KR100905577B1 - Method and Apparatus of Base Station Call Device Test in a mobile communication system - Google Patents

Abstract

A diagnostic method of a base station apparatus of a mobile communication system is disclosed. In the diagnosis of a base station device, the present invention includes the following process to diagnose a device currently occupied by a call.

A process of determining whether the call processing device is occupying a call by a diagnostic block diagnosing a call processing device by a preset diagnostic cycle or an operator's command, and waiting for a diagnosis for a preset time when the call processing device is occupying a call And performing a diagnosis when the call of the call processing device is released.

Status block, diagnostic block, call processing device

Description

Diagnosis apparatus and method of call processing apparatus of base station in mobile communication system {Method and Apparatus of Base Station Call Device Test in a mobile communication system}

1 is a diagnostic flowchart of a call processing apparatus according to the prior art;

2 is a flowchart for diagnosing a call processing device according to an embodiment of the present invention;

3 is a diagram illustrating an internal algorithm of the state block shown in FIG. 2;

4 is a diagram illustrating an internal algorithm of the diagnostic control unit shown in FIG. 2;

5 is a diagram illustrating an internal algorithm of the diagnostic execution block shown in FIG. 2;

The present invention relates to a diagnostic method of a mobile communication system, and more particularly, to a diagnostic method of a base station of a mobile communication system.

In a mobile communication system, a base station is a base transmission station (hereinafter referred to as a base station transmission system (BTS)) for wireless communication with mobile stations, and a base station controller (base station) for controlling a plurality of BTSs. In addition, the mobile communication system includes a mobile switching system that is responsible for transmitting and receiving data and control paths between the BTS, the BSC, and the Public Switched Telephone Network (PSTN). Mobile Switching Center, hereinafter referred to as 'MSC'), and the base station manager responsible for the operation and maintenance of each of the BTS and BSC.

The base station configured as above is provided with a plurality of call processing devices. In the following description, the call processing device is a generic term for a device occupied by a call when the call is generated or a path of the call. For example, the call processing apparatus may be a digital signal processor including various modules of a radio unit (RF unit) of the BTS or BSC and a vocoder channel. In addition, the call processing apparatus includes a device that participates in a call processing apparatus such as a relay link (B_Link) between a BSC and a BTS, a signal link between a BSC and an MSC, and a channel unit component (MCH) of the signal link. It is meant to include.

1 is a diagnostic flowchart of a call processing apparatus according to the prior art.

The prior art will be described with reference to FIG. 1. Diagnosis of the call processing device is performed in the following cases.

In case of hardware failure,

If the quality is not good and you want to test again on the call processing unit that is not currently available to find the cause and recover from the failure,

To detect a call processing device that has a potential impairment even if there is no current impairment, or that has an abnormal quality that can degrade the call quality.

 In FIG. 1, the diagnostic block 110 may be provided in the BSC or the BTS or the MSC. The state block 120 of FIG. 1 is responsible for a processor operating in a base station and a maintenance function for monitoring a call processing device and managing a state of the devices to ensure reliable service. Diagnosis of the call processing device is performed by exchanging information between the diagnosis block 110 performing the diagnosis and the state block 120 managing the state of the base station. The state block 120 stores program loading data (hereinafter, referred to as 'PLD'). The PLD refers to a database used for managing the shape, state and resource management of processor boards and devices in a system in which management is performed based on shape information of all systems.

Since the diagnosis block 110 itself is difficult to determine the failure of the diagnosis of the devices, the state block 120 that manages the status is requested whether the call processing device can be diagnosed. The diagnosis block 110 performs diagnosis only when a response from the state block 120 is received. And for the device that the call is currently occupied state block 110 gives a response that the diagnosis is impossible.

In step 150 of FIG. 1, the diagnostic block 110 sends a message to the status block 120 asking whether the call processing apparatus can be diagnosed. The state block receiving the request determines whether the call processing apparatus can be diagnosed according to the following [condition].

