KR100533917B1 - Method for decision making for active base station used in hand-over of a mobile cellular terminal - Google Patents

Abstract

The present invention discloses a method and apparatus for determining an active base station used for handover of a mobile communication terminal means.

According to the present invention, in a method for determining an active base station used for handover of a mobile communication terminal means, the power of each pilot channel is obtained by using the average of the power of the channel pilot signal reported from the mobile communication terminal means and the power of past measurement points. Obtains the average number of pilot channels that receive the most radio waves by using the average channel power values of each pilot, and calculates the average and deviation of the channel power at the time of the past measurement of each selected pilot channel and the power average at the present time. Calculate the deviation of the pilot channel power of each selected channel from the selected, select a predetermined number of pilot channels in a small order among the deviations, extract the channel number of the selected pilot channels, and select the base station corresponding to the channel number of the active base station Of mobile phones operating in a communication network such as CDMA By providing the optimal active base station information in the handover process, it minimizes the burden on the mobile switching center to increase the efficiency of radio resources of the mobile telephone network.

Description

Method and apparatus for determining an active base station used for handover of a mobile communication terminal means {Method for decision making for active base station used in hand-over of a mobile cellular terminal}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of mobile communications, and more particularly, to a method and apparatus for obtaining an active pilot channel for soft handover performed essentially in a CDMA mobile telephone network.

In order to efficiently manage the case where a mobile communication terminal makes a call while moving in a wireless mobile communication network such as a CDMA network, the mobile telephone exchange must accurately identify an active pilot channel.

The conventional method of obtaining the active pilot channel number by simply comparing the pilot channel power for each base station received from the corresponding mobile phone in the handover area to determine the active pilot channel number by the number of fingers. have. At this time, in a propagation environment in which channel power changes due to fading, a problem occurs in that a pilot channel of a wrong base station is recognized as an active pilot channel.

That is, the conventional active pilot channel recognition method depends only on the instantaneous pilot channel power at the time of measurement. When the active pilot channel of the mobile phone is sensitively changed according to the propagation environment, it cannot find the correct pilot channel and cannot determine an appropriate base station. There is a problem that the mobile telephone exchange performs a handover process more than necessary.

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a method and method for determining an accurate active base station used for handover of a mobile communication terminal means even if the radio environment is sensitively changed in a mobile communication network such as CDMA. To provide a device.

According to the present invention for solving the above technical problem, an aspect of a method for determining an active base station used for handover of a mobile communication terminal means includes: (a) power of a channel pilot signal reported from the mobile communication terminal means; Calculating the average of each pilot channel power using the power average of past measurement points; (b) selecting a predetermined number of pilot channels having the best radio wave reception by using the average channel power values for each pilot obtained in the step (a); (c) calculating the deviation of the pilot channel power of each selected channel from the average and deviation of the channel power at the past measurement time of each pilot channel selected in step (b) and the power average at the present time; (d) selecting a predetermined number of pilot channels in a small order from among the deviations obtained in step (c); And (e) extracting channel numbers of the pilot channels selected in step (d) and determining a base station corresponding to the channel number as the active base station.

According to the present invention for solving the above technical problem, another aspect of the method for determining an active base station used for handover of a mobile communication terminal means includes: (a) power of a channel pilot signal reported from the mobile communication terminal means; Calculating the average of each pilot channel power using the power average of past measurement points; (b) selecting pilot channels in the order of a number corresponding to a predetermined multiple of the number of fingers of the mobile communication terminal among the average channel power values for each pilot obtained in the step (a); (c) calculating a pilot channel power distribution of each selected channel from the channel power average and the variance of the past measurement points of each pilot channel selected in step (b) and the power average of the present time point; (d) selecting pilot channels in the order of a small number from among the variances obtained in step (c); And (e) extracting channel numbers of the pilot channels selected in step (d) and determining a base station corresponding to the channel number as the active base station.

