KR20000001857A - Handoff between multi-frequency of mobile communication system - Google Patents

Abstract

PURPOSE: A handoff performing method between the multi-frequency of a mobile communication system is provided to smoothly perform the handoff by obtaining enough time and area in handoff with virtual pilot base station. CONSTITUTION: A handoff performing method of a digital mobile communication system comprises: a first step to compare the measured base station pilot power strength with the critical value_1 to compare and decide the virtual pilot; a second step to repeatedly perform the measuring of the pilot power strength of the base station and the virtual pilot power strength while performing the first service step if the virtual pilot power strength is not over the critical value_2; a third step to direct the base station receiving the virtual detection message to change the handoff parameter; and a fourth step to perform the handoff on the basis of the changed handoff parameter by the mobile station receiving the change of the handoff parameter.

Description

Handoff Method Between Multiple Frequencies in Mobile Communication Systems

The present invention relates to a handoff method of a mobile communication system such as a cellular mobile communication system using a code division multiple access (CDMA) system, a personal communication service (PCS) system, and more particularly, a multi-frequency base station. When performing a multi-frequency hard handoff between a virtual pilot base station and an adjacent pilot pilot base station, the handoff parameter is adjusted to widen the handoff area, so that the handoff with the virtual pilot base station can be performed smoothly. A method for handoff between multiple frequencies in a communication system.

In general, a mobile communication system is a system that enables a mobile station to receive a communication service while moving.

The base station of the mobile communication system provides a communication service to the mobile station while transmitting and receiving signals with the mobile station. Such a base station transmits a pilot signal to distinguish a service area between base stations. Thus, the mobile station measures the power strength of the pilot signal transmitted from each base station, and the position of the mobile station can be known from the measured power strength of the pilot signal.

Each base station is assigned a frequency so as to transmit and receive signals with the mobile station. Each base station has a subscriber to provide a communication service, and the number of frequencies to be allocated to each base station is determined according to the number of subscribers. If the number of subscribers to provide service to one base station is sufficient for one frequency allocation, the base station is assigned one frequency. In addition, since a single frequency allocation cannot provide a communication service to a base station having a large number of subscribers, such as downtown, the base station allocates multiple frequencies such as two or three frequencies according to the number of subscribers. Thus, a base station to which one frequency is assigned is called a 1 frequency assignment (FA) base station, and a base station to which two frequencies are allocated due to a large number of subscribers is called a 2 FA base station, and a base station to which three frequencies are assigned is a 3 FA base station. This is called.

When the mobile station moves between these multi-frequency base stations, handoff is performed between the multi-frequency because the call must be continued without disconnection.

In this way, when handing off between multiple frequencies, a handoff is performed using a virtual pilot. In this case, the virtual pilot transmits a pilot from the serving base station to the neighboring base station when the neighboring base station of the serving base station does not have a frequency allocated to the neighboring base station. It is called).

The inter-cell handoff method of the inter-cell handoff method of a general mobile communication system is as follows.

If the base station in service is a 2 FA base station and the base station to which the mobile station is approaching is a 1 FA base station, the 2 FA base station can be handed off.

First, when the mobile station receiving communication service from the 2 FA base station is approaching the 1 FA base station while moving, the 2 FA base station detects that the mobile station is approaching the 1 FA base station by a signal received from the mobile station, and 2 A virtual pilot is created from the FA base station to the 1 FA base station. In this case, the adjacent 1 FA base station is called a virtual pilot base station.

Thus, when the mobile station continues to move to receive the pilot signal of the virtual pilot base station, a handoff occurs from 2 FA channels to 1 FA channel. That is, hard handoff is performed to the virtual pilot in the 2 FA channel, and soft handoff is generated between the virtual pilot and the 1 FA in the virtual pilot base station after the hard handoff to the virtual pilot is generated.

At this time, when the handoff is performed from the 2 FA channels to the virtual pilot, the value of the pilot search threshold value T_ADD is fixed among the parameters for handoff, so that the handoff region is set to a narrow range. Thus, the cell by the virtual pilot and the cell by 1 FA are set to the same area.

As a result, when the mobile station moves at a high speed, after a hard handoff from the 2 FA channel to the virtual pilot, there is not enough time to perform a soft handoff to the virtual pilot and the 1 FA channel, and thus the failure rate of the handoff is increased. There was an increasing problem.

In addition, since the mobile station fails to receive a mobile communication service due to a failure in handoff between multiple frequencies when the mobile station moves between cells, there is a problem that the reliability of the service is deteriorated.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to perform handoff when performing multi-frequency hard handoff between a multi-frequency base station and an adjacent virtual pilot base station. By providing a handoff region by adjusting a parameter value, a handoff method between multiple frequencies in a mobile communication system is provided to ensure sufficient time and area when handing off with a virtual pilot base station so that handoff can be performed smoothly. There is.

