KR100872546B1 - System and method for prevent ping-pong at hard handoff zone in the mobile communication system - Google Patents

Abstract

The present invention relates to a ping-pong prevention method in a hard handoff area in a mobile communication system. In particular, when the signal strength of a neighboring cell is greater than a predetermined reference value than the signal strength of a serving cell communicating with the mobile terminal, the signal is increased. Delivering strength information to the base station; And receiving, by the base station, the signal strength information, by comparing the signal strength of the serving cell with a reference value preset for handoff.

Hard handoff, serving cell, neighbor cell, signal strength

Description

System and method for prevent ping-pong at hard handoff zone in the mobile communication system

1 is a diagram illustrating a handoff concept in a general mobile communication system.

2 is a diagram illustrating a hard handoff procedure according to the prior art.

3 is a diagram illustrating a hard handoff procedure to which serving cell state monitoring is applied according to a first embodiment of the present invention.

4 is a diagram illustrating a frequency setting method in a hard handoff area according to a second embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

100: switch 110: base station controller

121, 122, 123: base station 130: mobile terminal

401, 402, 403: frequency

The present invention relates to an apparatus and method for handoff of a mobile terminal in a mobile communication system, and more particularly, to a system and method for ping-pong prevention in a hard handoff area.

Since the cellular cellular mobile telecommunication system was developed in the United States in the late 1970s, AMPS (Advanced Mobile Phone Service), which can be called analog 1G (1st Generation) mobile communication system in Korea, Began to provide voice communication services. Since then, the 2nd generation (2G) mobile communication system has been launched and commercialized in the mid-1990s, and the IMT, a 3rd generation (3G) mobile communication system, aimed at improved wireless multimedia and high-speed data services in the late 1990s. -2000 (International Mobile Telecommunication-2000) has been commercialized and operated in part.

Currently, the 3G mobile communication system is developing into a 4G (4th Generation) mobile communication system. The fourth generation mobile communication system is not only a simple wireless communication service like the previous generation mobile communication systems, but also aims at efficient interworking and integration services between a wired communication network and a wireless communication network and is faster than the third generation mobile communication system. Techniques for providing data transmission services are being standardized.

As is well known, in a system for wireless communication between mobile communication terminals, when a frequency allocation (FA) method according to a plurality of sectors is used between base stations having different frequencies, the mobility of the mobile communication terminals is increased. In order to secure the hand-off between the base stations to perform a smooth hand-off (Hand-off), this handoff function is to prevent the call setup failure due to the mobility of the terminal during the call setup attempt of the mobile communication terminal.

On the other hand, such handoff techniques include a soft hand-off method and a hard hand-off method. The soft handoff is a method in which communication between a terminal and a base station is continuously performed without interruption of a traffic frame in a handoff area, and is mainly used when base stations in a handoff area belong to the same exchange. In this way, soft handoff is not interrupted in traffic frames, and thus superior call quality is maintained compared to hard handoff.

On the other hand, hard handoff is a disconnection of a traffic frame at an instant. In a handoff area, a UE disconnects a communication with a serving base station currently serving, and a target base station and new traffic to hand off. A traffic passage is formed. At this time, since interruption of the traffic frame occurs instantaneously, hard handoff is difficult to maintain excellent call quality compared to soft handoff.

However, the reason why hard handoff can be used in a mobile communication service is because it is common to use a plurality of exchanges for a nationwide service. In other words, the service area per exchange is divided by region, and moreover, there are not many cases in which the system manufacturers differ by region.

Hereinafter, the concept of soft handoff and hard handoff will be briefly described with reference to FIG. 1.

Referring to FIG. 1, one base station controller 110 controls a plurality of base stations 121 to 123, and one exchange 100 controls a plurality of base station controllers 110.

On the other hand, when the mobile terminal 130 moves between the base stations 121a to 123a within the coverage of the exchange A (100a) and the base station controller A (110a) that is the same exchange, a soft handoff is performed. However, when the mobile terminal 130 moves from the coverage area of the exchange A 110a to the coverage area of the exchange B 100b which is another exchange, a hard handoff is performed.

Hereinafter, a procedure in which the hard handoff is performed will be described with reference to FIG. 2.

Referring to FIG. 2, the mobile terminal 130 performs wireless communication through the base station A 120a connected to the switch A 110a to perform a wireless communication, and the base station B 120b connected to the switch B 110b in a busy state (S201). Hard handoff procedure is performed.

