KR100396652B1 - method for improving quality of traffic in CDMA system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system, and more particularly, to reduce the transmission of a neighbor list update message (NLUM) in a code division multiple access (CDMA) system, thereby making the call of an entire communication system possible. A method suitable for improving quality.

On the other hand, in the present invention, in determining a transmission criterion of a neighbor list change message (NLUM) for changing neighbor information of a mobile station after performing a hand-off for changing a service area in a CDMA system. In addition, by considering the pilot information and additional pilot information of the Pilot Strength Measurement Message (abbreviated as PSMM) at the same time, a method for improving the call quality of the entire system by reducing the number of message transmissions in the wireless section is provided. to provide.

Description

Method for improving quality of traffic in CDMA system

The present invention relates to a mobile communication system, and more particularly, to a method suitable for improving call quality of an entire communication system by reducing transmission of a neighbor list change message (hereinafter, abbreviated as NLUM) in a CDMA system.

In general, in a CDMA communication system, when a mobile station (MS) enters a cell area of a new base station beyond a serving cell area of a serving base station currently serving, the mobile station can maintain a call path. The handoff function is performed.

In this case, the handoff is a unique phenomenon according to the mobility of the mobile terminal. The mobile terminal continuously searches for the signal strength of the serving base station and the neighboring base stations, and the signal strength of the discovered base stations. By comparing each other, the call is transferred to a target base station capable of maintaining the ongoing call.

As a result, the mobile terminal can continue the call in the newly secured call channel according to the handoff function, thereby maintaining a good call quality.

After this handoff is performed, the system side (base station and control station) changes the active set list of this mobile terminal. The system sends an NLUM to instruct the mobile station to change the neighbor information due to the active group list change.

The following describes the conventional handoff procedure in more detail.

The mobile station continuously searches the pilot strengths of neighboring base stations and compares the pilot strengths of the discovered base stations with a predetermined threshold value (T_ADD, T_DROP, T_COMM, etc.), and sets the active and candidate groups. The pilot is classified into four sets: a set, a neighbor set, and a remaining set.

The active group is the Pseudo Noise (= PN) codes that currently assign the talk channel to the mobile station (= pilots), and the candidate group is not currently active but has PN with sufficient pilot strength for demodulation. Codes (pilots), neighboring groups are PN codes (= pilots) that are not currently active or candidates but can be candidates for handoff, and finally the remaining group is not included in these three sets. PN codes (= pilots).

For the actual handoff procedure in such a CDMA communication system, a PSMM, a Hand-off Direction Message (hereinafter, abbreviated as HDM) and a Hand-off Completion Message (hereinafter, abbreviated as HCM) Is used. Here, the PSMM is a message for the mobile station to measure the pilot strength of neighboring base stations and report it to the system side, and HDM includes extended HDM (EHDM: Extend HDM) and general HDM (GHDM: General HDM).

FIG. 1 is a flowchart showing a transmission procedure of an NLUM according to a conventional handoff. First, a system side (base station and control station) performs a handoff based on a PSMM received from a mobile terminal (S1, S2, S3).

The mobile station always monitors and measures the pilot strength contained in the four sets listed above.

Among these, the pilot strength of the neighboring group or the residual group is compared with predetermined threshold values (T_ADD, T_DROP, T_COMM, etc.), and if the measured pilot strength satisfies the handoff condition, the PSMM including the pilot strength is included. Send to the system side to request ADD handoff or DROP handoff.

The system side receives the PSMM from the mobile terminal (S1), and in particular, the control station analyzes the received PSMM, and is set in advance or an ADD procedure for setting another call path for the mobile terminal from the pilot information included in the PSMM. It is determined whether one of the DROP procedures for recovering the call path was performed (S2).

Thereafter, the control station transmits a new active group to the mobile terminal through the serving base station. In other words, the control station transmits an HDM (or EHDM or GHDM) to the mobile terminal to instruct handoff (S3).

Upon receiving the HDM, the mobile station modifies the active group according to the contents of the HDM, that is, performs an ADD procedure or a DROP procedure corresponding to the indication, and then transmits the result message HCM to the system to terminate the handoff.

After receiving the HCM, the system configures new neighbor information for the changed active group and transmits the configured neighbor information to the mobile terminal using the NLUM (S5, S6).

As described above, in general, since neighboring information configured by the system side is based on the PN code, when the PN codes constituting the active group change after performing the handoff, the neighboring information also needs to be changed.

Afterwards, the changed neighbor information should be delivered to the mobile station using NLUM. When the mobile station is moving rapidly or passing through an area with poor propagation environment, many pilots are temporarily ADDed and dropped so that the active group changes frequently. As a result, the load for configuring neighboring information is increased on the system side.

In addition, since the configured neighbor information is transmitted to the mobile terminal, the number of transmissions (or message volume) of NLUMs transmitted in the radio section is increased, which causes a decrease in call quality.

