KR101943332B1 - Methods and apparatus for determining operation mode of base station in heterogeneous network communication system - Google Patents

Abstract

A method for determining a mode of operation of a first type base station in a heterogeneous network communication system comprising a plurality of base stations, the method comprising: receiving a base station status information message including status information of each base station constituting a base station group, Determining a second type base station to adjust a base station active mode threshold value based on the status information of each base station and determining a threshold value adjustment for adjusting an active mode threshold value of the second type base station, And transmitting the message to the second type base station. The method of determining a base station operating mode in a heterogeneous network communication system and a base station therefor are provided.

Description

METHOD AND APPARATUS FOR DETERMINING OPERATION MODE OF BASE STATION IN HETEROGENEOUS NETWORK COMMUNICATION SYSTEM FIELD OF THE INVENTION [

The present invention relates to a method and apparatus for reducing power consumption of a base station by adjusting a threshold value for operation mode conversion of a base station in a heterogeneous network communication system.

In order to increase the capacity of the wireless and mobile communication systems and to solve the shadow area, a network in which different types of base stations are installed and operated in the size and function of the service area is generally called a heterogeneous network.

In a heterogeneous network, a base station can be divided into a mega base station, a macro base station, a micro base station, a pico base station, and a femto base station depending on the size of the service area.

The base station uses an active mode and a sleep mode to reduce energy consumption. At this time, the active mode means a state of a base station that can provide a service. On the other hand, the sleep mode means a state in which the service can not be provided, and means that a part or all of the hardware or software constituting the base station is turned off to reduce energy consumption.

The base station in the active mode can be switched to the sleep mode if the number of users to be served falls below a certain value. At this time, the specific value may be referred to as a sleep mode threshold value.

Conversely, the base station in the sleep mode can be switched to the active mode if there are more users than a certain value in the service radius. At this time, the specific value may be referred to as an active mode threshold value.

For example, if the sleep mode threshold is 0 and the active mode threshold is 3, if the base station is in active mode and there are no more users to serve in the base station service radius, then the base station ' . Conversely, if the operation mode of the base station is the sleep mode and there are three or more users to be serviced in the base station service radius, the operation mode of the base station is converted to the active mode. As shown in the example above, the technique of making the difference between the two thresholds 2 or more is called a dual threshold sleep mode control scheme.

When the conventional dual threshold sleep mode control scheme is followed, a large amount of calculation is required to calculate the operation mode threshold for determining the operation mode of the base station, that is, the sleep mode threshold and the active mode threshold. Also, according to the dual threshold sleep mode control scheme, since the operation mode threshold is determined based on the predicted user arrival rate and the average service time before the base station is operated, it may not be able to cope with the network environment changing in real time .

Therefore, the present invention is intended to provide a method capable of flexibly coping with a fluctuating network environment and minimizing energy consumed by a base station in a heterogeneous network system.

The method includes receiving a base station status information message including status information of each base station constituting a base station group from each base station constituting the base station group in a heterogeneous network communication system composed of a plurality of base stations, Determining a second type base station to adjust a base station active mode threshold value based on state information of the base station and transmitting a threshold value adjustment message for adjusting an active mode threshold value of the second type base station to the second type base station The method comprising the steps of: determining a first mode of operation of the first type base station;

The state information of each base station may include information on an operation mode of each base station constituting the base station group, a data transmission rate of the base station, an active mode threshold value of the base station, or an operation mode conversion count of the base station.

Determining the second type base station comprises: determining an average data rate of the base station group based on state information of each base station constituting the base station group; comparing the average data rate with a predetermined first reference data rate 2 < / RTI > reference data rate, and determining a second type base station to adjust a base station active mode threshold based on the comparison result, wherein the first reference data rate is less than the second reference data rate Can be the same.

If the average data rate is less than the first reference data rate, the base station having the sleep mode hold time longer than a predetermined reference time may be determined as the second type base station.

The threshold adjustment message may decrease the active mode threshold value of the second type base station by a predetermined first reference value.

If the average data rate exceeds the second reference data rate, a base station having the longest active mode hold time among the base stations constituting the base station group or a base station that has changed its operation mode more than twice during a predetermined reference time is a second type It can be decided as a base station.

The threshold adjustment message may increase the active mode threshold value of the second type base station by a predetermined second reference value.