[Condition 1] The state of the processor board including the call processing apparatus is normal and the shape information data of the call processing apparatus must exist. In this case, even if the operator of the base station has arbitrarily blocked the call processing device to limit the inflow of the call, the diagnosis is possible.

[Condition 2] The call processing device must not be currently diagnosed.

[Condition 3] There should be no call currently occupied by the call processing device. (Standby or Idle)

The state block 120 responds to the diagnosis block only when the [condition] is satisfied in step 160 that the diagnosis is possible. Otherwise, the state block 120 gives the response that the diagnosis is impossible.

The state block 120 blocks the inflow of the call so that the call is not allocated to the call processing device when the call processing device can be tested. In the following description, the call blocking by the test as described above is referred to as blocking the inflow of the test call (hereinafter referred to as 'T_BLK').

Here, devices already in T_BLK state cannot be duplicated and new calls cannot be allocated. When the diagnosis block 110 receives a response from the state block 120 that the call processing device can be diagnosed, the diagnosis block 110 performs a diagnosis of the call processing device and notifies the state block 120 of the result in step 170. . Upon receiving the diagnosis result, the state block 120 releases T_BLK and reflects the diagnosis result to the state.

As described above, in the conventional method of diagnosing a base station call processing device, in case of a device to which a call is currently assigned, both the periodic test and the test by the operator's command determine that the call is allocated because the state of the call processing device is good. The diagnosis of the call processing device is omitted. Therefore, in the case of an operation site where a large number of calls are allocated, it is not easy to perform a normal diagnosis of the system.

Accordingly, an object of the present invention is to provide a method for performing a diagnosis even on a device occupied by a call.

Another object of the present invention is to maintain the quality of the entire base station system and the detection of potential failure of a device that does not have a failure even where a large number of calls are continuously occupied.

Still another object of the present invention is to maintain a certain level of call quality and to improve call quality through accurate diagnosis of a mobile communication system.

The present invention for achieving these objects is the process of determining whether the call processing device is occupied by the diagnostic block for diagnosing the call processing device by a preset diagnostic cycle or the command of the operator, and the call processing device is occupied by the call Waiting for diagnosis for a preset time, and performing a diagnosis when the call of the call processing device is released.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. It should be noted that reference numerals and like elements among the drawings are denoted by the same reference numerals and symbols as much as possible even though they are shown in different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In the following description, a state in which an operator arbitrarily blocks a call so that a call does not flow into a specific device is referred to as M_BLK (MMC Block). In addition, when the call of the device occupied by the current call or M_BLK is attempted or the test is terminated, the incoming call is blocked so that a new call is not reassigned, and when the call is terminated, the state transitions to M_BLK and T_BLK immediately. A kind of waiting state is called P_BLK or Pre Block. That is, if the call is occupied, the state is set to P_BLK to prevent the call from flowing in, and when the call is released, the state immediately changes to the state of T_BLK.

In addition, in the following description, an on-demand test (hereinafter, referred to as an on-demand test) refers to a diagnosis performed by a base station operator by designating a specific device. In addition, an on-line test (hereinafter referred to as an 'on-line test') refers to a diagnosis performed by periodically circulating a specific device according to a test cycle specified in the PLD. Whether the on-line test is performed may be turned on or off by an operator's command. The operator command means MMC (Man Machine Command), which means a command provided in the form of a user interface button for the operator to view information or change data of the system.

In order to be able to perform diagnosis on the device occupied by the call, the device is occupied by the limit wait time after the predetermined wait time. At this time, for the device that is waiting, the operator makes a transition to the state of Pre Blcok with respect to the device to which the current call is assigned. In addition, the waiting time is provided in the form of PLD so that the operator can be changed arbitrarily, in the case of On-Line Test, the cycle of On-Line Test is used as the waiting time.

2 is a flowchart of diagnosing a call processing device according to an embodiment of the present invention.

