JP2013192095A - Device, method and program for setting cell relation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device, a method and a program for setting cell relation, capable of effectively setting cell relation.SOLUTION: When the existence of a cell not described in a table that describes the cell relation is detected on the basis of a message related to handover, a cell relation setting device (a neighboring cell relation automatic setting device 1, as an example) includes a cell relation setting unit (an ANR function unit 14 based on a HO failure, as an example) for setting the table in such a manner that the cell relation is described in the table, and for setting the interface of direct communication between base stations in regard to a base station that forms the cell.

Description

  The present invention relates to a cell relationship setting device, a cell relationship setting method, and a cell relationship setting program.

In the mobile radio communication system, each base station holds a neighbor cell list (NRT: Neighbor Relation Table) that is a table for setting the relationship between neighboring cells.
For cells registered in the neighbor cell list, detailed settings for smoothly performing handover to the cell can be performed.
In addition, the base station establishes the connection of the X2 interface (X2 line) for the base stations to communicate directly with each other without going through the core network based on the adjacent cell list. It is possible to exchange information on the load of the user.

  The neighbor cell relationship automatic setting (ANR: Automatic Neighbor Relation) function is a mechanism for automatically updating the neighbor cell list (see Non-Patent Document 1, for example).

With reference to FIG. 5, the automatic setting (including automatic updating) of the adjacent cell list will be described.
In this example, an outline of the operation of the neighbor cell related automatic setting function defined in 3GPP is shown.
FIG. 5 shows communication between the first base station (base station # 1), the second base station (base station # 2), the communication area (area # 1) of the base station # 1, and the base station # 2. An area (area # 2) and the mobile terminal 1001 are shown.
FIG. 5 shows a neighbor cell list 1011 stored in the storage unit (for example, memory) of the base station # 1.

The neighboring cell list 1011 stores a source physical cell ID (source physical cell ID), a target physical cell ID (target physical cell ID), a target ECGI (target ECGI), and the like in association with each other.
Here, the Source Physical ID is cell identification information (ID) of the own station (in this example, the base station # 1), and can be repeatedly used throughout the country, for example.
The Target Physical Cell ID is cell identification information (ID) of another station (in this example, a base station other than the base station # 1), and can be used repeatedly in the whole country, for example.
The Target ECGI is information on a number unique to the cell of the other station (in this example, a base station other than the base station # 1). The ECGI is information of a number unique to each base station cell, for example, nationwide.

Each base station stores a neighbor cell list.
In this case, information on the cell of the source local station (base station) and information on the cell of the other station (base station) that is considered to be adjacent to the cell of the source local station (base station) are adjacent. It is stored in the cell list.

In the following (Description of Background Art and Problems), it is assumed that one base station corresponds to one cell for convenience of explanation.
That is, for example, when one base station has one (only) cell, or one base station has a plurality of cells, but two or more other base stations that are adjacent to each other ( A case will be described as an example in which the cell relationship between each base station cell is specified).

With reference to FIG. 5, an example (1) to (5) of the processing procedure of automatic setting (including automatic update) of the neighboring cell list will be described.
(1) First, it is assumed that the mobile terminal 1001 receives a radio wave from an unknown base station (base station # 2) that is not registered in the adjacent cell list 1011 of the connected base station (base station # 1).
(2) At this time, if the power level (reception power level) of the mobile terminal 1001 satisfies the transmission condition of MR (Measurement Report) for ANR, the mobile terminal 1001 is new to the connected base station (base station # 1). Sends a notification that a cell has been detected (report).
(3) The base station (base station # 1) that has received the ANR MR notifies the mobile terminal 1001 to obtain an ECGI (E-UTRAN Cell Global ID) of the new cell. The mobile terminal 1001 transmits the acquired ECGI to the base station (base station # 1). This solves the ECGI of the newly discovered base station (base station # 2).
(4) Based on these pieces of information, the connecting base station (base station # 1) and the newly discovered base station (base station # 2) register each other's cells in their neighboring cell lists.
(5) Then, the connecting base station (base station # 1) and the newly discovered base station (base station # 2) establish a connection of an X2 interface that is an interface for performing direct communication between the base stations.

Further, other examples (1) to (4) of the processing procedure of the automatic setting (including automatic update) of the adjacent cell list will be described.
(1) First, the mobile terminal 1001 transmits and notifies a handover (HO: Handover) MR to the connected base station (base station # 1).
(2) The connecting base station (base station # 1) obtains an ECGI of a new cell from the mobile terminal 1001 when an unknown cell ID is included in the handover MR transmitted from the mobile terminal 1001. Notify you. The mobile terminal 1001 transmits the acquired ECGI to the base station (base station # 1). This solves the ECGI of the newly discovered base station (base station # 2).
(3) Based on these pieces of information, the connecting base station (base station # 1) and the newly discovered base station (base station # 2) register each other's cells in their neighboring cell lists.
(4) Then, the connecting base station (base station # 1) and the newly discovered base station (base station # 2) establish a connection of an X2 interface that is an interface for directly connecting the base stations.

With reference to FIG. 6, an example of a handover execution procedure in LTE (Long Term Evolution) will be described.
The handover process is started when the base station receives the MR transmitted by the mobile terminal.

FIG. 6 is a diagram illustrating an example of handover in LTE and its implementation conditions.
FIG. 6 shows the first base station (base station # 1), the second base station (base station # 2), the communication area (area # 1) of the base station # 1, and the communication of the base station # 2. An area (area # 2) and mobile terminals 1101-1 and 1101-2 are shown.
Here, the mobile terminal 1101-1 before the movement and the mobile terminal 1101-2 after the movement represent the same mobile terminal and are present at different positions.

Regarding the mobile terminal 1101-1 (mobile terminal 1101-2), the following processing (1) to (5) regarding the handover (HO) from the area # 1 of the base station # 1 to the area # 2 of the base station # 2 Is done.
(1) Base station # 1 specifies a transmission condition of a handover request (HO request) to mobile terminal 1101-1.
(2) The mobile terminal 1101-1 transmits a HO request when a transmission condition for the designated HO request is satisfied.
(3) The base station # 1 that has received the HO request issues a handover instruction (HO instruction) to the mobile terminal 1101-2.
(4) Execute handover (HO execution).
(5) The mobile terminal 1101-2 reports the completion of handover (HO completion) to the base station # 2.

In FIG. 6, the horizontal axis represents time, and the vertical axis represents the power characteristic 1111 of the connected cell and the power characteristic 1112 of the adjacent cell.
The connected cell is a cell of a base station (connected base station) to which the mobile terminal is connected, and the adjacent cell has a cell that is adjacent to the connected cell (adjacent base station). Of the cell.
Note that two cells of the same base station having a plurality of cells may be connected cells and adjacent cells, but here, the cells of different base stations will be described as connected cells and adjacent cells, respectively.

Conditions for the mobile terminal to transmit a handover request include the following <transmission condition (1)> and <transmission condition (2)>.
<Transmission condition (1)>
There is a transmission condition that a power difference (handover margin) between an adjacent base station (adjacent cell) and a connected base station (connected cell) is equal to or greater than a predetermined threshold. Note that a power quality difference that is a difference in power quality values may be used instead of a power difference that is a difference in power values.
<Transmission condition (2)>
There is a transmission condition that the state of <transmission condition (1)> described above is satisfied for a predetermined time (fixed time) or longer.

Here, the handover margin is the result of subtracting (the received power value or received power quality value from the connected base station (connected cell)) from (the received power value or received power quality value from the adjacent base station (adjacent cell)). It is.
If the handover margin threshold is set to a small value, the handover timing is advanced. Conversely, if the handover margin threshold is set to a large value, the handover timing is delayed.

In LTE, handover processing is performed when a base station receives MR transmitted from a mobile terminal as a handover request.
A plurality of types with different transmission determination conditions are defined in MR. Here, A3 MR, which is often used for determination of handover processing, will be described.
The A3 MR is transmitted from the mobile terminal to the connected base station when the conditional expression (1) is satisfied for a certain period (TTT: Time To Trigger) or more (see, for example, Non-Patent Document 2).

Here, with respect to Equation (1), s and n are base station IDs representing a connected base station and an adjacent base station, respectively.
M (s, s) and M (s, n) are respectively a power value (RSRP: Reference Signal Received Power) [dBm] or a power quality value (dBm) of the connected base station s and the adjacent base station n observed by the mobile terminal. RSRQ: Reference Signal Received Quality) [dB].

In addition, regarding the expression (1), variables other than the above-described M (s, s) and M (s, n) are system parameters that can be set by the operator.
Specifically, Of (s, s) and Oc (s, s) are an offset value set according to the frequency of the connected base station s and an offset value specific to the connected base station s, respectively.
Similarly, Of (s, n) and Oc (s, n) are respectively an offset value set according to the frequency of the adjacent base station n and an offset value set by the connected base station s for each adjacent base station n ( Cell individual offset value).
Hys (s) and Off _A3 (s) are parameters set for each connected base station s, and are an offset value called hysteresis and an offset value specific to A3 MR, respectively.

