KR101539406B1 - Base station apparatus and network apparatus, ans control method thereof - Google Patents

Abstract

According to the present invention, the resource usage rate of the base station apparatus is monitored, and the cell coverage of the base station apparatus having a high resource usage, that is, the traffic is large, is adjusted according to the monitoring result and the cell coverage of the base station apparatus having low resource consumption, A base station apparatus and a network apparatus capable of effectively preventing a call disturbance of a terminal that may occur in the process of adjusting cell coverage, and an operation method of the apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a base station apparatus and a network apparatus,

The present invention relates to a base station apparatus and a network apparatus. More particularly, the present invention relates to a base station apparatus and a network apparatus, and more particularly to a base station apparatus and a network apparatus, The present invention relates to a base station apparatus and a network apparatus capable of effectively preventing a call disturbance of a terminal that may occur in the process, and a method of operating the apparatus.

In the LTE system, the number of base stations lacking radio resources is increasing due to a rapid increase in subscribers and an increase in a pattern of traffic usage for large capacity, and a transmission rate is lowered for a terminal using such a base station.

In order to distribute traffic in each base station, there is a method of dividing the cell coverage by adding the equipment. However, since this method is costly in terms of cost, the traffic of the base station is dispersed, It is necessary to search for a method that can be used efficiently.

On the other hand, if the traffic of each base station device is examined, it can be confirmed that the traffic deviation is severe for each base station. In particular, recently, data traffic is rapidly increasing, and biased traffic, that is, traffic imbalance between the base stations is changing every hour.

In the present invention, as a means for distributing the traffic of the base station apparatus and efficiently using the radio resources, it is possible to eliminate the traffic imbalance between the base stations by monitoring the resource usage rate of the base station apparatus and adjusting the cell coverage of the base station apparatus according to the monitoring result In addition, we propose a scheme that can effectively prevent the call disturbance of the terminal that may occur during the cell coverage adjustment process.

The object of the present invention is to solve the resource usage imbalance between the base stations by monitoring the resource usage rate of the base station apparatus and adjusting the cell coverage of the base station apparatus according to the monitoring result , And effectively prevents the call disturbance of the UE, which may occur during the cell coverage adjustment process.

According to a first aspect of the present invention, there is provided a base station apparatus including: a call session connection unit for connecting a call session with at least one terminal among a plurality of terminals located within a cell coverage of a base station apparatus; A signal strength changing unit that changes the strength of the reference signal when the predetermined reference signal strength change event occurs and adjusts the cell coverage according to the change of the reference signal strength; And changing a change in the reference signal strength to provide a terminal connected with the call session to recognize a cell coverage adjusted according to a change in the reference signal strength in a terminal connected to the call session, And an information providing unit.

Preferably, the reference signal strength change event may occur when the resource usage rate of the base station apparatus is equal to or higher than a predetermined upper usage rate or lower than a predetermined lower usage rate.

Preferably, the signal strength changing unit changes a predetermined signal output value to the signal transmitting module of the base station apparatus, or changes a transmission intensity ratio of the reference signal with respect to a predetermined data signal to the base station apparatus, Can be changed.

Preferably, the change information providing unit may provide the change information to a terminal connected to the call session through a control channel allocated in association with the call session.

Preferably, the change information providing unit provides the change information to all terminals located in the cell coverage through an information providing channel allocated to provide system information irrespective of the call session when a specific point in time is reached, It is possible to recognize the adjusted cell coverage according to the change of the reference signal strength at all terminals located within the cell coverage.

Preferably, the specific time is a time point at which the number of terminals to which a call session is connected to the base station apparatus is the latest, or the number of terminals to which the call session is connected is allocated to the base station apparatus, And may be a time point that is less than a specific value relative to the average number of terminals to which the session is connected.

According to a second aspect of the present invention, there is provided a network apparatus comprising: a monitoring unit for monitoring a resource usage rate of each base station apparatus; A base station selection unit for selecting a specific base station to be a cell coverage adjustment target among the base stations based on resource utilization rates of the base station apparatuses to be monitored; And requesting the specific base station apparatus to change the reference signal strength of the selected base station apparatus according to the request, so that the cell coverage is adjusted according to the change of the reference signal strength. And to provide change information according to the change of the reference signal strength to at least one or more terminals connected to the call session among the plurality of terminals located within the cell coverage of the specific base station apparatus.

Preferably, the specific base station device may be a base station having a resource usage rate that is equal to or higher than a predetermined upper usage rate or lower than a predetermined lower usage rate among the base stations.

According to a third aspect of the present invention, there is provided a method of operating a base station, the method comprising: connecting a call session with at least one terminal among a plurality of terminals located within a cell coverage of a base station; Changing a strength of the reference signal when a predetermined reference signal strength change event occurs and adjusting the cell coverage according to a change in the reference signal strength; And changing a change in the reference signal strength to provide a terminal connected with the call session to recognize a cell coverage adjusted according to a change in the reference signal strength in a terminal connected to the call session, Information providing step.

Preferably, the reference signal strength change event may occur when the resource usage rate of the base station apparatus is equal to or higher than a predetermined upper usage rate or lower than a predetermined lower usage rate.

Preferably, the signal strength changing step changes the signal output value set in the signal transmitting module of the base station apparatus, or changes the transmission intensity ratio of the reference signal to a predetermined data signal in the base station apparatus, The intensity of the signal can be changed.

Advantageously, the change information providing step may provide the change information to a terminal connected to the call session through a control channel allocated in association with the call session.

Preferably, upon reaching a point in time, the change information is provided to all terminals located within the cell coverage through an information providing channel allocated to provide system information irrespective of the call session, So as to be able to recognize the adjusted cell coverage according to the change of the reference signal strength.

Preferably, the specific time is a time point at which the number of terminals to which a call session is connected to the base station apparatus is the latest, or the number of terminals to which the call session is connected is allocated to the base station apparatus, And may be a time point that is less than a specific value relative to the average number of terminals to which the session is connected.

