JP2018032988A - Radio base station and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique capable of appropriately distributing a load when the load is concentrated on a particular radio base station.SOLUTION: A radio base station includes: a mobile station information acquisition unit for acquiring communication quality between the radio base station and each of a plurality of mobile stations and amounts of communication resources allocated to the respective mobile stations; a mobile station identification unit for identifying at least one mobile station from the mobile stations on the basis of the communication quality and the amounts of communication resources; and a handover processing execution unit for executing a process to hand over the at least one mobile station to another radio base station.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a radio base station and a program.

There has been known a system in which a radio base station controls a handover of a communication terminal by transmitting a priority of RAT (Radio Access Technology) to a communication terminal located in the area. (For example, refer to Patent Document 1).
[Prior art documents]
[Patent Literature]
[Patent Document 1] JP 2011-044915 A

  When a load is concentrated on a specific radio base station, a technique capable of appropriately distributing the load has been desired.

  According to a first aspect of the present invention, a radio base station is provided. The radio base station may include a mobile station information acquisition unit that acquires the communication quality between the radio base station and each of the plurality of mobile stations and the amount of communication resources allocated to each of the plurality of mobile stations. . The radio base station may include a mobile station specifying unit that specifies at least one mobile station from a plurality of mobile stations based on the communication quality and the amount of communication resources. The radio base station may include a handover process execution unit that executes a process of handing over at least one mobile station to another radio base station.

  The mobile station identification unit may identify a mobile station having the communication quality lower than a predetermined threshold and the amount of the communication resource greater than a predetermined threshold among the plurality of mobile stations. The radio base station may further include a mobile station estimation unit that estimates a mobile station located at a cell edge of the radio base station among the plurality of mobile stations, and the mobile station identification unit includes the mobile station estimation unit The at least one mobile station may be identified from the mobile station estimated by the mobile station estimation unit based on the communication quality of the mobile station estimated by the above and the amount of the communication resource. The mobile station information acquisition unit may acquire an MCS index as the communication quality. The mobile station information acquisition unit may acquire the number of PRBs allocated to the mobile station as the amount of the communication resource.

  The radio base station may further include a connection number determination unit that determines whether or not the number of mobile stations that have established a radio communication connection with the radio base station is greater than a predetermined number. The identifying unit may identify the at least one mobile station when the number of connections is determined to be large by the connection number determining unit. The radio base station may further include a PRB determination unit that determines whether a PRB usage rate in the radio base station is higher than a predetermined threshold, and the mobile station identification unit is higher by the PRB determination unit. If it is determined, the at least one mobile station may be specified.

  According to the 2nd aspect of this invention, the program for functioning a computer as said radio | wireless base station is provided.

  It should be noted that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.

An example of the communication environment of the mobile station 400 is shown schematically. An example of a functional structure of the radio base station 100 is shown schematically. An example of the flow of processing by the radio base station 100 is schematically shown. 1 schematically shows an example of a computer 900 that functions as a radio base station 100.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

  FIG. 1 schematically shows an example of a communication environment of the mobile station 400. The mobile station 400 is, for example, a mobile phone such as a smartphone and a tablet terminal. The mobile station 400 may conform to a plurality of types of wireless communication schemes. For example, the mobile station 400 conforms to a time division multiplexing scheme and a frequency division multiplexing scheme.

  FIG. 1 shows that the mobile station 400 is in the area of the radio communication area 12 and the radio communication area 14 formed by the radio base station 100, and in the area of the radio communication area 22 and the radio communication area 24 formed by the radio base station 200. In addition, a case where the mobile terminal is located in the area of the wireless communication area 32 formed by the wireless base station 300 is illustrated. In FIG. 1, the radio base station 100, the radio communication area 12 and the radio communication area 14, the radio base station 200, the radio communication area 22 and the radio communication area 24, the radio base station 300 and the radio communication area are shown for ease of viewing. The position in the vertical direction with respect to 32 is shifted.

