KR100314215B1 - Method for checking links of a base station and base station controller in a mobole communication system - Google Patents

Abstract

In the mobile communication system, the link diagnosis method of the base station and the control station is a test for the node connected to the link to check whether there is a problem immediately before leaving the link, and is performed between the control chip of the GCIN HICA and the GCIN HLEA. Is divided into a method of checking whether there is a problem, a ping-pong test method between GCIN, and a diagnostic method capable of simultaneously performing all of the above methods, and the operator selects one of the multiple methods and selects the corresponding part according to the selected method. By making the diagnosis, GCIN link can be diagnosed more accurately and efficiently, and GCIN link can be diagnosed more accurately and efficiently, improving the reliability of the system, It is to reduce the cost.

Description

{Method for checking links of a base station and base station controller in a mobole communication system}

The present invention relates to a method for diagnosing a link between a base station and a control station in a mobile communication system, and more particularly, to a global code division multiple access (CDMA) interconnection network for routing information between a base station manager and a control station and a control station. The present invention relates to a method for diagnosing a link of a base station and a control station in a mobile communication system by diagnosing a link state by dividing a section of a link between GCIN).

Hereinafter, a general mobile communication system will be described.

1 is a diagram illustrating a configuration of a general mobile communication system, in which a mobile communication system includes a base station (hereinafter referred to as a BTS) for wireless connection with a mobile station, and a plurality of control stations for managing a plurality of base stations. 50-100) (hereinafter referred to as BSC) and a number of base station managers (hereinafter referred to as BSMs) to manage and maintain BSCs 50-100 and BTS (10, 20). It consists of.

Local CDMA interconnect network 51, 61, 71, 81, 91, 101 (routing information between BSM (10. 20), BTS, BTS (50-100) within multiple control stations (50-100) ( Local CDMA Interconnection Network (hereinafter referred to as LCIN). And, the GCIN (30, 40) serves to route information between the BSM (10, 20) and BSC (50-100), BSC (500-100) and BSM (10, 20). At this time, one GCIN (30, 40) can route up to 12 BSC (50-100), the GCIN (30, 40) is connected by a GCIN link.

In addition, in order to perform communication between the BSCs (50, 60, 70) connected to the GCIN (30) can be performed through the GCIN (30), but the BSC (50, 60, 70) connected to the GCIN (30) In order to communicate with the BSCs 80, 90, and 100 connected to the GCIN 40, only the GCIN link between the GCIN 30 and the GCIN 40 can perform communication.

The GCIN link diagnosis method according to the prior art using the mobile communication system configured as described above will be described.

First, the GCIN 30 performs a ping-pong test with the GCIN 40 to diagnose the GCIN link. That is, when the GCIN 30 makes a packet to the GCIN 40 and transmits it, the GCIN 40 receives the packet transmitted from the GCIN 30 and then sends the received packet back to the GCIN 30. send.

Thus, the packet transmitted from the GCIN 40 is received by the GCIN 30 again, and the received GCIN 30 compares the packet transmitted from the GCIN 40 with the packet transmitted to the GCIN 40. It detects how corrupt the packet's data is and diagnoses the GCIN link accordingly.

However, the link diagnosis method between the base station manager and the control station in the conventional mobile communication system using the above-described method can only diagnose the state of the GCIN link, so it is not easy to know in which part an abnormality occurs.

Therefore, when recovering an abnormal link, a cumbersome problem that an operator must inspect the link, and a link recovery time and a high link recovery cost are caused.

Accordingly, the present invention has been made to solve the above-mentioned problems according to the prior art, and an object of the present invention is to diagnose the state of a link by dividing a section of a link between a GCIN for routing information between a base station manager and a control station and a control station. Accordingly, the present invention provides a link diagnosis method of a base station and a control station in a mobile communication system to perform a more accurate diagnosis on a GCIN link.