Here, when the MR transmission timing determined by the conditional expression (1) is improperly set, a handover failure occurs.
Events in which handover fails can be broadly classified into the following three types: Too Late HO, Too Early HO, and HO to Wron Cell (for example, see Non-Patent Document 1).

With reference to FIG. 7, Too Late HO will be described.
FIG. 7 is a diagram illustrating an example of the procedure for generating and detecting Too Late HO.
FIG. 7 shows the first base station (base station # 1), the second base station (base station # 2), the communication area (area # 1) of the base station # 1, and the communication of the base station # 2. An area (area # 2) and mobile terminals 1201-1 and 1201-2 are shown.
Here, the mobile terminal 1201-1 before the movement and the mobile terminal 1201-2 after the movement represent the same mobile terminal and are present at different positions.
In this example, the cell of base station # 1 is cell A, and the cell of base station # 2 is cell B.

First, before or immediately after the mobile terminal 1201-1 (mobile terminal 1201-2) connected to the cell A starts the handover process, the connection with the cell A is disconnected in the procedure (1). And handover fails. Thereafter, the mobile terminal 1201-2 (the mobile terminal 1201-1) reconnects to the cell B (RRC (Radio Resource Control) Connection Restoration) in the procedure (2). The above is the occurrence of Too Late HO.
Then, the reconnected cell B (base station # 2) transmits RLF (Radio Link Failure) Indication to the cell A (base station # 1) in the procedure (3). The cell A (base station # 1) that has received the RLF Indication detects the occurrence of Too Late HO for the cell B.

The Too Early HO will be described with reference to FIG.
FIG. 8 is a diagram illustrating an example of the procedure for generating and detecting Too Early HO.
FIG. 8 shows communication between the first base station (base station # 1), the second base station (base station # 2), the communication area (area # 1) of the base station # 1, and the base station # 2. An area (area # 2) and mobile terminals 1301-1 and 1301-2 are shown.
Here, the mobile terminal 1301-1 before moving and the mobile terminal 1301-2 after moving represent the same mobile terminal and are present at different positions.
In this example, the cell of base station # 1 is cell A, and the cell of base station # 2 is cell B.

First, when the mobile terminal 1301-1 connected to the cell A (mobile terminal 1301-2) satisfies the MR transmission condition that triggers the handover process, the cell A ( The MR is transmitted to the base station # 1). Subsequently, in the procedure (2), the handover process to the cell B is started.
However, it is assumed that the connection between the mobile terminal 1301-2 (mobile terminal 1301-1) and the cell B occurs in the procedure (3) immediately after the handover process is started or immediately after the handover process is completed. Then, in the procedure (4), it is assumed that the mobile terminal 1301-2 (mobile terminal 1301-1) reconnects to the cell A. The above is the occurrence of Too Early HO.
Then, the reconnected cell A (base station # 1) transmits RLF Indication to the cell B (base station # 2) in the procedure (5). When cell B (base station # 2) receives RLF Indication within a certain holding period after performing the handover process in step (2), cell B (base station # 1) in step (6) In response to this, a handover report (Handover Report) is transmitted. The cell A (base station # 1) that has received the handover report detects the occurrence of Too Early HO for the cell B.

With reference to FIG. 9, HO to Wron Cell will be described.
FIG. 9 is a diagram illustrating an example of a procedure for generating and detecting a HO to Wong Cell.
FIG. 9 shows communication areas of the first base station (base station # 1), the second base station (base station # 2), the third base station (base station # 3), and the base station # 1. (Area # 1), a communication area of base station # 2 (area # 2), a communication area of base station # 3 (area # 3), and mobile terminals 1401-1 and 1401-2 are shown.
Here, the mobile terminal 1401-1 before the movement and the mobile terminal 1401-2 after the movement represent the same mobile terminal and are present at different positions.
In this example, the cell of base station # 1 is cell A, the cell of base station # 2 is cell B, and the cell of base station # 3 is cell C.
Moreover, in this example, the cell A is a Source Cell (source cell), the cell B is a Target Cell (target cell), and the cell C is a Reconnection Cell (reconnection cell).

First, when the mobile terminal 1401-1 (mobile terminal 1401-2) connected to the cell A satisfies the MR transmission condition that triggers the start of the handover process to the cell B, the procedure (1) MR is transmitted to cell A (base station # 1). Subsequently, in the procedure (2), the handover process to the cell B is started.
However, it is assumed that the connection between the mobile terminal 1401-2 (mobile terminal 1401-1) and the cell B occurs in the procedure (3) immediately after the handover process is started or immediately after the handover process is completed. Then, it is assumed that the mobile terminal 1401-2 (mobile terminal 1401-1) reconnects to the cell C in the procedure (4). This is the generation of HO to Wron Cell.
Then, the reconnected cell C (base station # 3) transmits RLF Indication to the cell B (base station # 2) in the procedure (5). When cell B (base station # 2) receives RLF Indication within a certain holding period after performing the handover process in step (2), cell B (base station # 1) in step (6) In response to this, a handover report (Handover Report) is transmitted. The cell A (base station # 1) that has received the handover report detects the occurrence of a HO to Wron Cell in which the cell B is the target cell and the cell C is the reconnection cell.

3GPP TS36.300, v9.8.02011-09. 3GPP TS36.331, v9.3.2010-06.

  In the handover failure detection process shown in FIG. 7 and FIG. 8, the RLF Indication message and the handover report message are transmitted through the X2 interface.

FIG. 10 is a diagram illustrating an example of a problem when Too Late HO occurs.
FIG. 10 shows a situation when a Too Late HO similar to that shown in FIG. 7 occurs.
When Too Late HO occurs, if the base station # 2 does not register the base station # 1 in the neighboring cell list (NRT) and the X2 interface is not set (connection established), a handover failure occurs. The detected base station # 2 cannot transmit an RLF Indication message to the base station # 1. For this reason, the base station # 1 cannot know the occurrence of Too Late HO for the base station # 2. Then, in the base station # 1, this Too Late HO log does not remain.

FIG. 11 is a diagram illustrating an example of a problem when a Too Early HO occurs.
FIG. 11 shows a situation when a Too Early HO similar to that shown in FIG. 8 occurs.
When Too Early HO occurs, if the base station # 1 does not register the base station # 2 in the neighbor cell list (NRT) and the X2 interface has not been set (connection established), a handover failure will occur. The detected base station # 1 cannot transmit an RLF Indication message to the base station # 2. For this reason, finally, the base station # 1 cannot know the occurrence of Too Early HO for the base station # 2. In addition, the Too Early HO log does not remain in the base station # 1.
Further, when the base station # 2 does not register the base station # 1 in the neighboring cell list (NRT) and the X2 interface is not set (connection established), the base station # 2 that detects the handover failure A handover report message cannot be transmitted to the base station # 1. For this reason, finally, the base station # 1 cannot know the occurrence of Too Early HO for the base station # 2. In addition, the Too Early HO log does not remain in the base station # 1.

FIG. 12 is a diagram illustrating an example of a problem at the time of occurrence of HO to Wron Cell.
FIG. 12 shows a situation at the time of occurrence of a HO to Wron Cell similar to that shown in FIG.
When HO to Wron Cell occurs, if base station # 3 does not register base station # 2 in the neighbor cell list (NRT) and the X2 interface is not set (connection established), handover fails The base station # 3 that has detected the message cannot transmit an RLF Indication message to the base station # 2. For this reason, finally, the base station # 1 cannot know the occurrence of the HO to Wron Cell for the base station # 3. And in base station # 1, this HO to Wron Cell log does not remain.
If the base station # 2 does not register the base station # 1 in the neighbor cell list (NRT) and the X2 interface is not set (established connection), an RLF Indication message is sent from the base station # 3. The received base station # 2 cannot transmit a handover report message to the base station # 1. For this reason, finally, the base station # 1 cannot know the occurrence of the HO to Wron Cell for the base station # 3. And in base station # 1, this HO to Wron Cell log does not remain.
Further, when base station # 1 does not register base station # 3 in the neighbor cell list (NRT), base station # 1 has no entry for recording a handover failure for base station # 3. The handover report message received from the base station # 2 cannot be processed. For this reason, the base station # 1 cannot know the occurrence of a HO to Wron Cell for the base station # 3. And in base station # 1, this HO to Wron Cell log does not remain.
Alternatively, even if the base station # 1 can record a handover failure for the base station # 3, detailed settings relating to the handover cannot be made for the base station # 3 that is not registered in the neighboring cell list (NRT). Therefore, it is impossible to adjust the handover parameter based on the handover failure.