An apparatus for determining an active base station used for handover of a mobile communication terminal means according to the present invention for solving the other technical problem, the power of the channel pilot signal reported from the mobile communication terminal means and the power of the past measurement point A reception measuring unit obtaining an average of each pilot channel power using the average; A primary selection unit for selecting a predetermined number of pilot channels having the best radio wave reception from the average channel power values obtained by the reception measurement unit; A deviation calculator for calculating a pilot channel power deviation of each selected channel from a mean and variance of the channel power at the past measurement points of the pilot channels selected by the first selector and a power average at the present time; A second selector which selects a predetermined number of pilot channels selected by the first selector in a small order from among the deviations calculated by the deviation calculator; And an active base station determination unit extracting channel numbers of pilot channels selected by the second selection unit and determining a base station corresponding to the channel number as an active base station.

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

1 shows a flow of a method for determining an active base station used for handover of a mobile communication terminal means according to the present invention.

The average of each pilot channel power is calculated using the power of the channel pilot signal reported from the mobile communication terminal and the power average of the past measurement points (step 100), and the most propagation is performed using the average channel power values for each pilot obtained in step 100. A predetermined number of pilot channels that are well received are selected (step 110). In step 110, the deviations of the channel power values of the pilot channels selected in step 110 are obtained, and a predetermined number of pilot channels are selected in a small order from the obtained deviations in step 130, and the channel numbers of the selected pilot channels are extracted. In operation 140, the base station corresponding to the channel number is determined as the active base station.

2 is a block diagram showing the configuration of an apparatus for determining an active base station used for handover of a mobile communication terminal means according to the present invention.

This device is obtained from the reception measuring unit 200 and the reception measuring unit 200 which average the power of each pilot channel using the average of the power of the channel pilot signal reported from the mobile communication terminal means, which is the base station, and the power average of the past measurement points. The channel at the time of past measurement of each pilot channel selected by the primary selector 210 and the primary selector 210 for selecting a predetermined number of pilot channels that are most easily received from the average channel power values for each pilot. Deviation calculator 220 for calculating the pilot channel power deviation of each selected channel from the power average and the dispersion and the power average of the present time point, the first selection unit (in order of smallest of the deviations calculated by the deviation calculator 220); The channel number of the pilot channel selected by the second selector 230 and the second selector 230 which selects a predetermined number from the pilot channels selected by 210 is extracted, and the channel number is selected. The corresponding base station and a active base station determining unit 240 for determining the active base station.

In general, a CDMA mobile telephone, which is a mobile communication terminal means in a handover area, reports channel power of each pilot to a mobile telephone exchange through a base station at a specific time. The mobile telephone exchange determines the active pilot within the number of fingers of the mobile telephone by comparing the pilot channel powers reported from the corresponding CDMA mobile telephone. As a result, the mobile phone continues to receive service from the base station corresponding to the active pilot even if the location is changed through handover.

Soft handover corresponds to the analog method that supports Hard Hand-over, which is a method of first disconnecting an existing line and then connecting to a new base station. In CDMA, two base stations (or Sectors) and currency paths. Hereinafter, handover refers to soft handover unless otherwise stated. Handover is also referred to as hand off.

When the mobile communication terminal means, which is a mobile station, is busy and is in a handover area, the received pilot channel power from a plurality of base stations as shown in FIG. Report to the executing mobile telephone exchange.

The reception measurement unit 200 receives each of the pilot channel signals and calculates an average of power at each measurement point (step 100). The average of each pilot channel power is calculated by using the power of the channel pilot signal reported from the mobile communication terminal means and the power average of the past measurement point, and the average of the power is preferably determined as follows.

Where i is the number of each pilot, n is the number of measurements, Is the current channel power average, i-th pilot, Represents the i-th pilot, the past channel power average.

Using Equation 1, the average of the channel power at the present time is obtained from the past average of the past measurement time n-1 and the measurement data of the current time n.

The primary selection unit 210 selects pilot channels in the order of a predetermined number from among the average channel power values for each pilot obtained by the reception measurement unit 200 (step 110). If the average channel power value is selected from the larger one, the larger average channel power means that the received signal has a higher intensity, which means that the base station generating the signal is able to continue communication service through handover. Because it will be a base station.

For step 110, the averages of the channel powers obtained through Equation 1 are sorted in descending order and are selected from the larger order.

At this time, when the mobile communication terminal means to be handed over in the present invention is a CDMA mobile communication terminal, the predetermined number of pilot channels selected in step 110 is preferably within twice the number of fingers of the mobile communication terminal means.