In more detail, the mobile terminal 130 is a neighboring cell of a serving cell (that is, a region of a serving cell (ie, the area of the base station A 120a), which is determined by a reference value (hereinafter, 'T_COMP'). If there is a cell having a signal strength as high as (hereinafter, referred to as a 'T_COMP condition') (S202), this is reported to the base station A 120a (S203). In this case, an adjacent cell having a higher signal intensity than a serving cell is referred to as a candidate cell.

The base station A 120a determines a target cell (for example, determining a recommendation cell having the highest signal strength as the target cell) according to the state of the recommended cell transmitted by the mobile terminal 130. The mobile terminal 130 determines the handoff of the determined target cell to the base station B 120b (S204).

First, when the base station A 120a requests the handoff to the exchange A 110a, the exchange A 110a requests the handoff to the base station B 120b via the exchange B 110b (S206, S207). )

At this time, the base station B (120b) allocates resources (S208) for the mobile terminal 130 to be handed off, and transmits the forward traffic frame to the mobile terminal 130 (S209).

In addition, the base station B (120b) is to respond to the handoff request (S210, S211, S212) to the base station A (120a) through the switch B (110b) and switch A (110a). The base station A 120a which receives the handoff response from the base station B 120b instructs the mobile terminal 130 to handoff (S213).

The mobile terminal 130 receiving the handoff instruction cuts the traffic path to the base station A 120a (S214), and acquires forward traffic of the base station B 120b (S215). At this time, the reverse traffic frame is transmitted to the base station B 120b through the obtained forward traffic information (S216).

Then, the mobile terminal 130 informs the base station B (120b) of the handoff completion (S217), the base station B (120b) to the exchange A (110a) through the exchange B (110b). The mobile terminal 130 notifies that the handoff is completed (S218 and S219). On the other hand, the switch A (110a) receiving the notification of the handoff complete switching the traffic path to the mobile terminal 130 to the switch B (110b) (S220), and then release the resource to the base station A (120a) ( S221) is indicated.

Finally, the base station A 120a releases resources according to the resource release instruction of the exchange A 110a, and the mobile terminal 130 calls through the base station B 120b and the exchange B 110b. By performing S222, the handoff procedure is completed.

Meanwhile, when the mobile terminal 130 moves between the coverage area of the base station A and the coverage area of the base station B, the terminal that has completed the handoff to the target cell again performs a hard handoff procedure back to the original serving cell. If this phenomenon is repeated, a ping pong phenomenon occurs in which handoff between cells is continuously performed. That is, the ping-pong phenomenon is a phenomenon in which the serving base station and the target base station are frequently inverted in the handoff area, which is critical for maintaining call quality in the handoff area.

For example, as described above, when there is a recommended cell having a better state by T_COMP than the serving cell, the serving base station instructs the mobile terminal to handoff, which is unnecessarily performed even though the serving cell is in good condition. Can be. Moreover, the handoff of the target cell in a good serving cell has a problem of increasing the probability of the ping pong phenomenon returning to the previous serving cell.

Accordingly, an object of the present invention is to add a condition monitoring condition of a serving cell to a hard handoff decision condition, so that a ping-pong prevention system in a hard handoff area in a mobile communication system does not perform unnecessary handoff in a good serving cell. And providing a method.

It is also an object of the present invention to provide a system and method for preventing ping pong in a hard handoff area in a mobile communication system that minimizes ping-pong phenomenon by differentiating a frequency utilization range for each system of the hard handoff area.

The method of the present invention for achieving the above object; Transmitting the signal strength information to a base station when the signal strength for a neighboring cell becomes greater than a predetermined reference value than the signal strength for a serving cell communicating with the mobile terminal; And receiving, by the base station, the signal strength information, comparing the signal strength of the serving cell with a preset reference value for handoff, and determining whether to handoff the signal, wherein the base station determines the signal strength of the serving cell. Transitioning a handoff state of the mobile terminal to a handoff pending state when is equal to or greater than a preset reference value for the handoff; Driving a call strength monitoring timer; And performing a handoff procedure when a forward frame error rate collected from the mobile terminal is greater than or equal to a preset reference value within a time of a signal strength monitoring timer.

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The forward frame error rate collected from the mobile terminal is characterized in that the difference between the time at which the signal strength information is received from the mobile terminal and the forward frame error rate information receiving time is less than a predetermined time.