According to a fourth aspect of the present invention, there is provided a method of operating a network device, comprising: monitoring a resource usage rate of each base station; A base station selecting step of selecting a specific base station to be a cell coverage adjustment target among the base stations based on resource usage rates of the base station apparatuses to be monitored; And requesting the specific base station apparatus to change the reference signal strength of the selected base station apparatus according to the request, so that the cell coverage is adjusted according to the change of the reference signal strength. And a base station control step for providing change information according to a change in the reference signal strength to at least one terminal connected to a call session among a plurality of terminals located within a cell coverage of the specific base station apparatus.

According to the base station device, the network device, and the operation method of the base station device of the present invention, the resource usage rate of the base station device is monitored and adjusted so that the cell coverage of the base station device, And real-time adjustment is made so that the cell coverage of the base station apparatus with less resource usage, that is, less traffic, becomes larger, thereby effectively preventing the resource usage imbalance between the base stations and effectively preventing the call disturbance of the terminal, Effect.

1 is a configuration diagram illustrating a communication system including a base station apparatus and a network apparatus according to a preferred embodiment of the present invention.
2 is a block diagram illustrating a configuration of a network device according to a preferred embodiment of the present invention.
3 is a block diagram showing a configuration of a base station apparatus according to a preferred embodiment of the present invention.
4 is a control flowchart of a communication system including a base station apparatus and a network apparatus according to a preferred embodiment of the present invention.
5 is a flowchart illustrating an operation method of a network device according to a preferred embodiment of the present invention.
6 is a flowchart illustrating an operation method of a base station apparatus according to a preferred embodiment of the present invention.
FIG. 7 is an exemplary diagram illustrating a case where cell coverage of each base station apparatus is adjusted according to a preferred embodiment of the present invention.

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

1 is a diagram illustrating a communication system including a base station apparatus and a network apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 1, the communication system includes a plurality of base station apparatuses 200 and a network apparatus 300 for monitoring a resource utilization rate for a plurality of base station apparatuses 200.

Here, it is preferable that the plurality of base station apparatuses 200 are base stations that can use an LTE-based communication service for a terminal to which a call session (e.g., call and data call) is connected. For example, A small base station for building a small cell and a macro base station for building a macro cell.

Each of the base station apparatuses included in the plurality of base station apparatuses 200 transmits a reference signal (RS) having a preset strength. Generally, the intensity of the reference signal RS is set to 15 dBm.

Each of the base station apparatuses included in the plurality of base station apparatuses 200 forms a cell coverage according to the strength of the transmitted reference signal RS.

That is, the cell coverage of each base station apparatus included in the plurality of base station apparatuses 200 is determined by the strength of the reference signal RS transmitted from each base station apparatus. Therefore, when the reference signal RS intensity of the base station apparatus increases, the cell coverage becomes larger as the reference signal RS becomes wider, and when the reference signal RS becomes smaller, the reference signal RS reaches The cell coverage becomes smaller as the area that can be used becomes narrower.

Hereinafter, the base station apparatuses A, B, C, and D will be described as a base station apparatus included in the plurality of base station apparatuses 200 for convenience of explanation.

On the other hand, due to the increase of the mobility of the terminal and the usage pattern of the large capacity traffic, traffic may be concentrated only in a plurality of base station apparatuses 200, that is, only some of the base station apparatuses A, B, C and D, The traffic imbalance between the base station apparatuses due to the traffic biasing phenomenon is changing every hour.

The network device 300 according to the present invention monitors a resource usage rate of a plurality of base station apparatuses 200 in order to solve the traffic unbalance between the base station apparatuses occurring while changing from time to time, To solve the traffic imbalance between the base station devices by reducing the cell coverage of many base station devices and widening the cell coverage of the base station devices with low traffic.

More specifically, the network device 300 monitors resource usage rates for a plurality of base station apparatuses 200, that is, the respective base station apparatuses A, B, C,

The network device 300 selects a specific base station apparatus to be subjected to cell coverage adjustment among the base station apparatuses A, B, C, and D based on resource utilization rates of the base station apparatuses A, B, C, and D .

Here, the specific base station apparatus described above is a base station in which the resource utilization rate of each of the base station apparatuses A, B, C, and D is equal to or higher than a predetermined upper limit usage rate or lower than a predetermined lower limit usage rate.

That is, the network device 300 determines whether the resource usage rate of each of the base station devices A, B, C, and D is higher than the upper usage rate of the base station device (for example, The base station apparatus A) and the base station apparatus (for example, the base station apparatus D) whose resource utilization rate is lower than the lower usage rate are selected as the specific base station apparatus to be subjected to cell coverage adjustment.

Here, the resource usage rate is information on how much radio resources are used by the base station apparatus, for example, PBR usage rate information indicating a usage rate per unit time (e.g., 1 ms) for a resource block (RB) The number of call session connection attempts attempted at the same time, the signal transmission related information (e.g., signal output value) of the base station device per unit time, the process load, and the like.

The network device 300 requests the base station apparatus A to change the strength of the reference signal RS of a specific base station apparatus (for example, the base station apparatuses A and D) selected as an object of cell coverage adjustment among the base station apparatuses A, B, C and D .

More specifically, the network device 300 requests the base station apparatus having the resource utilization rate higher than the upper usage rate, that is, the base station apparatus A having a high traffic rate, to change the intensity of the reference signal RS of the base station apparatus A so that the resource usage rate becomes lower (RS) of the base station apparatus D is increased.

Upon receiving the change request from the network device 300, the base station device A modifies its own reference signal strength to decrease in accordance with the change request, so that the cell coverage is reduced according to the change of the reference signal strength And may provide change information according to a change in the strength of the reference signal (RS) described above to at least one or more terminals connected to a call session among a plurality of terminals located within its cell coverage.

Of course, the base station apparatus D that has received the change request from the network device 300 changes its reference signal strength to increase in accordance with the change request, and the cell coverage is widened according to the change of the reference signal strength And may provide change information according to a change in the strength of the reference signal (RS) described above to at least one or more terminals connected to a call session among a plurality of terminals located within its cell coverage.

