JP6199779B2 - Processing apparatus, communication system, and communication method - Google Patents

Description

  The present invention relates to a processing device, a communication system, and a communication method.

In the LTE-Advanced system being studied by 3GPP, carrier aggregation (CA) that uses a plurality of frequency bands (component carrier (CC)) at the same time for the purpose of improving frequency utilization efficiency and peak throughput. Technology is employed (see Non-Patent Document 1).
In LTE, the maximum value of the bandwidth of one CC is 20 MHz. For this reason, in order to realize broadband communication such as 100 MHz, it is necessary to bundle and use a plurality of CCs.

In inter-site carrier aggregation (Inter-Site CA) which is one form of carrier aggregation, a mobile terminal device (UE: User Equipment) is a plurality of base station devices (eNB: E-UTRAN NodeB) installed at different locations. At the same time, the base station apparatus communicates using a different frequency band (CC).
In the carrier aggregation, the cell group includes one PCell (Primary Cell) and one or a plurality of SCells (Secondary Cells). In general, one cell (Cell) is provided using one CC, and L (L is an integer of 2 or more) different cells are provided using L different CCs. Each cell and each CC have a one-to-one correspondence.
In the carrier aggregation, one to a predetermined number (for example, four) SCells are set for one PCell. The UE is connected to one PCell and may be connected to two or more SCells simultaneously.

  In the base station apparatuses adjacent to each other, information on the other base station apparatuses is registered in a neighbor relation table (NRT: Neighbor Relation Table) (see Non-Patent Document 1), and load information and the like are exchanged through the X2 line. (Refer nonpatent literature 2.). The X2 line is set in units of base station apparatuses (eNBs).

3GPP TS36.300 v11.3.0, “E-UTRA and E-UTRAN overall description”, 2012-09. 3GPP TS36.423 v11.2.0, “X2 application protocol (X2AP)”, 2012-09.

In the LTE system, when a plurality of CCs exist in one base station apparatus, processing is performed for each CC. In addition, information exchange with other base station apparatuses regarding load information and the like via the backhaul line is performed for each CC.
However, the load of processing performed for each CC may increase. Furthermore, the communication capacity of the backhaul line may be tight.

  The present invention has been made in consideration of such circumstances. Even when there are a plurality of CCs in one base station apparatus, the processing load is reduced, and the communication amount of the backhaul line is reduced. It is an object of the present invention to provide a processing device, a communication system, and a communication method that can reduce the amount of noise.

  (1) In order to solve the above problem, a processing apparatus according to an aspect of the present invention processes a group based on identification information of a group including a plurality of communication units with a component carrier or a cell as a communication unit. A group processing control unit that performs control related to

  (2) In one aspect of the present invention, the processing apparatus according to (1) described above may include a grouping control unit that performs control related to grouping of the plurality of communication units.

  (3) According to one aspect of the present invention, in the processing device according to any one of (1) or (2), the group includes a plurality of communication units set in the same device. A configuration that is a group may be used.

  (4) In one aspect of the present invention, the processing device according to any one of (1) to (3) described above may be configured as a base station device.

  (5) One aspect of the present invention is the processing apparatus according to (4) described above, in which the group processing control unit exchanges information about the group with another base station apparatus via a line. A configuration may be used that controls as follows.

  (6) One aspect of the present invention may be configured such that, in the processing device according to (5) described above, the other base station device is another adjacent base station device.

  (7) According to one aspect of the present invention, in the processing device according to any one of (5) and (6), the line may be an X2 line.

  (8) One aspect of the present invention is the processing apparatus according to any one of (5) to (7), wherein the group processing control unit is configured to represent the group as the information exchange. A configuration may be used that controls to exchange value information.

  (9) One aspect of the present invention is the processing device according to (8), wherein the representative value of the group includes a maximum value, a minimum value, and an average based on information of a plurality of communication units included in the group. A configuration may be used in which one or more of the values, total values, or the result of multiplying all are used.

  (10) In one embodiment of the present invention, in the processing device according to any one of (5) to (9) above, the group corresponds to a type of information exchanged via the line. Different configurations may be used.

  (11) One aspect of the present invention is the processing apparatus according to any one of (4) to (10), wherein the group processing control unit is configured to store a neighbor relation table (NRT) for the group. A configuration that controls to store information may be used.