Soft handover is possible only when both base stations use the same frequency, and a finger-shaped rake receiver in which the demodulator of the mobile station separately demodulates signals (or signals with different delay times) transmitted from different base stations. Is possible by The IS-95A CDMA is demodulated by three fingers, allowing handovers with three base stations at the same time. The number of such fingers can be changed according to the standard for mobile communication.

The deviation calculator 220 calculates a deviation of channel powers of the pilot selected by the primary selection unit 210. As the deviation value, it is preferable to obtain the pilot channel power variance of each channel from the average and variance of the channel power at the time of the past measurement of each selected pilot channel and the power average at the present time, which is determined as follows. Do.

Where i is the number of each pilot, n is the number of measurements, Is the average channel power of the i-th pilot, Is the channel power distribution of the i-th pilot. As in the case of Equation 1 Is the average of the past channel power of the i-th pilot, Is the past channel power variance of the i th pilot.

That is, the pilot channel power variance of the current time point is obtained from the measurement data of the current time point n from the past average and past variance of the past measurement time point n-1.

Some local or temporary factors, such as fading, for example, can increase the reception strength of the pilot channel. This average value of pilot channel power may be a signal from a base station that is unable to continue proper service after handover even though it is high. Therefore, it is better that there is no deviation between the received pilot channel signals, and if the deviation is small, the value of the variance defined as in Equation 2 is small.

In order to determine a next base station for handover, a channel having the smallest dispersion of channel power values should be selected among pilot channels selected in step 110. For this reason, the second selector 230 selects pilot channels in the order of the predetermined number from among the variances obtained by the deviation calculator 220 (step 130).

At this time, the number of selecting pilot channels is preferably within the number of fingers of the mobile communication terminal means.

The active base station determiner 240 extracts the channel numbers of the pilot channels by the second selector 230 and determines the base station corresponding to the channel numbers as the active base station (step 140).

If, for some reason, the channel number extracted from the pilot channels selected in step 130 corresponds to a plurality of base stations instead of one base station, it is preferable to determine the base station corresponding to the channel number selected in step 130 as the active base station most frequently. Do. Some factors are caused by error factors that occur momentarily or locally and thus ignore these error factors.

Through the above process, the present invention sequentially obtains averages and variances of the pilot channel powers received from the mobile phones in the handover area, and thereby determines the optimal active pilot channel number.

Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. Examples included in the above description are introduced for the understanding of the present invention, and these examples do not limit the spirit and scope of the present invention. It will be apparent to those skilled in the art that various embodiments in accordance with the present invention in addition to the above examples are possible. The scope of the present invention is shown not in the above description but in the claims, and all differences within the scope will be construed as being included in the present invention.

In addition, it can be easily understood by those skilled in the art that each of the above steps according to the present invention can be variously implemented in software or hardware using a general programming technique.

And some steps of the invention may also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, CD-RW, magnetic tape, floppy disks, HDDs, optical disks, magneto-optical storage devices, and carrier wave (eg, Internet It also includes the implementation in the form of). The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

According to the present invention, in a method for determining an active base station used for handover of a mobile communication terminal means, the power of each pilot channel is obtained by using the average of the power of the channel pilot signal reported from the mobile communication terminal means and the power of past measurement points. Obtains the average number of pilot channels that receive the most radio waves by using the average channel power values of each pilot, and calculates the average and deviation of the channel power at the time of the past measurement of each selected pilot channel and the power average at the present time. Calculate the deviation of the pilot channel power of each selected channel from the selected, select a predetermined number of pilot channels in a small order among the deviations, extract the channel number of the selected pilot channels, and select the base station corresponding to the channel number of the active base station Of mobile phones operating in a communication network such as CDMA By providing the optimal active base station information in the handover process, it minimizes the burden on the mobile switching center to increase the efficiency of radio resources of the mobile telephone network.

1 shows a flow of a method for determining an active base station used for handover of a mobile communication terminal means according to the present invention.

2 is a block diagram showing the configuration of an apparatus for determining an active base station used for handover of a mobile communication terminal means according to the present invention.

