KR100523259B1 - How to block soft handoff processing in fixed terminal of WLL system - Google Patents

Abstract

The present invention relates to a soft handoff processing method in a fixed terminal of a WLL system, and more particularly, to block a soft handoff processing in a fixed terminal of a WLL system that blocks a soft handoff process, which is a handoff between two base stations The method of the present invention relates to a method for blocking soft handoff processing in a fixed terminal of a WLL system according to the present invention, wherein the soft handoff processing is not performed at a fixed terminal located in a soft handoff region between a cell. Only one base station channel is assigned to a fixed terminal at all times, which not only wastes channel element resources of the base station, but also prevents an increase in the base station due to continuous soft handoff processing. It works.

Description

How to block soft handoff processing in fixed terminal of WLL system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for processing soft handoff in a fixed terminal of a WLL (Wireless Local Loop) system. The present invention relates to a method for blocking soft handoff processing in a WLL system that prevents the occurrence of a block.

In the conventional WLL system, a soft handoff processing method in a fixed terminal includes a fixed terminal located in a soft handoff region between a cell and a cell from two base stations mounted in each cell. Simultaneously receive a pilot signal. Then, the fixed terminal outputs a pilot strength measurement message for requesting soft handoff processing to the control station, and the control station receives a pilot strength measurement message output from the fixed terminal, and then hands. Determine whether to perform off processing. Then, the control station outputs a handoff processing message (Handoff Direction Message) to the fixed terminal, and simultaneously outputs a handoff processing control signal to two base stations. Then, the two base stations allocate one channel each so as to smoothly process the soft handoff process of the fixed terminal. In this case, the soft handoff operation is repeatedly performed.

However, as the soft handoff processing method in the fixed terminal of the conventional WLL system described above, since the fixed terminal located in the soft handoff region between the cell must always perform the soft handoff processing, Even though each channel must be allocated, the fixed terminal always allocates two base station channels, which wastes channel element resources of the base station, thereby reducing subscriber capacity per cell and continuing soft handoff processing. There is a problem that the load in the base station due to the operation increases.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to prevent channel resources of channel elements mounted in each base station from being wasted due to soft handoff processing, The present invention provides a method for blocking soft handoff processing in a fixed terminal of a WLL system that allows a load of a base station to be reduced.

In order to achieve the above object, a soft handoff process blocking method in a fixed terminal of a WLL system according to an embodiment of the present invention includes: a first base station having a first channel element unit and a first control unit; In the second base station having a channel element unit and the second control unit, a control station having a call processing control unit, a fixed terminal and a BSM system, a soft handoff blocking method comprising:

A first step of the fixed terminal receiving an A pilot signal transmitted from a first base station and a B pilot signal transmitted from a second base station; Transmitting, by the fixed terminal, a pilot strength measurement message including an A pilot signal strength value and a B pilot signal strength value to a call processing controller of a control station through a serving base station; A third step of receiving, by the call processing control unit of the control station, a pilot strength measurement message and determining which of the pilot signal strengths among the A and B pilot signal strength values is greater; A fourth step of extinguishing the B pilot signal transmitted from the second base station if the A pilot signal strength value is greater than the B pilot signal strength value in the third step; A fifth step of, by the call processing controller, transmitting a handoff processing message including only A pilot signal strength to the fixed terminal, so that the fixed terminal receives only the A pilot signal transmitted from the first base station; The fixed terminal receives the handoff processing message including the A pilot signal strength value, ignores the B pilot signal transmitted from the second base station, and continuously receives only the A pilot signal transmitted from the first base station. With six steps; And a seventh step of transmitting, by the fixed terminal, a handoff end message to the call processing control unit of the control station.

In addition, the soft handoff processing blocking method in the WLL system according to the embodiment of the present invention includes a first base station having a first channel element unit and a first control unit, and a second channel element unit and a second control unit. A soft handoff blocking method in a WLL system comprising a second base station, a control station having a call processing control unit, a fixed terminal, and a BSM,