  (12) According to one aspect of the present invention, in the processing device according to any one of (1) to (11), the component carrier and the cell correspond one-to-one, A configuration in which one component carrier and one cell corresponding thereto correspond to one communication unit may be used.

  (13) In order to solve the above problem, a communication system according to an aspect of the present invention processes a group based on identification information of a group including a plurality of communication units with a component carrier or a cell as a communication unit. Control related to

  (14) In order to solve the above-described problem, a communication method according to one aspect of the present invention processes a group based on identification information of a group including a plurality of communication units, with a component carrier or a cell as a communication unit. Control related to

  According to the present invention, even when there are a plurality of CCs in one base station apparatus, the processing load can be reduced and the communication amount of the backhaul line can be reduced.

1 is a block diagram showing a schematic configuration of a communication system according to an embodiment of the present invention. It is a block diagram which shows schematic structure of the base station apparatus which provides PCell which concerns on one Embodiment of this invention. It is a block diagram which shows the schematic structure of the base station apparatus which provides SCell which concerns on one Embodiment of this invention. It is a block diagram which shows the schematic structure of the LTE communication system in which several CC exists in one base station apparatus. It is a figure which shows an example of a mode that a process is performed independently for each CC in a LTE communication system.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the present embodiment, a communication system will be described in which CCs and cells correspond one-to-one, and one CC and one corresponding cell (one set of correspondences) correspond to one communication unit.
[Description of communication system in which multiple CCs exist in one base station apparatus]
FIG. 4 is a block diagram illustrating a schematic configuration of an LTE communication system in which a plurality of CCs exist in one base station apparatus.
The communication system shown in FIG. 4 includes a UE 501, a base station apparatus 511 that provides PCell and its wireless communication area 601, a base station apparatus 512 that provides SCell and its wireless communication area 602, and a base station apparatus 511. And a base line (X2 line) 521 for connecting the base station apparatus 512. This communication system is connected to the Internet 502, and can communicate between the UE 501 and the Internet 502 (device connected thereto) via the base station device 511 and the base station device 512.
In FIG. 4, one or more CC groups (CC group) 2001 set for the base station apparatus 511 and one or more CC groups (CC group) set for the base station apparatus 512 are shown. Group) 2002 is shown. In the example of FIG. 4, each CC has a bandwidth of 20 MHz and is a different frequency region.

In the example of FIG. 4, one CC is set as the CC group 2001 in the base station apparatus 511 that provides the PCell. This one CC constitutes a PCell.
In addition, five CCs are set as the CC group 2002 in the base station apparatus 512 that provides the SCell. Each of these five CCs constitutes an SCell.

  Here, as another case, when the CC group 2001 set in the base station apparatus 511 includes two or more CCs, the PCell is provided using one CC of the two or more CCs. In addition, it is possible to provide SCells using other CCs (second and subsequent CCs). That is, in this case, the base station apparatus 511 that provides the PCell can also provide the SCell at the same time.

  In the example of FIG. 4, for the UE 501, one PCell using one CC in the base station apparatus 511 that provides the PCell and four CCs in the base station apparatus 512 that provides the SCell (in this example, 4 SCells using 1 are not used. Due to such carrier aggregation, a total bandwidth of 100 MHz (= 20 MHz × 5) is allocated to UE1, and UE501 communicates a bundle of five CCs (communication combining one PCell and four SCells). Is possible.

FIG. 5 is a diagram illustrating an example of a state in which processing is performed independently for each CC in the LTE communication system.
FIG. 5 shows a communication system and CC groups 2001 to 2002 similar to those shown in FIG.
FIG. 5 shows an example of the NRT 2011 stored in the base station apparatus 511 that provides the PCell.
In the LTE communication system, when there are a plurality of CCs (a plurality of cells) in one base station apparatus (the base station apparatus 512 that provides the SCell in the example of FIG. 5), each CC (respectively, Independent operations are performed on the cell. The identification information (ID) of each of the five CCs in the base station apparatus 512 that provides the SCell is assumed to be # 1, # 2, # 3, # 4, and # 5. Each CC corresponds to each cell.

  Here, when the CC and the cell correspond one-to-one, the CC identification information (ID) and the cell identification information (ID) correspond one-to-one, so the CC identification information or the cell identification information CC or cell can be identified by one or both of the above. For example, different information may be used as the CC identification information and the cell identification information, or common information may be used.

