KR20090038581A - Method for inter-frequency hard handover - Google Patents

Abstract

An inter-frequency hard handover method for preventing deterioration of the voice quality by the coverage inconsistency is provided to apply the negative number to the hysteresis value and to perform handover even though network signal of a target cell is less than network signal of a source cell. A measurement result including hysteresis value is received(S201). The mobile communications terminal measures the network signal of the target cell and source cell(S203). The mobile communications terminal compares the sum total of the standard value with the net signal value of the measured source cell(S205). If the hard handover requisite is satisfied, the mobile communications terminal transmits the measured result information to the mobile communications systems(S207). According to the mobile communications terminal is the indication of the mobile communications systems, the hard handover procedure is performed(S209). A handover complete message is transmitted to the mobile communications systems(S211).

Description

Method for Inter-Frequency Hard Handover}

The present invention relates to an inter-frequency hard handover method, and more particularly, to an inter-frequency hard handover method for improving the performance of the inter-frequency hard handover.

As illustrated in FIG. 1, a method of performing a handover to a B area by using a compressed mode in a mobile communication terminal located in an A area serving 2FA and 1FA is performed in the WCDMA network. It is one of the hard handover method between FAs.

In the compression mode, the mobile communication system and the mobile communication terminal search for another FA for a predetermined time (transmission gap of FIG. 2) while performing call processing in a serving FA to determine whether there is a signal for handover. Here, the mobile communication terminal only performs an operation for searching for another FA during the transmission gap, and does not perform an operation for the serving FA, but also performs an operation for the serving FA to be performed during the transmission gap before and after the transmission gap. Process.

While executing the compression mode, the hard handover method is a service provided by the Hard Handover Threshold method and the new incoming signal (Target Cell signal) that perform a hard handover when a new incoming signal exceeds a predetermined threshold. There is an Event 2A method in which a hard handover is performed when the signal is better than the signal being performed (source cell signal). In each case, the Ec / Io method and the RSCP method can be selected and operated in detail.

Table 1 shows a hard handover method using the above-described compression mode.

system Detail way Explanation Hard Handover Threshold Method Ec / Io method Handover when Ec / Io of Primary FA is over threshold RSCP method Handover when RSCP of Primary FA is over threshold Event 2A method Ec / Io method Handover when Ec / Io of Primary FA is better than Ec / Io of High FA RSCP method Handover when RSCP of Primary FA is better than Ec / Io of High FA

As shown in FIG. 3, in the case of performing a hard handover in a WCDMA network, a newly introduced signal is more hysterically than a signal (current signal of FIG. 3) of a source cell in which a mobile communication terminal is currently located. Hysteresis) (H of FIG. 3) or greater, and if this phenomenon persists for more than the TTT value, a measurement report is reported from the mobile communication terminal to the mobile communication system to instruct hard handover from the mobile communication system to the mobile communication terminal. will be.

For reference, P CPICH 1 (Primary Common Pilot Channel) shown in FIG. 3 is a current signal before performing a handover, P CPICH 2 is a new incoming signal before performing a handover, and H (Hysteresis) is present The difference between the signal and the newly introduced signal, TTT (Time to Trigger), means the time duration of the difference between the signal.

Inter FA hard handover using the compressed mode performs a hard handover when the newly introduced signal is more than hysteretic than the current signal during the compression mode operation. Currently, hysteresis values are set only as positive numbers, as shown in Table 2.

Related Standard 3GPP TS 25.331 Radio Resource Control (RRC) Contents 10.3.7.19 Inter-Frequency Measurement Reporting Criteria Hysteresis range Real (0, 0.5..14.5 by step of 0.5)

However, in the case of Inter FA Hard Handover from high FA to low FA (Primary FA) in general with the Event 2A Ec / Io method (for example, 2FA-> 1FA), the interference component at the high FA is high. Less than the interference component at the primary FA.

This is because the mobile communication terminal does not interfere with the high FA since only the low FA exists in the target cell to be handed over.

For this reason, as shown in Figs. 4 and 5, since the handover from the high FA to the primary FA is delayed and the coverage difference between the primary FA and the high FA is large, call quality deteriorates or difficulty of optimization occurs. Cases often occur.

The present invention has been made to solve the above-described problem, and applies a negative number to the hysteresis value so that a hard handover can be performed even when the network signal of the target cell is below a certain level than that of the source cell. There is a technical problem in providing a hard handover method.