A first step of the operator inputting the "ADD" blocking threshold value, the "DROP" blocking threshold value and the "COMP" blocking threshold value which are the handoff blocking parameter values into the BSM; A second step of transmitting, by the BSM, a handoff blocking parameter value input by an operator, an “ADD” blocking threshold value, a “DROP” blocking threshold value, and a “COMP” blocking threshold value to a call processing controller of the control station; The call processing control unit receives the "ADD" cutoff threshold value, the "DROP" cutoff threshold value, and the "COMP" cutoff threshold value, which are the handoff cutoff parameter values, and receives the handoff cutoff parameter on its handoff algorithm. 3 'step of changing the value to the first base station and the second base station, wherein the call processing control unit changes the "ADD" blocking threshold value, the "DROP" blocking threshold value and the "COMP" blocking threshold value which are handoff blocking parameter values. A fourth 'step of transmitting to the first and second controllers mounted in the domestic, respectively; The first and second controllers mounted in the first base station and the second base station receive their own "ADD" cutoff threshold value, "DROP" cutoff threshold value and "COMP" cutoff threshold value, which are handoff blocking parameter values. A fifth 'step of changing the handoff parameter value set in the channel element portion of the " ADD " cutoff threshold value, the " DROP " cutoff threshold value and the " COMP " cutoff threshold value, respectively; Transmitting a handoff process impossible pilot signal to the fixed terminal by the first base station and the second base station; The fixed terminal is characterized by consisting of the 7 'step of performing only the normal call processing operation.

Hereinafter, a method for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of an apparatus for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention. FIG. 1 is a block diagram of a soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention. The apparatus includes a control station 400 having a fixed terminal 100, a first base station 200, a second base station 300, a call control processor 401, and a base station (BSM). Management (hereinafter referred to as BSM) (500).

The fixed terminal 100 is a fixed terminal which does not move and receives an A pilot signal transmitted from the first base station 200 and a B pilot signal transmitted from the second base station 300 during a soft handoff process. The pilot strength measurement message including the A pilot signal strength value and the B pilot signal strength value is transmitted to the call processing controller 401 mounted in the control station 400 via the corresponding base station 200 or 300.

Thereafter, the fixed terminal 100 receives a handoff processing message including only one pilot signal of two pilot signals output from the call processing controller 401 and does not perform soft handoff processing. Through the base station (200, 300) transmits a handoff completion message (Handoff Completion Message) to the call processing control unit 401 of the control station 400, and then with the base station (200, 300) currently serving (Serving) It performs the normal call processing operation.

On the other hand, the first base station 200 transmits a periodic A pilot signal to the fixed terminal 100, and if it is a serving base station, the call processing operation between the fixed terminal 100 and the control station 400 is It performs a role of relaying to be performed, it is composed of a first channel element unit 201, the first control unit 202 and the like.

In addition, the first channel element 201 mounted in the first base station 200 is composed of a plurality of channel elements and is connected one-to-one with the fixed terminal 100, and performs call processing modulation / demodulation operation and call processing encoding / It performs a call processing operation such as an encoding / decoding operation.

The first control unit 202 mounted in the first base station 200 controls overall call processing operations such as channel allocation of the first channel element unit 201.

On the other hand, the second base station 300 transmits a periodic B pilot signal to the fixed terminal 100, and if it is a serving base station, the call processing operation between the fixed terminal 100 and the control station 400 is It serves as a relay to be performed, and is composed of a second channel element unit 301, a second control unit 302 and the like.

In addition, the second channel element unit 301 mounted in the second base station 300 is composed of a plurality of channel elements to perform call processing operations such as call processing modulation / demodulation operation and call processing encoding / decoding operation. Play a role.

The second control unit 302 mounted in the second base station 300 controls overall call processing operations such as channel allocation of the second channel element unit 301.

On the other hand, the call processing control unit 401 mounted in the control station 400, during the soft handoff processing, the A pilot signal strength value and the B pilot output by the fixed terminal 100 through the base station (200, 300) A pilot strength measurement message including a signal strength value is input, and the first base station 200 and the second base station 200 determine whether the pilot signal intensity among the A pilot signal strength value and the B pilot signal strength value is larger. The base station 300 determines which base station is the serving base station.

Then, when the A pilot signal strength value is greater than the B pilot signal strength value, the call processing controller 401 performs the current call processing operation with the fixed terminal 100. As the serving base station, the B pilot signal transmitted from the second base station 300 is extinguished, and a handoff processing message including the A pilot signal strength value is transmitted to the fixed terminal 100. The terminal 100 receives the handoff end message transmitted from the terminal 100, and recognizes that the handoff process is terminated.

