KR100278863B1 - CPS function processing method with frequency allocation function in mobile communication system - Google Patents

Abstract

According to the present invention, in a mobile communication system such as a DCS or PCS using the CDMA scheme, the FA can be assigned to a CPS function that detects an error rate of a call on a traffic channel of a fixed FA. The present invention relates to a CPS function processing method having an FA allocation function in a mobile communication system that enables an FA to detect an error rate of a call resource for a traffic channel. In case of different FAs required by the BCP, the BCP of the base station first allocates the traffic channel corresponding to the TCE required by the BSM to the channel card, and then changes the frequency to the FA requested by the BSM by the mobile station when allocating the traffic channel. And accordingly, the mobile station changes the frequency to the FA requested by the BSM, and then allocates a paging channel. By performing the CPS function test for the TCE through the channel, it is possible to detect the TCE error rate in the corresponding FA.In this way, by adding the FA allocation function to the existing CPS function, a single mobile terminal station can Since the FA can be paged, it is possible to detect an error rate of a call resource corresponding to another FA as well as a unique FA fixed to the mobile station, that is, TCE.

Description

CPS function processing method with frequency allocation function in mobile communication system

The present invention relates to a digital cellular system (Code Division Multiple Access; hereinafter referred to as "CDMA") scheme (DCS) or a personal communication system (Personal Communication System); In a mobile communication system such as `` PCS '', a call path signal for detecting an error rate of a call for a traffic channel of fixed frequency allocation (hereinafter referred to as `` FA '') FA assignment in mobile communication system, which adds a function to assign FA to the function of 'CPS' so that error rate of call resource for traffic channel can be detected not only in fixed FA but also in multiple FA. CPS function processing method having a function.

In general, the mobile communication system is a base station 20 for wirelessly transmitting and receiving data to and from the mobile terminal stations 10 to 10-n and the mobile terminal stations 10 to 10-n as shown in FIG. 20-n), a control station 30 for transmitting and receiving data to and controlling data from a plurality of base stations 20-20-n, and configuration management, fault management, maintenance and initialization of the entire control station 30. It is composed of a BSM (Base Station Manager) 40 which is in charge of, and an exchange station 50.

The base station 20 to 20-n includes a BTS control processor (BCP) 21 to 21-n for controlling and diagnosing the entire base station and performing an appropriate operation. The control station 30 controls A Call Control Processor (CCP) 31 is included that controls the entire station and performs resource management and allocation, call processing control, and maintenance.

On the other hand, in the mobile communication system, a CPS function for detecting an error rate of a call for a traffic channel of a fixed FA serviced by the mobile terminal station 10 is implemented.

That is, after designating the path of the call processing resource through the bsm monitor command (MMC) in the BSM 40, the specific FA and the channel card controller (hereinafter, referred to as 'CCC') in the base station 20 and By setting up a loopback call (Markov call) on a traffic channel element (hereinafter referred to as 'TCE'), a traffic frame between the vocoder, the TCE, and the mobile station 10 for a predetermined time ( By detecting the error rate of the frame) and outputting the detection result to the BSM 40 operator, it is possible to confirm the detailed status of the defective call processing equipment.

However, in the conventional CPS function processing, when the call processing resource is routed by the MMC, only resources of a fixed FA can be used by using a unique Mobile Identification Number (MIN) of the mobile station.

That is, in the conventional CPS function processing, the FA designation could not be performed. Accordingly, even when a plurality of FAs are in service, an error rate for the call resources of the fixed FA currently serving by the mobile station, that is, the TCE of the corresponding FA There was a problem that can not know the result outside.

Here, the MIN is necessary to determine the reception frequency setting of the mobile terminal station 10, by using this to give the channel ID in the CCP 31 and the mobile terminal station 10 in the control station 30, This method is an efficient method for resource management. It uses a hash function to prevent all calls from being concentrated on one FA.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and its object is to add a FA allocation function to the CPS function in a mobile communication system such as DCS, PCS, and the like as well as other FAs fixed by the MIN of the mobile station. It is another object of the present invention to provide a CPS function processing method having an FA allocation function in a mobile communication system capable of detecting an error rate of a TCE for a traffic channel in a multi-FA by specifying a path of a call processing resource.