  The radio base station 100 uses a time division multiplexing method. The radio base station 100 uses, for example, a TD-LTE (Time Division Long Term Evolution) system. In this example, the case where the radio base station 100 uses AXGP (Advanced eXtended Global Platform) is shown.

  The radio base station 100 forms a radio communication area 12 using a 20 MHz width and a radio communication area 14 using a 10 MHz width. The boundary 16 exemplifies a boundary in the wireless communication area 12 where the quality of the wireless base station 100 measured by the mobile station 400 falls below the handover threshold. Inside the boundary 16, the quality of the radio base station 100 measured by the mobile station 400 exceeds the handover threshold. Outside the boundary 16, the quality of the radio base station 100 measured by the mobile station 400 is below the handover threshold.

  The radio base station 200 uses a time division multiplexing method. The radio base station 200 uses, for example, a TD-LTE scheme. In this example, the case where the radio base station 100 uses AXGP is shown.

  The radio base station 200 forms a radio communication area 22 using a 20 MHz width and a radio communication area 24 using a 10 MHz width. The boundary 26 exemplifies a boundary in the wireless communication area 22 where the quality of the wireless base station 200 measured by the mobile station 400 is below the handover threshold. Inside the boundary 26, the quality of the radio base station 200 measured by the mobile station 400 exceeds the handover threshold. Outside the boundary 26, the quality of the radio base station 200 measured by the mobile station 400 is below the handover threshold.

  The radio base station 300 uses a frequency division multiplexing method. In this example, the case where the radio base station 300 uses an FDD-LTE (Frequency Division Duplex Long Term Evolution) scheme is shown. The boundary 36 exemplifies a boundary in the wireless communication area 32 where the quality of the wireless base station 300 measured by the mobile station 400 is below the handover threshold. Inside the boundary 36, the quality of the radio base station 300 measured by the mobile station 400 exceeds the handover threshold. Outside the boundary 36, the quality of the radio base station 300 measured by the mobile station 400 is below the handover threshold.

  According to the prior art, when the mobile station 400 located in the radio communication area 12 moves from the inside of the boundary 16 to the outside, the handover to the radio base station 200 or the radio base station 300 is executed. The mobile station 400 being located in the wireless communication area 12 may indicate that the mobile station 400 has established a wireless communication connection with the wireless base station 100 in the wireless communication area 12.

  Here, when a large number of mobile stations 400 are located inside the boundary 16, the processing load of the radio base station 100 increases or communication resources are exhausted, so that the communication quality of the plurality of mobile stations 400 decreases. May end up. In such a case, by appropriately handing over the mobile station 400 located inside the boundary 16 to the radio base station 200 or the radio base station 300, the processing load of the radio base station 100 can be reduced, or communication resources can be reduced. It is desirable to be able to eliminate the depletion.

  The radio base station 100 according to the present embodiment acquires, for example, the communication quality with each of the plurality of mobile stations 400 and the amount of communication resources allocated to each of the plurality of mobile stations 400, A mobile station 400 whose communication quality is lower than a predetermined threshold and whose communication resource amount is higher than a predetermined threshold is specified. Then, the radio base station 100 executes a process of handing over the identified mobile station 400 to the radio base station 200 or the radio base station 300. The process of handing over the mobile station 400 may be a process for moving the mobile station 400 to another radio base station.

  As a result, among the plurality of mobile stations 400, the mobile station 400 having a large communication volume despite the low communication quality can be handed over preferentially to another radio base station, so that the communication resources are appropriately depleted. The processing load on the radio base station 100 can be appropriately reduced while eliminating the problem. In addition, a mobile station 400 that is located near the boundary 16 and has low communication quality with the radio base station 100 and has a large communication volume is more than the radio base station 100 when viewed from the mobile station 400. Since it is possible to perform handover to a nearby radio base station, it is possible to improve the communication quality of the mobile station 400 having a large communication volume, and to improve the user experience.