Hereinafter, the configuration of a network device according to a preferred embodiment of the present invention will be described in detail with reference to FIG. For convenience of description, reference will be made to the above-mentioned reference numerals in Fig.

The network device 300 according to the present invention includes a monitoring unit 310 for monitoring a resource usage rate of each of the base station apparatuses A, B, C, and D, and a monitoring unit 310 for monitoring a resource usage rate of each of the base station apparatuses A, B, C, The base station selection unit 320 for selecting a specific base station apparatus to be subjected to cell coverage adjustment among the base station apparatuses A, B, C, and D and the selected base station apparatus, The specific base station apparatus changes the reference signal strength of the specific base station apparatus so that the cell coverage is adjusted according to the change of the reference signal strength and a call session among a plurality of terminals located within the cell coverage of the specific base station apparatus is connected And a base station control unit 330 for providing change information according to the change of the reference signal strength to at least one terminal only.

The monitoring unit 310 monitors the resource usage rates of the base station apparatuses A, B, C,

The base station selection unit 320 selects one of the base station apparatuses A, B, C, and D based on the resource usage rates of the base station apparatuses A, B, C, and D monitored by the monitoring unit 310 And selects a specific base station apparatus.

Here, the specific base station apparatus described above is a base station in which the resource utilization rate of each of the base station apparatuses A, B, C, and D is equal to or higher than a predetermined upper limit usage rate or lower than a predetermined lower limit usage rate.

That is, the base station selection unit 320 selects the base station apparatuses A, B, C, and D based on the resource utilization rates of the base station apparatuses A, B, C, and D monitored by the monitoring unit 310, (For example, the base station apparatus A) having a usage rate higher than the usage rate and the base station apparatus (for example, the base station apparatus D) having the resource usage rate lower than the lower usage rate as the specific base station apparatus to be subjected to cell coverage adjustment.

More specifically, the network device 300 receives resource utilization rates from the base station apparatuses A, B, C, and D at a constant or predetermined collection period, The resource utilization rate for each of the base station apparatuses A, B, C, and D can be monitored by receiving the resource utilization rate from each of the base station apparatuses A, B, C, and D that can monitor the utilization rate or reach a predetermined resource utilization rate .

A collecting cycle is set in each of the base station apparatuses A, B, C, and D. Each of the base station apparatuses A, B, C, And can provide its resource utilization rate to the network device 300 when the set collection period is reached.

In this case, the monitoring unit 310 of the network device 300 compares the resource usage rate received from each of the base station apparatuses A, B, C, and D for each collection period for a predetermined monitoring time with a predetermined usage rate upper limit value and a lower usage rate lower limit value Can be monitored.

The base station selection unit 320 of the network device 300 monitors the resource utilization rates received during the collection periods of the base station apparatuses A, B, C, and D, (For example, the base station apparatus A) whose number of times that the resource usage rate exceeds the usage rate upper limit value is greater than or equal to the predetermined number of times (for example, 5 times) during the monitoring time, The base station apparatus (for example, base station apparatus D) whose number of times that the resource usage rate is less than the usage lower limit value is not less than a specific number of times (for example, 5 times) during the monitoring time can be selected as the specific base station apparatus.

Meanwhile, each of the base station apparatuses A, B, C, and D can continuously provide its own resource utilization rate to the network device 300. [

In this case, the monitoring unit 310 of the network device 300 may monitor the resource usage rate continuously received from each of the base station devices A, B, C, and D by comparing the resource usage rate with a predetermined upper usage rate and a lower utilization rate.

The base station selection unit 320 of the network device 300 monitors the resource usage rate of each of the base station devices A, B, C, and D by monitoring the resource usage rate among the base station devices A, B, C, The base station apparatus (for example, base station apparatus A) that maintains the usage rate upper limit value for a predetermined period of time or longer is selected as a specific base station apparatus having the resource usage rate equal to or higher than the upper usage rate. When the resource usage rate is less than the usage rate lower limit value (For example, the base station apparatus D) can be selected as the specific base station apparatus whose resource utilization rate is equal to or lower than the lower usage rate.

Each of the base station apparatuses A, B, C, and D compares its resource utilization rate with a predetermined upper usage rate utilization rate and a lower usage rate limit, If the resource utilization rate is maintained for a predetermined time or more or the resource utilization rate is lower than the lower utilization limit for a certain period of time or longer, the resource utilization rate maintained at the above- 300).

In this case, the monitoring unit 310 of the network device 300 determines the resource usage rate (e.g., the resource usage rate) received from the base station apparatuses (e.g., the base station apparatuses A and D) Can be monitored by comparing the upper limit of the usage rate and the lower limit of the usage rate.

The base station selection unit 320 of the network device 300 monitors the resource usage rate received from the base station device (for example, the base station device A or D) that has reached the resource usage rate providing time point. If the resource usage rate exceeds the usage rate upper limit value (For example, the base station apparatus A) is selected to be a specific base station apparatus having the resource utilization rate equal to or higher than the upper usage rate, and the base station apparatus (for example, the base station apparatus D) Or less.

The base station control unit 330 requests to change the strength of the reference signal RS of the specific base station apparatuses (for example, the base station apparatuses A and D) selected as the cell coverage adjustment target among the base station apparatuses A, B, C and D.

That is, the base station control unit 330 requests the base station apparatus having the resource usage rate higher than the upper usage rate, that is, the base station apparatus A having a high traffic rate, so as to decrease the strength of the reference signal RS, It is possible to request the base station apparatus D to change the reference signal RS intensity.

Accordingly, the base station apparatus A having high traffic changes its own reference signal (RS) intensity according to the change request to adjust the cell coverage to be small according to the change of the reference signal strength, It is possible to provide the change information according to the change in the strength of the reference signal RS only to at least one terminal connected to the call session among the plurality of terminals located within the terminal.

Of course, the base station apparatus D having a small amount of traffic changes its reference signal (RS) intensity according to the change request so that the cell coverage is adjusted to be wider according to the change of the reference signal strength, It is possible to provide the change information according to the change in the strength of the reference signal RS only to at least one terminal connected to the call session among the plurality of terminals located within the terminal.