1 is a block diagram of a general mobile communication system;

2 is an operation flowchart showing a CNS function processing method having a frequency allocation function in a mobile communication system according to the present invention;

3 is a state diagram showing a CPS function processing method having a frequency allocation function in a mobile communication system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10 to 10-n: mobile terminal station 20 to 20-n: base station

21 to 21-n: BCP 30: Control station

31: CCP 40: BSM

50: exchange office

CPS function processing method having a FA assignment function in the mobile communication system of the present invention to achieve this object, if the FA requested by the BSM for the CFA function test and the current FA being serviced in the mobile station, The BCP of the base station first allocates a traffic channel corresponding to the TCE requested by the BSM to the channel card, and then requests the mobile station to change the frequency to the FA requested by the BSM when allocating the traffic channel. After changing the frequency to the FA requested by the BSM and assigning a paging channel, by performing the CPS function test for the TCE through the assigned paging channel it is possible to detect the TCE error rate in the corresponding FA .

Hereinafter, a CPS function processing method having an FA allocation function in a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, two or more FAs, i.e., multiple FAs (0FA, 1FA), are set for one base station 20. For example, for the current FA and CPS function test serviced by the mobile station 10 If the FA requested by the BSM 40 is different from each other by 1FA and 0FA, respectively.

That is, as shown in the flowchart of FIG. 2 and the state diagram of FIG. 3, the BSM 40 first sets a TCE to be tested and then a message for a CPS function test, that is, 0FA, a base station, a CCC, a channel card node (CE), etc. The CPS message is transmitted to the BCP 21 of the base station 20 via the CCP 31 of the control station 30 (S1).

Subsequently, the BCP 21 of the base station 20 stores the 0FA requested by the BSM 40 in a database for a designated path call, and then through the paging channel of the currently serving 1FA, the mobile terminal. The CPS message is transmitted to the station 10 (S2).

Then, when receiving the response to the CPS message from the mobile terminal station 10 and transmits it to the CCP 31 of the control station 30 (S3).

Thereafter, the BCP 21 of the base station 20 allocates a traffic channel corresponding to the TCE requested by the BSM 40 to the channel card, and reassigns the channel card to the mobile station 10 and the assigned traffic channel. Null traffic is performed so that it cannot be performed (S4).

Subsequently, when the BCP 21 of the base station 20 receives a response according to the traffic channel assignment from the channel card, whether the current 1FA being served by the mobile station 10 and the 0FA requested by the BSM 40 for the CPS function test are the same. Determine (S5).

In step S5, if the current 1FA being served by the mobile terminal station and the 0FA required by the BSM 40 for the CPS function test are different from each other, the BCP 21 of the base station 20 may select the paging channel of the currently serving 1FA. Through the request to the mobile station 10 to change the frequency to 0FA requested by the BSM 40 (S6).

According to the request of step S6, the mobile station 10 changes the frequency to 0FA requested by the BSM 40 and then allocates a paging channel (S7).

By performing the CPS function test for the TCE through the paging channel allocated in the step (S7) (S8) it is possible to detect the TCE error rate at 0FA other than the 1FA fixed to the mobile station (S9).

On the other hand, if the current 1FA being serviced by the mobile station in step S5 and 0FA requested by the BSM 40 for the CPS function test are the same, the error rate of the TCE is detected in the same manner as the existing CPS function (S9). ).

As described above, according to the present invention, since the FA assignment function is additionally implemented in the existing CPS function, the multi-FA can be received by one mobile terminal station, and thus, the unique FA fixed to the mobile terminal station can be applied to other FAs. There is an effect that it is possible to detect the error rate of the corresponding call resource, that is, TCE.

Claims (1)

In processing the CPS function when two or more FAs are set for one base station 20 in a mobile communication system, After setting the TCE to be tested in the BSM 40, the first step of transmitting the CPS message for the CPS function test to the base station, and the base station stores the FA of the CPS message transmitted in the first step in the database. In response to the second step of transmitting the CPS message to the mobile station 10 through the paging channel of the currently serving FA, and after performing the second step, a response to the CPS message received from the mobile station 10 is received. A third step of allocating a traffic channel corresponding to the TCE requested by the BSM 40 to the channel card after transmitting to the control station and performing null traffic with the mobile station 10; and in the third step, the channel card A fourth step of determining whether the FA requested by the BSM 40 for the CPS function test and the current FA being serviced by the mobile station 10 are the same as soon as the response according to the traffic channel assignment is received from the fourth step; Current service at The fifth step of requesting to change the frequency to the FA requested by the BSM 40 to the mobile station 10 through the paging channel of the currently serving FA if the FA requested by the FA and the BSM 40 are different from each other; A sixth step of allocating a paging channel after the mobile station 10 changes its frequency to the FA requested by the BSM 40 according to the request of the fifth step; and a paging channel allocated in the sixth step. In the seventh step of performing the CPS function test for the TCE of the FA requested by the BSM 40 and the FA currently being serviced in the fourth step and the FA requested by the BSM 40 are the same, the existing CPS A CS function processing method having a frequency allocation function in a mobile communication system, comprising: an eighth step of performing a function test.