The present invention relates to a method and apparatus for transmitting a base station status information message including status information of a type 2 base station to a first type base station in a heterogeneous network communication system composed of a plurality of base stations, Receiving an adjustment message from the first type base station and adjusting an active mode threshold value of the second type base station based on the threshold adjustment message; do.

The state information of the second type base station may be the same as the operation mode of the second type base station or the data transmission rate of the second type base station or the active mode threshold value of the second type base station or the number of times of operation mode conversion of the second type base station And the like.

Wherein the threshold adjustment message is determined by comparing an average data rate determined based on the state information of the second type base station with a predetermined first reference data rate and a second reference data rate, And may be less than or equal to the second reference data rate.

If the average data rate is less than the first reference data rate, the second type base station may reduce the active mode threshold by a predetermined first reference value.

If the average data rate exceeds the second reference data rate, the second type base station may increase the active mode threshold by a predetermined second reference value.

In a heterogeneous network communication system composed of a plurality of base stations, a base station status information message including status information of each base station constituting a base station group is received from each base station constituting the base station group, A transmission and reception unit for transmitting a threshold adjustment message for adjusting an active mode threshold value of a base station to the second type base station and a control unit for determining the second type base station for adjusting a base station active mode threshold value based on status information of each base station, Lt; RTI ID = 0.0 > 1 < / RTI >

The state information of each base station may include information on an operation mode of each base station constituting the base station group, a data transmission rate of the base station, an active mode threshold value of the base station, or an operation mode conversion count of the base station.

Wherein the controller determines an average data rate of the base station group based on status information of each of the base stations constituting the base station group and compares the average data rate with a predetermined first reference data rate and a second reference data rate, Determines a second type base station to adjust a base station active mode threshold value based on the comparison result, and the first reference data rate may be less than or equal to the second reference data rate.

If the average data rate is less than the first reference data rate, the controller may determine a base station having a sleep mode hold time greater than a preset reference time as a second type base station among the base stations constituting the base station group.

The threshold adjustment message may decrease the active mode threshold value of the second type base station by a predetermined first reference value.

If the average data rate is higher than the second reference data rate, the control unit determines whether the average data rate is higher than the second reference data rate, It can be determined to be the second type base station.

The threshold adjustment message may increase the active mode threshold value of the second type base station by a predetermined second reference value.

The present invention relates to a method and apparatus for transmitting a base station status information message including status information of a type 2 base station to a first type base station in a heterogeneous network communication system composed of a plurality of base stations, And a controller for adjusting an active mode threshold value of the second type base station based on the threshold adjustment message.

The state information of the second type base station may be the same as the operation mode of the second type base station or the data transmission rate of the second type base station or the active mode threshold value of the second type base station or the number of times of operation mode conversion of the second type base station And the like.

Wherein the threshold adjustment message is determined by comparing an average data rate determined based on the state information of the second type base station with a predetermined first reference data rate and a second reference data rate, And may be less than or equal to the second reference data rate.

The controller may decrease the active mode threshold by a predetermined first reference value if the average data rate is less than the first reference data rate.

The control unit may increase the active mode threshold by a predetermined second reference value when the average data rate exceeds the second reference data rate.

According to an embodiment of the present invention, the operation mode threshold value can be adjusted to the base station in real time according to the state information of the base station, so that the base station can flexibly respond according to the network environment, thereby reducing unnecessary energy consumption of the base station .

1 is a diagram illustrating a communication network environment according to an embodiment of the present invention.
2 is a flowchart illustrating a method of determining an operation mode of a first type base station according to an embodiment of the present invention.
3 is a flowchart illustrating a method of adjusting an operation mode of a second type base station according to an embodiment of the present invention.
4 is a diagram illustrating a method for adjusting the mode of operation of a Type 2 base station by a first type base station in a communication network system including a first type base station and a second type base station.
5 is a diagram showing a configuration of a first type base station.
6 is a diagram showing a configuration of a second type base station.

