KR100509871B1 - Method For Processing Neighbor List Statistics - Google Patents

Abstract

The present invention relates to a method for processing NAVER list statistics. In particular, the NAVER PN statistics list is implemented by collecting NAVER PN statistics data for the NAVER PN added to the activation PN by analyzing information on occurrence of handoff. The present invention relates to a NAVER list statistics processing method for providing statistical data to an operator.

The present invention comprises the steps of: transmitting a field strength message for each target base station / sector targeted for handoff from a source base station / sector where a terminal is located to a base station controller; Determining, by the base station controller, whether each target base station / sector corresponding to the field strength message is a neighbor PN or a non-naver PN for the source base station / sector; If the target base station / sector is a neighbor PN, the base station controller writes a neighbor PN field assigned to the source base station / sector of a neighbor PN statistics list every time a handoff is attempted to the target base station / sector. An increase in the number of handoff attempts for a target base station / sector, and an increase in the number of handoff failures for a corresponding target base station / sector recorded in the neighbor PN field each time the handoff attempt for the target base station / sector fails. Process; If the target base station / sector is a non-Naver PN, the base station controller generates a corresponding target base station / sector field in a non-Naver PN field assigned to the source base station / sector of the Naver PN statistics list, and the target base station. Each time a handoff is attempted to a sector / sector, a handoff attempt count for the corresponding target base station / sector recorded in the generated target base station / sector field is included. The NAVER PN is collected by collecting Naver PN statistics data. By implementing the statistics list and providing it to the operator, the operator can analyze the Naver PN statistical data to optimize the wireless environment.

Description

Method For Processing Neighbor List Statistics

The present invention relates to a neighbor list (Neighbor List) statistics processing method, in particular, Naver PN statistics for Naver PN added to the activation (Pseudo Noise) by analyzing the information on the handoff (Handoff) occurrence The present invention relates to a method for processing NAVER list statistics that collects data to implement NAVER PN statistics list and provides the NAVER PN statistics data to the operator.

In general, the handoff function is a function provided by the system for providing a seamless service to a subscriber who is being provided with a service, such as softer / soft / hard handoff. .

The system analyzes the information of the PSMM (Pilot Strength Measurement Message) transmitted by the terminal to determine the handoff type, and then provides the handoff function according to the determined type. In this case, the system determines the handoff type. Use Naver list information as a basis.

However, in the related art, there is no statistical information for knowing the NAVER PN information required for handoff for environment optimization considering a wireless environment, and the operator processes neighboring base station list information by hand by identifying the operating conditions of neighboring base stations. There is a problem that a situation in which a Naver PN missing from the neighbor list or a neighbor PN in which handoff does not exist may not provide handoff function and continuous service may occur.

In order to solve the problems described above, an object of the present invention is to collect the Naver PN statistics data in the mobile communication system to implement the Naver PN statistics list and provide the operator, the operator analyzes the corresponding Naver PN statistics data in a wireless environment To optimize it.

In order to solve the above object, the method for processing NAVER list statistics according to the present invention comprises the steps of: transmitting a field strength message for each target base station / sector targeted for handoff from a source base station / sector in which a terminal is located; ; Determining, by the base station controller, whether each target base station / sector corresponding to the field strength message is a neighbor PN or a non-naver PN for the source base station / sector; If the target base station / sector is a neighbor PN, the base station controller writes a neighbor PN field assigned to the source base station / sector of a neighbor PN statistics list every time a handoff is attempted to the target base station / sector. An increase in the number of handoff attempts for a target base station / sector, and an increase in the number of handoff failures for a corresponding target base station / sector recorded in the neighbor PN field each time the handoff attempt for the target base station / sector fails. Process; If the target base station / sector is a non-Naver PN, the base station controller generates a corresponding target base station / sector field in a non-Naver PN field assigned to the source base station / sector of the Naver PN statistics list, and the target base station. Each time a handoff attempt is made to a / sector, the number of handoff attempts for the corresponding target base station / sector recorded in the generated target base station / sector field is increased.