Meanwhile, when the B pilot signal strength value is larger than the A pilot signal strength value, the call processing controller 401 may serve the second base station 300 to perform a current call processing operation with the fixed terminal 100. As the base station, the A pilot signal transmitted from the first base station 200 is extinguished, and a handoff processing message including the B pilot signal strength value is transmitted to the fixed terminal 100. Then, the fixed terminal 100 is transmitted. Receives the handoff end message transmitted from the (100) receives the role, it recognizes that the handoff process is terminated.

In addition, the BSM 500 performs an operation of managing / operating the first and second base stations 200 and 300 and the control station 400, and operates an interface between an operator and the control station 400. In charge of this role.

Next, a method for blocking soft handoff processing in the fixed terminal of the WLL system according to an embodiment of the present invention using the soft handoff processing blocking device in the fixed terminal of the WLL system having the above configuration will be described. .

2 is an operation flowchart showing a method for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention, and FIG. 3 is a soft flow chart of a fixed terminal of a WLL system according to an embodiment of the present invention. As an operation flowchart showing a handoff processing interruption method, S denotes a step.

First, a method for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention will be described with reference to FIG. 2.

First, the fixed terminal 100 located in the soft handoff region between the cell on which the first base station 200 is mounted and the cell on which the second base station 300 is mounted is transmitted by the first base station 200. A pilot signal and a B pilot signal transmitted from the second base station 300 are simultaneously received (S1).

In addition, the fixed terminal 100 measures the strength of the A pilot signal transmitted from the first base station 200 and the strength of the B pilot signal transmitted from the second base station 300, and then the two pilots. The pilot strength measurement message including the signal strength value is transmitted to the serving base station among the first base station 200 and the second base station 300. Then, the serving base station among the first base station 200 and the second base station 300 receives the pilot strength measurement message transmitted from the fixed terminal 100, and the call processing control unit 401 of the control station 400 (S2).

On the other hand, the call processing control unit 401 mounted in the control station 400 receives the pilot strength measurement message, and determines which of the pilot signal strength values of the A and B pilot signal strength values is greater. Determine (S3).

At this time, if the A pilot signal strength value is greater than the B pilot signal strength value in the third step S3, the call processing controller 401 destroys the B pilot signal transmitted from the second base station 300 ( S4).

In addition, the call processing controller 401 may be configured to receive a handoff processing message including only the A pilot signal strength, so that the fixed terminal 100 receives only the A pilot signal transmitted from the first base station 200. Transmission to the fixed terminal 100 (S5).

Then, the fixed terminal 100 receives the handoff processing message including only the A pilot signal strength, ignores the B pilot signal transmitted from the second base station 300, and in the first base station 200 Only the transmitting A pilot signal is continuously received. Accordingly, the fixed terminal 100 performs a normal call processing operation with the first base station 200 currently serving without performing soft handoff processing (S6).

Subsequently, the fixed terminal 100 transmits a handoff end message to the call processing control unit 401 of the control station 400 through the first base station 200 to terminate the soft handoff processing operation ( S7).

Meanwhile, when the B pilot signal strength value is larger than the A pilot signal strength value in the third step S3, the call processing controller 401 destroys the A pilot signal transmitted from the first base station 200 ( S8).

In addition, the call processing controller 401 may be configured to receive a handoff processing message including only the B pilot signal strength so that the fixed terminal 100 receives only the B pilot signal transmitted from the second base station 300. Transmission to the fixed terminal 100 (S9).

Then, the fixed terminal 100 receives the handoff processing message including only the B pilot signal strength, ignores the A pilot signal transmitted from the first base station 200, and the second base station 300 Only the transmitting B-pilot signal continues to be received. Accordingly, the fixed terminal 100 performs a normal call processing operation with the second base station 300 currently serving without performing the soft handoff process (S10).

Subsequently, the fixed terminal 100 transmits a handoff end message to the call processing control unit 401 of the control station 400 through the second base station 300 to terminate the soft handoff processing operation ( S11).

Meanwhile, a method for blocking soft handoff processing in the fixed terminal of the WLL system according to this embodiment of the present invention will be described with reference to FIG. 3.

First, the operator inputs the handoff blocking parameter values "ADD" blocking threshold value, "DROP" blocking threshold value and "COMP" blocking threshold value to the BSM 500 so that the soft handoff processing operation is not performed. (S1 ').

Then, the BSM 500 transmits the "ADD" blocking threshold value, the "DROP" blocking threshold value, and the "COMP" blocking threshold value which are the handoff blocking parameter values input by the operator. 401) (S2 ').