An object of the present invention has been made in view of the above, and NLUM transmission criterion for changing neighboring information of a mobile station after performing a hand-off for changing a service area in a CDMA system. In order to determine, the PSMM considers the reference pilot information and the additional pilot information at the same time provides a method of reducing the number of message transmission in the radio section to improve the call quality of the entire system.

A method of improving a call quality of a communication system for achieving the above object includes the steps of: a mobile terminal periodically searching for neighboring pilots, and transmitting a PSMM to the system side requesting handoff based on the search result; Determining, by the system side, the received PSMM to determine a handoff type, and then instructing the mobile device to transmit a new active group to the mobile terminal, and modifying the active group of the mobile terminal according to the instruction. Transmitting a handoff complete message to the system side after performing a handoff; and when the system side receives a handoff complete message, a reference pilot included in the received PSMM and a reference previously received and stored. Comparing pilots, and if the reference pilots are different from each other in the comparison result, configure a current active group; Reconstructing new neighbor information using neighbor information on the pilots and transmitting the new neighbor information to the mobile terminal.

Preferably, when the reference pilots are identical to each other in the comparison result, determining whether a handoff currently performed for the mobile terminal is an ADD procedure before transmitting the newly reconstructed neighbor information; In the result, if the currently performed handoff is the ADD procedure, the method further includes comparing the strength of the pilot being ADDed with the strength of the reference pilot currently maintained by the mobile station.

Here, if the handoff currently performed for the mobile terminal is an ADD procedure, and if the strength of the pilot being ADDed in the comparison result is greater than the reference pilot strength maintained by the mobile terminal, the system side currently maintains. The new neighbor information is reconstructed by reflecting the neighbor information of the pilot to be added to the neighbor information about the active group, and transmits the new neighbor information to the mobile terminal.

1 is a flowchart illustrating a procedure of transmitting a neighbor list change message (NLUM) according to a conventional handoff.

2 is a flowchart illustrating a procedure of transmitting a neighbor list change message (NLUM) according to the handoff of the present invention.

Hereinafter, a preferred embodiment of a method for improving call quality of a communication system according to the present invention will be described with reference to the accompanying drawings.

In the present invention, in order to reduce the number of transmissions of the NLUM, the system uses the following reference pilot information and additional pilot information in the PSMM received from the mobile station. That is, the PSMM can be basically divided into fields (REF_PN, REF_PILOT_STRENGTH) including reference pilot information and fields (PILOT_PN_PHASE, PILOT_STRENGTH) including additional pilot information. In the present invention, all of these fields are used.

In this case, the REF_PN field indicates a reference pilot which is the pilot searched first by the mobile terminal in terms of time, and the REF_PILOT_STRENGTH field indicates the strength of the reference pilot. In addition, the pilot PN phase (PILOT_PN_PHASE) field and the pilot strength (PILOT_STRENGTH) field indicate the PN phase for the pilot satisfying the handoff condition as a result of the pilot search by the current mobile station and the strength of the pilot. Here, the pilot PN phase can be used to estimate the round trip delay time for the pilot to return to the base station that sent the pilot.

As mentioned earlier, the reference pilot is the first pilot that is searched by the mobile terminal among pilots belonging to the current active group in terms of time. In addition, the reference pilot is generally stronger than the other pilots in the active group.

When the reference pilot is modeled and then propagated to Equation 1, it can be seen that the reference pilot corresponds to the base station closest to the current position of the mobile station.

In Equation 1, C is carrier power, R is a transmission / reception period distance, and α is a constant having an arbitrary value.

As a result, it can be seen that the predicted hand-off zone to which the current mobile terminal is to move is an adjacent region of the reference pilot. In the present invention, when the reference pilot is changed, this handoff prediction region is also changed. In this case, the new neighbor information is reconstructed using the neighbor information on the pilots constituting the active group, and then the NLUM is transmitted to inform of this. As such, the NLUM transmission is based on a reference pilot that is closely related to the active group currently managed by the mobile station.

This is to compensate for the shortcomings that the active group is frequently changed due to the large number of pilots that are temporarily ADDed or DROPed, and thus the system side configures adjacent information each time to transmit the NLUM to the mobile terminal.

In addition, in the present invention, since the mobile terminal manages three pilot groups in addition to the active group, it is necessary to process these pilot groups in connection with the NLUM transmission.

In other words, the pilot PN phase reported for the pilot satisfying the handoff condition in the pilot search results of the neighboring or residual groups by the current mobile station and the fields indicating the strength of the pilot are analyzed. Then, when the current handoff is the ADD procedure and the strength of the pilot being ADD is greater than the strength of the current reference pilot, the system side reconstructs the new neighbor information using the neighbor information for these pilots, and then transmits an NLUM to inform this.

In this case, the NLUM is transmitted because a new base station is located closer than the base station corresponding to the reference pilot although the handoff expected area of the mobile station has not occurred. That is, since a new handoff predicted region is generated, neighboring information related to this is transmitted to the mobile station.

However, if the reference pilot of the active group that the mobile terminal is searching for is not changed, transmission of neighboring information related to this is impossible even though a new handoff predicted area has occurred. Failure to maintain proper contiguous information for handoffs.