In the mobile communication system according to the present invention for achieving the above object, the link diagnosis method of the base station and the control station is characterized in that the link between the HICA, GCINO and GCIN1 having the HRNA, HLEA including the control chip, Distinguishing and setting a plurality of diagnostic methods for diagnosing a link between the GCIN0 and the GCIN1; An operator issuing a link diagnosis command between GCIN0 and GCIN1 by inputting a parameter for one of the set diagnostic methods for the GCIN0 and GCIN link diagnosis to a BSM; When a diagnostic command for a diagnosis method is input to the BSM, the BSM checks the input parameter to determine whether the diagnosis is allowed, if the diagnosis is granted, whether the diagnosis is currently being performed, or when the diagnosis is permitted and the diagnosis is not currently being performed. Determining whether the HICA of the GCIN0 and GCIN1 is normal; If the HICA of the GCIN0,1 is normally determined, requesting a diagnosis to be performed by the HICA according to a diagnosis method selected by the operator; Performing a diagnosis by looping back according to the diagnosis request, and transmitting a diagnosis result to the BSM; And displaying the transmitted diagnostic result for the operator to check.

In another aspect of the present invention, the plurality of diagnostic methods set forth above may include a first diagnosis method for checking whether a problem is immediately preceding the exit of the link as a test for the node of the HRNA connected to the GCIN link; Performed in the GCIN0 and GCIN1, respectively, is performed between the control chip of GCIN0 HICA and GCIN1 HLEA, and also performed between the GCIN HICA and the control chip of GCIN HLEA, the data transmitted from the HICA to the internal loop back in the control chip to HICA A second diagnostic method for checking whether or not there is a problem with the HLEA by checking the data returned to the system; When GCIN0 transmits packet data to GCIN1, GCIN1 transmits packet data received from GCIN0 to GCIN1 again, and compares packet data transmitted from GCIN1 to GCIN0 to GCIN0. A third diagnostic method for diagnosing a GCIN link depending on whether or not a damage is caused; The first, second, and third diagnostic methods may be divided into a fourth diagnostic method to be performed simultaneously.

1 is a view showing a connection configuration of a base station and a control station of a general mobile communication system,

2 is a diagram showing a link connection between a global CDMA matching network (GCIN0, GCIN1) routing between a base station manager and a control station applied to a link diagnosis method of a base station and a control station in a mobile communication system according to the present invention;

3 is a flowchart illustrating an operation of a link diagnosis method of a base station and a control station in a mobile communication system according to the present invention;

<Explanation of symbols for main parts of drawing>

30, 40: Global CDMA Interconnect Network

31, 41: Global CDMA interconnect network routing management unit

32, 42: routing section 33, 43: the back board

33a, 43a: controller chip

Hereinafter, a link diagnosis method of a base station and a control station in a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a diagram illustrating a link connection configuration between global CDMA matching networks GCIN0 and GCIN1 for routing between a base station manager and a control station applied to a link diagnosis method of a base station and a control station in a mobile communication system according to the present invention. 30 and 40 are provided with a plurality of nodes to connect internal systems to each node to route information between internal systems (HRNA) (High-Capacity Node & HDSL Assembly) (32, 42), and the HRNA (32, 42) Between the RS-232C communication method and the E1 / T1 communication method between the high-capacity IPC control board assembly (HICA) 31 and 41 that performs the management and the HRNAs 32 and 42 of the GCIN 30 and 40. A control chip 33a, 43a for performing a matching function and a back board 33 (High-Capacity IPC Line Interface E1 Assembly: hereinafter referred to as HLEA) for accommodating the control chip 33a, 43a, respectively.

The diagnostic method of the link between the GCIN (30, 40) made in this way will be described step by step with reference to FIG.

3 is a flowchart illustrating an operation of a link diagnosis method of a base station and a control station in a mobile communication system according to the present invention.

First, the operator issues a GCIN link diagnosis command to the BSMs 10 and 20 shown in FIG. That is, the operator inputs a parameter for diagnosing the GCIN link to the BSMs 10 and 20 (S101).