  FIG. 2 schematically shows an example of a functional configuration of the radio base station 100. The radio base station 100 includes a communication control unit 102, a mobile station information management unit 104, a base station information management unit 106, a determination unit 110, a mobile station estimation unit 120, a mobile station information acquisition unit 122, a mobile station identification unit 124, and a processing An execution unit 126 is provided.

  The communication control unit 102 controls communication with the mobile station 400. The communication control unit 102 may establish a wireless communication connection with the mobile station 400. The communication control unit 102 may relay communication of the mobile station 400 that has established a wireless communication connection.

  The mobile station information management unit 104 manages information on the mobile station 400. The mobile station information management unit 104 manages communication quality between the radio base station 100 and each of the plurality of mobile stations 400. The mobile station information management unit 104 manages, for example, an MCS (Modulation and channel Coding Scheme) index selected for the mobile station 400. The mobile station information management unit 104 may manage the SINR (Signal-to-Interference Noise Ratio) of the mobile station 400.

  The mobile station information management unit 104 manages the amount of communication resources allocated to each of the plurality of mobile stations 400. For example, the mobile station information management unit 104 manages the number of PRBs (Physical Resource Blocks) allocated to the mobile station 400.

  The base station information management unit 106 manages information on the radio base station 100. For example, the base station information management unit 106 manages the number of mobile stations 400 that have established a wireless communication connection with the wireless base station 100. For example, the base station information management unit 106 manages the PRB usage rate in the radio base station 100.

  The determination unit 110 includes a connection number determination unit 112 and a PRB determination unit 114. The connection number determination unit 112 determines whether or not the number of mobile stations 400 that have established a wireless communication connection with the radio base station 100 is greater than a predetermined number. The predetermined number may be arbitrarily set by an administrator of the radio base station 100 or the like. The PRB determination unit 114 determines whether the PRB usage rate in the radio base station 100 is higher than a predetermined threshold. The predetermined threshold may be arbitrarily set by an administrator of the radio base station 100 or the like.

  The mobile station estimation unit 120 estimates the mobile station 400 located at the cell edge of the radio base station 100 among the plurality of mobile stations 400 that have established radio communication connection with the radio base station 100. The cell edge of the radio base station 100 may indicate the vicinity of the boundary 16. Further, the cell edge of the radio base station 100 may indicate the vicinity of the boundary 16 inside the boundary 16. The mobile station estimation unit 120 may determine whether the mobile station 400 is located at the cell edge based on MR (Measurement Report) received from the mobile station 400 by the communication control unit 102.

  The mobile station estimation unit 120 may determine whether the mobile station 400 is located at the cell edge based on the signal reception strength from the mobile station 400. For example, when the signal reception strength from the mobile station 400 is lower than a predetermined threshold, the mobile station estimation unit 120 determines that the mobile station 400 is located at the cell edge.

  The mobile station estimation unit 120 may determine whether or not the mobile station 400 is located at the cell edge based on the delay of the signal transmitted from the mobile station 400 to the radio base station 100. For example, when the delay of a signal transmitted from the mobile station 400 to the radio base station 100 is greater than a predetermined threshold, the mobile station estimation unit 120 determines that the mobile station 400 is located at the cell edge.

  The mobile station information acquisition unit 122 acquires communication quality between the radio base station 100 and each of the plurality of mobile stations 400. The mobile station information acquisition unit 122 may acquire the communication quality managed by the mobile station information management unit 104. The mobile station information acquisition unit 122 may acquire the MCS index selected for the mobile station 400 as the communication quality.

  The mobile station information acquisition unit 122 acquires the amount of communication resources allocated to each of the plurality of mobile stations 400. The mobile station information acquisition unit 122 may acquire the amount of communication resources managed by the mobile station information management unit 104. The mobile station information acquisition unit 122 may acquire the number of PRBs assigned to the mobile station 400 as the amount of communication resources.

  For example, the mobile station information acquisition unit 122 has determined by the connection number determination unit 112 that the number of mobile stations 400 that have established a wireless communication connection with the radio base station 100 is greater than a predetermined number. In this case, the communication quality between the radio base station 100 and each of the plurality of mobile stations 400 and the amount of communication resources allocated to each of the plurality of mobile stations 400 are acquired.