In the following description of the embodiments of the present invention, descriptions of techniques which are well known in the technical field of the present invention and are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated. Also, the size of each component does not entirely reflect the actual size. In the drawings, the same or corresponding components are denoted by the same reference numerals.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

At this point, it will be appreciated that the combinations of blocks and flowchart illustrations in the process flow diagrams may be performed by computer program instructions. These computer program instructions may be loaded into a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus, so that those instructions, which are executed through a processor of a computer or other programmable data processing apparatus, Thereby creating means for performing functions. These computer program instructions may also be stored in a computer usable or computer readable memory capable of directing a computer or other programmable data processing apparatus to implement the functionality in a particular manner so that the computer usable or computer readable memory The instructions stored in the block diagram (s) are also capable of producing manufacturing items containing instruction means for performing the functions described in the flowchart block (s). Computer program instructions may also be stored on a computer or other programmable data processing equipment so that a series of operating steps may be performed on a computer or other programmable data processing equipment to create a computer- It is also possible for the instructions to perform the processing equipment to provide steps for executing the functions described in the flowchart block (s).

In addition, each block may represent a module, segment, or portion of code that includes one or more executable instructions for executing the specified logical function (s). It should also be noted that in some alternative implementations, the functions mentioned in the blocks may occur out of order. For example, two blocks shown in succession may actually be executed substantially concurrently, or the blocks may sometimes be performed in reverse order according to the corresponding function.

Herein, the term " part " used in the present embodiment means a hardware component such as software or an FPGA or an ASIC, and 'part' performs certain roles. However, 'part' is not meant to be limited to software or hardware. &Quot; to " may be configured to reside on an addressable storage medium and may be configured to play one or more processors. Thus, by way of example, 'parts' may refer to components such as software components, object-oriented software components, class components and task components, and processes, functions, , Subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays, and variables. The functions provided in the components and components may be further combined with a smaller number of components and components or further components and components. In addition, the components and components may be implemented to play back one or more CPUs in a device or a secure multimedia card. Also, in an embodiment, 'to' may include one or more processors.

1 is a diagram illustrating a communication network environment according to an embodiment of the present invention.

In the present invention, one base station 100 and a plurality of sub-base stations 105, 110, 115, 120, 125, and 130 may have means 135 for exchanging information between base stations, The upper base station 100 can communicate with the plurality of lower base stations 105, 110, 115, 120, 125,

Here, the high-order base station 100 and the low-order base stations 105, 110, 115, 120, 125, and 130 may be classified based on the output of the base station. For example, a base station having a higher output can be determined as a base station having a lower output to the higher base station 100 as the lower base stations 105, 110, 115, 120, 125, and 130.

That is, a high-output mega base station or a macro base station may be included in the high-rank base station 100 according to the present invention, and a low-power base station such as a pico base station or a femto base station may be included in the sub- , 115, 120, 125, 130).

In this case, the upper base station 100 has a large coverage due to a relatively high output. On the other hand, the subordinate base stations 105, 110, 115, 120, 125, and 130 have a narrower coverage than the upper base stations due to their relatively low power, but they are advantageous in that the base stations can be installed inexpensively.

The lower base stations 105, 110, 115, 120, 125, and 130 are mainly used to fill a coverage hall area that is not covered by the upper base station 100, Used to absorb.

On the other hand, as described above, the output consumed by one of the sub-base stations 105, 110, 115, 120, 125, and 130 is lower than the power consumed by the upper base station 100. However, as shown in FIG. 1, since a plurality of lower-layer base stations are arranged in a certain area, the total consumed power consumed by the lower-layer base station may be higher than the power consumption of the upper-layer base station.

In addition, since each of the subordinate base stations covers different areas, the load imposed on the subordinate base stations may vary depending on the communication conditions of the areas allocated to the respective subordinate base stations. For example, there are three terminals in the area covered by the first sub-base station 105, whereas there may be no terminals in the area covered by the second sub-base station 110.

That is, in order to increase the power efficiency of a heterogeneous network communication system including an upper base station and a lower base station, it is necessary to appropriately operate the operations of the upper base station and the lower base station according to the communication state of the area covered by each lower base station.

Accordingly, the present invention provides a method and apparatus for solving the above problems. The first type base station to be described below may be an upper level base station as described above, and the second type base station may be a lower level base station. However, this is only an embodiment of the present invention, and thus the scope of the present invention should not be limited thereto. Both the first type base station and the second type base station may be configured as an upper base station, or both the first type base station and the second type base station may be configured as lower base stations.

2 is a flowchart illustrating a method of determining an operation mode of a first type base station according to an embodiment of the present invention.