  The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a cell relationship setting device, a cell relationship setting method, and a cell relationship setting program capable of effectively setting a cell relationship. And

  (1) In order to solve the above-described problem, the cell relationship setting device according to the present invention detects the presence of a cell that is not described in a table describing the cell relationship based on a message related to handover. A cell relationship setting unit configured to set the table so that the relationship of the cell is described in the table, and to set an interface of direct communication between the base stations for the base station forming the cell, To do.

  (2) The present invention provides the cell relationship setting device according to (1) described above, wherein the cell relationship setting unit is configured to store the table when a predetermined number of messages is equal to or greater than a predetermined threshold. And setting of the interface.

  (3) In order to solve the above-described problem, the cell relationship setting device according to the present invention detects a cell that is not described in a table describing a cell relationship based on a message related to handover. A cell relationship setting MR threshold value setting unit configured to set an MR threshold value that is a threshold value with respect to a reception power level in a transmission condition for transmitting MR (Measurement Report) for cell relationship setting. And

  (4) The present invention provides the cell relationship setting device according to (3) described above, wherein the cell relationship setting MR threshold value setting unit has a predetermined number of messages equal to or greater than a predetermined threshold value. In addition, the MR threshold value is set.

  (5) The present invention provides the cell relationship setting device according to (3) or (4), wherein the cell relationship setting MR threshold value setting unit is configured such that the cell relationship is described in the table. Further, the MR threshold is set to be increased.

  (6) In the cell relationship setting device according to any one of (1) to (5) described above, the present invention provides a table that describes cell relationships based on the above-described message related to handover. When the presence of an undescribed cell is detected, there is an RRC Connection Reestablishment Request message including PCI information of cells other than the own cell, and the relationship of the cell corresponding to the PCI is not described in the table. It is characterized by using a certain case.

  (7) In the cell relationship setting device according to any one of (1) to (5) described above, the present invention provides a table that describes cell relationships based on the above-described message related to handover. When the presence of an undescribed cell was detected, there was an RLF Indication message for C-RNTI in which a UE CONTEXT RELEASE message was transmitted within the time of Tstore_UE_cntxt for the cell not described in the table. The case is used.

  (8) In the cell relationship setting device according to any one of (1) to (5) described above, the present invention provides a table that describes cell relationships based on the above-described message related to handover. When the presence of an undescribed cell is detected, there is a handover report message whose handover report type is HO to Wron Cell, and the relationship between the cells corresponding to the PCI of the Reestablishment Cell of the message is not described in the table. It is characterized by using the case of.

  (9) In order to solve the above-described problem, the cell relationship setting method according to the present invention is such that the cell relationship setting unit includes a cell that is not described in a table describing the cell relationship based on a message related to handover. Is detected, and the table is set so that the relationship of the cell is described in the table, and an interface for direct communication between base stations is set for the base stations forming the cell. To do.

  (10) In order to solve the above-described problem, in the cell relationship setting method according to the present invention, the cell relationship setting MR threshold value setting unit is not described in a table describing the cell relationship based on a message related to handover. When the presence of a certain cell is detected, the MR threshold that is a threshold for the reception power level in transmission conditions for transmitting MR (Measurement Report) for setting a cell relationship is set to be lowered. And

  (11) In order to solve the above-described problem, the cell relationship setting program according to the present invention includes a cell relationship setting unit that includes a cell that is not described in a table that describes a cell relationship based on a message related to handover. If detected, the table is set so that the relationship of the cell is described in the table, and the step of setting the direct communication interface between the base stations for the base stations forming the cell is executed in the computer It is a program to make it.

  (12) In order to solve the above-described problem, the cell relationship setting program according to the present invention is not described in a table in which the cell relationship setting MR threshold value setting unit describes a cell relationship based on a message related to handover. A step of setting the computer to lower an MR threshold that is a threshold for a reception power level in a transmission condition for transmitting an MR (Measurement Report) for setting a cell relationship when the presence of a cell is detected; This is a program to be executed.

  According to the present invention, it is possible to effectively set cell relationships.

It is a block diagram which shows the schematic structure of the adjacent cell relationship automatic setting apparatus which concerns on one Embodiment of this invention. It is a flowchart figure which shows an example of the procedure of the process at the time of the reception of the message of RRC Connection Reestablishment Request performed by the adjacent cell relationship automatic setting apparatus which concerns on one Embodiment of this invention. It is a flowchart figure which shows an example of the procedure of the process at the time of the reception of the message of RLF Indication performed by the adjacent cell related automatic setting apparatus concerning one Embodiment of this invention. It is a flowchart figure which shows an example of the procedure of the process at the time of reception of the message of the handover report performed by the adjacent cell related automatic setting apparatus concerning one Embodiment of this invention. It is a figure for demonstrating the automatic setting of an adjacent cell list. It is a figure which shows the example of the handover in LTE, and its implementation conditions. It is a figure which shows the example of the procedure of generation | occurrence | production and detection of Too Late HO. It is a figure which shows the example of the procedure of generation | occurrence | production and detection of Too Early HO. It is a figure which shows the example of the generation | occurrence | production and detection procedure of HO to Wron Cell. It is a figure which shows the example of the subject at the time of the occurrence of Too Late HO. It is a figure which shows the example of the subject at the time of generation | occurrence | production of Too Early HO. It is a figure which shows the example of the subject at the time of generation | occurrence | production of HO to Wong Cell.

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

In this embodiment, a case where the present invention is applied to a mobile radio communication system is shown.
The mobile radio communication system according to the present embodiment includes a plurality of base stations, a central server that manages the plurality of base stations, a network that connects the plurality of base stations and the central server so that they can communicate with each other, It has a plurality of terminals (for example, mobile terminals) that communicate with each base station by radio in the communication area. This network includes an X2 interface (X2 line) which is an interface for directly connecting base stations.

Further, the mobile radio communication system according to the present embodiment has an adjacent cell related automatic setting device (an example of a cell related setting device) for each of a plurality of base stations.
In addition, the mobile radio communication system according to the present embodiment can be configured such that a central server that manages a plurality of base stations also has an adjacent cell related automatic setting device. In this case, the adjacent cell related automatic setting device provided in the central server that manages the plurality of base stations manages the adjacent cell list of the plurality of base stations.
In addition, for example, a configuration in which an adjacent cell relationship automatic setting device is installed for each base station, and an adjacent cell relationship automatic setting device is installed in a centralized server that manages a plurality of base stations, an adjacent cell relationship for each base station (only) A configuration in which an automatic setting device is installed or a configuration in which an adjacent cell related automatic setting device is installed in a centralized server (only) that manages a plurality of base stations can be used.

Moreover, in this embodiment, the relationship between cells is set for every cell which a base station forms. In the present embodiment, even when the base station forms one cell or when the base station forms a plurality of cells, a PCI (Physical Cell ID (Identifier)) of each cell is used. Identification information is set, and a neighbor cell list is stored for each cell.
The setting of the relationship between the cells may be performed not only between cells of different base stations (different cells) but also between different cells of the same base station.
As a specific example, in LTE, one base station has three cells.

In the following (description of this embodiment), for convenience of explanation, it is assumed that one base station corresponds to one cell.
That is, for example, when one base station has one (only) cell, or one base station has a plurality of cells, but two or more other base stations that are adjacent to each other ( A case will be described as an example in which the cell relationship between each base station cell is specified).

FIG. 1 is a block diagram showing a schematic configuration of an adjacent cell related automatic setting device 1 according to an embodiment of the present invention.
In the present embodiment, three base stations considered to be adjacent to each other are designated as a first base station (base station # 1), a second base station (base station # 2), and a third base station (base station). Station # 3) will be described.
Further, in the present embodiment, description will be given assuming that the adjacent cell related automatic setting device 1 is installed in the base station # 1, the base station # 2, or the base station # 3 as appropriate.

  Note that base stations that are considered to be adjacent to each other are determined in advance and set in the system, for example. Examples of base stations that are considered to be adjacent to each other may include not only base stations that are actually adjacent but also base stations that are not actually adjacent but are determined to be adjacent.

The adjacent cell relationship automatic setting device 1 according to the present embodiment includes an input unit 11, an output unit 12, a storage unit 13, an ANR function unit 14 (an example of a cell relationship setting unit) based on HO failure, and an ECGI resolution function. Unit 15 (an example of an ECGI information acquisition unit), an ANR MR threshold value setting unit 16 (an example of a cell relationship setting MR threshold value setting unit), and a determination unit 17.
The input unit 11 inputs information from an external device.
The output unit 12 outputs information to an external device.
For example, the storage unit 13 is used in a predetermined program used by the ANR function unit 14, the ECGI resolution function unit 15, the ANR MR threshold setting unit 16, the determination unit 17, and the like based on the HO failure or in various processes. Various information such as a threshold value to be stored is stored.