Claims (10)

A method for determining an active base station used for handover of a mobile communication terminal means, (a) obtaining an average of each pilot channel power using the average power of the channel pilot signal reported from the mobile communication terminal means and the power average of the past measurement points; (b) selecting a predetermined number of pilot channels having the best radio wave reception by using the average channel power values for each pilot obtained in the step (a); (c) calculating the deviation of the pilot channel power of each selected channel from the average and deviation of the channel power at the past measurement time of each pilot channel selected in step (b) and the power average at the present time; (d) selecting a predetermined number of pilot channels in a small order from among the deviations obtained in step (c); And (e) extracting channel numbers of the pilot channels selected in step (d) and determining a base station corresponding to the channel number as an active base station; used for handover of the mobile communication terminal means How to determine the active base station. A method for determining an active base station used for handover of a mobile communication terminal means, (a) obtaining an average of each pilot channel power using the average power of the channel pilot signal reported from the mobile communication terminal means and the power average of the past measurement points; (b) selecting pilot channels in the order of a number corresponding to a predetermined multiple of the number of fingers of the mobile communication terminal among the average channel power values for each pilot obtained in the step (a); (c) calculating a pilot channel power distribution of each selected channel from the channel power average and the variance of the past measurement points of each pilot channel selected in step (b) and the power average of the present time point; (d) selecting pilot channels in the order of a small number from among the variances obtained in step (c); And (e) extracting channel numbers of the pilot channels selected in step (d) and determining a base station corresponding to the channel number as an active base station; used for handover of the mobile communication terminal means How to determine the active base station. The method of claim 1, And determining the base station corresponding to the most selected channel number as the active base station when the channel number extracted in step (e) is plural. The method according to any one of claims 1 to 3, i is the number of each pilot, n is the number of measurements, Is the i-th pilot, the average of past channel powers, Is the past channel power distribution of the i-th pilot, Is the current channel power average, i-th pilot of step (a), silver Is, Channel Power Dispersion of the i-th Pilot of Step (c) silver A method for determining an active base station used for handover of a mobile communication terminal means, characterized in that. The method according to any one of claims 1 to 3, The mobile communication terminal means is a mobile communication terminal means of the CDA (CDMA) method, The predetermined number of pilot channels selected in step (b) is within two times the number of fingers of the mobile communication terminal means. And the number of selecting pilot channels in step (d) is within the number of fingers of the mobile communication terminal means. An apparatus for determining an active base station used for handover of a mobile communication terminal means, A reception measuring unit obtaining an average of each pilot channel power by using the power of the channel pilot signal reported from the mobile communication terminal means and the power average of past measurement points; A primary selection unit for selecting a predetermined number of pilot channels having the best radio wave reception from the average channel power values obtained by the reception measurement unit; A deviation calculator for calculating a pilot channel power deviation of each selected channel from a mean and variance of the channel power at the past measurement points of the pilot channels selected by the first selector and a power average at the present time; A second selector which selects a predetermined number of pilot channels selected by the first selector in a small order from among the deviations calculated by the deviation calculator; And An active base station determining unit for extracting channel numbers of the pilot channels selected by the second selecting unit and determining a base station corresponding to the channel number as the active base station; used for handover of the mobile communication terminal means. A device for determining an active base station. The method of claim 6, The pilot channels having the best radio wave reception in the primary selection unit are to be determined in order of increasing order among average channel power values for each pilot measured by the reception measurement unit. The deviation of the channel power values calculated by the deviation calculator is the pilot channel power of each selected channel calculated from the average and variance of the channel power at the past measurement point of the respective pilot channels selected by the primary selection unit and the power average at the present time point. An apparatus for determining an active base station used for handover of a mobile communication terminal means, characterized in that distributed. The method according to claim 6 or 7, i is the number of each pilot, n is the number of measurements, Is the i-th pilot, the average of past channel powers, Is the past channel power distribution of the i-th pilot, Is the average current channel power, i-th pilot, silver Is, Channel power variance which is the i-th pilot channel power deviation obtained by the deviation calculator silver And an active base station used for handover of the mobile communication terminal means. The method according to claim 6 or 7, And a plurality of channel numbers extracted by the active base station determiner to determine an active base station corresponding to the most selected channel number as the active base station. The method according to claim 6 or 7, The mobile communication terminal means is a mobile communication terminal means of the CDA (CDMA) method, The predetermined number of selecting the pilot channels by the first selector is within twice the number of fingers of the mobile communication terminal means. And wherein the number of the second selection unit selecting the pilot channel is within the number of fingers of the mobile communication terminal means.