As described above, the heterogeneous network communication system according to the present invention may be composed of a first type base station and a second type base station. For example, the first type base station may include a first base station, and the second type base station may include a second base station, a third base station, and a fourth base station. Here, the second base station, the third base station, and the fourth base station can constitute a base station group of the second type base station type.

Hereinafter, the first base station may be an indicating base station instructing to adjust the threshold values of a plurality of base stations constituting the base station group, and the second, third and fourth base stations constituting the base station group It can be an adjustment base station to be a threshold value adjustment target.

In the heterogeneous network communication system structure, the first type base station can receive the base station status information message including the status information of each base station constituting the base station group from each base station constituting the base station group through step S200. That is, the first type base station can receive the base station status information message from the second type base station constituting the base station group.

The reason why the first-type base station receives the status information of each base station constituting the base station group through step S200 is that the control is different according to the communication status of each base station constituting the base station group as described above. Therefore, the state information of the base station received by the first type base station may include various information related to the operation of the base station.

For example, the state information of the base station may include information on an operation mode of each base station constituting the base station group, a data transmission rate of the base station, an active mode threshold of the base station, or an operation mode conversion count of the base station.

The information on the operation mode of the base station is information for determining whether the base station is in the active mode or the sleep mode as described above. The active mode of the base station means that a communication service can be provided by the base station. On the other hand, if the operation mode of the base station is the sleep mode, it means that the communication service can not be provided by the base station.

The base station active mode threshold value means a threshold value at which the base station changes from the sleep mode to the active mode. The threshold value can be determined based on various variables. For example, the threshold value can be determined based on the number of terminals existing in the base station coverage.

For example, if the base station active mode threshold is 3, the operation mode of the base station may be changed from the sleep mode to the active mode when there are three or more terminals existing within the base station coverage.

Meanwhile, the number of base station operation mode conversions that can be included in the base station status information may be a number of times that the operation mode of the base station is changed from the active mode to the sleep mode or from the sleep mode to the active mode.

In step S200, the first type base station can receive a base station status information message from each base station constituting the base station group at regular intervals. Accordingly, the first-type base station can monitor the status information of the base stations constituting the base station group in real time, and can control the operation of the base stations constituting the base station group based on the status information.

When the period interval is short, the control performance of the first type base station can be improved. However, it is desirable to appropriately control the first type base station and each of the base stations constituting the base station group because it may place an excessive load on the base station.

In this aspect, the first type base station receives the base station status information at a time when it is determined that the status information of each base station constituting the base station group is necessary, thereby minimizing the load of the first type base station and the base stations constituting the base station group .

In this case, the first-type base station may request a base station status information message to each base station or a specific base station constituting the base station group prior to step S200, and each base station or a specific base station may transmit a base station status information message Can be transmitted.

In step S210, the first type base station can determine an average data rate of the base station group based on state information of each base station constituting the base station group. For example, if the data rate of the second base station is 10 Mbps, the data rate of the third base station is 5 Mbps, and the data rate of the fourth base station is based on the base station status information received by the first- 15 Mbps, the average data rate of the base station group determined through step S210 may be 10 Mbps ((10 Mbps + 5 Mbps + 15 Mbps) / 3 = 10 Mbps).

In step S220, the first type base station compares the average data rate determined in step S210 with a predetermined first reference data rate and a second reference data rate, respectively. Here, the predetermined first reference data rate and the second reference data rate can be used as a criterion for determining the type 2 base station to adjust the operation mode threshold.

Specifically, when the first reference data rate is set to a high value, the first type base station is highly likely to determine that the average data rate of the group of base stations is lower than the first reference data rate.

That is, it can be determined that the load imposed on the base station constituting the current base station group is small. On the other hand, when the second reference data rate is set to a low value, it is highly likely that the first type base station determines that the average data rate of the group of base stations is higher than the second reference data rate, If the average data rate is lower than the first reference data rate in step S220, as described above, the first type base station determines that the load imposed on the base station constituting the current base station group is low .

Here, the first reference data rate may be less than or equal to the second reference data rate, and thus the first-type base station may determine that the load imposed on the base station constituting the current base station group is very small . In other words, in this case, it is necessary to improve the average data rate of the base station in terms of the data transfer rate, and accordingly, it may be desirable to change the operation mode of some base stations constituting the base station group to the active mode.

For example, by changing the active mode threshold of the base station with an active mode threshold of 3 to 2, the average data rate of the base station group can be increased by increasing the probability that the base station whose active mode threshold has changed operates in the active mode .