In the present embodiment, the test cycle of the call processing device becomes the waiting time during the on-line test. In addition, during On-Demand Test, a value set separately in the On-Line Test cycle or PLD.

In the exemplary embodiment of the present invention, the diagnostic block includes a diagnostic execution block 210 and a diagnostic control unit 220 that actually perform a diagnosis as shown in FIG. 2.

Hereinafter, the overall signal flow between the state block 230, the diagnostic control unit 220, the diagnostic control unit 220 and the diagnostic execution block 210 will be described with reference to FIG.

In step 221 of FIG. 2, the diagnostic control unit 220 requests the state block 230 whether the corresponding call processing device can be diagnosed. The state block 230 determines whether the call processing device can be diagnosed. In this case, in the present invention, the call processing block performs diagnosis when the call is occupied. That is, the call processing device is P_BLK, and when the call is terminated, the call processing device is T_BLK. Thus, when the diagnosis control unit receives notification of the diagnosis result from the diagnosis control unit, the T_BLK is released to wait for a certain time even when the call is occupied, and then the diagnosis is possible when the call is terminated. In operation 231, the result is notified to the diagnosis control unit 220.

The diagnosis control unit 220 notifies the diagnosis execution block 210 of the call execution device to the diagnosis execution block 210 in step 222. The diagnostic execution block 210 performs a diagnosis of a corresponding call processing device by the diagnostic execution command. The diagnosis execution block 210 notifies the diagnosis performance result in step 211. In step 223, the diagnosis control unit 220 notifies the status block 230 of the diagnosis performance result.

FIG. 3 is a diagram illustrating an internal algorithm of the state block shown in FIG. 2.

Hereinafter, a description will be given with reference to FIGS. 2 and 3.

The diagnostic control unit 220 requests whether the call processing device can diagnose the status block 230 in step 221. The state block 230 determines whether the call processing apparatus can be diagnosed in step 310. The state block 230 determines that the processor to which the call processing device belongs is abnormal or the shape data of the call processing device does not exist. Do it. If it is possible to diagnose the call processing device, the status block 230 responds to the diagnosis control unit 220 with a diagnosis possible (OK) in step 330. The state block 230 determines whether the call is occupied by the call processing apparatus in step 340. If the call processing device is not occupying the call, the state block 230 changes the state of the call processing device to T_BLK to limit the allocation of the new call. If the call processing device has already been assigned a call, the state block 230 changes the state of the call processing device to P_BLK in step 350. The state block 230 determines whether the call allocated to the call processing device is terminated in step 360. If the call of the call processing device is terminated, the state block 230 changes the state of the call processing device to T_BLK in step 370. When the status block 230 is notified of the diagnosis result of the call processing device to the diagnosis control unit 220 in step 380, the state block 230 releases T_BLK of the call processing device in step 390 and reflects the diagnosis result in the state.

4 is a diagram illustrating an internal algorithm of the diagnostic control unit illustrated in FIG. 2.

Hereinafter, a description will be given with reference to FIGS. 2 and 4.

In step 221, the diagnostic control unit 220 requests whether the call processing device can be diagnosed. The state block 230 notifies the diagnosis control unit 220 of whether the corresponding call processing device can be diagnosed in step 231. The diagnosis control unit 220 determines whether the call processing apparatus can be diagnosed in step 410 by the notification. In step 430, the diagnosis control unit 220 omits the diagnosis of the call processing apparatus when the call processing apparatus is incapable of diagnosis. When the call occupancy device is diagnosed, the diagnosis control unit 220 transmits the diagnosis waiting time and the diagnosis execution command set in step 420 to the diagnosis execution block 210. The diagnostic control unit 220 determines whether the preset diagnostic execution time has passed in step 440. The diagnosis execution time is set to a time longer than the diagnosis waiting time. The diagnosis control unit 220 notifies the status block 230 of the diagnosis result (Timeout) in step 450 to release the T_BLK for the call processing apparatus when the diagnosis execution time has passed. When the diagnosis control unit 220 is notified of the diagnosis result from the diagnosis execution block 210 in step 211, the diagnosis control unit 220 notifies the diagnosis block (normal or abnormal) of the call processing apparatus to the status block in step 460.