Meanwhile, the call processing control unit 401 receives the "ADD" blocking threshold value, the "DROP" blocking threshold value and the "COMP" blocking threshold value which are the handoff blocking parameter values transmitted from the BSM 500, and receives its own value. The handoff parameter value on the handoff algorithm is changed to the handoff cutoff parameter value (S3 ') Therefore, the soft handoff algorithm in the control station 400 is not performed, so that the control station 400 is a soft hand. Do not perform the off processing operation.

Subsequently, the call processing control unit 401 transmits the "ADD" blocking threshold value, the "DROP" blocking threshold value, and the "COMP" blocking threshold value which are the handoff blocking parameter values received through the BSM 500, to the first base station. And transmit to the first and second controllers 202 and 302 mounted in the 200 and the second base station 300 (S4 ').

Then, the first and second control units 202 and 302 mounted in the first base station 200 and the second base station 300 output the handoff blocking parameter output from the call processing control unit 401 in the control station 400. After inputting the "ADD" cutoff threshold value, "DROP" cutoff threshold value and "COMP" cutoff threshold value, the handoff parameter values set in the respective channel element parts 201 and 301 are "ADD" cutoff threshold, respectively. Value, the "DROP" blocking threshold value and the "COMP" blocking threshold value are changed (S5 ').

On the other hand, the first base station 200 and the second base station 300 transmits a pilot signal impossible to handoff processing to the fixed terminal 100 (S6 ').

Therefore, the fixed terminal 100 receives a handoff process impossible pilot signal output from the first base station 200 and the second base station 300, and performs only normal call processing operation without processing soft handoff. (S7 ').

As described above, according to the method for blocking soft handoff processing in the fixed terminal of the WLL system according to the present invention, the soft handoff processing is always performed by the fixed terminal located in the soft handoff region between the cell. Only one base station channel is allocated to a fixed terminal, which not only wastes channel element resources of the base station, but also prevents an increase in load in the base station due to continuous soft handoff processing. There is.

1 is a functional block diagram showing an apparatus for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention;

2 is a flowchart illustrating a method for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention;

3 is an operation flowchart illustrating a method for blocking soft handoff processing in a fixed terminal of a WLL system according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

100: fixed terminal 200: first base station

201: first channel element unit 202: first control unit

300: second base station 301: second channel element portion

302: second control unit 400: control station

401: call processing control unit 500: BSM

Claims (2)

A first base station having a first channel element unit and a first control unit, a second base station having a second channel element unit and a second control unit, a control station having a call processing control unit, a fixed terminal, and a BSM In the soft handoff blocking method in the configured WLL system, A first step of the fixed terminal receiving an A pilot signal transmitted from a first base station and a B pilot signal transmitted from a second base station; Transmitting, by the fixed terminal, a pilot strength measurement message including an A pilot signal strength value and a B pilot signal strength value to a call processing controller of a control station through a serving base station; A third step of receiving, by the call processing control unit of the control station, a pilot strength measurement message and determining which of the pilot signal strengths among the A and B pilot signal strength values is greater; A fourth step of extinguishing the B pilot signal transmitted from the second base station if the A pilot signal strength value is greater than the B pilot signal strength value in the third step; A fifth step of, by the call processing controller, transmitting a handoff processing message including only A pilot signal strength to the fixed terminal, so that the fixed terminal receives only the A pilot signal transmitted from the first base station; The fixed terminal receives the handoff processing message including the A pilot signal strength value, ignores the B pilot signal transmitted from the second base station, and continuously receives only the A pilot signal transmitted from the first base station. With six steps; And a seventh step of transmitting, by the fixed terminal, a handoff end message to the call processing control unit of the control station. The method of claim 1, In the third step, an eighth step of extinguishing the A pilot signal transmitted from the first base station if the B pilot signal strength value is greater than the A pilot signal strength value; A ninth step of the call processing control unit transmitting a handoff processing message including only the B pilot signal strength to the fixed terminal to cause the fixed terminal to receive only the B pilot signal transmitted from the second base station; The fixed terminal receives the handoff processing message including the B pilot signal strength value, ignores the A pilot signal transmitted from the first base station, and continuously receives only the B pilot signal transmitted from the second base station. 10 steps; And an eleventh step of transmitting, by the fixed terminal, a handoff end message to the call processing control unit of the control station.