When a parameter for GCIN link diagnosis is input, the BSMs 10 and 20 check whether a diagnosis is granted by checking a flag of the input GCIN link diagnosis parameter (S102).

As a result of the determination, if the checked flag is in the diagnosis prohibition state, the GCIN link diagnosis prohibition state is reported to the operator without performing diagnosis, and conversely, if the checked flag is determined to be the GCIN link enable state, the BSMs 10 and 20 presently present GCIN. It is determined whether the diagnosis of the link is being performed (S103).

If it is determined that the diagnosis of the GCIN link is currently being performed, it is reported to the operator to stop the diagnosis of the GCIN link, and conversely, if the diagnosis of the GCIN link is not currently being performed, the GCIN HICA (31, 41) is performed. ) Is checked whether it is normal (S104).

As a result of the check, if the GCIN HICA (31, 41) is not normal, the diagnosis cannot be made. Therefore, the operator is informed that the GCIN HICA (31, 41) is abnormal and the diagnosis is stopped. If it is determined to be normal, the GCIN HICA 31 and 41 request a diagnosis for each of a plurality of preset diagnosis levels (S105).

Subsequently, the GCIN HICA 31 and 41 loop back to each diagnosis level according to the diagnosis request of the BSM 10 and 20 to perform diagnosis, and transmit the diagnosis result to the BSMs 10 and 20 for each diagnosis level (S106). ).

Therefore, the BSMs 10 and 20 output the diagnosis result to the operator and then terminate the diagnosis of the GCIN link (S107).

Here, the diagnosis of the GCIN link is performed mainly by the HICAs 31 and 41, and the above-described diagnostic levels are divided into Level 1, LEVEL 2, LEVEL 3, and LEVEL ALL.

LEVEL 1 is a self test that tests the node connected to the link and checks whether there is a problem right before it goes out. This is performed by the GCIN 30 and the GCIN 40.

Then, the LEVEL 2 performs an internal loopback of the data transmitted from the HICAs 31 and 41 as the local loop back test by the control chips 33a and 43a of the HLEAs 33 and 43 to return to the HICAs 31 and 41. The data is checked to see if there is a problem with the HLEA (33, 43). This is performed by the GCIN 30 and the GCIN 40, which is performed between the control chip 33a of the GCIN HICA 31 and the GCIN HLEA 33, and also controls the GCIN HICA 41 and the GCIN HLEA 43. It is performed between the chips 43a.

And, LEVEL 3 is a polling test (Polling Test) when the GCIN (31) makes a packet to the GCIN (40) and transmits, the GCIN (40) sends a packet received from the GCIN (30) back to the GCIN (30) The GCIN 30 compares the packet originally sent to the GCIN 40 with the packet returned from the GCIN 40 to check whether the packet data is damaged and diagnose the GCIN link.

On the other hand, LEVEL ALL is to perform the above-described LEVEL 1, LEVEL 2, LEVEL 3 diagnosis at the same time.

Such a diagnosis is performed to both the GCIN (30) and the GCIN (40) at the same time by one command and is shown to the operator. The parameter input from the operator should be given the diagnosis level and the number of diagnosis. In addition, the diagnostic result outputs the number of successes by the number of diagnosis for each of the levers.

In addition, the present invention may be diagnosed at regular time intervals periodically without performing the diagnosis only when the operator requests, or may be automatically diagnosed only once at a desired month, day, hour, and minute. If the GCIN link is in a normal state and abnormally changed, a diagnosis may be automatically performed to output a result.

As a result, the diagnosis of the GCIN link of the present invention is a test for the node connected to the link to check whether there is a problem immediately before going out to the link, and the GCIN HICA (31) to be performed by the GCIN (30) and the GCIN (40). ) Is performed between the control chip 33a of the GCIN HLEA 33 and the control chip 43a of the GCIN HICA 41 and the GCIN HLEA 43. It is divided into a method of checking, a ping-pong test method between the GCIN 30 and the GCIN 40, and a diagnostic method capable of simultaneously performing the above-described method mode so that the operator selects one method and diagnoses the corresponding part according to the selected method. It is.