Requesting signal strength information from the base station when the driven signal strength monitoring timer expires; Transmitting current signal strength information of the mobile terminal to the base station; And restarting the signal strength monitoring timer when the signal strength for the serving cell is equal to or greater than a predetermined reference value for the handoff.

Requesting signal strength information from the base station when the driven signal strength monitoring timer expires; Transmitting current signal strength information of the mobile terminal to the base station; And initiating a handoff state of the mobile terminal when the signal strength for the neighboring cell is not greater than a predetermined reference value than the signal strength for the serving cell communicating with the mobile terminal.

The system of the present invention for achieving the above object; A first base station including normal frequencies on which one or more traffic channels are mounted and a pilot beacon frequency for handoff on which the traffic channel is not mounted; And a second base station including normal frequencies on which a plurality of traffic channels are mounted, and setting a frequency of one of the normal frequencies to a handoff dedicated frequency reserved for handoff, and handoff of the second base station. The coverage area of the dedicated frequency may be configured to be extended in the direction of the first base station by discriminating from normal frequencies other than the handoff dedicated frequency.

When the mobile station in the call over the normal frequency of the first base station moves from the coverage area of the first base station to the coverage area of the second base station, the mobile terminal is handed off to the handoff dedicated frequency of the second base station It is characterized in that the communication.

When the mobile terminal in the idle state is introduced into the handoff dedicated frequency of the second base station, the mobile terminal is normal to one of normal frequencies other than the handoff dedicated frequency through the broadcast channel message of the handoff dedicated frequency. And switch to communicate at a frequency.

The available frequency information included in broadcast channel messages of normal frequencies other than the handoff dedicated frequency of the second base station may not include the handoff dedicated frequency.

DETAILED DESCRIPTION Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description, detailed descriptions of well-known functions or configurations will be omitted when it is determined that the detailed descriptions of the known functions or configurations may unnecessarily obscure the subject matter of the present invention.

Conventional hard handoff schemes do not account for the good state of the serving cell, resulting in frequent handoffs in the hard handoff region, resulting in poor call quality. Therefore, the present invention suppresses frequent handoffs in such hard handoff areas, making it possible to maintain excellent call quality.

On the other hand, the present invention proposes two embodiments to suppress the ping pong phenomenon in the handoff area. The first method is to determine the optimal handoff point by monitoring the status of the serving cell, and the second method is to minimize the ping-pong phenomenon by differentiating the frequency utilization range for each system in the hard handoff area.

<First Embodiment-Method of Determining Optimal Handoff Time by Monitoring Status of Serving Cell>

The monitoring of the state of the serving cell according to the first embodiment of the present invention proceeds as follows.

1) When the signal strength of a recommendation cell becomes higher than a predetermined reference value T_COMP more than the signal strength of a serving cell (hereinafter, referred to as a 'T_COMP condition'), the UE sets the signal strength of the recommended cell. Deliver information to the system (ie, the base station).

2) The system receiving the signal strength information checks whether the signal strength of the serving cell is less than a reference value for hard handoff (Active Minimum Signal Strength, hereinafter referred to as 'AMSS'). At this time, if there are a plurality of serving cells, the signal strength of the best signal is checked.

3) If the signal strength of the serving cell is less than the AMSS value, handoff is performed according to the conventional hard handoff procedure.

4) When the signal strength of the serving cell is equal to or greater than AMSS, the system transitions the handoff state to the hard handoff pending state and drives a signal strength monitoring timer. However, when the most recent forward frame error rate (hereinafter, referred to as 'FER') collected from the UE is greater than or equal to a predetermined FER threshold (hereinafter, referred to as 'FER _th '), the existing hard hand. Perform the handoff according to the off procedure.

In this case, the most recent forward FER refers to a case where the difference between the signal strength information reception time and the forward FER information reception time from the terminal is less than a predetermined time. For example, only forward FER information received up to 1 second before is regarded as a valid value.

5) When the signal strength monitoring timer expires, the system requests the signal strength information from the terminal, and the terminal transmits the current signal strength information to the system. On the other hand, when the signal strength of the serving cell and the recommended cell satisfies the aforementioned hard handoff condition (T_COMP condition), but does not satisfy the AMSS condition, the system restarts the signal strength monitoring timer. If the signal strengths of the serving cell and the recommended cell do not satisfy the aforementioned hard handoff condition (T_COMP condition), the system initializes the handoff state.

