KR100604534B1 - Method for managing pilot set of mobile communication unit - Google Patents

Abstract

The present invention relates to a mobile communication terminal, and more particularly, to a pilot set management method of a mobile communication terminal.

According to an aspect of the present invention, there is provided a method of managing a pilot set for handoff in a mobile communication terminal, the method comprising: variably setting a pilot strength measurement parameter value to have a size proportional to the number of current candidate pilot sets, and a pilot of a neighboring base station to be measured. And comparing the intensity with the set pilot intensity measurement parameter value, and adding a pilot of the neighboring base station to the candidate pilot set according to the result of the comparison.

Handoff, pilot strength measurement parameter, T_ADD

Description

Pilot set management method of mobile communication terminal {METHOD FOR MANAGING PILOT SET OF MOBILE COMMUNICATION UNIT}

1 is a diagram illustrating a pilot set management apparatus of a mobile communication terminal to which the present invention is applied;

2 is a flowchart illustrating a pilot set management method according to an embodiment of the present invention.

3 is a flowchart illustrating a pilot set management method according to another embodiment of the present invention.

The present invention relates to a mobile communication terminal, and more particularly, to a pilot set management method of a mobile communication terminal.

In general, when a mobile communication terminal moves from a serving cell to another cell, it starts communication with a base station managing a new corresponding cell, which is called a handoff.

For example, hard handoff is a method in which a call channel installed between a current base station and a mobile communication terminal is instantaneously changed into a channel between a neighboring base station and a mobile communication terminal. In addition, soft handoff is a method in which a mobile communication terminal maintains a communication channel for a predetermined time simultaneously with two or more base stations, so that a call constantly changes a service area.

The handoff between the mobile communication terminal and the base station can be implemented by various algorithms.

As is well known, the mobile communication terminal searches for pilot signals of neighbor base stations and measures the strength of the signals to perform handoff. The mobile communication terminal divides and manages pilot signals of each base station into various types of handoff pilot sets. Examples of the handoff pilot sets include an Active Set, Candidate Set, Neighbor Set, and Remaining Set. .

Meanwhile, pilot strength measurement parameters used to determine the handoff timing are as follows.

The 'T_ADD' parameter is a value of the base station pilot strength that neighboring base stations must satisfy to enter the candidate base station. In addition, the 'T-DROP' parameter is the lowest signal level value for the base station to remain in the active set. In addition, the 'T-COMP' parameter is a value for comparing the difference between the pilot strength of the Candidate Set and the Pilot Strength of the Active Set and the strength difference of the pilots belonging to the Active Set for the BS of the Candidate Set to enter the Active Set.

The mobile communication terminal compares the measured pilot strength of the neighboring base station with the T-ADD parameter value, for example, if it is larger than a value of 0.5 × T_ADD, and the mobile communication terminal includes the pilot of the base station in a handoff capable Candidate Set. Let's do it.

By the way, these pilot intensity measurement parameter values were fixed conventionally.

Therefore, there is a problem that can not flexibly cope with the change of state of various channels. For example, depending on the channel condition, the number of pilots in the Candidate Set may be small. In this case, the probability of call drop is increased. In addition, depending on the channel state, the number of pilots in the Candidate Set may be large. In this case, unnecessary handoff may be performed even in a good state of the channel, causing a decrease in the capacity of the entire mobile communication system.

The present invention has been devised in such a situation. When the number of pilots in the Candidate Set is small, the pilot intensity measurement parameter value is lowered to allow more pilots to be included in the Candidate Set, thereby increasing the probability of call dropping and increasing the number of pilots in the Candidate Set. The purpose is to reduce the number of pilots in the Candidate Set by increasing the pilot strength measurement parameter value to prevent unnecessary handoffs.

The present invention for achieving the above object is characterized by the variable setting of the pilot strength measurement parameter value to be proportional to the number of the current candidate pilot set.

Further, according to another aspect of the present invention, the pilot strength measurement parameter value is variably set to be proportional to the sum of the pilot intensities corresponding to the current candidate pilot set.

Accordingly, when the number of pilots in the Candidate Set is small, the pilot intensity measurement parameter value is lowered to allow more pilots to be included in the Candidate Set, thereby increasing the probability of call drop, and when the number of pilots in the Candidate Set is large, the pilot strength measurement parameter value is increased. By reducing the number of pilots in the Candidate Set, it is possible to prevent unnecessary handoffs.

The foregoing and further aspects of the present invention will become more apparent through the following embodiments. Hereinafter, the present invention will be described in detail with reference to the preferred embodiments described with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a diagram illustrating a pilot set management apparatus of a mobile communication terminal to which the present invention is applied.