  For example, when the PRB determination unit 114 determines that the PRB usage rate in the radio base station 100 is higher than a predetermined threshold, the mobile station information acquisition unit 122 determines whether the radio base station 100 and the plurality of mobile stations 400 The communication quality between them and the amount of communication resources allocated to each of the plurality of mobile stations 400 are acquired.

  The mobile station information acquisition unit 122 may acquire the communication quality and the amount of communication resources for all the mobile stations 400 that have established a radio communication connection with the radio base station 100. Further, the mobile station information acquisition unit 122 may acquire the communication quality and the amount of communication resources only for the plurality of mobile stations 400 estimated by the mobile station estimation unit 120.

  The mobile station identification unit 124 identifies at least one mobile station 400 from the plurality of mobile stations 400 based on the communication quality and the amount of communication resources acquired by the mobile station information acquisition unit 122. The mobile station specifying unit 124 may specify the mobile station 400 in which the communication quality acquired by the mobile station information acquiring unit 122 is lower than a predetermined threshold and the amount of communication resources is higher than a predetermined threshold. .

  For example, the mobile station specifying unit 124 includes, among the plurality of mobile stations 400, the MCS index acquired by the mobile station information acquisition unit 122 is lower than a predetermined MCS index threshold, and the mobile station information acquisition unit 122, for example. The mobile station 400 in which the number of PRBs acquired by the above is greater than a predetermined threshold of the number of PRBs is specified. The threshold value of the MCS index may be an arbitrary value such as 5 or 10, and may be set by an administrator of the radio base station 100 or the like. The threshold for the number of PRBs may also be an arbitrary value, and may be set by an administrator of the radio base station 100 or the like.

  When the connection number determination unit 112 determines that the number of mobile stations 400 that have established a wireless communication connection with the radio base station 100 is greater than a predetermined number, the mobile station identification unit 124 May be specified. The mobile station identification unit 124 may identify the mobile station 400 when the PRB determination unit 114 determines that the PRB usage rate in the radio base station 100 is higher than a predetermined threshold.

  The process execution unit 126 executes a process of handing over the mobile station 400 identified by the mobile station identification unit 124 to another radio base station. For example, the process execution unit 126 selects a radio base station that is a candidate for handover, and instructs the specified mobile station 400 to measure the quality of the selected radio base station. The process execution unit 126 receives a measurement result from the mobile station 400, determines a handover destination radio base station based on the measurement result, and transmits a handover instruction to the determined radio base station to the mobile station 400. It's okay.

  Here, the process execution unit 126 may select a radio base station that satisfies at least one of a plurality of conditions as a radio base station that is a candidate for handover. The plurality of conditions may include a history of handover from the radio base station 100, a location different from the radio base station 100, and a load lower than a predetermined threshold. The load of the radio base station may be the CPU load of the radio base station, the number of mobile stations 400 that have established connection, the PRB usage rate, and the like.

  The process execution unit 126 may transmit a condition for determining the handover destination from the selected radio base station to the identified mobile station 400. For example, the process executing unit 126 transmits an event A3 (Neighbor becomes offset better than serving) or an event A4 (Neighbor becomes better than threshold). As a specific example of event A3, the process execution unit 126 transmits to the mobile station 400 on condition that the RSRP of the NCell (Neighbour Cell) exceeds the offset value (3 dbm) from the RSRP of the SCell (Saving Cell). You can do it. As a specific example of event A4, the process execution unit 126 may transmit to the mobile station 400 on condition that the RSRP of the SCell exceeds the absolute value (−110 dBm or more).

  As described above, the communication quality with the radio base station 100 among the plurality of mobile stations 400 that have established the radio communication connection with the radio base station 100 is lower than a predetermined threshold value and assigned. To reduce the processing load of the radio base station 100 or eliminate the exhaustion of communication resources by handing over the mobile station 400 having a larger amount of communication resources than a predetermined threshold to another radio base station Can do.