In the communication system as shown in the example of FIG. 5, a certain base station device (base station device 511 that provides PCell in the example of FIG. 5) and another base station device (provides SCell in the example of FIG. 5). Information is exchanged with the base station apparatus 512) via the X2 line 521 independently for each CC (each cell). Specifically, between one CC cell in the base station apparatus 511 that provides the PCell and each cell of each of the five CCs (# 1 to # 5) in the base station apparatus 512 that provides the SCell. Thus, information is exchanged via the X2 line 521. That is, information exchange between one CC (cell) and one CC (cell) is performed between five sets of CCs (cells).
Here, normally, the X2 line 521 is a single physical line (wired or wireless line) set in units of base station apparatuses, and a plurality of CCs (in the example of FIG. 5, a base providing an SCell). If shared by the five CCs of the station apparatus 512, the amount of information exchanged via the X2 line 521 increases, which may exceed (over) the capacity of the X2 line 521. Such a problem becomes prominent especially when the number of CCs used simultaneously increases in the future.
In order to deal with such a problem, in the present embodiment, the amount of information exchanged via the X2 line 521 is reduced to reduce the load on the X2 line 521.

  4 and 5 show a case where one CC exists in the base station apparatus 511 that provides the PCell, and five CCs (cells) exist in the base station apparatus 512 that provides the SCell. However, when generalized, there are N (N is an integer of 1 or more) CCs (cells) in a certain base station apparatus, and M (M is an integer of 1 or more) CCs in another base station apparatus. When (cell) exists, information is exchanged between (N × M) sets of CCs (cells) between these base station apparatuses via the X2 line.

Further, in the communication system as shown in the example of FIG. 5, a certain base station device (base station device 511 that provides PCell in the example of FIG. 5) and another base station device (in the example of FIG. Information is stored in the NRT (NRT 2011 in the example of FIG. 5) independently for each CC with the provided base station apparatus 512). Specifically, information of each cell of five CCs (# 1 to # 5) in the base station apparatus 512 of the SCell is stored in the NRT 2011 in the base station apparatus 511 that provides the PCell.
Here, when all the information of a plurality of CCs (cells) existing in a certain base station apparatus is independently registered (stored) in the NRT of another base station apparatus, the CCs that can be registered in the NRT ( The maximum number of cells (cells) may be exceeded (overflow), and in this case, information on CCs (cells) that need to be registered in the NRT may not be registered. Such a problem becomes prominent especially when the number of CCs used simultaneously increases in the future.
In order to deal with such a problem, the present embodiment aims to solve the problem that a required cell cannot be registered in the NRT by reducing the amount of information registered in the NRT.

[Embodiment]
<Outline of communication system>
FIG. 1 is a block diagram showing a schematic configuration of a communication system according to an embodiment of the present invention.
The communication system according to the present embodiment includes a UE 1, a base station apparatus (eNB) 11 that provides a PCell and its wireless communication area 101, a base station apparatus (eNB) 12 that provides an SCell and its wireless communication area 102. And a line (X2 line) 21 connecting the base station apparatus 11 and the base station apparatus 12. In addition, this communication system is connected to the Internet 2 and can communicate between the UE 1 and the Internet 2 (devices connected thereto) via the base station device 11 and the base station device 12.
In FIG. 1, one or more CC groups (CC groups) 1001 set for the base station apparatus 11 that provides the PCell and 1 set for the base station apparatus 12 that provides the SCell. A group of two or more CCs (CC group) 1002 is shown. In the example of FIG. 1, each CC has a bandwidth of 20 MHz and is in a different frequency region.

In the example of FIG. 1, one CC is set as the CC group 1001 in the base station apparatus 11 that provides the PCell. This one CC constitutes a PCell. As another configuration example, when the CC group 1001 set in the base station apparatus 11 includes a plurality of CCs, the base station apparatus 11 can provide a PCell and an SCell.
Also, five CCs are set as the CC group 1002 in the base station apparatus 12 that provides the SCell. Each of these five CCs constitutes an SCell.

In the present embodiment, a plurality of CCs existing in one base station apparatus are collectively processed as a CC group (CC group).
Specifically, only one CC exists for the base station apparatus 11 that provides PCell, and various processes are performed using the identification information of the one CC. Further, for the base station apparatus 12 that provides the SCell, there are five CCs, and these five CCs are grouped together to identify CC group identification information (Group # 1 in the example of FIG. 1). ) To perform various processes. As various types of processing, for example, processing for exchanging information between CCs (cells) of different base station apparatuses via the X2 line 21 and information on CCs (cells) of other base station apparatuses are stored by NRT. There is processing.
Note that the identification information of each of the five CCs in the base station apparatus 12 that provides the SCell is # 1, # 2, # 3, # 4, and # 5 (same as the examples in FIGS. 4 and 5). Each CC corresponds to each cell.