The pilot strength measurement parameter storage unit 105 stores a 'T_ADD' parameter, a 'T-DROP' parameter, a 'T-COMP' parameter, and the like.

In the handoff pilot set storage unit 107, an Active Set, a Candidate Set, a Neighbor Set, a Remaining Set, and the like are stored.

The pilot strength measuring unit 101 receives a pilot signal and measures the strength. The pilot intensity measuring unit 101 is known various implementations before the present invention is filed. For example, Korean Patent Publication No. 374027 (February 26, 2003) discloses a pilot strength measuring unit implemented by an I Q scrambling code generator, a complex descrambler, an accumulator, an energy calculator, and the like (see FIG. 3 of the publication).

The controller 103 controls the pilot set management method of the mobile communication terminal according to the present invention. Specific operations of the controller 103 will be described later.

2 is a flowchart illustrating a pilot set management method according to an embodiment of the present invention. Hereinafter, a description will be given with reference to FIG. 1.

As shown in FIG. 2, according to a preferred embodiment of the present invention, in the method of managing a pilot set for handoff of a mobile communication terminal, the present invention has a size proportional to the number of current candidate pilot sets. And variably setting the pilot intensity measurement parameter values (203 and 205), comparing the pilot intensity measurement parameter values of the neighboring base stations to be measured with the set pilot intensity measurement parameter values (207), and comparing the results. According to the present invention, the method comprises the step of adding a pilot of the neighbor base station to the candidate pilot set (209).

When the pilot strength of the neighboring base station is measured by the pilot strength measuring unit 101 (201), the controller 103 determines the number of candidate pilot sets currently stored in the pilot set storage unit 107 for handoff. Inspect (203). For example, the controller 103 writes the number of candidate pilot sets in a NUM_CANDIDATE variable.

In addition, the controller 103 sets a pilot intensity measurement parameter value that is variable according to the present invention (205). For example, first, the pilot intensity measurement parameter value initially determined by default is the number of the candidate pilot sets. Multiply by (eg, T_ADD) so that the magnitude of the pilot strength measurement parameter value is proportional to the number of current candidate pilot sets. In other words, when the number of candidate pilot sets is large, the multiplied result becomes relatively large. Conversely, if the number of candidate pilot sets is small, the result of the multiplication is relatively small.

However, according to the multiplication operation, the magnitude of the pilot strength measurement parameter value to be compared with the measured pilot strength of the neighboring base station is increased by the multiplication operation. Therefore, according to a preferred embodiment of the present invention, the control unit 103 determines the scaling factor A that makes the pilot intensity measurement parameter value proportional to the number of candidate candidate pilot sets according to the multiplication result to a value within an appropriate range. Multiply the multiplication result again.

The controller 103 compares the measured pilot strength (see 201) of the neighboring base station to the set pilot strength measurement parameter value (207). For example, the comparison operation may be an operation of checking whether the pilot intensity is greater by comparing the measured pilot intensity with a result of multiplying the set pilot intensity measurement parameter value by 0.5.

The control unit 103 adds the pilot of the neighbor base station to the candidate pilot set according to the comparison result (209). For example, the controller 103 may add the pilot to the candidate pilot set when the measured pilot strength of the neighboring base station is greater than the variable pilot strength measurement parameter value, and perform the control operation from step 201. have. For example, if the measured pilot strength of the neighboring base station is smaller than the variable pilot strength measurement parameter value, the controller 103 may perform the control operation from step 201 without performing operation 209. have.

According to the embodiment described above, the pilot strength measurement parameter value is variably set to be proportional to the number of current candidate pilot sets, and when the number of pilots in the Candidate Set is small, the pilot strength measurement parameter value is lowered so that more pilots are included in the Candidate Set. Therefore, when the number of pilots in the Candidate Set is increased and the number of pilots in the Candidate Set is increased, the number of pilots in the Candidate Set can be reduced to prevent unnecessary handoff.

3 is a flowchart illustrating a pilot set management method according to another embodiment of the present invention. Hereinafter, a description will be given with reference to the drawings.

As shown in FIG. 3, according to a preferred embodiment of the present invention, the present invention provides a method for managing a pilot set for handoff of a mobile communication terminal, the sum of each pilot strength corresponding to a current candidate pilot set. 303 and 305 of variably setting pilot intensity measurement parameter values so as to have a proportional size, and comparing pilot intensity measurement parameter values of the neighboring base station to be measured with the set pilot intensity measurement parameter values 307. And adding (309) the pilot of the neighbor base station to the candidate pilot set according to the comparison result.