As shown in FIG. 7, in the state where the reference signal (RS) signal strengths of the base station apparatuses A, B, C, and D are the same and the cell coverage is the same size, The base station device A modifies the base station device A so as to decrease the strength of the reference signal RS so that the cell coverage of the base station device A becomes narrower and the base station device D And the cell coverage of the base station apparatus B can be adjusted to be large.

As described above, the network device 300 according to the present invention can be configured as at least one of an EMS (Element Management System), an automatic configuration network, and a SON (Self Organizing Network) as network equipment.

Hereinafter, a configuration of a base station apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIG. For convenience of description, reference will be made to the above-mentioned reference numerals in Fig.

The base station apparatus 100 according to the present invention includes a signal transmission module 130 for transmitting various types of signals including a reference signal RS and transmits a reference signal RS having a predetermined intensity to a signal transmission module 130).

Accordingly, the base station apparatus 100 forms a cell coverage according to the strength of the transmitted reference signal RS. That is, the cell coverage of the base station 100 is determined by the strength of the reference signal RS that transmits the signal transmission module 130.

3, a base station apparatus 100 according to the present invention includes a call session connection unit 110 for connecting a call session with at least one terminal among a plurality of terminals located within its cell coverage, A signal strength changing unit 120 for changing the strength of the reference signal RS when the designated reference signal strength changing event occurs and adjusting the cell coverage according to the change of the reference signal RS intensity, To the terminal to which the call session is connected so that the cell coverage adjusted according to the change of the reference signal strength is recognized only by at least one terminal connected to the call session among the plurality of terminals And a change information providing unit 140 for providing the change information.

The call session connection unit 110 establishes a call session with at least one of a plurality of terminals located within the cell coverage of the base station apparatus 100. [

Accordingly, the base station apparatus 100 enables an LTE-based communication service to be used for a terminal connected with a call session (for example, a call or data call) through the call session connection unit 110.

The signal strength changing unit 120 changes the strength of the reference signal RS when a predetermined reference signal strength change event occurs so that the cell coverage is adjusted according to the change of the reference signal strength.

Here, the reference signal strength change event may occur when the resource usage rate of the base station apparatus 100 is equal to or higher than a predetermined upper usage limit or lower than a predetermined lower usage rate.

For example, as described in the description with reference to FIG. 2, the base station apparatus 100 may provide its own resource utilization rate to the network device 300 continuously or at predetermined collection periods, And can provide its resource utilization rate to the network device 300 when it reaches the provisioning point.

If the resource usage rate of the base station apparatus 100 is equal to or higher than the upper usage rate or lower than the lower usage rate according to the result of monitoring the resource usage rate of the base station apparatus 100 as described above, To change the reference signal (RS) strength of the reference signal (RS).

The signal strength changing unit 120 receives the reference signal strength change request from the network device 300 according to a case where the resource usage rate of the base station apparatus 100 is equal to or higher than the upper usage rate, It can be determined that a signal strength change event has occurred.

The signal strength changing unit 120 may change the strength of the reference signal RS according to a request to change the reference signal RS when it is determined that the reference signal strength changing event has occurred as described above.

More specifically, the signal strength changing unit 120 may change the predetermined signal output value to the signal transmitting module 130 of the base station apparatus 100, or may transmit a reference signal RS ) To change the intensity of the reference signal RS.

The signal transmission module 130 is a module for transmitting various kinds of signals including the reference signal RS from the base station device 100 , And RU (Remote Unit).

In this signal transmission module 130, a signal output value (Tx Power) related to the intensity of a signal to be transmitted is preset. Accordingly, when the signal output value of the signal transmission module 130 is changed, not only the intensity of the reference signal RS but also the intensity of all signals transmitted from the base station 100 are changed.

The signal strength changing unit 120 may change the strength of the reference signal RS by changing the predetermined signal output value to the signal transmitting module 130 of the base station apparatus 100. [

For example, when a change request for reducing the strength of the reference signal RS is received, the signal strength changing unit 120 changes the predetermined signal output value to the signal transmitting module 130 to be lowered by a predetermined value (for example, : -3 dBm), the intensity of the reference signal RS can be changed so that the intensity of the reference signal RS is increased. If the change request is received, (E.g., +3 dBm) so that the intensity of the reference signal RS increases.

The strength of the reference signal RS is determined by the transmission intensity ratio of the reference signal RS to the data signal set in the base station apparatus 100 .

In the conventional base station apparatus, the transmission intensity ratio of the reference signal RS to the data signal is always maintained at a fixed value.

However, the signal strength changing unit 120 may change the intensity of the reference signal RS by changing the transmission intensity ratio of the reference signal RS to the predetermined data signal in the base station apparatus 100. [

For example, when a change request for reducing the strength of the reference signal RS is received, the signal strength changing unit 120 lowers the transmission intensity ratio of the reference signal RS with respect to the data signal by a predetermined ratio, (For example, -3 dBm), and when a change request for increasing the strength of the reference signal RS is received, the transmission intensity ratio of the reference signal RS to the data signal is set to a predetermined ratio So that the intensity of the reference signal RS increases (e.g., + 3dBm).

When the strength of the reference signal RS is changed by the signal strength changing unit 120, the cell coverage of the base station 100 may be adjusted according to the strength of the changed reference signal RS. That is, when the strength of the reference signal RS becomes smaller, the cell cover geographical area of the base station apparatus 100 is narrowed. When the strength of the reference signal RS increases, the cell cover geographical area of the base station apparatus 100 is adjusted to widen will be.

At this time, when the intensity of the reference signal RS is changed according to the request for changing the reference signal RS as described above, the signal strength changing unit 120 may change the intensity of the reference signal RS based on the minimum intensity and the maximum intensity of the reference signal RS It is desirable to avoid cell coverage from becoming too small or too large, by not changing it below a minimum strength or above a maximum strength.

The change information providing unit 140 may change the reference signal RS intensity so as to change (decrease or increase) the reference signal RS intensity as described above in the signal strength changing unit 120, To at least one terminal connected to the call session so that the cell coverage adjusted according to the change of the reference signal strength can be recognized by at least one terminal connected to the call session among the plurality of terminals.