In other words, in the present invention, the system side of the present invention uses the adjacent information on these pilots when the current handoff is the ADD procedure and the strength of the pilot being ADD is greater than the strength of the current reference pilot. By reconstructing the new neighbor information and transmitting the NLUM to inform it, it is possible to appropriately modify the neighbor information maintained by the mobile station to support smooth pilot search of the mobile station.

The following describes the call quality improving method of the communication system according to the present invention in more detail.

2 is a flowchart illustrating a NLUM transmission procedure according to the handoff of the present invention, which is a system-side processing procedure for minimizing the number of transmissions (or message volume) of NLUMs transmitted in a radio section.

The mobile terminal always monitors and measures the pilot strengths included in the active group, the candidate group, the neighboring group, and the residual group, respectively, and measures the pilot strength of the neighboring group or the remaining group among the predetermined threshold values (T_ADD, T_DROP, T_COMM, etc.).

At this time, if the measured pilot strength satisfies the handoff condition, the PSMM including the pilot strength is transmitted to the system to request ADD handoff or DROP handoff.

As a result, the system side (base station and control station) performs a handoff based on the Nth PSMM received from the mobile terminal (S10, S20, S30).

In this regard, the system side first receives the Nth PSMM from the mobile station (S10), and in particular, the control station analyzes the received PSMM and sets another call path for the mobile station from the pilot information included in the PSMM. Or, it is determined which procedure to perform a DROP procedure for recovering a preset call path (S20).

The control station then delivers the new active group to the mobile terminal. In other words, the HDM (or EHDM or GHDM) is transmitted to the mobile terminal to instruct handoff (S30).

Upon receiving the HDM, the mobile station modifies the active group according to the contents of the HDM, that is, performs an ADD procedure or a DROP procedure corresponding to the indication, and then transmits the result message HCM to the system to terminate the handoff.

After receiving the HCM, the system side configures new neighbor information for the newly changed active group in the following two cases and transmits the mobile terminal to the mobile station using the NLUM (S50 to S100).

In the first case, the reference pilot of the REF_PN field included in the currently received Nth PSMM is compared with the reference pilot of the REF_PN field included in the (N-1) th PSMM previously received and stored (S50). If two baseline pilots compared after this are different, that is, when the current baseline pilot is changed compared to the previous baseline pilot, it means that the estimated handoff area of the mobile station is changed. Therefore, adjacent information about the pilots constituting the active group is obtained. After reconstructing the new neighbor information using the NLUM to inform this (S70, S80).

In the second case, when two reference pilots compared differently from each other are the same, that is, when the current reference pilot is not changed compared to the previous reference pilot, it is first determined whether the currently performed handoff is the ADD procedure (S90). At this time, if the currently performed handoff is the ADD procedure, if the strength of the pilot being ADD is greater than that of the pilot being ADD again compared with the strength of the reference pilot maintained by the current mobile terminal (S100), This means that the mobile station is closer to the base station to which the mobile station is currently ADDed. It transmits to the mobile terminal (S70, S80).

According to the method for improving the call quality of the communication system according to the present invention described above, when the mobile terminal moves quickly or passes through an area where the radio wave environment is poor, frequent adjacent information transmission due to the increase in the number of pilots temporarily added is reduced. .

In other words, in the present invention, since neighboring information transmission (NLUM transmission) for the active group is performed based on the reference pilot information and the additional pilot information, the number of message transmissions in the radio section is reduced. This reduces the load on the system, resulting in an improved call quality for the entire system.

In addition, the present invention is to maintain a good call quality by performing an appropriate handoff, the call cutting phenomenon is prevented.

Claims (3)

The mobile terminal periodically searches for neighbor pilots, and transmits a PSMM to the system side requesting handoff based on the search result; Analyzing, by the system side, the received PSMM to determine a handoff type, and instructing the mobile terminal to transmit a new active group to the corresponding handoff; Transmitting, by the mobile terminal, its own active group and performing a handoff according to the indication, a handoff completion message to the system side; When the system side receives the handoff completion message, comparing the reference pilot included in the received PSMM with a reference pilot previously received and stored; In the comparison result, if the reference pilots are different from each other, the step of reconstructing the new neighbor information using the neighbor information for the pilots constituting the current active group and transmits it to the mobile terminal, If the reference pilots are identical to each other in the comparison result, before transmitting the newly reconstructed neighbor information, Determining whether the handoff currently performed for the mobile terminal is an ADD procedure; and if the handoff currently performed is an ADD procedure, the strength of the pilot being added and the criteria currently maintained by the mobile terminal. And comparing the strengths of the pilots. delete The system side according to claim 1, wherein if the handoff currently performed for the mobile terminal is an ADD procedure, and the strength of the pilot being ADDed in the comparison result is greater than the reference pilot strength maintained by the mobile terminal, And reconstructing the new neighbor information by reflecting the neighbor information of the pilot to be added to the neighbor information on the currently active group, and transmitting the new neighbor information to the mobile terminal.