When the pilot strength of the neighboring base station is measured by the pilot strength measuring unit 101 (301), the controller 103 corresponds to the candidate pilot set currently stored in the pilot set storage unit 107 for handoff. The sum of each pilot strength is calculated (303). For example, the controller 103 writes the number of sums of the pilot strengths of the calculated candidate pilot sets in the TOT_PWR variable.

The controller 103 sets a pilot intensity measurement parameter value that is variable according to the present invention (305). For example, first, the pilot initially defaults to the sum of the pilot strengths of the candidate pilot sets. Multiply the intensity measurement parameter value (eg, T_ADD) so that the magnitude of the pilot intensity measurement parameter value is proportional to the sum of each pilot intensity of the current candidate pilot set. In other words, when the sum of the pilot intensities is large, the multiplied result is relatively large. Conversely, if the sum of the pilot intensities is small, the result of the multiplication is relatively small.

However, according to the multiplication operation, the magnitude of the pilot strength measurement parameter value to be compared with the measured pilot strength of the neighboring base station is increased by the multiplication operation. Accordingly, according to a preferred embodiment of the present invention, the control unit 103 makes a scaling factor for making a pilot intensity measurement parameter value proportional to the sum of the pilot intensities of the current candidate pilot sets in the appropriate range according to the multiplication result ( Multiply A) by the multiplication result again.

The controller 103 compares the measured pilot strength (see 201) of the neighboring base station to the set pilot strength measurement parameter value (307). For example, the comparison operation may be an operation of checking whether the pilot intensity is greater by comparing the measured pilot intensity with a result of multiplying the set pilot intensity measurement parameter value by 0.5.

The controller 103 adds the pilot of the neighbor base station to the candidate pilot set according to the comparison result (309). For example, the controller 103 may add the pilot to the candidate pilot set when the measured pilot strength of the neighboring base station is greater than the variable pilot strength measurement parameter value, and perform the control operation from step 301. have. For example, if the measured pilot strength of the neighboring base station is smaller than the variable pilot strength measurement parameter value, the controller 103 does not perform operation 309 and performs the control operation from step 301. You can do it.

According to the above-described embodiment, the pilot strength measurement parameter value is variably set to be proportional to the sum of the pilot strengths of the current candidate pilot set. When the number of pilots in the Candidate Set is small, the pilot intensity measurement parameter value is lowered so that more pilots are Candidate. If the number of pilots in the Candidate Set is large, the number of pilots in the Candidate Set is increased to reduce the number of pilots in the Candidate Set to prevent unnecessary handoff.

According to the embodiment described above, the pilot strength measurement parameter value is variably set to be proportional to the number of current candidate pilot sets, and when the number of pilots in the Candidate Set is small, the pilot strength measurement parameter value is lowered so that more pilots are included in the Candidate Set. Therefore, when the number of pilots in the Candidate Set is increased and the number of pilots in the Candidate Set is increased, the number of pilots in the Candidate Set can be reduced to prevent unnecessary handoff.

In addition, the pilot intensity measurement parameter value is variably set to be proportional to the sum of the pilot intensities of the current candidate pilot set. When the number of pilots in the Candidate Set is small, the pilot intensity measurement parameter value is lowered so that more pilots are included in the Candidate Set. When the number of pilots in the Candidate Set is increased and the number of pilots in the Candidate Set is increased, the number of pilots in the Candidate Set can be reduced to prevent unnecessary handoff.

Although the present invention has been described with reference to the accompanying drawings, it should not be construed as being limited thereto, but should be construed to cover many modifications that are obvious from this.

Claims (5)

In the pilot set management method for handoff executable in a mobile communication terminal, Variably setting a pilot strength measurement parameter value to have a size proportional to the number of current candidate pilot sets; Comparing the pilot strength of the neighboring base station to be measured with the set pilot strength measurement parameter value; And adding a pilot of the neighboring base station to the current candidate pilot set according to the comparison result. The method of claim 1, wherein the pilot intensity measurement parameter value, And a base station pilot strength value x number of current candidate pilot sets x a corresponding scaling factor value that neighboring base stations must satisfy to enter a candidate base station. In the pilot set management method for handoff executable in a mobile communication terminal, Variably setting a pilot intensity measurement parameter value to have a size proportional to the sum of the pilot intensities corresponding to the current candidate pilot set; Comparing the pilot strength of the neighboring base station to be measured with the set pilot strength measurement parameter value; And adding a pilot of the neighboring base station to the current candidate pilot set according to the comparison result. The method of claim 3, wherein the pilot strength measurement parameter value, And a base station pilot strength value x number of current candidate pilot sets x a corresponding scaling factor value that neighboring base stations must satisfy to enter a candidate base station. delete

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