FIG. 5 is a diagram illustrating an internal algorithm of the diagnostic execution block shown in FIG. 2.

Hereinafter, a description will be given with reference to FIGS. 2 and 5.

The diagnosis execution block 210 is notified of the diagnosis waiting time and the diagnosis execution command from the diagnosis control unit 220 in step 222. The diagnostic execution block 210 drives the timer by the waiting time set in step 510. In step 520, the diagnostic execution block 210 determines whether the call processing device is occupying the call. If the call processing device is not occupying the call, the diagnostic execution block 210 performs diagnosis of the call processing device in step 530. The diagnosis performing block 210 notifies the diagnosis control unit 220 of the diagnosis result in step 550. When the call processing device is occupying the call, the diagnosis execution block 210 determines whether the diagnosis waiting time set in step 540 has passed. The diagnostic execution block 210 notifies the call control device 220 when the set diagnosis waiting time has elapsed, and notifies the diagnosis control unit 220 that the call processing device is occupied by the call in step 560 (Busy). . In this case, since a new call is not allocated to the device set to P_BLK in the state block, if the call is continuously occupied by the corresponding call processing device, the subscriber is considered to have maintained the call for a predetermined time without ending the call. Therefore, since the call processing apparatus of the base station can be regarded as having no abnormality and the call quality is good, the diagnosis of the call processing apparatus may be omitted.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention has the advantage that the diagnosis can be performed even for a device occupied by the call.

It is also possible to detect potential failures of non-failed devices and maintain the quality of the entire base station system even where a large number of calls are continuously occupied.

In addition, through accurate diagnosis of the mobile communication system there is an advantage that can maintain a certain level of call quality and improve the call quality.

Claims (28)