FIG. 2 is a block diagram illustrating a schematic configuration of the base station apparatus 11 that provides a PCell according to an embodiment of the present invention.
The base station apparatus 11 according to the present embodiment includes a communication unit 211, a storage unit 212, and a control unit 213.
The control unit 213 includes a grouping control unit 231 and a group processing control unit 232.
The base station apparatus 11 has the following functions when providing the PCell.

The communication unit 211 communicates with an external device wirelessly or by wire. In the present embodiment, the communication unit 211 transmits and receives (transmits and receives) signals wirelessly with the UE 1 existing in the communication area 101. Moreover, the communication part 211 transmits / receives a signal between other base station apparatuses etc. (In this embodiment, the base station apparatus 12 etc. which provide SCell) by wire (or radio | wireless). For example, the different base station apparatuses 11 and 12 are connected by a wired line (X2 line 21).
The storage unit 212 is configured using a memory and stores various data. As a specific example, the storage unit 212 stores program data used by the control unit 213, various parameter data, CC and cell data, NRT 1011 data, and the like.

The control unit 213 performs various processes and controls by executing a predetermined program.
The grouping control unit 231 performs control related to grouping of a plurality of CCs. In the present embodiment, the grouping control unit 231 performs in advance a plurality of CCs existing in its own device (base station device 11 that provides PCell) or other devices (for example, base station device 12 that provides SCell). Control is performed so that grouping is performed according to a predetermined procedure or in accordance with an instruction from an operator (person). As the CC grouping process, for example, a process of assigning identification information of one CC group to a plurality of CCs to be grouped is used.
The group processing control unit 232 performs control related to various processes for each CC group (CC group) based on the CC group identification information. In the present embodiment, for example, the group processing control unit 232 performs control so as to perform information exchange (transmission or reception, or one-way communication) via the X2 line 21 for each CC group. The NRT 1011 information is controlled to be registered, changed, deleted, etc. for each CC group. The group processing control unit 232 performs control related to various processes for each CC based on the identification information for each CC for CCs that are not grouped.

Here, when the grouping is performed on the CCs existing in the own device, the grouping control unit 231 stores, for example, information on the grouping in the storage unit 212 of the own device regarding the grouping.
In addition, when grouping is performed on CCs existing in another device, the grouping control unit 231 may notify the other device of information regarding grouping, for example, regarding the grouping. The other device receives this grouping information and stores it in the storage unit of the other device.
Various information may be used as the information regarding grouping. For example, information that associates identification information of a group with identification information of a plurality of CCs included in the group is used. Information for identifying a device to which each of the CCs belongs may be included.

FIG. 3 is a block diagram showing a schematic configuration of the base station apparatus 12 that provides the SCell according to the embodiment of the present invention.
The base station apparatus 12 according to the present embodiment includes a communication unit 311, a storage unit 312, and a control unit 313.
The control unit 313 includes a grouping control unit 331 and a group processing control unit 332.
The base station apparatus 12 has the following functions when providing the SCell.

The communication unit 311 communicates with an external device wirelessly or by wire. In the present embodiment, the communication unit 311 transmits and receives (transmits and receives) signals wirelessly with the UE 1 existing in the communication area 102. Moreover, the communication part 311 transmits / receives a signal between other base station apparatuses etc. (In this embodiment, the base station apparatus 11 etc. which provide PCell) by wire (or radio | wireless).
The storage unit 312 is configured using a memory and stores various data. As a specific example, the storage unit 312 stores data of programs used by the control unit 313, data of various parameters, data on CCs and cells, and the like.

The control unit 313 performs various processes and controls by executing a predetermined program.
The grouping control unit 331 performs control related to grouping of a plurality of CCs. In the present embodiment, the grouping control unit 331 performs in advance a plurality of CCs existing in its own device (base station device 12 that provides SCell) or another device (for example, base station device 11 that provides PCell). Control is performed so that grouping is performed according to a predetermined procedure or according to an instruction from an operator. As the CC grouping process, for example, a process of assigning identification information of one CC group to a plurality of CCs to be grouped is used.
The group processing control unit 332 performs control related to various processes for each CC group (CC group) based on the CC group identification information. In this embodiment, for example, the group processing control unit 332 performs control so that information is exchanged (transmission or reception, or one-way communication may be performed) via the X2 line 21 for each CC group. Moreover, the group process control part 332 performs control regarding various processes for every CC based on the identification information for each CC about CC which is not grouped.