6) During the driving of the signal strength monitoring timer, the system receiving the forward FER information from the terminal immediately stops the signal strength monitoring timer and requests the terminal for the signal strength information. In this case, it is preferable that the forward FER is applied when it is not '0'.

Hereinafter, an example in which the hard handoff method to which the state monitoring of the serving cell is applied according to the first embodiment of the present invention will be described with reference to FIG. 3.

3 is a diagram illustrating a hard handoff procedure to which a serving cell state monitoring is applied according to a first embodiment of the present invention.

Referring to FIG. 3, in a call state in which the mobile terminal 130 communicates wirelessly through the base station A 120a and the exchange A (S301), the signal strength of the base station B, which is one of the recommended cells, is the serving cell. When the signal strength is higher than the predetermined reference value T_COMP or more (that is, when the 'T_COMP condition' is satisfied) (S302), the mobile station transmits signal strength information of the base station B to the base station A (S303).

Upon receiving the signal strength information, the base station A 120a checks whether the signal strength of the base station A 120a is less than a reference value (ie, AMSS) for hard handoff (S304).

When the signal strength of the base station A 120a is equal to or greater than AMSS, the system changes the handoff state to the hard handoff pending state and drives the signal strength monitoring timer (S305). Then, when the signal strength monitoring timer expires (S306), request signal strength information back to the mobile terminal (S307), and the mobile terminal transmits the current signal strength information to the base station A (120a) (S308). Done.

Next, when the signal strengths of the base station A 120a and the base station B 120b satisfy the aforementioned hard handoff condition (T_COMP condition), but do not satisfy the AMSS condition (S309), the system stops the signal strength monitoring timer. Re-drive (S310).

During the driving of the signal strength monitoring timer, the base station A 120a which receives the forward FER information from the mobile terminal (S311) stores the received forward FER information (S312) and immediately stops the signal strength monitoring timer (S313). In step S314, the mobile terminal requests signal strength information.

At this time, if the signal strength of the base station A (120a) received from the mobile terminal does not meet the aforementioned hard handoff condition (T_COMP condition), the system initializes the handoff state (S316). In addition, the base station A 120a having received the forward FER information from the mobile terminal (S317) stores the received forward FER information (S318).

Next, as described above, when the received signal strength of the base station A 120a satisfies the aforementioned hard handoff condition (T_COMP condition) (S319), the signal strength information of the base station A 120a is received by the base station A 120a. ) To be transmitted (S320). In this case, when the base station A 120a satisfies the AMSS condition or the FER is greater than or equal to FER _th (S321), the mobile station performs a handoff procedure to the base station B (S322), thereby allowing the mobile station to access the base station B 120b and the exchange B 110b. ) Through the call (S323).

<Second Embodiment-Method of Differentiating Frequency Utilization Range by System>

The method for suppressing the ping pong phenomenon during hard handover according to the second embodiment of the present invention is a method of differentiating a frequency utilization range for each system of the hard handoff region.

4 is a diagram illustrating a frequency setting method in a hard handoff area according to a second embodiment of the present invention.

Referring to FIG. 4, frequencies A and B of the base station A are normal frequencies on which a traffic channel is mounted, but frequency C is a pilot beacon frequency for handoff without a traffic channel. Base station B is a handoff dedicated frequency reserved for handoff, although all frequencies are normal frequencies.

Here, the dedicated handoff frequency means that a frequency A or B is allocated to a terminal newly establishing a call in the region of base station B, and a frequency C is allocated only to a terminal handing off from the base station A to the base station B.

In this case, the pilot beacon frequency coverage of the base station A is reduced to the inside of the base station A, and the handoff-only frequency C of the base station B is expanded toward the base station A, thereby distinguishing it from the handoff region of other normal frequencies.

On the other hand, the handoff process according to the movement direction of the terminal is as follows.

1) When the mobile station moves from base station A to base station B

When the terminal in the call moves through the frequency A (B) of the base station A to the base station B, the frequency A (B) of the base station B becomes a recommended cell and attempts a hard handoff. In this case, the method for determining an optimal handoff time by monitoring the state of the serving cell according to the first embodiment of the present invention described above may be applied.