In the diagnostic method of the base station call processing apparatus in a mobile communication system, Requesting, by the diagnostic control unit, whether the call processing device can be diagnosed from the state block; Determining, by the state block, whether the call processing device can be diagnosed according to the request, and responding the result to the diagnosis control unit; The diagnostic control unit receiving the response to issue a diagnosis command of the call processing device to a diagnosis execution block; And diagnosing the call processing device by the diagnostic execution block receiving the diagnostic command, and notifying the diagnosis control unit of the diagnosis result.  The method of claim 1, wherein the determining of the diagnosis is possible. Determining whether the call processing device occupies a call; And disconnecting a new call from the call processing device when the call processing device occupies a call. The method of claim 2, wherein the determining of the diagnosis is possible. And blocking the new call from being allocated when the call processing device does not occupy the call. The method of claim 2, wherein in the process of blocking the new call from being allocated, And a status of the call processing device is allocated to P_BLK. The method of claim 2 or 3, And changing the state of the call processing device to a T_BLK state when the call of the call processing device terminates or does not occupy the call. The method of claim 2, And changing the state of the call processing device from P_BLK to T_BLK when the call occupied by the call processing device is terminated. The method of claim 1, And if the call is allocated to the call processing device even after a preset waiting time, the diagnosis control unit skips the diagnosis and notifies the call processing device that the call processing device is occupied by the status block. The method of claim 7, wherein the preset waiting time, A diagnostic method of a base station call processing device which is a diagnostic period of the call processing device. The process of claim 1, wherein the diagnosis performing block notifies the diagnosis control unit of the diagnosis result. And driving a timer for a preset waiting time, and when the call processing device occupies the call, notifying the diagnostic controller that the call processing device is busy. Method of diagnosis of the processing unit. The process of claim 1, wherein the diagnosis performing block notifies the diagnosis control unit of a diagnosis result. And diagnosing the call processing device when the call of the call processing device is terminated and notifying the diagnosis control unit of the result of the call processing device. A status block that determines whether the call processing apparatus can be diagnosed and responds to the diagnostic execution block, a diagnostic control unit which directs a diagnostic command to the diagnostic execution block according to the response of the diagnosis possibility, and a call processing apparatus according to the diagnostic command In the diagnostic method of the base station call processing apparatus performed in the status block of the mobile communication system comprising a diagnostic performing block for diagnosing, Receiving a request of whether the call processing device can be diagnosed from the diagnosis control unit, determining whether the diagnosis is possible, and responding the result to the diagnosis control unit; If the result is diagnoseable, determining whether the call processing device occupies the call; Blocking the new call if the call processing device occupies a call; Receiving a diagnosis result of the call processing device from the diagnosis control unit; And reflecting the result of the diagnosis in the state of the call processing device and releasing the blocking of the new call. The method of claim 11, If the call processing device does not occupy a call further comprises the step of blocking a new call. The method of claim 12, wherein the process of blocking a new call when the call processing device occupies a call, And assigning a state of the call processing device to P_BLK when the call processing device occupies a call. The method of claim 11 or 12, And changing the state of the call processing device to T_BLK when the call of the call processing device ends or does not occupy the call. The method of claim 13, And changing the state of the call processing device from P_BLK to T_BLK when the call occupied by the call processing device is terminated. A status block that determines whether the call processing apparatus can be diagnosed and responds to the diagnostic execution block, a diagnostic control unit which directs a diagnostic command to the diagnostic execution block according to the response of the diagnosis possibility, and a call processing apparatus according to the diagnostic command In the diagnostic method of the base station call processing apparatus performed in the diagnostic performing block of the mobile communication system comprising a diagnostic performing block for diagnosing, Receiving a diagnosis execution command from the diagnosis control unit; Checking whether the call processing device occupies the call according to the diagnostic execution command; Diagnosing the call processing device when the call processing device does not occupy the call, and notifying the diagnosis control unit of the diagnosis result. The method of claim 16, Driving a timer for a preset waiting time after receiving the diagnostic execution command; If the call processing device occupies a call and the preset waiting time is exceeded, notifying the diagnostic control unit of the busy. The method of claim 16, And diagnosing the call processing device when the call occupied by the call processing device is released within a predetermined time period, and notifying the diagnosis control unit of the diagnosis result. In the call processing device diagnostic apparatus of a base station in a mobile communication system,  A status block that determines whether the call processing device can be diagnosed at the request of a diagnostic controller and responds to the diagnostic controller with the result; The diagnosis control unit which receives the response and issues a diagnosis command of the call processing device to a diagnosis execution block; And a diagnostic execution block configured to receive the diagnostic command to diagnose the call processing device and notify the diagnostic controller of the diagnosis result. The method of claim 19, wherein the state block, And determine whether the call processing device occupies a call and, when the call processing device occupies a call, block a new call to the call processing device to determine whether the diagnosis is possible. The method of claim 20, wherein the state block, And the call processing device is further configured to block a new call if the call processing device does not occupy a call. The method of claim 21, wherein blocking the new call comprises: And a status of the call processing device is allocated to P_BLK. The method of claim 20 or 21, wherein the state block, And change the state of the call processing device to T_BLK when the call of the call processing device ends or does not occupy the call. The method of claim 22, wherein the state block, And the call processing device is further configured to change the state of the call processing device from P_BLK to T_BLK when the call occupied by the call processing device ends. The method of claim 20, wherein the diagnostic control block, And if the call is allocated to the call processing device even after a preset waiting time, skipping the diagnosis and notifying the call processing device that the call processing device is occupied by the status block. delete The method of claim 20, wherein the diagnosis performing block comprises: And a timer configured to drive a timer for a preset waiting time, and when the call processing device occupies a call, notifying the call control device that the call processing device is busy. The method of claim 20, wherein the diagnosis performing block comprises: And diagnose the call processing device when the call of the call processing device ends, and notify the diagnosis control unit of the result.

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