Here, when grouping is performed on CCs existing in the own device, the grouping control unit 331 stores, for example, information regarding grouping in the storage unit 312 of the own device regarding the grouping.
In addition, when grouping is performed on CCs existing in another device, the grouping control unit 331 may notify the other device of information regarding the grouping, for example, regarding the grouping. The other device receives this grouping information and stores it in the storage unit of the other device.

  In this embodiment, the base station apparatus 11 that provides the PCell has the function of the grouping control unit 231 and the function of the group processing control unit 232, and the base station apparatus 12 that provides the SCell has the function of the grouping control unit 331. Although the functions of the group processing control unit 332 are included, as another configuration example, each device may be provided with a necessary function, and an unnecessary function may not be provided.

In the present embodiment, since the CC and the cell correspond one-to-one, the grouping of a plurality of CCs and the grouping of a plurality of cells corresponding to the plurality of CCs are substantially the same CC. And group the cells. In this embodiment, such grouping is performed using CC identification information (ID). As another configuration example, when CC identification information (ID) and cell identification information (ID) are different from each other, May be grouped using cell identification information (ID).
In the present embodiment, individual CCs are identified using individual CC identification information (ID). Since CCs and cells correspond one-to-one, individual CCs and corresponding individual CCs are identified. A cell can be identified using one or both of individual CC identification information (ID) and individual cell identification information (ID).

<Description of grouping of multiple CCs>
Grouping a plurality of CCs existing in the same base station device (in this embodiment, the base station device 12 that provides the SCell) is performed by an operator or the like in advance as an example, and the grouping result is It is stored in a storage unit of a related device (in this embodiment, the storage unit 212 of the base station device 11 that provides the PCell or the storage unit 312 of the base station device 12 that provides the SCell).

  As another example, by the control of the grouping control unit 231 of the base station apparatus 11 that provides the PCell or the control of the grouping control unit 331 of the base station apparatus 12 that provides the SCell, a predetermined procedure, or an operator Grouping may be performed in accordance with instructions from Various procedures and instructions may be used. For example, when there are a plurality of CCs in the same base station apparatus, a procedure for grouping all of the plurality of CCs into one group. An instruction may be used, or a procedure or instruction for sequentially grouping a predetermined number (two or more) of these CCs may be used, or another procedure may be used. Also good.

Here, in the communication system, a group of two or more CCs among a plurality of CCs existing in the same base station apparatus may be performed. In the communication system, for example, a plurality of CCs existing in the same base station apparatus may be grouped into two or more groups. In the communication system, for example, predetermined processing (for example, information exchange via the X2 line 21 or storage of information by the NRT 1011) is commonly performed for a plurality of CCs existing in the same base station apparatus. Grouping may be performed for each group of CCs. In the communication system, as an example, for each type of information exchanged via the X2 line 21, grouping into different groups according to the type of the information may be performed. Different groups may be prepared for each. In a communication system, for example, with respect to a plurality of CCs existing in the same base station apparatus, CCs that are desired to be handled individually are not grouped, but other CCs are grouped. May be.
Note that grouping a plurality of CCs means, for example, whether or not a UE is assigned to each of the plurality of CCs and whether or not the UEs assigned to each of the plurality of CCs are the same. However, it may be performed independently or depending on the situation.

<Description of information exchange via X2 line>
In the communication system according to this embodiment, for a plurality of grouped CCs, information is exchanged via the X2 line 21 for each group, and for CCs that are not grouped, Information is exchanged via the X2 line 21 for each CC. In this case, the communication system identifies each group using the group identification information. Further, in the communication system, individual CCs are identified using identification information of individual CCs.

  In the communication system according to the present embodiment, when information is exchanged via the X2 line 21 for each group of a plurality of grouped CCs, information on each of the plurality of CCs included in the group is included. Exchange information of representative values based on. That is, in the communication system, for a plurality of grouped CCs, not information on each of the plurality of CCs included in the group but representative value information in which the information amount is reduced by exchanging these pieces of information is exchanged.