Reporting, by the base station controller, the neighbor PN statistics list to a base station manager; Storing the neighbor PN statistics list reported by the base station manager and reporting the same to a network management system; The method may further include reporting the Naver PN statistics list reported by the network management system to a system operator.

delete

delete

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

First, a configuration of a system applied to the present invention will be described with reference to FIG. 1.

1 is a block diagram of a system to which the present invention is applied.

The system to which the present invention is applied includes a plurality of base stations (BTS), a base station controller (BSC) 10, a base station manager (BSC & BTS Manager) 20 and a network management system (NMS: Network). Management system (30), wherein the plurality of base stations perform functions such as wireless access, synchronization maintenance, call channel allocation / release of mobile subscribers, and the base station controller 10 is responsible for call processing. Call Control Processor (CCP) (CCP) (11) which analyzes the PSMM, which is the electric field strength message transmitted by the user, collects the NAVER PN statistics data, manages the NAVER PN statistics list, and periodically reports the NAVER PN statistics data. Performing radio resource management and handoff functions, and the base station manager 20 interoperates with the base station and the base station controller 10 to provide operation management and maintenance functions for them. And periodically receives and stores NAVER PN statistics data from the call control processor 11, and the network management system 30 monitors and controls the entire network and periodically performs NAVER PN statistics from the base station manager 20. Report the data and provide it to the operator.

Next, the NAVER PN statistics list will be described with reference to FIG. 2.

2 is a diagram illustrating a NAVER PN statistics list.

The NAVER PN statistics list is obtained by the call control processor 11 collecting and managing NAVER PN statistics data for each target base station / sector for each target base station / sector.

The NAVER PN statistics list includes a handoff attempt count field indicating a number of handoff attempts (T: Trial) to a target base station / sector corresponding to a neighbor PN for a source base station / sector and a source. A neighbor PN field configured for each target base station / sector field having a handoff failure count (F: Fail) field indicating a number of handoff failures to a target base station / sector corresponding to a neighbor PN for a base station / sector; Not neighbor configured for each target base station field / sector having a handoff attempt count (t: trial) field indicating the number of handoff attempts to a target base station / sector that does not correspond to a neighbor PN for a source base station / sector. It is made for each source base station / sector field in the PN field.

Herein, the source base station / sector is a base station / sector before handoff, and the target base station / sector is a base station / sector to be subjected to a handoff attempt, and the neighbor PN is a target base station / sector for the source base station / sector. In the case of a neighbor, and the neighbor PN is a case in which the target base station / sector does not correspond to a neighbor for the source base station / sector.

2 shows an example of a NAVER PN statistics list in which NAVER PN statistics data is collected and managed for each source base station for each target base station.

Hereinafter, a method for processing NAVER list statistics according to an embodiment of the present invention will be described with reference to FIG. 3.

3 is a flowchart illustrating a method for processing NAVER list statistics according to an embodiment of the present invention.

First, when a terminal in the system attempts to handoff from a source base station / sector before handoff to any one of a plurality of target base stations / sectors, the terminal receives a PSMM message for each target base station / sector. The controller 10 transmits the data to the controller 10 (S310). For example, in FIG. 1, when the source base station is "base station A", the neighbor PN for the source base station A is "neighbor PN-A", and the non-average PN for the source base station A is "non-average PN-A". The " base station B ", " base station a1 " and " base station a2 " belong to the neighbor PN-A, and the " base station C ", " base station D ", " base station b2 " Etc. Base stations which do not belong to the neighbor PN-A belong. In this case, the terminal transmits a PSMM for each base station / sector. In particular, the following description will be given by taking a case where the PSMM messages for the " base station B " and " base station C " are transmitted to the base station controller 10 as an example.

Accordingly, after receiving the PSMM message (S320), the base station controller 10 analyzes the PSMM message to obtain NAVER PN statistics data for each source base station / sector for each target base station / sector in a neighbor PN statistics list. Collect (S330).

Hereinafter, the NAVER PN statistics data collection process S330 will be described with reference to FIG. 4.

FIG. 4 is a flowchart illustrating a process of collecting NAVER PN statistical data in FIG. 3.