The ANR function unit 14 based on the HO failure performs an adjacent cell relationship automatic setting (ANR) process based on the handover (HO) failure.
The ECGI resolution function unit 15 performs processing for resolving ECGI.
The ANR MR threshold value setting unit 16 performs a process of setting a threshold value (MR threshold value) related to MR for automatic neighbor cell relationship setting (ANR).
The determination unit 17 performs a predetermined determination process. As another configuration example, the determination unit 17 may be provided as an external function (for example, a function of a base station) of the adjacent cell related automatic setting device 1 without being provided in the adjacent cell related automatic setting device 1. Good.

Here, in the present embodiment, the threshold for the reception power level in the transmission condition for transmitting MR for ANR is used as the MR threshold.
This threshold value (for example, initial setting or subsequent change) is wirelessly transmitted from the base station to the mobile terminal, notified, and stored in a storage unit (for example, a memory) of the mobile terminal. Then, this mobile terminal uses this threshold as a threshold for the reception power level in the transmission condition for transmitting the ANR MR.

  The neighboring cell related automatic configuration device 1 according to the present embodiment includes an RRC Connection Reestablishment Request message, an RLF Indication message, a handover report (Handover Report) message, and neighboring cell list (NRT) information as input parameters. The information is input by the input unit 11.

Here, the information input by the input unit 11 is input from, for example, a base station provided with the adjacent cell related automatic setting device 1 according to the present embodiment.
The base station provided with the adjacent cell related automatic setting device 1 according to the present embodiment stores the adjacent cell list in its storage unit (for example, memory).

  Also, the RRC Connection Reestablishment Request message is wirelessly transmitted from a mobile terminal that has attempted to reconnect to the base station after a handover failure, and is received by the base station. As a specific example, an RRC Connection Reestablishment Request message is transmitted from the mobile terminal 1201-2 (mobile terminal 1201-1) to the base station # 2 in (2) reconnection shown in FIG. (4) is transmitted from the mobile terminal 1301-2 (mobile terminal 1301-1) to the base station # 1 in the reconnection, and (4) the mobile terminal 1401-2 in the reconnection shown in FIG. (Mobile terminal 1401-1) transmits to base station # 3.

The neighboring cell related automatic setting device 1 according to the present embodiment outputs the ANR MR threshold and neighboring cell list (NRT) information as output parameter information by the output unit 12.
Information of each output parameter may be output to any device, for example, a base station provided with the adjacent cell related automatic setting device 1 according to the present embodiment, another base station, a centralized server, etc. Output directly or indirectly to one or more of them.

For example, the ANR MR threshold value, which is output parameter information, is transmitted to the base station related to the occurrence of the handover failure event, and is wirelessly transmitted from the base station to the subordinate mobile terminal. Also, the neighbor cell list (NRT) information, which is output parameter information, is transmitted to and stored in a base station related to the occurrence of a handover failure event.
As an example, an ANR MR value is output to a base station that has detected the occurrence of a handover, and an adjacent base station list (NRT) is output to a base station that is reconnected to the base station in which the handover has occurred.

  Here, in the present embodiment, the neighboring cell relationship automatic setting device 1 is configured to output the ANR MR threshold value and the neighboring cell list (NRT) information. However, as another configuration example, for the updated ANR The MR threshold and other information that can specify the information of the updated neighbor cell list (NRT) may be output. As specific examples, the current setting contents (MR threshold for ANR, neighbor cell list ( NRT)) may also be used to output the changed part information.

With reference to FIGS. 2-4, the example of the procedure of the process performed by the adjacent cell relationship automatic setting apparatus 1 which concerns on this embodiment is shown.
FIG. 2 is a flowchart illustrating an example of a processing procedure performed when the RRC Connection Reestablishment Request message is received, which is performed by the neighboring cell related automatic setting device 1 according to the present embodiment.

  First, an RRC Connection Reestablishment Request message is received by the base station equipped with the neighboring cell relationship automatic setting device 1 and the message is input by the input unit 11 of the neighboring cell relationship automatic setting device 1 (step S1).

Next, with respect to the input RRC Connection Reestablishment Request message, the determination unit 17 re-connects the PCI included in the message by the mobile terminal that transmitted the message (in this case, adjacent cell relationship automatic setting) It is determined whether or not it is different from the PCI of the base station provided with the device 1 (step S2).
Specifically, for a message including a PCI other than the own station (here, the base station provided with the adjacent cell related automatic setting device 1), the determination unit 17 transmits the message by the PCI included in the message. It is determined that it is different from the PCI of the base station reconnected by the mobile terminal.

  If the determination unit 17 determines that the PCI included in the message is the same as the PCI of the base station reconnected by the mobile terminal that transmitted the message in the determination in the process of step S2, the process is performed. finish.

  On the other hand, when the determination unit 17 determines that the PCI included in the message is different from the PCI of the base station reconnected by the mobile terminal that transmitted the message in the determination in the process of step S2, the determination unit 17 Whether the base station information corresponding to the PCI information included in the message is registered in the neighbor cell list (here, the neighbor cell list of the base station provided with the neighbor cell related automatic setting device 1). Is determined (step S3).

  If the determination unit 17 determines that the base station information corresponding to the PCI information included in the message is registered in the neighboring cell list in the determination in the process of step S3, the process ends.

On the other hand, if the determination unit 17 determines that the base station information corresponding to the PCI information included in the message is not registered in the neighboring cell list in the determination in the process of step S3, Then, it is determined whether or not the number of receptions of such a message (RRC Connection Reestablishment Request message) is equal to or greater than a predetermined threshold (step S4).
Here, the adjacent cell related automatic setting device 1 according to the present embodiment stores the number of times such a message is received in the storage unit 13.

In the determination in step S4, when the determination unit 17 determines that the number of receptions of the message as described above is not equal to or greater than a predetermined threshold, this process ends.
On the other hand, in the determination in step S4, when the determination unit 17 determines that the number of received messages as described above is equal to or greater than a predetermined threshold, the process proceeds to step S5.

  Here, as another configuration example, the determination in the process of step S <b> 4 may be performed by the ANR function unit 14 based on HO failure instead of the determination unit 17. In this case, the ANR function unit 14 based on the HO failure records the reception of the message, and for the message including the PCI of the base station other than the own station, the number of times of reception of the message including the PCI of the base station exceeds the threshold. Sometimes, the process proceeds to step S5.

  In the process of step S5, the ANR function unit 14 based on the HO failure performs the corresponding PCI (here, the PCI of the base station other than the own station included in the RRC Connection Reestablishment Request message in which the number of receptions is equal to or greater than the threshold) ) Is determined whether it is included in the message including the PCI (step S5).

If the ANR function unit 14 based on the HO failure determines in the determination in step S5 that the ECGI corresponding to the corresponding PCI is included in the message including the PCI, the process proceeds to step S8. .
On the other hand, if it is determined in step S5 that the ANR function unit 14 based on the HO failure does not include an ECGI corresponding to the corresponding PCI in the message including the PCI, the process proceeds to step S6. Transition.

In the process of step S6, the ECGI resolution function unit 15 determines whether it is possible to resolve the corresponding ECGI by inquiring of a higher-level device (for example, a central server) (step S6).
If the ECGI resolution function unit 15 determines in step S6 that the corresponding ECGI can be resolved by making an inquiry to the host device, the ECGI is resolved by making an inquiry to the host device. (Step S9), the process proceeds to Step S8.
On the other hand, in the determination in the process of step S6, if the ECGI resolution function unit 15 determines that it is not possible to resolve the corresponding ECGI by making an inquiry to the host device, the process proceeds to step S7.

  In the process of step S8, the ANR function unit 14 based on the HO failure performs the corresponding PCI (here, the PCI of the base station other than the own station included in the RRC Connection Reestablishment Request message in which the number of receptions exceeds the threshold). ) Is registered in the neighbor cell list, the X2 interface (X2 line) is set (connection established) (step S8), and the process proceeds to step S7.

In the process of step S7, the ANR MR threshold value setting unit 16 sets (for example, resets) the ANR MR threshold value (step S7), and ends this process.
Here, in the process of step S7, various methods may be used as the method for setting the MR threshold for ANR. For example, a method for lowering (decreasing) the MR threshold for ANR can be used. As an example, a method can be used in which the MR threshold value for ANR is started from its initial value and lowered by a predetermined value every time the process of step S7 is performed.