Here, as information on the representative value of the group, for example, one information of a plurality of CCs included in the group or information based on two or more pieces of information is used.
As a specific example, when each information of a plurality of CCs included in a group is represented by a numerical value, information on the representative value of the group includes a maximum value, a minimum value, an average value, a total value, a result obtained by multiplying all, and the like. May be used. Each of the representative value calculation methods includes a calculation method for selecting the maximum value, a calculation method for selecting the minimum value, a calculation method for calculating the average value, a calculation method for calculating the total value, and a calculation method for calculating the result of multiplying all the values. Used.

In the communication system, for example, the representative value (representative value calculation method) may be switched for each type of information exchanged via the X2 line 21.
As a specific example, for load (type of load) information, a predetermined value of an average value for a plurality of CCs or a minimum value among a plurality of CCs may be used as a representative value. Good. In this case, in the communication system, for example, an average value of loads for a plurality of CCs existing in the same base station apparatus or a minimum value of a load among a plurality of CCs existing in the same base station apparatus. Based on this, it is possible to select a base station apparatus (communication path used for data communication) used for data communication.
As a specific example, the minimum value of a plurality of CCs may be used as a representative value for delay (type of delay) information. In this case, in the communication system, for example, based on the minimum delay value among a plurality of CCs existing in the same base station apparatus, a base station apparatus (communication path used for data communication) used for data communication is selected. It is possible to select.

  Note that information exchange via the X2 line is performed between, for example, one base station apparatus and another one base station apparatus. As another configuration example, one first base station is exchanged. When there is a station apparatus (for example, a base station apparatus that provides a PCell) and two or more second and subsequent base station apparatuses (for example, two or more base station apparatuses that provide an SCell), the second and later One representative base station device of the base station devices receives information from the second and subsequent base station devices other than the own device via the X2 line, and receives the received information and information of the own device (that is, All the information of the second and subsequent base station apparatuses) may be collectively transmitted to the first base station apparatus via the X2 line.

<Description of information management by NRT>
In the communication system according to this embodiment, for a plurality of grouped CCs, information management by NRT is performed for each group, and for CCs that are not grouped, for each CC, Management of information by NRT. In this case, the communication system identifies each group using the group identification information. Further, in the communication system, individual CCs are identified using identification information of individual CCs.

  In the communication system according to the present embodiment, NRT information is registered, changed, deleted, and the like for each group of a plurality of grouped CCs. That is, in the communication system, for a plurality of grouped CCs, not information on each of the plurality of CCs included in the group but information that reduces the information amount by registering these pieces of information is registered in the NRT.

<Specific examples of information to be grouped>
A specific example of information to be grouped among information (X2 information) communicated via the X2 line 21 is shown (see Non-Patent Document 2). In addition, this specific example is an illustration and is not limited to this specific example.
As an example, load information (Load Indication) in load management may be a grouping target. In this case, for example, by using a representative value related to load information, it is possible to reduce the amount of communication (information amount to be communicated) in the exchange of information via the X2 line 21. In this case, it is possible to reduce the amount of information registered in the NRT 1011 by grouping a plurality of CCs. The load information may be exchanged periodically, for example. In this case, it is particularly effective to reduce the information amount.
As an example, radio link failure information (Radio Link Failure Indication) of mobility robustness optimization (Mobility Robustness Optimization) and handover report information (Handover Report) may be grouped. In this case, it is possible to reduce the amount of information registered in the NRT 1011 by grouping a plurality of CCs.

<Modification of grouping>
In the communication system according to the present embodiment, a plurality of CCs existing in the same base station apparatus are grouped. As another configuration example, the CCs exist in two or more different base station apparatuses that satisfy a predetermined condition. A configuration in which CCs (two or more CCs in total) are grouped may be used. Here, as a CC existing in two or more different base station apparatuses satisfying a predetermined condition, for example, a predetermined condition of being a predetermined CC may be used, or an instruction from an operator may be used. A predetermined condition that the CC is determined according to the above may be used. In a communication system, for example, CCs belonging to different base station apparatuses but adjacent to each other (CCs adjacent to cells formed by CCs) or CCs belonging to different base station apparatuses but close to each other (cells formed by CCs) May be used to group CCs that are within a predetermined threshold. In the communication system, for example, a configuration in which CCs of a plurality of small cells set under the same macro cell may be used.