The base station controller 10 determines whether each target base station / sector corresponding to the PSMM message is a neighbor PN or a non-naver PN for the source base station / sector (S331). That is, in the above example, the base station controller 10 analyzes the PSMM message for the base station B and the PSMM message for the base station C to determine whether the corresponding base station B and the supporting station C are Naver PN-A or non-Naver PN-A. Judge. Here, the NAVER PN statistical data is NAVER PN information added to the activation PN.

That is, when the determination result (S331), the target base station / sector is a neighbor PN, the call control processing unit 11 of the base station controller 10 each time attempts to handoff to the target base station / sector Naver PN In the target base station / sector field in the neighbor PN field of the statistic list, the number of handoff attempts (T) corresponding to the target base station / sector is increased to “T + 1” (S332). Here, the target base station / sector field of the neighbor PN field is preset in the neighbor PN statistics list. This is because the operator may preset which target base station / sector may be a neighbor PN for the source base station / sector. That is, in the above example, since the base station B, the base station a1 and the base station a2 are set in advance in the neighbor PN-A for the source base station A, the base station B is the neighbor PN-A, and thus the call control processor 11 ) Whenever a handoff is attempted to the corresponding base station B, the handoff attempt for the base station B in the handoff attempt count field in the neighbor PN-A field provided in the source base station A field of the neighbor PN statistics list shown in FIG. Increase the number T _B to "T _B +1".

In addition, whenever the handoff attempt for the target base station / sector fails, the call control processor 11 performs a hand for the corresponding target base station / sector in the target base station / sector field in the neighbor PN field of the Naver PN statistics list. The off failure count F is increased to "F + 1" (S333). That is, in the case of the above example, whenever the handoff fails to the corresponding base station B, the call control processing unit 11 includes a hand in the neighbor PN-A field provided in the source base station A field of the neighbor PN statistics list shown in FIG. In the Off Failure Count field, increase the handoff failure count (F _B ) for the base station B to "F _B +1".

On the other hand, when the determination result (S331), the target base station / sector is a non-Naver PN, the call control processing unit 11 of the base station controller 10 is the target base station in the non-Naver PN field of the NAVER PN statistics list A / sector field is generated (S334). Here, the target base station / sector field of the non-Naver PN field is not previously set in the neighbor PN statistics list. This is because the target base station / sector may not be preset by the operator with respect to the source base station / sector. Therefore, since it is not possible to know which target base station / sector will be a non-Naver PN, once the target base station / sector is determined to be a non-Naver PN, the target base station / sector field is generated from the non-Naver PN field. That is, in the case of the above example, since the base station C may be any neighbor base station except the neighbor PN-A as the neighbor PN-A for the source supporting station A, the base station C is the case of the neighbor PN-A, and thus the call control. The processing unit 11 generates a corresponding base station C field from a non-Naver PN-A field provided in the source base station A field of the neighbor PN statistics list shown in FIG. 2.

In addition, whenever the call control processor 11 attempts to handoff to the target base station / sector, the call control processing unit 11 corresponds to the corresponding target base station / sector in the generated target base station / sector field in the neighbor PN field of the NAVER PN statistics list. The number of handoff attempts t is increased to "t + 1" (S335). That is, in the above example, whenever the call control processing unit 11 attempts to handoff to the corresponding base station C, the call control processing unit 11 is located in the non-Naver PN-A field provided in the source base station A field of the neighbor PN statistics list shown in FIG. 2. In the Handoff Attempts field, the number of handoff attempts t _C for the base station C is increased to "t _C +1".

As described above, after collecting Naver PN statistics data for each source base station / sector for each target base station / sector in the Naver PN statistics list (S330), the call control processing unit 10 collects the collected Naver. The NAVER PN statistics data of the PN statistics list is reported to the base station manager 20 periodically (for example, 1 hour) (S340).

Accordingly, the base station manager 20 receives the Naver PN statistics data (S350) and stores the corresponding Naver PN statistics data (S360).

The base station manager 20 reports the stored NAVER PN statistical data to the network management system 30 periodically (eg, 24 hours) (S370).