Here, the change information according to the change of the reference signal RS intensity means the reference signal RS intensity value after the change.

In general, a base station apparatus provides a reference signal (RS) strength value to each terminal using an SIB channel, which is a dedicated channel for providing a predetermined information providing channel, i.e., system information. Each terminal stores and reflects a reference signal strength value of the base station apparatus, which is confirmed through the SIB channel. The terminal stores the stored reference signal strength value and the measurement strength of the reference signal actually received from the base station apparatus. Based on the value, related operations such as channel quality measurement and reporting, determination of necessity of handover, and the like are performed.

In the base station apparatus 100, the reference signal RS intensity is changed (decreased or increased) as described above, and the change information according to the change, that is, the reference signal RS intensity value after the change, To all the terminals located in the cell coverage of the base station apparatus 100, a blocking phenomenon (lock phenomenon) occurs in the communication service being provided by the base station apparatus 100 and the terminal instantly uses the communication service ) Experience the call disorder.

The change information providing unit 140 of the base station apparatus 100 according to the present invention changes the reference signal RS intensity so as to decrease or increase the reference signal RS intensity, (RS) strength value after the change is provided only in the terminal using the communication service through at least one terminal connected to the call session, that is, the current base station apparatus 100. [

At this time, the change information providing unit 140 provides the control information for using the communication service to the control channel allocated in association with the call session of the terminal, that is, the terminal currently using the communication service through the base station apparatus 100 (RS) strength value through the designated control channel for the change.

Accordingly, the terminal currently using the communication service through the base station apparatus 100 confirms / stores the changed reference signal strength value of the base station apparatus 100 via the control channel, not the information providing channel, and immediately reflects And can recognize the adjusted cell coverage of the base station apparatus 100 based on the stored reference signal strength value and the measurement strength value of the reference signal actually received from the base station apparatus 100, In addition, related operations such as channel quality measurement and reporting, handover necessity determination, and the like are performed.

When the change information providing unit 140 reaches a specific point in time after changing the strength of the reference signal RS as described above, the change information providing unit 140 provides the information providing channel allocated to provide system information irrespective of the call session of the terminal, (RS) intensity value to all terminals located within the cell coverage of the base station apparatus 100 through the SIB channel of the base station apparatus 100 to adjust the cell coverage adjusted according to the change of the reference signal strength So that it can be recognized by all terminals located within the adjusted cell coverage of the base station apparatus 100.

Here, it is preferable that the specific point in time is the point when the number of terminals to which the call session is connected to the base station apparatus 100 is the smallest. For example, the specific point in time may be a time point at which the number of terminals to which the call session is connected is the smallest at the base station apparatus 100, or the base station apparatus 100 ) To the average number of terminals to which the call session is connected.

That is, the base station apparatus 100 may be predefined as a time point when the number of terminals connected to the call session is the smallest.

In other words, as a result of monitoring the number of terminals to which a call session is connected to the base station apparatus 100 for each time period of 24 hours a day during a specific monitoring period (for example, 4 weeks) ) Can be confirmed that the number of terminals to which a call session is connected is the smallest. Accordingly, the base station apparatus 100 can be preliminarily designated as a specific time point in a specific time zone (e.g., 2:00 am) confirmed in accordance with the monitoring result as described above.

In other words, the change information providing unit 140 transmits the change information to the base station apparatus 100 via the SIB channel when the specific time, that is, the time when the number of terminals to which the call session is connected reaches the minimum, I.e., the changed reference signal RS intensity value, to all terminals located within the cell coverage of the base station.

Meanwhile, the change information providing unit 140 determines whether the number of terminals to which the call session is connected to the base station apparatus 100 is greater than the average number of terminals to which the call session is connected to the base station apparatus 100 over a specific period (for example, 24 hours a day) It may be recognized that the time point when the number of terminals to which the call session is connected to the base station apparatus 100 is the smallest point at which the number of terminals to which the call session is connected is the smallest.

In other words, the change information providing unit 140 determines whether or not the number of the current terminals to which the call session is connected to the base station apparatus 100, that is, the call session connection unit 110, to the base station apparatus 100 for a predetermined period (For example, 30%) with respect to the average number of terminals to which the call session is connected, and transmits change information to all terminals located within the cell coverage of the base station apparatus 100 through the SIB channel, that is, And may provide a reference signal (RS) intensity value.

Accordingly, all terminals located within the adjusted cell coverage of the base station apparatus 100 can confirm / store the changed reference signal strength value of the base station apparatus 100 through the SIB channel and reflect it, It is possible to recognize the adjusted cell coverage of the base station apparatus 100 based on the reference signal (RS) strength value and the measured strength value of the reference signal actually received from the base station apparatus 100, Quality measurement and reporting, and whether to require handover.

Meanwhile, in the above description, the network device 300 selects the base station device to be subjected to cell coverage adjustment based on the resource usage rates of the base station devices A, B, C, and D and requests the base station device to change the reference signal strength , This is only an embodiment.

That is, each base station apparatus 100 itself determines whether it is a cell coverage adjustment target based on its own resource utilization rate, changes the strength of the reference signal RS as described above according to the determination result, It is also possible to do.

As described above, the base station apparatus and the network apparatus according to the present invention monitor the resource usage rate of the base station apparatus, adjust the resource usage rate of the base station apparatus, that is, It is possible to effectively solve the imbalance in the resource usage between the base stations and to effectively prevent the call disturbance of the terminal, which may occur in the process of adjusting the cell coverage, by adjusting in real time so that the cell coverage of the base station apparatus with less traffic, do.

Hereinafter, an operation method of a network device and an operation method of a base station apparatus according to a preferred embodiment of the present invention will be described with reference to FIG. 4 to FIG. For convenience of explanation, reference will be made to the above-mentioned reference numerals in FIGS. 1 to 3.

First, a control flow of a communication system including a base station apparatus and a network apparatus according to the present invention will be described with reference to FIG.