Then, the output unit 12 outputs information on the neighboring cell list generated in the process of step S8 and information on the MR threshold for ANR set in the process of step S7.
Such information is output and provided to, for example, a base station provided with the adjacent cell related automatic setting device 1. Also, these pieces of information were not registered in the neighboring cell list of the base station, for example, directly from the neighboring cell related automatic setting device 1 or via the base station provided with the neighboring cell related automatic setting device 1 A base station (in this embodiment, a base station corresponding to a PCI included in the RRC Connection Reestablishment Request message in the process of step S3) may be provided.

  Here, in order to register the base station information in the neighbor cell list, ECGI information of the base station is necessary. For this reason, when ECGI information is not included in the RRC Connection Reestablishment Request message (determination in step S5), the ECGI resolution function unit 15 inquires the host device to resolve the ECGI, and acquires the obtained ECGI. Based on the information, the ANR function unit 14 based on the HO failure registers the information of the base station in the neighboring cell list and establishes the connection of the X2 interface.

Further, the ANR MR threshold value setting unit 16, for example, when receiving a radio wave from an unknown base station, sets a threshold value (ANR MR threshold value) for a reception power level that is a transmission condition for transmitting the ANR MR. Reconfiguration is performed so as to make it smaller (step S7), thereby increasing the probability of finding a new base station by ANR.
As an example, the ANR MR threshold value setting unit 16 lowers the ANR MR threshold value by a predetermined level every time the number of receptions of RRC Connection Reestablishment Request messages including the PCI of the corresponding base station exceeds the threshold value.
However, if the information on the base station whose power is unnecessarily weak is registered in the neighbor cell list because the MR threshold for ANR is excessively lowered, the number of base stations that regularly exchange information via the X2 interface increases. , It puts a load on the processing capacity of the base station and the backbone line. For this reason, for example, after the corresponding base station is found, the ANR MR threshold value setting unit 16 may perform a process of gradually increasing the ANR MR threshold value (or returning it to the initial value).

As a first specific example, a case where the processing of the flowchart shown in FIG. 2 is applied to the Too Late HO shown in FIG.
In this case, the RRC Connection Reestablishment Request message transmitted from the mobile terminal 1201-2 (mobile terminal 1201-1) in (2) reconnection shown in FIG. 10 is connected before communication disconnection occurs. The PCI of base station # 1 that had been included is included. However, the partner to which the mobile terminal 1201-2 (mobile terminal 1201-1) is reconnected is the base station # 2. Therefore, when the information on the base station # 1 is not included in the neighbor cell list of the base station # 2, the information on the base station # 1 is registered in the neighbor cell list, and the base station # 1 and the base station # 2 Set the X2 interface.
In the first specific example, the process of the flowchart shown in FIG. 2 is performed by the adjacent cell relation automatic setting device 1 provided in the base station # 2.

As a second specific example, a case where the processing of the flowchart shown in FIG. 2 is applied to Too Early HO shown in FIG.
In this case, the RRC Connection Reestablishment Request message transmitted from the mobile terminal 1301-2 (mobile terminal 1301-1) in (4) reconnection shown in FIG. 11 is connected before communication disconnection occurs. The PCI of base station # 2 that has been included is included. However, the partner to which the mobile terminal 1301-2 (mobile terminal 1301-1) reconnects is the base station # 1. Therefore, when the information on the base station # 2 is not included in the neighbor cell list of the base station # 1, the information on the base station # 2 is registered in the neighbor cell list, and the base station # 1 and the base station # 2 Set the X2 interface.
In the second specific example, the processing of the flowchart shown in FIG. 2 is performed by the adjacent cell related automatic setting device 1 provided in the base station # 1.

As a third specific example, a case where the processing of the flowchart shown in FIG. 2 is applied to the HO to Wron Cell shown in FIG.
In this case, the (4) RRC Connection Reestablishment Request message transmitted from the mobile terminal 1401-2 (mobile terminal 1401-1) in the reconnection shown in FIG. 12 is connected before the communication disconnection occurs. The PCI of base station # 2 that has been included is included. However, the partner to which the mobile terminal 1401-2 (mobile terminal 1401-1) is reconnected is the base station # 3. Therefore, when the information on the base station # 2 is not included in the neighbor cell list of the base station # 3, the information on the base station # 2 is registered in the neighbor cell list, and the base station # 2 and the base station # 3 Set the X2 interface.
In the third specific example, the process of the flowchart shown in FIG. 2 is performed by the adjacent cell related automatic setting device 1 provided in the base station # 3.

  FIG. 3 is a flowchart illustrating an example of a processing procedure performed when the RLF Indication message is received, which is performed by the adjacent cell relationship automatic setting device 1 according to the present embodiment.

  First, an RLF Indication message is received by the base station equipped with the neighboring cell relation automatic setting device 1, and the message is input by the input unit 11 of the neighboring cell relation automatic setting device 1 (step S21).

  Next, with respect to the input RLF Indication message, the determination unit 17 is a mobile terminal corresponding to the message (here, a mobile terminal in which identification information is included in the message and a handover failure has occurred) In step S22, it is determined whether or not a UE Context RELEASE message has been transmitted to the cell A (here, a cell of a certain base station) within a predetermined time (Tstore_UE_cntxt seconds).

Here, the RLF Indication message is communicated via the X2 interface.
Further, the UE CONTEXT RELEASE message is a message communicated between base stations in order to confirm the completion of handover.
Also, the UE Context RELEASE message is communicated via a higher-level device (for example, a centralized server), and can be communicated even if the X2 interface is not set.
Moreover, a mobile terminal (UE: User Equipment) can be identified by identification information of UE-ID (C-RNTI), for example.

  In the determination in the process of step S22, the determination unit 17 determines that the UE CONTEXT RELEASE message has not been transmitted to the cell A within a predetermined time (Tstore_UE_cntxt seconds) for the mobile terminal corresponding to the message. In this case, this process is terminated.

  On the other hand, in the determination in the process of step S22, the determination unit 17 determines that the UE Context RELEASE message has been transmitted to the cell A within a predetermined time (Tstore_UE_cntxt seconds) for the mobile terminal corresponding to the message. In this case, the determination unit 17 indicates that the base station information corresponding to the PCI information of the cell A is the neighbor cell list (here, the neighbor cell list of the base station provided with the neighbor cell relationship automatic setting device 1). Is registered (step S23).

  If the determination unit 17 determines in the determination in step S23 that the base station information corresponding to the PCI information of the cell A is registered in the neighboring cell list, this process ends.

On the other hand, in the determination in the process of step S23, when the determination unit 17 determines that the base station information corresponding to the PCI information of the cell A is not registered in the adjacent cell list, the determination unit 17 It is determined whether or not the number of receptions of such a message (RLF Indication message) has reached or exceeded a predetermined threshold (step S24).
Here, the adjacent cell related automatic setting device 1 according to the present embodiment stores the number of times such a message is received in the storage unit 13.

In the determination in step S24, when the determination unit 17 determines that the number of receptions of the message as described above is not equal to or greater than a predetermined threshold value, the process ends.
On the other hand, in the determination in step S24, when the determination unit 17 determines that the number of received messages is equal to or greater than a predetermined threshold, the process proceeds to step S25.

  Here, as another configuration example, the determination in the process of step S24 may be performed by the ANR function unit 14 based on the HO failure instead of the determination unit 17. In this case, the ANR function unit 14 based on the HO failure records the reception of the message, and when the number of message receptions as described above becomes equal to or greater than the threshold, the process proceeds to step S25.

  In the process of step S25, the ANR function unit 14 based on the HO failure determines whether or not the ECGI corresponding to the corresponding PCI (here, the PCI of the cell A) is included in the message as described above. (Step S25).

In the determination in step S25, if the ANR function unit 14 based on HO failure determines that the ECGI corresponding to the corresponding PCI is included in the message as described above, the process proceeds to step S28. .
On the other hand, if it is determined in step S25 that the ANR function unit 14 based on the HO failure does not include the ECGI corresponding to the corresponding PCI in the message as described above, the process proceeds to step S26. Transition.

In the process of step S26, the ECGI resolution function unit 15 determines whether or not the corresponding ECGI can be resolved by making an inquiry to a higher-level device (for example, a central server) (step S26).
If the ECGI resolution function unit 15 determines in step S26 that the corresponding ECGI can be resolved by making an inquiry to the host device, the ECGI is inquired from the host device to obtain the ECGI. (Step S29), the process proceeds to Step S28.
On the other hand, in the determination in the process of step S26, if the ECGI resolution function unit 15 determines that it is not possible to resolve the corresponding ECGI by making an inquiry to the host device, the process proceeds to the process of step S27.

  In the process of step S28, the ANR function unit 14 based on the HO failure displays information on the base station corresponding to the corresponding PCI (here, the PCI of the cell A in which the number of receptions is equal to or greater than the threshold). And set (establish connection) the X2 interface (X2 line) (step S28), and the process proceeds to step S27.