Another object of the present invention is to provide an inter-frequency hard handover method so that handover coverage can be matched without delaying the inter-frequency hard handover.

The present invention for achieving the above object is a method for performing a cross-frequency hard handover in a mobile communication terminal,

a) a measurement result including a hysteresis value transmitted from the mobile communication system as the mobile terminal enters a border cell, which is a boundary area between a source cell and a target cell; Receiving reporting condition information; b) measuring network signals of the source cell and the target cell; c) comparing the sum of the network signal value of the source cell measured in step b) and a preset reference value including a negative value as a hysteresis value with the network signal value of the target cell. Determining that the hard handover condition is satisfied when the network signal value is greater than or equal to the sum of the preset reference value; d) if it is determined in step c) that the hard handover requirement is satisfied, transmitting measurement result information to the mobile communication system; And e) performing a hard handover procedure according to the instruction of the mobile communication system, and transmitting a handover complete report message to the mobile communication system.

Another aspect of the present invention is a method for inter-frequency hard handover in a mobile communication system,

a) A mobile communication terminal that enters a border cell, which is a boundary area between a source cell and a target cell, includes a hysteresis value including a negative value. Transmitting measurement result report condition information to be performed; b) if the network signal value of the target cell measured by the mobile terminal is greater than or equal to the sum of the negative cell hysteresis value of the network signal value of the source cell, the hard handover requirement is met in accordance with the measurement result reporting condition. Receiving determination result information transmitted from the mobile communication terminal as determined to be satisfied; And c) confirming the measurement result information and instructing a hard handover to a mobile communication terminal.

As described above, the inter-frequency hard handover method of the present invention applies a negative number to the hysteresis value to perform hard handover even when the network signal of the target cell is below a certain level than that of the source cell. This can solve the problem of poor call quality and optimization.

In addition, since the present invention performs hard handover even when the network signal of the target cell is lower than the network signal of the source cell, hard handover between frequencies is not delayed, and thus handover coverage can be matched. It works.

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

6 is a flowchart illustrating a method for inter-frequency hard handover in a mobile communication system according to the present invention.

First, the mobile communication system transmits measurement result report condition information including hysteresis value to a mobile communication terminal entering a border cell, which is a boundary area between a source cell and a target cell. It transmits (S101).

The mobile communication system is set to include a negative value in the hysteresis value, preferably the range of the hysteresis value is -14.5, -14, -13.5, -13 to 0, 0.5, 1.0, 1.5 to 14.5 by step of 0.5.

As described above, when a negative value is applied to the hysteresis value, it is determined that the hard handover condition is satisfied even if the signal of the target cell is lower than the signal of the current cell in which the mobile communication terminal is located by a certain level, thereby making the handover faster. By doing so, delay of Inter FA hard handover occurring in the mobile communication network can be prevented.

The measurement result report condition information determines that the hard handover requirement is satisfied when the network signal value of the target cell measured by the mobile terminal is greater than or equal to the sum of the negative hysteresis value of the network signal value of the source cell. Condition information, which is the same as Equation (1).

Network signal value of target cell ≥ Network signal value of source cell + hysteresis

Here, the hysteresis is -14.5, -14, -13.5, -13 to 0, 0.5, 1.0, 1.5 to 14.5 by step of 0.5, that is, H _2a / 2.

* H _2a : Hysteresis Parameters in Measurements for Event 2A

Thereafter, the mobile communication system receives measurement result information transmitted from the mobile communication terminal as the network signal measured by the mobile communication terminal matches the measurement result report condition (S103). The network signal is Ec / Io or RSCP of a source cell and a target cell.

The mobile communication system checks the measurement result information to instruct hard handover to the mobile communication terminal, and then receives a handover completion report message transmitted from the mobile communication terminal (S105).

7 is a flowchart illustrating a method for inter-frequency hard handover in a mobile communication terminal according to the present invention.

First, as the mobile communication terminal enters a border cell which is a boundary area between a source cell and a target cell, a measurement result including a hysteresis value transmitted from the mobile communication system The report condition information is received (S201).

Subsequently, the mobile communication terminal measures network signals of the source cell and the target cell (S203).

Here, the network signal measured by the mobile communication terminal is Ec / Io or RSCP of the source cell and the target cell.

The mobile communication terminal compares the sum of the network signal value of the source cell and the preset reference value measured in step S203 with the network signal value of the target cell to determine whether the hard handover requirement is satisfied (S205).