As an example of a method of determining a base station for changing an active mode threshold value, in step S230, a method of determining a base station having a sleep mode hold time longer than a preset reference time as a second type base station is disclosed.

The more the base station maintaining the sleep mode for a long period of time, the higher the active mode threshold value of the base station. That is, the active mode threshold value of the base station that maintains the sleep mode for the longest period may be larger than the number of terminals that exist on average within the coverage of the base station constituting the base station group.

Therefore, when the active mode threshold is lowered, the BS has a higher probability of changing the operation mode to the active mode, so that the average data rate of the BS group can be approximated to the reference data rate, thereby increasing the average data rate .

Here, the reference time can be arbitrarily determined according to the needs of the designer. For example, if the difference between the average data rate, the first reference data rate and the second reference data rate is large, it is necessary to set the reference time shorter and increase the number of base stations adjusted to be smaller in the active mode threshold value. That is, in this case, it is desirable to set the reference time to be short to increase the average data transmission rate of the base station group as much as possible.

On the other hand, if the difference between the average data rate, the first reference data rate and the second reference data rate is not large, it is preferable to maintain the average data rate of the base station group so that the base station can smoothly transmit data by setting a longer reference time If a type 2 base station for which the active mode threshold is to be adjusted is determined in step S230, the type 1 base station transmits a threshold adjustment message for adjusting the active mode threshold value to the second type base station through step S250 do.

As described above, since the active mode threshold value of the second type base station determined through step S230 must be decreased, the threshold value adjustment message is used for decreasing the active mode threshold value of the second type base station by a predetermined first reference value Message.

For example, if it is determined in step S230 that the second type base station constituting the base station group is the base station for adjusting the active mode threshold value, the first type base station reduces the active mode threshold value of the second type base station by 2 A message can be transmitted.

Here, the first reference value may also be arbitrarily determined according to the needs of the designer. For example, if the difference between the average data rate, the first reference data rate, and the second reference data rate is large, it is desirable to set the first reference value to be high and increase the probability that the second type base station enters the active mode . On the other hand, if the difference between the average data rate, the first reference data rate, and the second reference data rate is not large, it may be desirable to set the first reference value small.

On the other hand, there may be a case where the base station whose sleep mode hold time is longer than the preset reference time is not determined in step S230. In this case, since it is not necessary to adjust the active mode threshold value through step S250, the threshold adjustment message may not be transmitted.

If the average data rate exceeds the second reference data rate in step S220, the first type BS can determine that the BS constituting the current BS group is in an overload state.

As described above, the second reference data rate may be greater than or equal to the first reference data rate, so that if the average data rate exceeds the second reference data rate, it can be determined that the load imposed on the base station is excessive.

That is, in this case, it is preferable to reduce the average data rate of the base station group to reduce the energy consumption and load of the base station group. In the present invention, a method of reducing the average data rate of the base station group through steps S240 and S250 Lt; / RTI >

Specifically, the present invention can determine a second type base station to increase the active mode threshold among the base stations constituting the base station group through step S240, and transmit the threshold adjustment message to the second type base station through step S250 have.

In step S240, the first type base station can determine the second type base station as the base station that has the longest active mode holding time or converts the operation mode more than twice during a predetermined reference time.

The base station with the longest active mode retention time is likely to have the highest load due to data transmission and so the first type base station can determine the base station with the longest active mode retention time as the second type base station.

In addition, as described above, the first type base station can determine the second type base station as a base station that has changed its operation mode more than twice during a predetermined reference time. The reference time here may be determined based on the power consumed by the base station to convert the operation mode.

For example, when the energy consumed by a base station to change its operation mode (conversion from active mode to sleep mode or from sleep mode to active mode) is 100J and the base station changes from active mode to sleep mode, Is changed from 500W to 450W, the reference time may be 2 seconds. (2 seconds = 100 J / (500 W - 450 W))

That is, according to the above example, since the power consumption consumed due to the operation mode conversion is larger than the power amount reduced by the operation mode conversion, the base station that has changed the operation mode twice more for 2 seconds adjusts the active mode threshold value through step S240 And can be determined as a type 2 base station.

If the second type BS has been determined in step S240, the first type BS transmits a threshold value adjustment message to the second type BS in step S250. Specifically, a threshold adjustment message for increasing the active mode threshold by a predetermined second reference value may be transmitted to the second type base station determined in step S240.