In the mobile communication system according to the present invention as described above, the method for diagnosing the link between the base station and the control station includes a method for checking whether a problem immediately before going out to the link as a test for a node connected to the link, and GCIN HICA and GCIN HLEA. The method is carried out between the control chip of the HLEA to check whether the problem, the ping-pong test method between GCIN and the diagnostic method that can perform the above-described method mode at the same time, the operator is one of the plurality of methods By selecting and allowing the part to be diagnosed according to the selected method, there is an effect of performing the diagnosis of the GCIN link more accurately and efficiently.

In addition, by performing the diagnosis of the GCIN link more accurately and efficiently, it has the other effect that can improve the reliability of the system, and reduce the maintenance time and cost of the GCIN link.

Claims (6)

In the link diagnosis method between GCINO and GCIN1 having HICA, HRNA, and HLEA including a control chip, Distinguishing and setting a plurality of diagnostic methods for diagnosing a link between the GCIN0 and the GCIN1; An operator issuing a link diagnosis command between GCIN0 and GCIN1 by inputting a parameter for one of the preset diagnostic methods for diagnosing the GCIN0 and GCIN1 links to a BSM; When a diagnostic command for a diagnosis method is input to the BSM, the BSM checks the input parameter to determine whether the diagnosis is allowed, if the diagnosis is granted, whether the diagnosis is currently being performed, or when the diagnosis is permitted and the diagnosis is not currently being performed. Determining whether the HICA of the GCIN0 and GCIN1 is normal; If the HICA of the GCIN0,1 is normally determined, requesting a diagnosis to be performed by the HICA according to a diagnosis method selected by the operator; Performing a diagnosis by looping back according to the diagnosis request, and transmitting a diagnosis result to the BSM; And displaying the transmitted diagnostic result for the operator to confirm. Link diagnosis method of a base station and a control station in a mobile communication system. The method of claim 1, The plurality of divided diagnostic methods may include a first diagnostic method for checking whether a problem is immediately preceding the exit of the link as a test for the node of the HRNA connected to the GCIN link; Performed in the GCIN0 and GCIN1, respectively, is performed between the control chip of GCIN0 HICA and GCIN1 HLEA, and also performed between the GCIN HICA and the control chip of GCIN HLEA, the data transmitted from the HICA to the internal loop back in the control chip to HICA A second diagnostic method for checking whether or not there is a problem with the HLEA by checking the data returned to the system; When GCIN0 transmits packet data to GCIN1, GCIN1 sends the packet data received from GCIN0 back to GCIN0, and compares the packet data transmitted from GCIN1 to GCIN1 to GCIN1. A third diagnostic method for diagnosing a GCIN link depending on whether or not a damage is caused; 4. A method for diagnosing a link of a base station and a control station in a mobile communication system, characterized in that the fourth diagnostic method enables the first, second, and third diagnostic methods to be performed simultaneously. The method according to claim 1 or 2, In the mobile communication system, the parameter input in the step of issuing a link diagnosis command between the GCIN0 and the GCIN1 is a number of diagnosis performed by one diagnostic method and one diagnostic method among the first, second, third and fourth diagnostic methods. Link diagnosis method of base station and control station. The method according to claim 1 or 2, The GCIN link diagnosis is a link diagnosis method of a base station and a control station in a mobile communication system, characterized in that the operator can diagnose the GCIN link through the fourth diagnosis method at regular time intervals without requiring the diagnosis directly. . The method according to claim 1 or 2, The GCIN link diagnosis is a link diagnosis method of a base station and a control station in a mobile communication system, characterized in that the operator can automatically diagnose the GCIN link only once every month, day, hour, and minute desired by the operator. . The method according to claim 1 or 2, The GCIN link diagnosis determines whether the GCIN link is normal, and when the GCIN link is switched from a normal state to an abnormal state, the GCIN link can automatically diagnose the GCIN link using the fourth diagnostic method. And link diagnosis method of the control station.