task (RX) ⇒ D / S (D) of the channel element 3. / S: Digital Switch) Loopback ⇒ Transmit task (TX) to compare and analyze the packets, and performs the role of measuring the sound quality between the channel element 3 and the selector vocoder controller (2) and determine whether they are defective.

A series of processes performed by each of the above tasks is continued until the loopback mode stop signal is generated, and when the loopback mode signal is generated and the auto call simulation is terminated, the channel element 3 and the selector vocoder controller 2 are related. Output statistical data.

Meanwhile, referring to FIGS. 2 and 3, a simulation start process, a simulation operation process, and a simulation stop process will be described below.

First, the simulation start process will be described. The call control processor 1 transmits the loopback mode start signal to the base station processor 4 and the selector vocoder controller 2, and at the same time, the auto page task 1A and the virtual MS task ( 1B).

Accordingly, the base station processor 4 which receives the loopback mode start signal switches to the virtual paging response mode and simultaneously transmits the loopback mode signal to the channel element 3. In addition, the selector vocoder controller 2 which has received the loopback mode start signal switches to the D / S loopback mode and switches the transmission task TX to the Markov pattern transmission mode. In addition, the channel element 3 receiving the loopback mode start signal switches the SI to the loopback mode.

In the meantime, when the simulation operation process is described, the call control processor 1 generates a paging message corresponding to a given parameter value and continuously transmits the paging message to the base station processor 4 until the simulation is stopped.

Accordingly, the base station processor 4 generates a virtual response message and reports it to the call control processor 1.

At this time, the call control processor 1 receives a virtual paging response message and transmits a call setup message to the virtual MS task 1B, and the virtual MS task 1B sends a call setup completion message to the call control processor. Send to (1).

Accordingly, the call control processor 1 allocates call resources in the selector vocoder controller 2, and the base station processor 4 also allocates call resources in the channel element 3 in question.

The selector vocoder controller 2 and the channel element 3 operating in the loopback mode exchange packets containing the Markov pattern generated by the transmission task TX in the selector vocoder controller 2. In this case, the transmission task TX performs a quality measurement after pattern comparison with a packet transmitted through the D / S loopback to the channel element 3.

This series of operations can be performed on multiple call resources simultaneously and continue until the simulation is stopped.

In the meantime, in the simulation stopping process, the call control processor 1 transmits a loopback mode stop signal to the base station processor 4 and the selector vocoder controller 2, and simultaneously with the auto page task 1A. The MS task 1B is extinguished.

Accordingly, the base station processor 4 receiving the loopback mode stop signal transfers the loopback mode stop signal to the channel element 3 while switching to the normal paging response mode.

In addition, the selector vocoder controller 2 which has received the loopback mode stop signal switches the D / S loopback to the normal mode, and also the transmission task TX to the normal operation mode. In addition, the channel element 3 receiving the ropeback mode stop signal switches the SI to the loopback mode.

When the series of simulation stop processes as described above are completed, the results of the simulation are output.

As described in detail above, the present invention detects whether a board of a call resource new board is tested and whether an after-service processed board is defective by using an auto page task, a virtual MS task, and a transmission / reception task in an SVC on a CE-SVC automatic call simulator. It is possible to measure the sound quality of a large amount of call resources, so it is possible to measure the sound quality and detect bad boards within a short time, and to measure the sound quality of call resources in the environment excluding the terminal and the exchange terminal, and to produce a new call resource board. And by applying to the after-service processing procedure there is an effect that can detect in advance the defects that may occur during operation.

Claims (4)

A first step of the call control processor transmitting a loopback mode start signal to the base station processor and the selector vocoder controller and generating an auto page task and a virtual MS task; The call control processor transmits a paging message to the base station processor, and also transmits a call setup message to a virtual MS task, allocates call resources at the selector vocoder controller and the base station processor, and then transmits a D / S task. Comparing the packet received through the loopback with the packet transmitted through the channel element and measuring a quality; And a third step in which the call control processor transmits a loopback mode stop signal to the base station processor and the selector vocoder controller, and terminates the auto page task and the virtual MS task to stop the simulation. Simulation method for measuring the call resource quality of the system. 2. The first process of claim 1, wherein the base station processor transitions to a virtual paging response mode and transmits a loopback mode signal to a channel element, and the selector vocoder controller transfers a Markov pattern after transmitting to a D / S loopback mode. Mode conversion, the channel element comprises a step of switching the SI to the loopback mode, the simulation method for call resource quality measurement of the mobile communication system. The method of claim 1, wherein the second process comprises a step in which the channel selector and the channel element operating in the loopback mode exchange a packet containing a Markov pattern generated by a transmission task in the selector vocoder controller. Simulation method for call resource quality measurement in mobile communication system. 2. The call of claim 1, wherein the third process comprises the step of switching the D / S loopback and transmission tasks to the normal operation mode and the channel element switching the SI to the loopback mode. Simulation method for measuring resource quality.