In the process of step S27, the ANR MR threshold value setting unit 16 sets (for example, resets) the ANR MR threshold value (step S27), and ends this process.
Here, in the process of step S27, various methods may be used as the method for setting the MR threshold for ANR. For example, a method for lowering (decreasing) the MR threshold for ANR can be used. As an example, it is possible to use a method in which the MR threshold for ANR is started from its initial value and lowered by a predetermined value every time the process of step S27 is performed.

Then, the output unit 12 outputs information on the neighboring cell list generated in the process of step S28 and information on the MR threshold for ANR set in the process of step S27.
Such information is output and provided to, for example, a base station provided with the adjacent cell related automatic setting device 1. Also, these pieces of information were not registered in the neighboring cell list of the base station, for example, directly from the neighboring cell related automatic setting device 1 or via the base station provided with the neighboring cell related automatic setting device 1 It may be outputted and provided to a base station (in this embodiment, a base station corresponding to the PCI of cell A in the process of step S23).

Here, in order to register the base station information in the neighbor cell list, ECGI information of the base station is necessary. Therefore, when the ECGI information is unknown for the base station included in the UE Context information held for the C-RNTI of the RLF Indication message, the ECGI is solved by inquiring of the ECGI by the ECGI resolution function unit 15, Based on the acquired ECGI information, the ANR function unit 14 based on the HO failure registers the information of the base station in the neighboring cell list and establishes the connection of the X2 interface.
Note that the UE Context information is stored by each base station, and is erased when Tstore_UE_context seconds have passed.

Further, the ANR MR threshold value setting unit 16, for example, when receiving a radio wave from an unknown base station, sets a threshold value (ANR MR threshold value) for a reception power level that is a transmission condition for transmitting the ANR MR. It is reset so as to decrease (step S27), thereby increasing the probability of finding a new base station by ANR.
As an example, the ANR MR threshold value setting unit 16 transmits a UE CONTEXT RELEASE message to a base station not registered in the neighbor cell list within Tstore_UE_context seconds, and corresponds to a UE-ID (C-RNTI). Each time the number of received RLF Indication messages exceeds the threshold, the ANR MR threshold is lowered by one step.
However, if the information on the base station whose power is unnecessarily weak is registered in the neighbor cell list because the MR threshold for ANR is excessively lowered, the number of base stations that regularly exchange information via the X2 interface increases. , It puts a load on the processing capacity of the base station and the backbone line. For this reason, for example, after the corresponding base station is found, the ANR MR threshold value setting unit 16 may perform a process of gradually increasing the ANR MR threshold value (or returning it to the initial value).

As a first specific example, a case where the processing of the flowchart shown in FIG. 3 is applied to Too Early HO shown in FIG.
In this case, the cell of base station # 1 shown in FIG. Then, with respect to the cell A of the base station # 1 within a predetermined time (Tstore_UE_cntxt seconds) for the mobile terminal 1301-2 (mobile terminal 1301-1) corresponding to the (5) RLF Indication message shown in FIG. Assume that the UE CONTEXT RELEASE message is transmitted from the cell B of the base station # 2. At this time, when the information on the base station # 1 is not included in the neighboring cell list of the base station # 2, the information on the base station # 1 is registered in the neighboring cell list, and the base station # 1 and the base station # 2 Set the X2 interface.
In the first specific example, the process of the flowchart shown in FIG. 3 is performed by the adjacent cell relation automatic setting device 1 provided in the base station # 2.

As a second specific example, a case where the processing of the flowchart shown in FIG. 3 is applied to the HO to Wron Cell shown in FIG.
In this case, the cell of base station # 1 shown in FIG. Then, with respect to the cell A of the base station # 1 within a predetermined time (Tstore_UE_cntxt seconds) for the mobile terminal 1401-2 (mobile terminal 1401-1) corresponding to the (5) RLF Indication message shown in FIG. Assume that the UE CONTEXT RELEASE message is transmitted from the cell B of the base station # 2. At this time, when the information on the base station # 1 is not included in the neighboring cell list of the base station # 2, the information on the base station # 1 is registered in the neighboring cell list, and the base station # 1 and the base station # 2 Set the X2 interface.
In the second specific example, the process of the flowchart shown in FIG. 3 is performed by the adjacent cell relation automatic setting device 1 provided in the base station # 2.

  FIG. 4 is a flowchart showing an example of a processing procedure performed when the handover report message is received, which is performed by the neighboring cell related automatic setting device 1 according to the present embodiment.

  First, a handover report message is received by the base station equipped with the neighboring cell relation automatic setting device 1, and the message is input by the input unit 11 of the neighboring cell relation automatic setting device 1 (step S41).

  Next, the determination unit 17 determines whether or not the handover report type (Handover Report Type) included in the message is HO to wron cell with respect to the input handover report message (step S42).

  If the determination unit 17 determines that the handover report type (Handover Report Type) included in the message is not a HO to wron cell in the determination in the process of step S42, the process ends.

  On the other hand, when the determination unit 17 determines that the handover report type (Handover Report Type) included in the message is HO to wron cell in the determination in the process of step S42, the determination unit 17 adds the message to the message. It is determined whether or not the information of the base station corresponding to the information of the included Reestablishment Cell PCI is registered in the neighboring cell list (here, the neighboring cell list of the base station provided with the neighboring cell relation automatic setting device 1). (Step S43).

  When the determination unit 17 determines in the determination in step S43 that the base station information corresponding to the PCI information of the Reestablishment Cell included in the message is registered in the neighboring cell list, this process is performed. finish.

On the other hand, in the determination in step S43, if the determination unit 17 determines that the base station information corresponding to the PCI information of the Restoration Cell included in the message is not registered in the neighboring cell list, the determination The unit 17 determines whether or not the number of receptions of such a message (handover report message) is equal to or greater than a predetermined threshold (step S44).
Here, the adjacent cell related automatic setting device 1 according to the present embodiment stores the number of times such a message is received in the storage unit 13.

In the determination in step S44, when the determination unit 17 determines that the number of receptions of the message as described above is not equal to or greater than a predetermined threshold value, the process ends.
On the other hand, when the determination unit 17 determines in the determination in step S44 that the number of times the message has been received is equal to or greater than a predetermined threshold, the process proceeds to step S45.

  Here, as another configuration example, the determination in the process of step S <b> 44 may be performed by the ANR function unit 14 based on HO failure instead of the determination unit 17. In this case, the ANR function unit 14 based on the HO failure records the reception of the message, and the base station information corresponding to the information on the PCI of the Reestablishment Cell is not registered in the neighboring cell list. When the number of times of receiving the handover report message including the station PCI information as PCI information of the Reestablishment Cell becomes equal to or greater than the threshold, the process proceeds to step S45.

  In the process of step S45, the ANR function unit 14 based on the HO failure has an ECGI corresponding to the corresponding PCI (here, the PCI of the Restoration Cell included in the handover report message in which the number of receptions exceeds the threshold). Then, it is determined whether or not the message includes the PCI (step S45).

If it is determined in step S45 that the ANR function unit 14 based on the HO failure determines that the ECGI corresponding to the corresponding PCI is included in the message including the PCI, the process proceeds to step S48. .
On the other hand, in the determination in the process of step S45, when the ANR function unit 14 based on the HO failure determines that the ECGI corresponding to the corresponding PCI is not included in the message including the PCI, the process proceeds to step S46. Transition.

In the process of step S46, the ECGI resolution function unit 15 determines whether or not the corresponding ECGI can be resolved by making an inquiry to a higher-level device (for example, a central server) (step S46).
If the ECGI resolution function unit 15 determines that the corresponding ECGI can be resolved by making an inquiry to the upper apparatus in the determination in the processing of step S46, the ECGI is resolved by inquiring and obtaining the upper apparatus. (Step S49), the process proceeds to Step S48.
On the other hand, in the determination in the process of step S46, if the ECGI resolution function unit 15 determines that it is not possible to resolve the corresponding ECGI by making an inquiry to the host apparatus, the process proceeds to the process of step S47.

  In the process of step S48, the ANR function unit 14 based on the HO failure, the base station corresponding to the corresponding PCI (here, the PCI of the Reestablishment Cell included in the handover report message in which the number of receptions is equal to or greater than the threshold). Is registered in the adjacent cell list, the X2 interface (X2 line) is set (connection established) (step S48), and the process proceeds to step S47.

In the process of step S47, the ANR MR threshold value setting unit 16 sets (for example, resets) the ANR MR threshold value (step S47), and ends this process.
Here, in the process of step S47, various methods may be used as the method for setting the MR threshold for ANR. For example, a method for lowering (decreasing) the MR threshold for ANR can be used. As an example, it is possible to use a method in which the MR threshold for ANR is started from its initial value and lowered by a predetermined value every time the process of step S47 is performed.