The reference value includes a negative value as a hysteresis value.

In step S205, the mobile communication terminal compares the sum of the network signal value of the source cell and the preset reference value with the network signal value of the target cell, whereby the network signal value of the target cell is determined by the network signal value of the source cell and the preset reference value. If it is greater than or equal to the sum, it is determined that the hard handover condition is satisfied.

If it is determined in step S205 that the hard handover requirement is satisfied, the mobile communication terminal transmits measurement result information to the mobile communication system (S207).

The mobile communication terminal performs a hard handover procedure according to the instruction of the mobile communication system, and transmits a handover completion report message to the mobile communication system (S209 and S211).

On the other hand, if it is determined in step S205 that the hard handover requirement is not satisfied, the mobile communication terminal performs an operation after step S201.

8 and 9 are diagrams for roughly explaining the method for inter-frequency hard handover according to the present invention.

As shown in FIG. 8, in the case of an Inter FA hard handover, if a negative value (−) is applied to the hysteresis value, the handover may be performed even if the network signal of the target cell is lower than the network signal of the source cell by A, thereby performing handover. Coverage can be matched with Intra FA handover. Here, Inter FA hard handover means hard handover between different frequencies (eg, 2FA-> 1FA), and Intra FA handover means handover within the same frequency.

As shown in FIG. 9, since the N FA region has low interference due to high Ec / Io, and the Primary FA (N-1 FA) region has high interference due to high interference, the EFA / Io is low. 4, the handover coverage is inconsistent as shown in FIG. As shown at 9, handover coverage is consistent.

That is, if a negative value is applied to the hysteresis value, the mobile handset system or the mobile terminal side satisfies the hard handover condition even when the signal (Ec / Io) of the target cell is lower than the signal of the current cell in which the mobile terminal is located. As a result, it is possible to perform handover faster, thereby preventing delay of Inter FA hard handover occurring in the mobile communication network. Accordingly, as shown in FIGS. 8 and 9, the handover coverage is consistently matched. Will be.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the inter-frequency hard handover method of the present invention is suitable for a high necessity of performing hard handover even when the network signal of the target cell is below a certain level than that of the source cell.

1 is a diagram schematically illustrating a general inter-frequency handover method;

2 is a diagram schematically illustrating a general compression mode operation method;

3 is a view for explaining an example of a conventional inter-frequency handover method,

4 is a view for explaining an example of the problem of the conventional inter-frequency handover method,

5 is a view for explaining another example of the problem of the conventional inter-frequency handover method,

6 is a flowchart illustrating a method for inter-frequency hard handover in a mobile communication system according to the present invention;

7 is a flowchart illustrating a method for hard-to-frequency hard handover in a mobile communication terminal according to the present invention;

8 and 9 are diagrams for roughly explaining the details of the improvement of the inter-frequency hard handover according to the present invention.

Claims (2)

A method for performing hard handover between frequencies in a mobile communication terminal, a) a measurement result including a hysteresis value transmitted from the mobile communication system as the mobile terminal enters a border cell, which is a boundary area between a source cell and a target cell; Receiving reporting condition information; b) measuring network signals of the source cell and the target cell; c) comparing the sum of the network signal value of the source cell measured in step b) and a preset reference value including a negative value as a hysteresis value with the network signal value of the target cell. Determining that the hard handover condition is satisfied when the network signal value is greater than or equal to the sum of the preset reference value; d) if it is determined in step c) that the hard handover requirement is satisfied, transmitting measurement result information to the mobile communication system; And e) performing a hard handover procedure according to the instruction of the mobile communication system, and transmitting a handover complete report message to the mobile communication system; Inter-frequency hard handover method comprising a. As a method of hard handover between frequencies in a mobile communication system, a) A mobile communication terminal entering a border cell, which is a boundary area between a source cell and a target cell, includes a hysteresis value including a negative value. Transmitting measurement result report condition information to be performed; b) if the network signal value of the target cell measured by the mobile terminal is greater than or equal to the sum of the negative cell hysteresis value of the network signal value of the source cell, the hard handover requirement is met in accordance with the measurement result reporting condition. Receiving determination result information transmitted from the mobile communication terminal as determined to be satisfied; And c) checking the measurement result information and instructing a hard handover to a mobile communication terminal; Inter-frequency hard handover method comprising a.

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