  As described above, when the number-of-connections determination unit 112 determines that the number of mobile stations 400 that have established a wireless communication connection with the radio base station 100 is greater than a predetermined number, the mobile station information acquisition unit 122 When the mobile station specifying unit 124 and the process executing unit 126 execute the above processing, the processing load on the radio base station 100 can be appropriately reduced when the processing load on the radio base station 100 is high.

  As described above, when the PRB determination unit 114 determines that the PRB usage rate in the radio base station 100 is higher than a predetermined threshold, the mobile station information acquisition unit 122, the mobile station identification unit 124, and the processing execution unit By performing the above processing by 126, when the processing load on the radio base station 100 is high, the processing load on the radio base station 100 can be appropriately reduced.

  As described above, the communication quality and the amount of communication resources are acquired only for the plurality of mobile stations 400 estimated by the mobile station estimation unit 120, and the mobile stations 400 to be handed over from the estimated plurality of mobile stations 400. Therefore, the processing load on the mobile station information acquisition unit 122 and the mobile station identification unit 124 can be appropriately reduced.

  FIG. 3 schematically shows an example of the flow of processing by the radio base station 100. The radio base station 100 may periodically execute the process illustrated in FIG. The radio base station 100 may execute the processing illustrated in FIG. 3 according to an instruction from an administrator of the radio base station 100 or the like. Each process illustrated in FIG. 3 is executed mainly by a control unit included in the radio base station 100.

  In step 302 (step may be abbreviated as S), the mobile station estimation unit 120 determines whether or not there is a mobile station 400 (CEU (Cell Edge User)) located at the cell edge. If it is determined that there is CEU, the process proceeds to S304. If it is determined that there is no CEU, the process ends.

  In S304, the connection number determination unit 112 determines whether or not the number of mobile stations 400 that have established a wireless communication connection with the wireless base station 100 is greater than a threshold value. When it is determined that there are many, the process proceeds to S306, and when it is not determined that there are many, the process ends.

  In S306, the mobile station information acquisition unit 122 acquires the communication quality with the CEU and the amount of communication resources allocated to the CEU. When there are a plurality of CEUs, the mobile station information acquisition unit 122 may acquire the communication quality and the amount of communication resources for one CEU among the plurality of CEUs.

  In S308, the mobile station identification unit 124 determines whether or not the communication quality acquired in S306 is lower than a threshold value. If it is determined to be low, the process proceeds to S310, and if it is not determined to be low, the process proceeds to S316.

  In S310, the mobile station identification unit 124 determines whether the amount of communication resources acquired in S306 is greater than a threshold value. If it is determined that there are many, the process proceeds to S312. If it is not determined that there are many, the process proceeds to S316.

  In S312, the process execution unit 126 determines whether or not there is a CEU handover destination. For example, the process execution unit 126 selects a radio base station that is a candidate for handover, and instructs the CEU to measure the quality of the selected radio base station. And the process execution part 126 receives a measurement result from CEU, and determines the presence or absence of the radio base station which hands over CEU from a measurement result. If it is determined that there is a handover destination, the process proceeds to S314. If it is determined that there is no handover destination, the process proceeds to S316. In S314, the process execution unit 126 transmits a handover instruction to the CEU.

  In S316, it is determined whether or not the processing has been completed for all CEUs. If it is determined that the process has not been completed, the process returns to S304. If it is determined that the process has been completed, the process ends.

  FIG. 4 schematically shows an example of a computer 900 that functions as the radio base station 100. The computer 900 includes a control unit 902, a storage unit 904, a wired communication unit 906, and a wireless communication unit 908.

  The control unit 902 includes a processor and performs various controls. The storage unit 904 includes a RAM, a ROM, a hard disk, and the like, and stores various types of information. The wired communication unit 906 has a wired communication interface and executes communication with a core network or the like. The wireless communication unit 908 has an antenna and performs wireless communication with the mobile station 400.