Then, the output unit 12 outputs information on the neighboring cell list generated in the process of step S48 and information on the MR threshold for ANR set in the process of step S47.
Such information is output and provided to, for example, a base station provided with the adjacent cell related automatic setting device 1. Also, these pieces of information were not registered in the neighboring cell list of the base station, for example, directly from the neighboring cell related automatic setting device 1 or via the base station provided with the neighboring cell related automatic setting device 1 It may be output and provided to a base station (in this embodiment, a base station corresponding to the PCI of the Reestablishment Cell in the process of step S43).

  Here, in order to register the base station information in the neighbor cell list, ECGI information of the base station is necessary. For this reason, when ECGI information is not included in the handover report message (determination in step S45), the ECGI resolution function unit 15 inquires the host device to resolve the ECGI, and obtains the acquired ECGI information. Based on the HO failure, the base station information is registered in the neighbor cell list by the ANR function unit 14 based on the HO failure, and the X2 interface is established.

Further, the ANR MR threshold value setting unit 16, for example, when receiving a radio wave from an unknown base station, sets a threshold value (ANR MR threshold value) for a reception power level that is a transmission condition for transmitting the ANR MR. It is reset so as to decrease (step S47), thereby increasing the probability of finding a new base station by ANR.
As an example, the ANR MR threshold value setting unit 16 decreases the ANR MR threshold value by a predetermined level every time the number of times of receiving a handover report message including the PCI of the corresponding base station as a Reestablishment Cell exceeds the threshold value. .
However, if the information on the base station whose power is unnecessarily weak is registered in the neighbor cell list because the MR threshold for ANR is excessively lowered, the number of base stations that regularly exchange information via the X2 interface increases. , It puts a load on the processing capacity of the base station and the backbone line. For this reason, for example, after the corresponding base station is found, the ANR MR threshold value setting unit 16 may perform a process of gradually increasing the ANR MR threshold value (or returning it to the initial value).

As a specific example, a case where the process of the flowchart shown in FIG. 4 is applied to the HO to Wron Cell shown in FIG.
In this case, the (6) handover report message shown in FIG. 12 includes the PCI of the base station # 3 as a Reestablishment Cell. At this time, when the information on the base station # 3 is not included in the neighboring cell list of the base station # 1, the information on the base station # 3 is registered in the neighboring cell list, and the base station # 1 and the base station # 3 Set the X2 interface.
In this specific example, the process of the flowchart shown in FIG. 4 is performed by the adjacent cell related automatic setting device 1 provided in the base station # 1.

[Summary of this embodiment]
As described above, according to the adjacent cell relationship automatic setting device 1 in the mobile radio communication system according to the present embodiment, the cell relationship can be effectively set.
For example, in the stored information (in this embodiment, the neighbor cell list), the detection information of the handover failure that occurs between cells that are not in the neighbor cell relation is used, and the neighbor cell relation of the base station (in this embodiment, the neighbor cell list). Information) can be automatically updated, and connection establishment of the X2 interface can be automatically set. As described above, when a handover failure event related to a cell (in this embodiment, the same is applied to the base station) that is not related to the neighboring cell in the stored information (in this embodiment, the neighboring cell list), the related cell (this embodiment) is detected. In the embodiment, the neighbor cell relationship with the base station and the connection establishment of the X2 interface can be automatically set. Thereby, the precision of the automatic setting of a neighbor cell relationship can be raised, and suppression of a handover failure can be implement | achieved. Further, for example, based on the new cell detection information notified from the mobile terminal, the neighbor cell relationship of the base station and the connection establishment of the X2 interface can be automatically updated.

  Moreover, according to the adjacent cell related automatic setting device 1 in the mobile radio communication system according to the present embodiment, for example, the MR threshold for ANR can be set (for example, reset). Thereby, the adjacent cell relationship automatic setting (ANR) can be effectively performed.

  2 to 4, the ANR function unit 14 based on the HO failure performs registration to the neighboring cell list and X2 interface setting processing, and the ANR MR threshold setting unit 16 performs processing. Although the configuration for performing the process of setting the ANR MR threshold is shown, both of the two processes do not necessarily have to be performed. For example, a configuration in which only one of the two processes is performed may be used.

[Configuration example according to the above embodiment]
The structural example which concerns on the above embodiment is shown.
(Configuration example 1: Overall overview)
In the neighboring cell related automatic setting device 1 that automatically sets a neighboring cell list (same in the neighboring base station list in this embodiment) in which PCI, ECGI, etc. of neighboring cells (same in neighboring base stations in this embodiment) are registered. Detecting and recording a handover failure event related to a cell that is not related to the neighbor cell in the neighbor cell list (the same applies to the base station in this embodiment), for example, when the number of times exceeds a threshold value or any predetermined arbitrary When the timing is reached, (automatic) setting of the adjacent cell relationship and X2 interface connection with the related cell (in the present embodiment, the base station is also set), and setting of the ANR MR threshold ( For example, resetting) and / or both.

(Configuration example 2: corresponding to the example of FIG. 2)
In the adjacent cell related automatic setting device 1 according to (Configuration Example 1), a PCI other than the own cell (for example, the cell provided with the adjacent cell related automatic setting device 1 and the same in the present embodiment) When the RRC Connection Reestablishment Request message including the information is received and the cell corresponding to the PCI information (in the present embodiment, the same applies to the base station) is not registered in the neighboring cell list, the reception of the message is performed. For example, when the number of receptions is equal to or greater than a threshold value or when a predetermined timing is reached, the ANR function unit 14 based on HO failure causes the cell (in the present embodiment, the base station also). The same information is registered in the neighbor cell list, and the X2 interface is established.

(Configuration example 3: corresponding to the example of FIG. 2)
In the adjacent cell related automatic setting device 1 according to (Configuration Example 2), when ECGI information is not included in the RRC Connection Reestablishment Request message, the ECGI resolution function unit 15 includes the RRC Connection Reestablishment Request message in the RRC Connection Reestablishment Request message. For a cell corresponding to PCI information (in this embodiment, the same applies to a base station), ECGI information is inquired of a higher-level device (for example, a centralized server) and resolved.

(Configuration example 4: corresponding to the example of FIG. 2)
In the adjacent cell relationship automatic setting device 1 according to any one of (Configuration Example 1) to (Configuration Example 3), this cell is a cell equipped with the own cell (for example, the adjacent cell relationship automatic setting device 1). In the form, an RRC Connection Reestablishment Request message including PCI information other than that in the own station is received, and a cell corresponding to the PCI information (in this embodiment, also in the base station) is registered in the neighboring cell list. If not, the reception of the message is recorded. For example, when the number of receptions is equal to or greater than a threshold value or when a predetermined timing is reached, the ANR MR threshold value setting unit 16 performs the ANR Lower the threshold (MR threshold) for the received power level in the transmission condition for transmitting the MR.

(Configuration example 5: corresponding to the example of FIG. 3)
In the neighboring cell related automatic setting device 1 according to (Configuration Example 1), a UE Context RELEASE message is transmitted within Tstore_UE_cntxt seconds to a cell that is not registered in the neighboring cell list (the same applies to the base station in this embodiment). When the RLF Indication message is received for the C-RNTI (UE-ID), the reception of the message is recorded. For example, when the number of receptions exceeds a threshold value or at a predetermined arbitrary timing In this case, the ANR function unit 14 based on the HO failure registers the information of the cell (the same applies to the base station in the present embodiment) in the neighboring cell list, and establishes the connection of the X2 interface.

(Configuration example 6: corresponding to the example of FIG. 3)
In the neighboring cell related automatic setting device 1 according to (Configuration Example 5), ECGI information is included in a cell (in the present embodiment, the same applies to a base station) included in UE Context information held for C-RNTI in the RLF Indication message. If it is unknown, the ECGI resolution function unit 15 inquires the ECGI information about the cell (in the present embodiment, the same applies to the base station) to the host device (for example, a centralized server) and resolves it.

(Configuration example 7: corresponding to the example of FIG. 3)
In the neighboring cell relationship automatic setting device 1 according to any one of (Configuration Example 1), (Configuration Example 5), or (Configuration Example 6), cells that are not registered in the neighboring cell list (in this embodiment, When the RLF Indication message is received for the C-RNTI (UE-ID) that has transmitted the UE CONTEXT RELEASE message within Tstore_UE_cntxt seconds to the base station), the reception of the message is recorded, for example, the reception thereof When the number of times becomes equal to or greater than the threshold value or when an arbitrary predetermined timing is reached, the ANR MR threshold value setting unit 16 sets the threshold value (MR for the reception power level in the transmission condition for transmitting the ANR MR value). Lower the threshold).