Accordingly, the network management system 30 receives the Naver PN statistics data (S380), stores the corresponding Naver PN statistics data, and provides the network management operator (S312).

Accordingly, the operator analyzes the NAVER PN statistical data, and if the number of handoff attempts (T) from the NAVER PN field for a specific source BS / sector of the NAVER PN statistics list to a specific target BS / sector is too small, Since this means that handoff to the corresponding target base station / sector rarely occurs, the operator removes the target base station / sector from the neighbor PN of the neighbor list for the source base station / sector based on such NAVER PN statistical data. You can optimize the network. That is, in the above example, if the number of handoff attempts (T _B ) from the neighbor PN-A field for the source base station A to the base station B is too small, the operator sets the corresponding base station B to the neighbor PN of the neighbor list for the source base station A. Remove from -A

Further, if the number of handoff failures (F) from the NAVER PN field for a specific source BS / sector of the NAVER PN statistics list is too large, this indicates that the radio environment to the corresponding BS / Sector is not good. Because it means, based on the Naver PN statistical data, the operator can optimize the network by improving the wireless environment of the target base station / sector. That is, in the above example, if the number of handoff failures F _B from the neighbor PN-A field for the source base station A is too large, the operator improves the radio environment of the corresponding base station B.

On the other hand, if the number of handoff attempts (t) from a non-Naver PN field for a specific source base station / sector of the NAVER PN statistics list to a specific target base station / sector is too large, this means that the handoff to that target base station / sector is Based on this Naver PN statistical data, the operator adds the target base station / sector to the neighbor PN of the neighbor list because the target base station / sector is missing from the neighbor PN of the neighbor list for the source base station / sector. You can optimize the network. That is, in the above example, if the number of handoff attempts (t _C ) from the non-Naver PN-A field for the source base station A to the base station C is too large, the operator sets the corresponding base station C to the neighbor PN of the neighbor list for the source base station A. Add to -A.

In addition, the embodiment according to the present invention is not limited to the above-mentioned, and can be implemented by various alternatives, modifications, and changes within the scope apparent to those skilled in the art.

As described above, the present invention collects Naver PN statistics data in the mobile communication system, implements the Naver PN statistics list, and provides the operator with the operator, thereby analyzing the corresponding Naver PN statistics data to optimize the wireless environment.

1 is a block diagram of a system to which the present invention is applied.

2 is a diagram showing a NAVER PN statistics list.

3 is a flowchart illustrating a method for processing NAVER list statistics according to an embodiment of the present invention.

FIG. 4 is a flowchart illustrating a process of collecting Naver PN statistical data in FIG. 3.

Explanation of symbols on the main parts of the drawings

10: base station controller 11: call control processing unit

20: base station manager 30: network management system

Claims (5)

Transmitting, to the base station controller, an electric field strength message for each target base station / sector targeted for handoff at the source base station / sector where the terminal is located; Determining, by the base station controller, whether each target base station / sector corresponding to the field strength message is a neighbor PN or a non-naver PN for the source base station / sector; If the target base station / sector is a neighbor PN, the base station controller writes a neighbor PN field assigned to the source base station / sector of a neighbor PN statistics list every time a handoff is attempted to the target base station / sector. An increase in the number of handoff attempts for a target base station / sector, and an increase in the number of handoff failures for a corresponding target base station / sector recorded in the neighbor PN field each time the handoff attempt for the target base station / sector fails. Process; If the target base station / sector is a non-Naver PN, the base station controller generates a corresponding target base station / sector field in a non-Naver PN field assigned to the source base station / sector of the Naver PN statistics list, and the target base station. And increasing the number of handoff attempts for the corresponding target base station / sector recorded in the generated target base station / sector field every time a handoff is attempted to a sector / sector. The method of claim 1, Reporting, by the base station controller, the neighbor PN statistics list to a base station manager; Storing the neighbor PN statistics list reported by the base station manager and reporting the same to a network management system; Naver list statistics processing method further comprising the step of reporting to the system operator the Naver PN statistics list reported by the network management system. delete delete delete