In order to achieve the above object, a multi-frequency handoff method of a mobile communication system according to the present invention,

When the mobile station is instructed to prepare for handoff with the virtual pilot base station from the serving base station, the mobile station measures the pilot power intensity and the virtual pilot power intensity of the serving base station, and then compares the measured serving base station pilot power intensity for the virtual pilot comparison decision. A first step of comparing with threshold_1;

A second step of comparing the measured virtual pilot power strength with a threshold_2 for transmitting a virtual pilot detection message when the serving base station pilot power strength is equal to or less than a threshold_1 as a result of the comparison;

A third step of transmitting, by the mobile station, the virtual pilot detection message to the serving base station if the virtual pilot power strength is greater than or equal to the threshold_2;

If the comparison results in the first step, the serving base station pilot power strength is not less than or equal to the threshold_1, or if the comparison results from the second step, the virtual pilot power strength is not more than the threshold_2 or more in service of the first step Re-executing the measurement of the pilot power and the virtual pilot power of the base station;

A fifth step of instructing, by the base station receiving the virtual pilot detection message, to change the handoff parameter;

The mobile station, instructed to change the handoff parameter, has a sixth step of performing handoff based on the changed handoff parameter.

The method for changing the handoff parameter by the base station receiving the virtual pilot detection message may include a time required from the hard handoff time between the multi-frequency in service and the virtual pilot to the soft handoff time between the same multi-frequency in the virtual pilot cell. In order to be sufficiently secured, increasing the parameters of hard handoff between multiple frequencies in service and the virtual pilot is characterized by its methodological configuration.

1 is a handoff boundary region between base stations of a mobile communication system to which the present invention is applied;

2 is a flowchart illustrating a multi-frequency handoff method of a mobile communication system according to the present invention.

<Explanation of symbols for main parts of the drawings>

10: Dongkuk Lee 20: 2FA BTS

30: virtual pilot base station

Hereinafter, a multi-frequency handoff method of a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram of a handoff boundary region between base stations to which multiple frequencies are assigned to which the present invention is applied.

As shown therein, reference numeral 10 denotes a mobile station that transmits and receives a signal with a base station while providing a communication service to a subscriber, and measures and transmits a signal of a serving base station and a signal of an adjacent base station to the base station. Reference numeral 20 denotes a 2 FA base station which transmits / receives a signal wirelessly with the mobile station 10 to provide a communication service, and is allocated multiple frequencies for wireless communication. Reference numeral 30 is a virtual pilot base station adjacent to the 2 FA base station 20 and assigned a different number of frequencies from the 2 FA base station 20 and a virtual pilot is set from the 2 FA base station 20. Reference numeral 40 is a 2 FA cell boundary indicating a service area of the 2 FA base station 20, and the set number 50 is between the 2 FA channel from the 2 FA base station 20 and the virtual pilot of the virtual pilot base station 30. Virtual pilot cell boundary for handoff. Reference numeral 60 is a boundary at which multi-frequency soft handoff is performed in the virtual pilot cell after handoff between the 2 FA channels and the virtual pilot is performed.

2 is a flowchart illustrating a multi-frequency handoff method of a mobile communication system according to the present invention.

As shown in the figure, when the mobile base station is instructed to prepare for handoff with the virtual pilot base station, the mobile station measures the pilot power strength and the virtual pilot power strength of the serving base station, and then measures the measured base station pilot power strength. A first step ST11-ST13 comparing the threshold_1 for the virtual pilot comparison determination; A second step (ST14-ST15) of comparing the measured virtual pilot power strength with a threshold_2 for transmitting a virtual pilot detection message when the serving base station pilot power strength is equal to or less than a threshold_1 as a result of the comparison; A third step (ST16-ST17) of transmitting, by the mobile station, the virtual pilot detection message to the serving base station if the virtual pilot power strength is greater than or equal to the threshold_2; As a result of the comparison in the first steps ST11-ST13, the serving base station pilot power strength is not less than or equal to the threshold_1, or in the second step of ST14-ST15, the virtual pilot power strength is greater than or equal to the threshold_2. Otherwise, a fourth step (ST14) (ST16) of re-executing the measurement operation of the pilot power intensity and the virtual pilot power intensity of the serving base station in the first step (ST11-ST13); A fifth step (ST18) instructing the mobile station to change the handoff parameter by the base station which has received the virtual pilot detection message; The mobile station instructed to change the handoff parameter comprises a sixth step ST19 for performing handoff based on the changed handoff parameter.

The base station receiving the virtual pilot detection message to change the hand off parameter,

Parameters of hard handoff between the multiple frequencies in service and the virtual pilot to ensure sufficient time from the time of hard handoff between the multi-frequency in service and the virtual pilot to the soft handoff between the same multi-frequency in the virtual pilot cell. To increase.

Referring to the multi-frequency handoff method of the mobile communication system according to the present invention configured as described above in detail as follows.

First, when the mobile station 10 receives a communication service from the 2 FA base station 20 to which 2FA is assigned and moves to approach the 1 FA base station 30 to which 1 FA is assigned, the 2 FA base station 20 ) Detects that the mobile station is approaching the 1 FA base station 30 by the signal received from the mobile station 10. The 2 FA base station 20 then creates a virtual pilot with the adjacent 1 FA base station 30. This 1 FA base station 30 becomes the virtual pilot base station 30.