The network device 300 receives a resource utilization rate provided from a plurality of base station apparatuses 200 and monitors a resource utilization rate for each of the base station apparatuses A, B, C, and D based on the resource utilization rate.

The network device 300 selects a specific base station apparatus to be subjected to cell coverage adjustment among the base station apparatuses A, B, C, and D based on resource utilization rates of the base station apparatuses A, B, C, and D (S30). Here, the specific base station apparatus described above is a base station in which the resource utilization rate of each of the base station apparatuses A, B, C, and D is equal to or higher than a predetermined upper limit usage rate or lower than a predetermined lower limit usage rate.

That is, the network device 300 determines whether the resource usage rate of each of the base station devices A, B, C, and D is higher than the upper usage rate of the base station device (for example, The base station apparatus A) and the base station apparatus (for example, the base station apparatus D) whose resource utilization rate is lower than the lower usage rate are selected as the specific base station apparatus to be subjected to cell coverage adjustment.

The network device 300 requests the base station apparatus A to change the strength of the reference signal RS of a specific base station apparatus (for example, the base station apparatuses A and D) selected as an object of cell coverage adjustment among the base station apparatuses A, B, C and D .

More specifically, the network device 300 requests the BS 300 to change the resource usage rate of the base station apparatus A having the upper usage rate, that is, (Step S50). That is, the base station apparatus D may request the change of the reference signal RS intensity of the base station apparatus D having a small amount of traffic.

Upon receiving the change request from the network device 300, the base station device A modifies its own reference signal strength to decrease in accordance with the change request, so that the cell coverage is reduced according to the change of the reference signal strength (S60). In step S65, only the at least one terminal connected to the call session among the plurality of terminals located within the cell coverage of the mobile terminal can provide the change information according to the change in the strength of the reference signal (RS).

Of course, the base station apparatus D that has received the change request from the network device 300 changes its reference signal strength to increase in accordance with the change request, and the cell coverage is widened according to the change of the reference signal strength (S70). Only at least one of the plurality of terminals located within the coverage of the own cell and to which the call session is connected may be provided with the change information according to the change in the strength of the reference signal (RS) described above (S75).

Hereinafter, a method of operating a network device according to a preferred embodiment of the present invention will be described with reference to FIG.

The operation method of the network device according to the present invention monitors resource utilization rates of the base station devices A, B, C, and D (S100).

The operation method of the network device according to the preferred embodiment of the present invention is characterized in that the cell coverage adjustment target of each of the base station apparatuses A, B, C, and D is determined based on resource utilization rates of the base station apparatuses A, B, (S110). Here, the specific base station apparatus described above is a base station in which the resource utilization rate of each of the base station apparatuses A, B, C, and D is equal to or higher than a predetermined upper limit usage rate or lower than a predetermined lower limit usage rate.

That is, a method of operating a network device according to a preferred embodiment of the present invention is characterized in that a resource usage rate of each of the base station apparatuses A, B, C, and D is calculated based on a resource utilization rate of each of the base station apparatuses A, (For example, the base station apparatus A) having the upper usage rate or lower and the base station apparatus (for example, the base station apparatus D) having the resource usage rate lower than the lower usage rate as the specific base station apparatus to be subjected to cell coverage adjustment.

More specifically, a method of operating a network device according to a preferred embodiment of the present invention includes: receiving a resource utilization rate from each of the base station devices A, B, C, and D for each of the base station devices A, B, C, and D by receiving the resource usage rates from the base station apparatuses A, B, C, and D that reach the predetermined resource usage rate providing timing, D can be monitored.

In this case, a collection period is set in each of the base station devices A, B, C, and D. When each of the base station devices A, B, C, and D reaches a collection period set in itself And can provide its own resource utilization rate to the network device 300.

In this case, the operation method of the network device according to the preferred embodiment of the present invention is characterized in that the resource utilization rate received for each collection period from each of the base station apparatuses A, B, C and D for a predetermined monitoring time is set to a predetermined usage rate upper limit value and a usage lower limit value Can be monitored.

The operation method of the network device according to the preferred embodiment of the present invention is a method of monitoring resource utilization rates received during each collection period of each of the base station devices A, B, C, and D, (For example, base station apparatus A) whose number of times that the resource usage rate exceeds the usage rate upper limit value during the monitoring time is equal to or greater than a specific number of times (for example, five times) is selected as the specific base station apparatus having the resource usage rate above the upper usage rate , The base station apparatus (for example, base station apparatus D) whose number of times that the resource usage rate is less than the lower usage rate is a specific number of times (for example, five times) during the monitoring time can be selected as the specific base station apparatus.

Meanwhile, each of the base station apparatuses A, B, C, and D can continuously provide its own resource utilization rate to the network device 300. FIG.

In this case, the method of operating the network device according to the preferred embodiment of the present invention can monitor the resource usage rate continuously received from each of the base station devices A, B, C, and D by comparing the resource usage rate with a predetermined usage rate upper limit value and a lower usage rate limit value .

The operation method of the network device according to the preferred embodiment of the present invention is a method of monitoring the resource usage rate continuously received by each of the base station devices A, B, C, and D, The base station apparatus (for example, the base station apparatus A) whose usage rate exceeds the usage rate upper limit value and is maintained for a predetermined time or more is selected as being a specific base station apparatus having the above-mentioned resource usage rate higher than the upper usage rate, (For example, the base station apparatus D) can be selected to be a specific base station apparatus whose resource utilization rate is lower than the lower usage rate.

Meanwhile, each of the base station apparatuses A, B, C, and D compares its own resource utilization rate with a predetermined upper usage rate utilization rate and a lower utilization rate limit, so that the resource usage rate exceeds a usage rate upper limit value If the resource usage rate is maintained for a certain period of time or is maintained for a predetermined period or longer with the resource usage rate less than the usage ratio lower limit value, it is recognized that the resource utilization rate has reached the provision time point and the resource usage rate maintained for the predetermined time or longer can be provided to the network device 300 have.

In this case, a method of operating a network device according to a preferred embodiment of the present invention is a method of receiving a resource utilization rate from a base station device (e.g., base station device A, D) The resource utilization rate can be monitored by comparing the resource utilization upper limit value with the lower utilization rate limit value.