<Summary of Embodiment>
As described above, in the communication system according to the present embodiment, a plurality of CCs (cells) are included in one base station apparatus (in another configuration example, two or more different base station apparatuses may be used). Identification information of a group that represents a plurality of CCs (cells) instead of communicating individually with each CC (cell) when exchanging information with other base station apparatuses via an X2 line To communicate about the group. In the communication system according to the present embodiment, information on representative values as a group including a plurality of CCs (cells) is exchanged.
As described above, in the communication system according to the present embodiment, for example, when there are a plurality of CCs (cells) in the same base station apparatus, information is exchanged with an adjacent base station apparatus using an X2 line. 2, a plurality of CCs (cells) are grouped, and information is exchanged using representative values for the groups of the plurality of CCs (cells).
Therefore, in the communication system according to the present embodiment, it is possible to reduce the amount of information exchanged through the X2 line, and it is possible to reduce the load on the X2 line.

In the communication system according to the present embodiment, group identification information representing a plurality of CCs (cells) is provided, and the group is registered in the NRT.
As described above, in the communication system according to the present embodiment, when there are a plurality of CCs (cells) in the same base station device, information on these CCs (cells) is transferred to the NRT by other base station devices. When registering, etc., registration is performed using identification information of a group in which a plurality of CCs (cells) are collected.
Therefore, in the communication system according to the present embodiment, the amount of information registered in the NRT can be reduced, and the load on the NRT can be reduced. For example, the number of NRT registrations overflows (overflow). Can be prevented.

  As described above, in the communication system according to this embodiment, even when there are a plurality of CCs in one base station apparatus, the processing load is reduced and the communication amount of the backhaul line is reduced. Can do. As a specific example, in the communication system according to the present embodiment, it is possible to improve the efficiency of collecting information related to handover failure.

  Here, in the present embodiment, the base station apparatuses 11 and 12 have been configured to have the functions of the grouping control units 231 and 331 and the functions of the group processing control units 232 and 332, but as other configuration examples, A device (processing device) performs a function of a group processing control unit that performs control related to processing for a group based on identification information of a group including a plurality of CCs (cells), and control related to grouping of a plurality of CCs (cells) You may provide the function of a grouping control part.

  Although the present embodiment has been described in consideration of a one-to-one correspondence between CCs and cells, when performing CC or cell grouping, for example, the correspondence between CCs and cells is not considered. In addition, the same grouping as in this embodiment can be performed for a plurality of CCs, or the same grouping as in this embodiment can be performed for a plurality of cells. Even when there is a system in which CCs and cells do not correspond one-to-one, for example, the same grouping as in the present embodiment is performed for a plurality of CCs without considering the correspondence between CCs and cells. Alternatively, grouping similar to that of the present embodiment may be performed on a plurality of cells.

[Configuration example according to the above embodiment]
As an example of the configuration, a group processing control unit (in FIG. 2 or FIG. 3) performs control related to processing for the group based on identification information of a group including a plurality of communication units with a component carrier (CC) or a cell as a communication unit. In the example, it is a processing apparatus (base station apparatuses 11 and 12 in the example of FIG. 1) including group processing control units 232 and 332).
As an example of the configuration, the processing apparatus includes a grouping control unit (in the example of FIGS. 2 and 3, grouping control units 231 and 331) that performs control related to grouping of the plurality of communication units.
As one configuration example, in the processing device, the group is a group including a plurality of communication units set in the same device.

As one configuration example, in the processing device, the processing device is a base station device.
As an example of the configuration, in the processing device (base station device), the group processing control unit transmits information about the group to another base station device via a line (X2 line 21 in the example of FIG. 1). Control to exchange.
As one configuration example, in the processing device (base station device), the other base station device is another adjacent base station device.
As one configuration example, in the processing apparatus (base station apparatus), the line is an X2 line.
As a configuration example, in the processing device (base station device), the group processing control unit performs control so that information on the representative value of the group is exchanged as the information exchange.
As a configuration example, in the processing device (base station device), the representative value of the group includes a maximum value, a minimum value, an average value, a total value, or all based on information of a plurality of communication units included in the group One or more of the results of multiplying are used.
As one configuration example, in the processing apparatus (base station apparatus), the groups are different groups depending on the type of information exchanged via the line.
As one configuration example, in the processing apparatus (base station apparatus), the group processing control unit controls to store information of a neighbor relation table (NRT) for the group.
As one configuration example, in the processing apparatus, the component carrier and the cell correspond one-to-one, and one component carrier and one cell corresponding to the component carrier correspond to one communication unit.