  A program that is installed in the computer 900 and causes the computer 900 to function as the radio base station 100 may work on a processor or the like of the control unit 902 to cause the computer 900 to function as each unit of the radio base station 100. The information processing described in these programs is read by the computer 900, whereby the communication control unit 102, the mobile station information management unit, which are specific means in which the software and the various hardware resources described above cooperate. 104, the base station information management unit 106, the determination unit 110, the mobile station estimation unit 120, the mobile station information acquisition unit 122, the mobile station identification unit 124, and the process execution unit 126. And the specific radio base station 100 according to the use purpose is constructed | assembled by implement | achieving the calculation or processing of the information according to the use purpose of the computer 900 in this embodiment by these specific means. Note that the program according to the present embodiment is installed in the computer 900 including the communication control unit 102, the mobile station information management unit 104, the base station information management unit 106, and the process execution unit 126, thereby determining the computer 900. Unit 110, mobile station estimation unit 120, mobile station information acquisition unit 122, and mobile station identification unit 124 may function.

  In the above description, the radio base station 100 using the time division multiplexing method has been described as an example of the radio base station according to the present embodiment, but is not limited thereto. The radio base station according to the present embodiment may be a radio base station 300 that uses a frequency division multiplexing scheme. Further, it may be a radio base station using another communication method.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior to”. It should be noted that it can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first,” “next,” etc. for convenience, it means that it is essential to carry out in this order. It is not a thing.

12 wireless communication areas, 14 wireless communication areas, 16 boundaries, 22 wireless communication areas, 24 wireless communication areas, 26 boundaries, 32 wireless communication areas, 36 boundaries, 100 wireless base stations, 102 communication control units, 104 mobile station information management units , 106 Base station information management unit, 110 determination unit, 112 connection number determination unit, 114 PRB determination unit, 120 mobile station estimation unit, 122 mobile station information acquisition unit, 124 mobile station identification unit, 126 processing execution unit, 200 wireless base Station, 300 wireless base station, 400 mobile station, 900 computer, 902 control unit, 904 storage unit, 906 wired communication unit, 908 wireless communication unit

Claims (8)

A wireless base station,
A mobile station information acquisition unit that acquires communication quality between each of the radio base station and each of the plurality of mobile stations, and an amount of communication resources allocated to each of the plurality of mobile stations;
A mobile station specifying unit that specifies at least one mobile station from the plurality of mobile stations based on the communication quality and the amount of the communication resource;
A radio base station comprising: a handover process execution unit that executes a process of handing over the at least one mobile station to another radio base station.   The mobile station specifying unit specifies a mobile station having the communication quality lower than a predetermined threshold and having an amount of the communication resource higher than a predetermined threshold among the plurality of mobile stations. The radio base station according to 1. A mobile station estimation unit for estimating a mobile station located at a cell edge of the radio base station among the plurality of mobile stations,
The mobile station identification unit is configured to determine the mobile station estimated by the mobile station estimation unit based on the communication quality of the mobile station estimated by the mobile station estimation unit and the amount of communication resources. The radio base station according to claim 1 or 2, wherein the radio base station is specified.   The radio base station according to any one of claims 1 to 3, wherein the mobile station information acquisition unit acquires an MCS index as the communication quality.   The radio base station according to claim 1, wherein the mobile station information acquisition unit acquires the number of PRBs allocated to the mobile station as the amount of the communication resource. A connection number determination unit that determines whether or not the number of mobile stations that have established a wireless communication connection with the wireless base station is greater than a predetermined number;
The radio base station according to claim 1, wherein the mobile station specifying unit specifies the at least one mobile station when it is determined that the number of connections is large by the connection number determining unit. A PRB determination unit for determining whether a PRB usage rate in the radio base station is higher than a predetermined threshold;
The radio base station according to any one of claims 1 to 6, wherein the mobile station identification unit identifies the at least one mobile station when the PRB determination unit determines that the mobile station identification unit is high.   The program for functioning a computer as a wireless base station as described in any one of Claim 1 to 7.

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