Accordingly, a method of operating a network device according to a preferred embodiment of the present invention includes: monitoring a resource usage rate received from a base station device (e.g., base station device A or D) that has reached a resource usage rate providing time; (For example, the base station apparatus A) is selected as being a specific base station apparatus having the above-mentioned resource usage rate equal to or higher than the upper usage rate, and the base station apparatus (for example, the base station apparatus D) It can be selected to be a specific base station device having a usage rate or less.

A method of operating a network device according to a preferred embodiment of the present invention is a method of operating a network device according to a preferred embodiment of the present invention in which a reference signal RS of a specific base station device (e.g., base station device A, D) selected as an object of cell coverage adjustment among base station devices A, It is requested to change the strength (S120).

That is, a method of operating a network device according to a preferred embodiment of the present invention is a method of requesting a base station apparatus having a resource utilization rate equal to or higher than an upper usage rate, that is, changing the reference signal RS intensity of a base station apparatus A having high traffic, It is possible to request the base station apparatus less than the usage rate, that is, the reference signal RS of the base station apparatus D with less traffic, to increase the strength.

Accordingly, the base station apparatus A having high traffic changes its own reference signal (RS) intensity according to the change request to adjust the cell coverage to be small according to the change of the reference signal strength, Only the at least one terminal connected to the call session among the plurality of terminals located within the terminal can provide the change information according to the change of the strength of the reference signal RS at step S130.

Of course, the base station apparatus D having a small amount of traffic changes its reference signal (RS) intensity according to the change request so that the cell coverage is adjusted to be wider according to the change of the reference signal strength, Only the at least one terminal connected to the call session among the plurality of terminals located within the terminal can provide the change information according to the change of the strength of the reference signal RS at step S130.

Hereinafter, an operation method of a base station apparatus according to a preferred embodiment of the present invention will be described with reference to FIG.

The method of operation of the base station apparatus according to the present invention is characterized in that when a previously designated reference signal intensity change event occurs (S200), the intensity of the reference signal (RS) is changed and the cell coverage is adjusted (S210).

Here, the reference signal strength change event may occur when the resource usage rate of the base station apparatus 100 is equal to or higher than a predetermined upper usage limit or lower than a predetermined lower usage rate.

For example, as described in the description with reference to FIG. 2, the base station apparatus 100 may provide its own resource utilization rate to the network device 300 continuously or at predetermined collection periods, And can provide its resource utilization rate to the network device 300 when it reaches the provisioning point.

If the resource usage rate of the base station apparatus 100 is equal to or higher than the upper usage rate or lower than the lower usage rate according to the result of monitoring the resource usage rate of the base station apparatus 100 as described above, To change the reference signal (RS) strength of the reference signal (RS).

The method of operating the base station apparatus according to the present invention is characterized in that when a request for changing the reference signal strength according to the resource usage rate of the base station apparatus 100 is equal to or higher than the upper usage rate or lower than the lower usage rate is received from the network device 300 , It can be determined that the reference signal strength change event has occurred.

The operation method of the base station apparatus according to the present invention can change the strength of the reference signal RS according to a request to change the reference signal strength when it is determined that the reference signal strength change event has occurred as described above.

More specifically, the method of operation of the base station apparatus according to the present invention can be implemented by changing a predetermined signal output value to the signal transmission module 130 of the base station apparatus 100, The intensity of the reference signal RS can be changed by changing the transmission intensity ratio of the reference signal RS.

That is, the operation method of the base station apparatus according to the present invention can change the intensity of the reference signal RS by changing the predetermined signal output value to the signal transmitting module 130 of the base station apparatus 100.

For example, when the change request for reducing the strength of the reference signal RS is received, the operation of the base station apparatus according to the present invention changes the signal output value set in the signal transmission module 130 to a predetermined value (For example, -3dBm), the intensity of the reference signal RS can be changed so that the intensity of the reference signal RS can be changed. If a change request for increasing the reference signal RS intensity is received, (For example, + 3 dBm) so that the intensity of the reference signal RS increases.

Meanwhile, the operation method of the base station apparatus according to the present invention can change the intensity of the reference signal RS by changing the transmission intensity ratio of the reference signal RS to the predetermined data signal in the base station apparatus 100.

For example, when the change request for reducing the strength of the reference signal RS is received, the operation method of the base station apparatus according to the present invention reduces the transmission intensity ratio of the reference signal RS to the data signal by a predetermined ratio value, (For example, -3 dBm) to decrease the strength of the signal RS, and if a change request to increase the reference signal RS intensity is received, the transmission intensity ratio of the reference signal RS to the data signal (For example, + 3dBm) by increasing a predetermined ratio value so that the intensity of the reference signal RS increases.

As described above, in the method of operating the base station apparatus according to the present invention, when the strength of the reference signal RS is changed, the cell coverage of the base station apparatus 100 may be adjusted according to the strength of the changed reference signal RS. That is, when the strength of the reference signal RS becomes smaller, the cell cover geographical area of the base station apparatus 100 is narrowed. When the strength of the reference signal RS increases, the cell cover geographical area of the base station apparatus 100 is adjusted to widen will be.

The operation method of the base station apparatus according to the present invention is characterized in that when changing the strength of the reference signal RS according to the request for changing the reference signal RS, It is desirable to avoid cell coverage from becoming too small or too large, by not changing it to more than the maximum intensity without changing below the minimum strength as a reference.

The method of operation of the base station apparatus according to the present invention determines whether the current time is a previously specified specific time (S220). If the reference time (RS) is changed (decreased or increased) The method of claim 1, wherein the changing of the reference signal (RS) strength is provided only in at least one term to which the call session is connected, so that the cell coverage adjusted according to the change of the reference signal strength (S230).

Here, it is preferable that the specific point in time is the point when the number of terminals to which the call session is connected to the base station apparatus 100 is the smallest. For example, the base station apparatus 100 may be specified as a specific time point at a specific time of night (for example, 2:00 am) as the time when the number of terminals to which call sessions are connected is the smallest.