When the mobile station 10 continues to move to receive the pilot signal of the virtual pilot base station 30, the mobile station 10 transmits the received signal to the 2 FA base station 20. The 2 FA base station 20 then instructs the mobile station 10 to prepare for handoff with the virtual pilot base station 30 (ST11). The mobile station 10 having received this instruction measures the pilot power strength (Ec / Io) and the virtual pilot power strength (Ec / Io) of the two FA base stations 20 in service (ST12). The measured pilot power intensities (Ec / Io) of the 2 FA base stations 20 are thus compared with threshold_1 for virtual pilot comparison determination (ST13).

As a result, if the pilot power strength of the 2 FA base station 20 in service is not less than or equal to the threshold_1, the pilot power strength and the virtual pilot power strength of the 2 FA base station 20 are measured again (ST12).

However, if the pilot power strength of the serving 2 FA base station 20 is less than or equal to the threshold_1, the measured virtual pilot power strength is compared with the threshold_2 for transmitting the virtual pilot detection message (ST14-ST15). As a result, if the virtual pilot power strength is not greater than or equal to the threshold_2, the pilot power strength and the virtual pilot power strength of the 2 FA base station 20 are measured again (ST12).

However, as a result of the comparison, if the virtual pilot power strength is greater than or equal to the threshold _2, the mobile station 10 transmits a virtual pilot detection message to the serving 2 FA base station 20 (ST16-ST17).

Upon receiving the virtual pilot detection message, the 2 FA base station 20 instructs the mobile station to change the pilot search threshold T_ADD among parameters for virtual inter-frequency handoff with the virtual pilot base station 30 (ST18). At this time, the parameter T_ADD is increased so that the time required from the hard handoff time between the multi-frequency in service and the virtual pilot to the soft handoff time between the same multi-frequency in the virtual pilot cell can be sufficiently secured.

Thus, the virtual pilot cell boundary is 60 in the conventional multi-frequency handoff method, but is expanded to 50 in the present invention.

As a result, the mobile station 10, which has received service from the 2 FA base station 20 through the 2 FA channel, performs a hard hand off at the boundary 50 of FIG. 1 based on the changed handoff parameter. (ST19).

When the hard handoff is performed between the 2 FA channels and the virtual pilot, the same multi-frequency soft handoff is performed in the virtual pilot cell. Soft handoff at this time is performed at boundary 60.

Thus, the mobile station 10 successfully hands off the channel of the virtual pilot base station 30, that is, the 1 FA base station 30, and communicates with the counterpart user through the service of the 1 FA base station 30.

Thus, by performing hard handoff between the multi-frequency in service and the virtual pilot earlier than the soft handoff in the virtual pilot cell, and ensuring sufficient time and area to perform the soft handoff after this hard handoff is performed. As a result, the handoff success rate between multiple frequencies is increased.

As described above, in the multi-frequency handoff method of the mobile communication system according to the present invention, when performing the multi-frequency hard handoff between the multi-frequency base station and the adjacent virtual pilot (dummy pilot) base station, a handoff parameter ( By adjusting the parameter) value, the handoff area is widened, and sufficient time and area are secured during handoff with the virtual pilot base station, thereby increasing the handoff success rate between multiple frequencies.

In addition, since the success rate of handoff between multiple frequencies is increased, service reliability is also increased.

Claims (2)

In the hand off method of the digital mobile communication system, When the mobile station is instructed to prepare for handoff with the virtual pilot base station from the serving base station, the mobile station measures the pilot power intensity and the virtual pilot power intensity of the serving base station, and then compares the measured serving base station pilot power intensity for the virtual pilot comparison decision. A first step of comparing with threshold_1; A second step of comparing the measured virtual pilot power strength with a threshold_2 for transmitting a virtual pilot detection message when the serving base station pilot power strength is equal to or less than a threshold_1 as a result of the comparison; A third step of transmitting, by the mobile station, the virtual pilot detection message to the serving base station if the virtual pilot power strength is greater than or equal to the threshold_2; If the comparison results in the first step, the serving base station pilot power strength is not less than or equal to the threshold_1, or if the comparison results from the second step, the virtual pilot power strength is not more than the threshold_2 or more in service of the first step Re-executing the measurement of the pilot power and the virtual pilot power of the base station; A fifth step of instructing, by the base station receiving the virtual pilot detection message, to change the handoff parameter; And a sixth step of performing a handoff on the basis of the changed handoff parameter, wherein the mobile station has been instructed to change the handoff parameter. The method of claim 1, wherein in the fifth step, the base station receiving the virtual pilot detection message changes the handoff parameter. Parameters of hard handoff between the multiple frequencies in service and the virtual pilot to ensure sufficient time from the time of hard handoff between the multi-frequency in service and the virtual pilot to the soft handoff between the same multi-frequency in the virtual pilot cell. The multi-frequency handoff method of the mobile communication system, characterized in that for increasing.