Therefore, the active mode threshold value of the second type base station receiving the threshold value adjustment message can be increased by the second reference value, so that the active mode threshold value of the second type base station becomes high and the probability of staying in the sleep mode can be increased . As a result, the energy consumption and the load of the base station group are reduced, and the average data rate of the base station group may approach the second reference data rate. In addition, the average data rate of the base station group may be lower than the first reference data rate There may be a problem between the data transmission rates. However, according to the present invention, in this case, the active mode threshold can be maintained without adjustment, and the type 1 base station can transmit a threshold adjustment message for adjusting the active mode threshold depending on the situation.

For example, if the consideration of the data rate is prioritized over the consideration of the base station load, the type 1 base station may send a threshold adjustment message for the active mode threshold reduction to the type 2 base station, , The Type 1 base station may send a threshold adjustment message for the active mode threshold reduction to the Type 2 base station if the consideration for the data rate is prioritized.

On the other hand, only the first reference data rate and the second reference data rate for comparison with the average data rate are disclosed, but the scope of the present invention should not be limited to this. The number of reference data rates compared to the average data rate may be increased or decreased.

Also, the reference data rates (including the first reference data rate and the second reference data rate), the reference time, the first reference value, and the second reference value may be predetermined values, but may be variable values Lt; / RTI > That is, the algorithm can be changed in the communication environment of the heterogeneous network or according to the designer's need.

In addition, in the above description, only the case where only one base station is determined as a type 2 type base station for which the active mode threshold value is to be adjusted is disclosed, but the scope of rights of the present invention should not be limited thereto.

That is, the second type base station may be a plurality of types, and in this case, the first type base station can transmit the threshold value adjustment messages to all of the determined plurality of second type base stations. However, in this case, the threshold adjustment messages transmitted to each type 2 type base station may not be the threshold adjustment messages including the same contents.

For example, if the second type base station and the third type base station are determined as the second type base station, the first type base station transmits a threshold value adjustment message including a message to lower the active mode threshold value by one for the second type base station And to send a threshold adjustment message to the third base station to lower the active mode threshold by two.

3 is a flowchart illustrating a method of adjusting an operation mode of a second type base station according to an embodiment of the present invention. The second type base station according to the present invention can be one of the base stations constituting the base station group described above.

In step S300, the second type base station may transmit a base station status information message including status information to the first type base station. The state information may include information on an operation mode of the second type base station, a data transmission rate of the second type base station, an active mode threshold of the second type base station, or an operation mode conversion count of the second type base station.

In step S310, the second type base station may receive the determined threshold adjustment message based on the status information. The concrete method of receiving the status information from the base station constituting the base station group and determining the threshold value adjustment message is described above with reference to FIG.

In step S320, the second type base station may adjust the active mode threshold of the second type base station based on the threshold adjustment message. More specifically, the active mode threshold value of the base station may be decreased by a first reference value or increased by a second reference value according to the threshold adjustment message.

If the active mode threshold value of the second type base station is decreased by the first reference value through step S320, the probability that the second type base station will enter the active mode increases and the average data rate of the base station group may increase. On the other hand, if the active mode threshold value of the second type base station is increased by the second reference value, the probability of the second type base station maintaining the sleep mode is increased, so that the power consumption of the base station group can be reduced.

4 is a diagram illustrating a method for adjusting the mode of operation of a Type 2 base station by a first type base station in a communication network system including a first type base station and a second type base station.

According to the present invention, each of the base stations of the base station group including the second type base station 410 may transmit the base station status information message to the first type base station 400 through step S420. The base station status information message includes an operation mode of the second type base station 410 or a data transmission rate of the second type base station 410 or an active mode threshold of the second type base station 410, And information on the number of times of operation mode conversion.

The first-type base station 400 may determine the base station group average data rate through step S430. A detailed description thereof will be omitted because it has already been explained with reference to FIG.

In step S440, the first type base station 400 compares the average data rate determined in step S430 with the first reference data rate and the second reference data rate, and adjusts the active mode threshold based on the comparison result. The base station 410 can be determined. A concrete method for determining the type 2 base station based on the result of the data rate comparison has been described above with reference to FIG.