Here, the change information according to the change of the reference signal RS intensity means the reference signal RS intensity value after the change.

That is, the operation method of the base station apparatus according to the present invention is a method in which the reference signal RS intensity is changed (decreased or increased) as described above, and the changed point is detected at a specific point in time, (RS) strength value after the change, the change information according to the change in the strength of the reference signal (RS) is transmitted to at least one terminal connected to the call session, that is, the current base station apparatus 100 But only in the words of

In this case, the method of operating the base station apparatus according to the present invention is a method in which control information allocated to a call session of a terminal, that is, control information for using a communication service to a terminal using a communication service through the current base station apparatus 100, (RS) strength value through the designated control channel to provide the change information.

Accordingly, the terminal currently using the communication service through the base station apparatus 100 confirms / stores the changed reference signal strength value of the base station apparatus 100 via the control channel, not the information providing channel, and immediately reflects And can recognize the adjusted cell coverage of the base station apparatus 100 based on the stored reference signal strength value and the measurement strength value of the reference signal actually received from the base station apparatus 100, In addition, related operations such as channel quality measurement and reporting, handover necessity determination, and the like are performed.

The method of operation of the base station apparatus according to the present invention further includes the steps of providing an information providing channel allocated to provide system information irrespective of the call session of the terminal when a specific time, That is, the changed reference signal RS intensity value to all terminals located within the cell coverage of the base station apparatus 100 through the SIB channel described above, So that the coverage can be recognized by all terminals located within the adjusted cell coverage of the base station apparatus 100 (S250).

Accordingly, all terminals located within the adjusted cell coverage of the base station apparatus 100 can confirm / store the changed reference signal strength value of the base station apparatus 100 through the SIB channel and reflect it, It is possible to recognize the adjusted cell coverage of the base station apparatus 100 based on the reference signal (RS) strength value and the measured strength value of the reference signal actually received from the base station apparatus 100, Quality measurement and reporting, and whether to require handover.

As described above, according to the operation method of the network device and the operation method of the base station apparatus according to the present invention, the resource usage rate of the base station apparatus is monitored, and the cell coverage of the base station apparatus, And real time adjustment is performed so that the cell coverage of the base station apparatus having a small amount of resources, that is, less traffic, is increased. Thus, the resource usage imbalance between the base stations can be effectively solved and the call failure of the terminal, The effect can be prevented.

The method of operating the network device and the method of operating the base station according to an embodiment of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the base station apparatus, the network apparatus, and the operation method of the apparatus according to the present invention, the resource usage rate of the base station apparatus is monitored and the cell coverage of the base station apparatus is adjusted according to the monitoring result, Since it is possible to effectively prevent the call disturbance of the terminal that may occur during the adjustment process, as the existing technology is overcome, it is not only the use of the related technology but also the possibility of marketing or operating the applicable device is sufficient This is an invention that is industrially applicable because it can be practically done.

200: multiple base stations 300: network device

Claims (15)

1. A base station apparatus for forming a cell coverage according to an intensity of a reference signal,
A call session connection unit connecting a call session with at least one of a plurality of terminals located within the cell coverage;
A signal strength changing unit for changing the strength of the reference signal and adjusting the cell coverage according to the change of the reference signal strength; And
And a change information providing unit for providing change information according to the change of the reference signal strength to a terminal connected to the call session,
Wherein the signal strength changing unit comprises:
The cell coverage is adjusted to be smaller when the resource usage rate of the base station apparatus is equal to or higher than a predetermined upper usage rate and the cell coverage is adjusted to be larger when the resource usage rate of the base station apparatus is lower than a predetermined lower usage rate,
The change information providing unit,
Wherein the number of terminals to which a call session is connected is set to a minimum number of terminals to which the call session is connected or the number of terminals to which the call session is connected to the base station apparatus is set to a predetermined value And provides the change information at a time point. delete The method according to claim 1,
Wherein the signal strength changing unit comprises:
And changes the intensity of the reference signal by changing a predetermined signal output value to the signal transmission module of the base station apparatus or by changing a transmission intensity ratio of the reference signal to a predetermined data signal to the base station apparatus. Device. The method according to claim 1,
The change information providing unit,
And provides the change information to a terminal connected to the call session through a control channel allocated in association with the call session. The method according to claim 1,
The change information providing unit,
The change information is provided to all terminals located within the cell coverage through an information providing channel allocated to provide system information irrespective of the call session so that all terminals located within the cell coverage can adjust Wherein the base station is configured to recognize the cell coverage of the base station. delete delete delete A method of operating a base station apparatus for forming cell coverage according to an intensity of a reference signal,
A call session connection step of connecting a call session with at least one of a plurality of terminals located within the cell coverage;
Changing a strength of the reference signal and adjusting the cell coverage according to the change of the reference signal strength; And
And providing change information according to the change of the reference signal strength to a terminal connected to the call session,
The signal strength changing step includes:
The cell coverage is adjusted to be smaller when the resource utilization rate of the base station apparatus is equal to or higher than a predetermined upper usage rate and the cell coverage is adjusted to be larger when the resource usage rate of the base station apparatus is lower than a predetermined lower usage rate,
In the change information providing step,
Wherein the number of terminals to which a call session is connected is set to a minimum number of terminals to which the call session is connected or the number of terminals to which the call session is connected to the base station apparatus is set to a predetermined value And the change information is provided at a point of time when the base station apparatus is operating. delete 10. The method of claim 9,
The signal strength changing step includes:
And changes the intensity of the reference signal by changing a predetermined signal output value to the signal transmission module of the base station apparatus or by changing a transmission intensity ratio of the reference signal to a predetermined data signal to the base station apparatus. Method of operation of the device. 10. The method of claim 9,
In the change information providing step,
And provides the change information to a terminal connected to the call session through a control channel allocated in association with the call session. 10. The method of claim 9,
The change information is provided to all terminals located within the cell coverage through an information providing channel allocated to provide system information irrespective of the call session so that all terminals located within the cell coverage can adjust The method comprising the steps of: detecting a cell coverage of the base station; delete delete

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