As one configuration example, a communication system (for example, the communication system shown in FIG. 1) that performs control related to processing for the group based on identification information of a group including a plurality of communication units using a component carrier or a cell as a communication unit. It is.
As an example of the configuration, a communication method (for example, in the communication system shown in FIG. 1) that performs control related to processing for the group based on identification information of a group including a plurality of communication units with a component carrier or a cell as a communication unit. Communication method to be performed).

[Summary of the above embodiments]
As mentioned above, although embodiment of this invention was explained in full detail with reference to drawings, the concrete structure is not restricted to this embodiment, The design change etc. of the range which does not deviate from the summary of this invention are included.

  Further, a program for realizing the function of each device (for example, UE 1, base station device 11, 12, etc.) according to the above-described embodiment is recorded on a computer-readable recording medium and recorded on this recording medium. Processing may be performed by causing the computer system to read the executed program and executing it.

The “computer system” herein may include hardware such as an operating system (OS) and peripheral devices.
The “computer-readable recording medium” means a flexible disk, a magneto-optical disk, a ROM (Read Only Memory), a writable nonvolatile memory such as a flash memory, a portable medium such as a DVD (Digital Versatile Disk), A storage device such as a hard disk built in a computer system.

Further, the “computer-readable recording medium” refers to a volatile memory (for example, DRAM (DRAM) inside a computer system that becomes a server or a client when a program is transmitted through a network such as the Internet or a communication line such as a telephone line. Dynamic Random Access Memory)) that holds a program for a certain period of time is also included.
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
Further, the above program may be for realizing a part of the functions described above. Further, the program may be a so-called difference file (difference program) that can realize the above-described functions in combination with a program already recorded in the computer system.

DESCRIPTION OF SYMBOLS 1,501 ... UE, 2,502 ... Internet, 11, 511 ... PCell base station apparatus, 12, 512 ... SCell base station apparatus, 21, 521 ... X2 line, 101-102, 601-602 ... communication area, 211, 311 ... communication unit, 212, 312 ... storage unit, 213, 313 ... control unit, 231, 331 ... grouping control unit, 232, 332 ... group processing control unit, 1001-1002, 2001-2002 ... CC group, 1011, 1011 ... NRT

Claims (10)

A base station device,
With a component carrier or cell as a communication unit, a group processing control unit that performs control related to processing for the group based on identification information of a group including a plurality of communication units ,
The group processing control unit controls the group to exchange information with another base station device via a line,
The group processing control unit controls the exchange of the representative value information of the group as the exchange of the information,
As the representative value of the group, one or more of a maximum value, a minimum value, an average value, a total value, or a result obtained by multiplying all, based on information of a plurality of communication units included in the group, is used.
Processing equipment. A grouping control unit that performs control related to grouping of the plurality of communication units;
The processing apparatus according to claim 1. The group is a group including a plurality of communication units set in the same device.
The processing apparatus of any one of Claim 1 or Claim 2. The other base station apparatus is another adjacent base station apparatus.
The processing apparatus of any one of Claims 1-3 . The line is an X2 line;
The processing apparatus according to any one of claims 1 to 4 . The group is a different group depending on the type of information exchanged via the line.
The processing apparatus of any one of Claims 1-5 . The group processing control unit performs control so as to store information of a neighbor relation table (NRT) for the group.
The processing apparatus according to any one of claims 1 to 6 . The component carrier and the cell correspond one-to-one, and one component carrier and one corresponding cell correspond to one communication unit.
The processing apparatus according to claim 1 . Base station equipment
The component carrier or the cell as a communication unit, based on the identification information of the group including a plurality of communication units, have row control related processing for said group,
As the control, the group is controlled so as to exchange information with another base station device via a line,
As the exchange of information, control to exchange information of the representative value of the group,
As the representative value of the group, one or more of a maximum value, a minimum value, an average value, a total value, or a result obtained by multiplying all, based on information of a plurality of communication units included in the group, is used.
Communications system. Base station equipment
The component carrier or the cell as a communication unit, based on the identification information of the group including a plurality of communication units, have row control related processing for said group,
As the control, the group is controlled so as to exchange information with another base station device via a line,
As the exchange of information, control to exchange information of the representative value of the group,
As the representative value of the group, one or more of a maximum value, a minimum value, an average value, a total value, or a result obtained by multiplying all, based on information of a plurality of communication units included in the group, is used.
Communication method.

Images