In step S450, the first type base station 400 may transmit the threshold adjustment message to the second type base station 410 determined in step S440. After receiving the threshold adjustment message, the second type base station 410 may adjust the active mode threshold value of the second type base station through step S460.

5 is a diagram showing a configuration of a first type base station.

The first type base station 500 according to the present invention receives a base station status information message including status information of each base station constituting a base station group from each base station constituting the base station group, And a controller 520 for determining the second type base station to adjust the base station active mode threshold value based on the status information of each base station, ).

The state information of each base station may include information on an operation mode of each base station constituting the base station group, a data transmission rate of the base station, an active mode threshold value of the base station, or an operation mode conversion count of the base station.

The controller 520 determines an average data rate of the base station group based on state information of each base station constituting the base station group, and transmits the average data rate to a first reference data rate and a second reference data rate And determine a second type base station to adjust the base station active mode threshold value based on the comparison result. In this case, the threshold adjustment message may be a message for decreasing the active mode threshold value of the second type base station by a predetermined first reference value.

If the average data rate is less than the first reference data rate, the controller 520 may determine the base station having the sleep mode hold time greater than a preset reference time as the second base station among the base stations constituting the base station group.

If the average data rate exceeds the second reference data rate, the control unit 520 changes the operation mode more than twice during a base station having the longest active mode hold time or a preset reference time, A base station can be determined as the second type base station. In this case, the threshold adjustment message may be a message for increasing the active mode threshold value of the second type base station by a predetermined second reference value.

6 is a diagram showing a configuration of a second type base station.

The second type base station 600 according to the present invention transmits a base station status information message including status information of the second type base station 600 to the first type base station and transmits a threshold value adjustment message And a control unit 620 for adjusting an active mode threshold value of the second type base station based on the threshold adjustment message.

The state information of the second type base station may be the same as the operation mode of the second type base station or the data transmission rate of the second type base station or the active mode threshold value of the second type base station or the number of times of operation mode conversion of the second type base station And the like.

The threshold adjustment message may be determined by comparing an average data rate determined based on the state information of the second type base station with a predetermined first reference data rate and a second reference data rate.

If the average data rate is less than the first reference data rate, the controller 620 may reduce the active mode threshold by a predetermined first reference value.

On the other hand, when the average data rate exceeds the second reference data rate, the controller 620 may increase the active mode threshold by a predetermined second reference value.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. That is, it will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible. Further, each of the above embodiments can be combined with each other as needed. For example, the first embodiment, the second embodiment, and the third embodiment of the present invention may be combined with each other so that the base station and the terminal can be operated. Although the above embodiments are presented based on the LTE system, other systems based on the technical idea of the embodiment may be implemented in other systems such as a 5G or NR system.

Claims (24)