Meanwhile, the base station B uses frequency C as a target frequency. The terminal handoffed to the frequency C of the base station B does not have a ping-pong phenomenon of returning to the base station A since the corresponding location is not the handoff region of the frequency C. In addition, when the mobile terminal moves back to the base station A region, because the handoff region of frequency C is inside the base station A different from the other normal frequencies, the ping-pong that the terminal handoffed to the frequency A or B of the base station A returns to the base station B again. The phenomenon does not occur.

2) when the mobile station moves from base station B to base station A

The mobile terminal may be introduced into the frequency C of the base station B in the idle state. In order to serve the purpose of the handoff-only frequency, the mobile terminal may be transferred to the frequency A or B through a broadcast channel message of the frequency C. Make sure In addition, by not including the frequency C in the available frequency information included in the broadcast channel message of the frequency A or B, it is possible to prevent the case from going to the frequency C in the idle state.

When the terminal in the call moves through the frequency A (B) of the base station B to the base station A, the frequency A (B) of the base station A becomes a recommended cell and attempts a hard handoff. In this case, the method for determining an optimal handoff time through the monitoring of the state of the serving cell according to the first embodiment of the present invention is applied to prevent the case of returning to the base station B as much as possible.

When the terminal handed off to the frequency A (B) of the base station A moves back to the base station B, the terminal is handed off to the frequency C of the base station B in the same manner as described in 1).

According to the present invention, by suppressing the ping-pong phenomenon in the hard hand-off area between exchanges to the maximum, there is an advantage that can maintain excellent call quality.

Claims (10)

delete delete Transmitting signal strength information of the neighboring cell to the base station when the signal strength of the neighboring cell becomes greater than a preset reference value than the signal strength of the serving cell communicating with the mobile terminal; And The base station receiving the signal strength information compares the signal strength of the serving cell with a preset reference value for handoff and determines whether to handoff the ping-pong in a hard handoff region in a mobile communication system. In the method, The base station, if the signal strength for the serving cell is greater than or equal to a predetermined reference value for the handoff, Transitioning the handoff state of the mobile terminal to a handoff pending state; Driving a signal strength monitoring timer; And And performing a handoff procedure when the forward frame error rate collected from the mobile terminal within a time of the signal strength monitoring timer is equal to or greater than a predetermined reference value. Way. The method of claim 3, wherein the forward frame error rate collected from the mobile terminal, And a difference between the time at which the signal strength information is received from the mobile terminal and the time at which forward frame error rate information is received is less than a predetermined time. The method of claim 3, wherein when the driven signal strength monitoring timer expires, Requesting signal strength information from the base station to the mobile terminal; Transmitting current signal strength information of the mobile terminal to the base station; And re-starting the signal strength monitoring timer when the signal strength for the serving cell is equal to or greater than a predetermined reference value for the handoff. The method of claim 3, wherein when the driven signal strength monitoring timer expires, Requesting signal strength information from the base station to the mobile terminal; Transmitting current signal strength information of the mobile terminal to the base station; And And initializing a handoff state of the mobile terminal when the signal strength of the neighboring cell is not greater than a preset reference value than the signal strength of the serving cell communicating with the mobile terminal. To prevent ping pong in hard handoff areas. A first base station including normal frequencies on which one or more traffic channels are mounted and a pilot beacon frequency for handoff on which the traffic channel is not mounted; And A second base station configured to include normal frequencies on which a plurality of traffic channels are mounted, and to set a frequency of one of the normal frequencies on which the plurality of traffic channels are mounted to a handoff dedicated frequency reserved for handoff; In the hard handoff region of the mobile communication system, the coverage area of the handoff-dedicated frequency of the second base station is enlarged and differentiated from the normal frequencies other than the handoff-dedicated frequency toward the first base station. Ping pong prevention system. 8. The method of claim 7, wherein when a mobile terminal in a call over a normal frequency of the first base station moves from a coverage area of the first base station to a coverage area of the second base station, And the mobile terminal communicates by handing off a handoff dedicated frequency of the second base station in a hard handoff region in the mobile communication system. The method according to claim 7, wherein when the mobile terminal in idle state flows into a handoff dedicated frequency of the second base station, The mobile terminal is switched to communicate with one of the normal frequencies other than the handoff dedicated frequency through the broadcast channel message of the handoff dedicated frequency in the hard handoff region. Ping pong prevention system. The system of claim 7, wherein the available frequency information included in the broadcast channel message of normal frequencies other than the handoff dedicated frequency of the second base station does not include the handoff dedicated frequency. Ping pong prevention system in handoff area.

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