A method for determining an operation mode of a first type base station in a heterogeneous network communication system composed of a plurality of base stations,
Receiving a base station status information message including status information of each base station constituting a base station group from each base station constituting the base station group;
Determining a second type base station to adjust a base station active mode threshold value based on state information of each base station; And
And transmitting a threshold adjustment message for adjusting an active mode threshold value of the second type base station to the second type base station,
Wherein the state information of each base station includes information on a data transmission rate of each base station constituting the base station group, an active mode threshold value of each base station, or information on the number of times of operation mode conversion of each base station.
A method for determining an operating mode of a first type base station.
delete The method according to claim 1,
Wherein determining the second type base station comprises:
Determining an average data rate of the base station group based on state information of each base station constituting the base station group;
Comparing the average data rate with a predetermined first data rate and a second reference data rate; And
And determining a second type base station to adjust a base station active mode threshold value based on the comparison result,
Wherein the first reference data rate is less than or equal to the second reference data rate,
A method for determining an operating mode of a first type base station.
The method of claim 3,
Wherein the second base station determines a base station having a sleep mode hold time longer than a predetermined reference time among the base stations constituting the base station group if the average data rate is less than the first reference data rate.
A method for determining an operating mode of a first type base station.
5. The method of claim 4,
Wherein the threshold adjustment message is a message for reducing the active mode threshold value of the second type base station by a predetermined first reference value.
A method for determining an operating mode of a first type base station.
The method of claim 3,
If the average data rate exceeds the second reference data rate, a base station having the longest active mode hold time among the base stations constituting the base station group or a base station that has changed its operation mode more than twice during a predetermined reference time is a second type And determining a base station as a base station.
A method for determining an operating mode of a first type base station.
The method according to claim 6,
Wherein the threshold adjustment message is a message for increasing the active mode threshold value of the second type base station by a predetermined second reference value.
A method for determining an operating mode of a first type base station.
A method of adjusting an operation mode of a type 2 base station constituting a base station group in a heterogeneous network communication system comprising a plurality of base stations,
Transmitting a base station status information message including status information of the second type base station to the first type base station;
Receiving from the first type base station a threshold adjustment message determined based on the state information; And
And adjusting an active mode threshold value of the second type base station based on the threshold adjustment message,
And the state information of the second type base station includes information on the data transmission rate of the second type base station, the active mode threshold value of the second type base station, or the number of times of operation mode conversion of the second type base station ,
And adjusting the operation mode of the second type base station.
delete 9. The method of claim 8,
Wherein the threshold adjustment message is determined by comparing an average data rate determined based on the state information of the second type base station with a predetermined first reference data rate and a second reference data rate,
Wherein the first reference data rate is less than or equal to the second reference data rate.
And adjusting the operation mode of the second type base station.
11. The method of claim 10,
And if the average data rate is less than the first reference data rate, the second type base station decreases the active mode threshold by a predetermined first reference value.
And adjusting the operation mode of the second type base station.
11. The method of claim 10,
Wherein the second type base station increases the active mode threshold by a predetermined second reference value when the average data rate exceeds the second reference data rate.
And adjusting the operation mode of the second type base station.
1. A first type base station constituting a heterogeneous network communication system composed of a plurality of base stations,
Receiving a base station status information message including status information of each base station constituting the base station group from each base station constituting the base station group and transmitting a threshold value adjustment message for adjusting the active mode threshold value of the second type base station to the second A base station; And
And a controller for determining the second type base station to adjust a base station active mode threshold value based on state information of each base station,
Wherein the state information of each base station includes information on a data transmission rate of each base station constituting the base station group, an active mode threshold value of each base station, or information on the number of times of operation mode conversion of each base station.
Type 1 base station.
delete 14. The method of claim 13,
Wherein the controller determines an average data rate of the base station group based on status information of each of the base stations constituting the base station group and compares the average data rate with a predetermined first reference data rate and a second reference data rate, Determines a second type base station to adjust a base station active mode threshold based on the comparison result,
Wherein the first reference data rate is less than or equal to the second reference data rate.
Type 1 base station.
16. The method of claim 15,
Wherein the controller determines the base station having the sleep mode hold time longer than a preset reference time as the second type base station among the base stations constituting the base station group if the average data rate is less than the first reference data rate.
Type 1 base station.
17. The method of claim 16,
Wherein the threshold adjustment message is a message for reducing the active mode threshold value of the second type base station by a predetermined first reference value.
Type 1 base station.
16. The method of claim 15,
If the average data rate is higher than the second reference data rate, the control unit determines whether the average data rate is higher than the second reference data rate, Type base station is determined as a second type base station.
Type 1 base station.
19. The method of claim 18,
Wherein the threshold adjustment message is a message for increasing the active mode threshold value of the second type base station by a predetermined second reference value.
Type 1 base station.
1. A second type base station constituting a base station group in a heterogeneous network communication system composed of a plurality of base stations,
A transmitting / receiving unit for transmitting a base station status information message including status information of the second type base station to a first type base station and receiving a threshold value adjustment message determined based on the status information from the first type base station; And
And a controller for adjusting an active mode threshold value of the second type base station based on the threshold adjustment message,
And the state information of the second type base station includes information on the data transmission rate of the second type base station, the active mode threshold value of the second type base station, or the number of times of operation mode conversion of the second type base station ,
Type 2 base station.
delete 21. The method of claim 20,
Wherein the threshold adjustment message is determined by comparing an average data rate determined based on the state information of the second type base station with a predetermined first reference data rate and a second reference data rate,
Wherein the first reference data rate is less than or equal to the second reference data rate,
Type 2 base station.
23. The method of claim 22,
Wherein the control unit decreases the active mode threshold by a predetermined first reference value if the average data rate is less than the first reference data rate.
Type 2 base station.
23. The method of claim 22,
Wherein the control unit increases the active mode threshold by a predetermined second reference value when the average data rate exceeds the second reference data rate.
Type 2 base station.

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