(Configuration example 8: corresponding to the example of FIG. 4)
In the adjacent cell related automatic setting device 1 according to (Configuration Example 1), a handover report message whose handover report type is HO to Wron Cell is received, and a cell corresponding to PCI information of the Restoration Cell included in the message ( In this embodiment, the reception of the message is recorded when the base station is not registered in the neighboring cell list. For example, when the number of receptions is equal to or greater than a threshold, or at an arbitrary predetermined timing In this case, the ANR function unit 14 based on the HO failure registers information of the cell (in the present embodiment, the same applies to the base station) in the neighboring cell list, and establishes an X2 interface.

(Configuration example 9: corresponding to the example of FIG. 4)
In the neighboring cell related automatic setting device 1 according to (Configuration Example 8), when ECGI information is not included in the handover report message, a cell (in correspondence with PCI information of the Restoration Cell included in the handover report message) In the present embodiment, the same applies to the base station), and the ECGI resolution function unit 15 inquires the ECGI information from the higher-level device (for example, a centralized server) and resolves it.

(Configuration example 10: corresponding to the example of FIG. 4)
In the adjacent cell related automatic setting device 1 according to any one of (Configuration Example 1), (Configuration Example 8), and (Configuration Example 9), a handover report message whose handover report type is HO to Wron Cell is sent. If the cell corresponding to the information of PCI of Reestablishment Cell included in the message (in this embodiment, the same applies to the base station) is not registered in the neighboring cell list, the reception of the message is recorded, for example, The threshold for the received power level in the transmission condition for transmitting the ANR MR by the ANR MR threshold setting unit 16 when the number of receptions is equal to or greater than the threshold or when an arbitrary predetermined timing is reached. (MR threshold) is lowered.

(Configuration example 11: corresponding to FIGS. 2, 3 and 4)
In the adjacent cell related automatic setting device 1 according to any one of (Configuration Example 4), (Configuration Example 7), and (Configuration Example 10), received power that is a transmission condition for transmitting an ANR MR As a result of lowering the threshold value for the level (for example, the sensitivity of registering other cells (in this embodiment, the same applies to other base stations) is relatively lowered), the cell corresponding to the information of the corresponding PCI (this embodiment In the embodiment, when ANR is registered in the neighboring cell list, the ANR MR threshold setting unit 16 raises the threshold for the received power level, which is a transmission condition for transmitting the ANR MR (that is, , Raise the threshold that was lowered).

[Another configuration example according to the above embodiment]
Another configuration example according to the above embodiment will be described. In this other configuration example, as in the above configuration example, the technique according to the above-described embodiment is expressed and viewed differently.
(Another configuration example 1: table setting)
When the presence of a cell that is not described (not described) is detected in a table (in the above embodiment, a neighbor cell list) that describes a cell relationship based on a message related to handover, the cell relationship is detected. Is set in the table so as to be described in the table, and a cell relationship setting unit (in the above embodiment, an X2 interface) is set up for a base station forming the cell. In the embodiment, the cell relationship setting device (in the above embodiment, the adjacent cell relationship automatic setting device 1) is provided, which includes the ANR function unit 14) based on HO failure.

(Another configuration example 2)
The cell relation setting unit is configured to set the table and the interface when the number of predetermined messages is equal to or greater than a predetermined threshold (another configuration example 1). The cell-related setting device according to (1).
Here, various values may be used as the threshold value.

(Another configuration example 3: MR threshold setting)
Based on the message related to handover, when the presence of a cell that is not described (not described) in the table describing the cell relationship (in the above embodiment, the neighboring cell list) is detected, A cell-related setting MR threshold value setting unit that sets an MR threshold value that is a threshold value for a received power level in a transmission condition for transmitting a setting MR (Measurement Report) (in the above embodiments, an ANR MR threshold value). A cell-related setting device (in the above embodiment, an adjacent cell-related automatic setting device 1).

(Another configuration example 4)
The cell relation setting MR threshold value setting unit sets the MR threshold value when a predetermined number of messages exceeds a predetermined threshold value (another configuration example 3). The cell-related setting device according to (1).
Here, various values may be used as the threshold value.

(Another configuration example 5)
The cell relationship setting MR threshold value setting unit sets the MR threshold value to be increased when the cell relationship is described in the table (another configuration example 3) or (another configuration) The cell relationship setting device according to Configuration Example 4).

(Another configuration example 6: corresponding to the example of FIG. 2)
Based on the above-described message related to handover, when the presence of a cell that is not described in the table describing the cell relationship is detected, an RRC Connection Restoration Request message including PCI information of cells other than the own cell is provided. Any one of (another configuration example 1) to (another configuration example 1) is characterized in that the case where the relationship of the cell corresponding to the PCI is not described in the table is used. Cell relationship setting device.

(Another configuration example 7: corresponding to the example of FIG. 3)
When the presence of a cell not described in the table describing the cell relationship is detected based on the above-described message related to the handover, the UE CONTEXT is transmitted within the time Tstore_UE_cntxt for the cell not described in the table. Any one of (another configuration example 1) to (another configuration example 5), characterized by using a case where there is an RLF Indication message for C-RNTI (UE-ID) to which a RELEASE message is transmitted A cell-related setting device according to claim 1.

(Another configuration example 8: corresponding to the example of FIG. 4)
Based on the above-mentioned message related to handover, there is a handover report message in which the handover report type is HO to Wron Cell, as the presence of a cell that is not described in the table describing the cell relationship is detected. Any one of (another configuration example 1) to (another configuration example 5) is characterized in that the relationship between the cells corresponding to the PCI of the Reestablishment Cell of the message is not described in the table. The cell-related setting device described.

(Another configuration example 9: Resolution of ECGI)
An ECGI information acquisition unit (ECGI resolution function unit 15 in the above embodiment) that acquires ECGI information of a cell is provided, and the cell relationship setting unit is configured so that the cell relationship is described in the table. When setting the table, if the ECGI information of the cell is unknown, the ECGI information of the cell acquired by the ECGI information acquisition unit is used (another configuration example 1). , (Another configuration example 2), (Another configuration example 6), (Another configuration example 7), or (Another configuration example 8).

[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 according to the embodiment described above (for example, the function of the adjacent cell related automatic setting device 1 or the like) is recorded on a computer-readable recording medium, and the recording medium is recorded on this recording medium. Processing may be performed by reading the recorded program into a computer system and executing it.

The “computer system” mentioned here may include an operating system (OS) and hardware such as 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 a 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.
Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

DESCRIPTION OF SYMBOLS 1 ... Neighbor cell related automatic setting apparatus, 11 ... Input part, 12 ... Output part, 13 ... Memory | storage part, 14 ... ANR function part based on HO failure, 15 ... ECGI solution function part, 16 ... MR threshold value setting part for ANR, 17: Determination unit, 1001, 1101-1, 1101-2, 1201-1, 1201-2, 1301-1, 1301-2, 1401-1, 1401-2 ... mobile terminal, 1011 ... neighbor cell list, 1111, 1112 ... Characteristics

Claims (12)

When the presence of a cell that is not described in the table describing the cell relationship is detected based on a message related to handover, the table is set so that the cell relationship is described in the table, and the cell A cell relationship setting unit for setting an interface for direct communication between base stations for base stations forming
A cell-related setting device characterized by that. The cell relationship setting unit performs setting of the table and setting of the interface when the number of predetermined messages is equal to or greater than a predetermined threshold.
The cell relation setting device according to claim 1, wherein Reception based on a transmission condition for transmitting an MR (Measurement Report) for setting a cell relationship when the presence of a cell not described in the table describing the cell relationship is detected based on a message related to handover A cell relationship setting MR threshold value setting unit configured to lower the MR threshold value that is a threshold value for the power level;
A cell-related setting device characterized by that. The cell relationship setting MR threshold value setting unit sets the MR threshold value when a predetermined number of messages is equal to or greater than a predetermined threshold value.
The cell relationship setting device according to claim 3, wherein: The cell relationship setting MR threshold value setting unit sets the MR threshold value to be increased when the cell relationship is described in the table.
The cell relationship setting device according to claim 3 or 4, wherein Based on the above-described message related to handover, when the presence of a cell that is not described in the table describing the cell relationship is detected, an RRC Connection Restoration Request message including PCI information of cells other than the own cell is provided. Yes, the case where the relationship of the cell corresponding to the PCI is not described in the table is used.
The cell relationship setting device according to any one of claims 1 to 5, wherein When the presence of a cell not described in the table describing the cell relationship is detected based on the above-described message related to the handover, the UE CONTEXT is transmitted within the time Tstore_UE_cntxt for the cell not described in the table. When there is an RLF Indication message for C-RNTI to which a RELEASE message has been sent,
The cell relationship setting device according to any one of claims 1 to 5, wherein Based on the above-mentioned message related to handover, there is a handover report message in which the handover report type is HO to Wron Cell, as the presence of a cell that is not described in the table describing the cell relationship is detected. Use the case where the relationship of the cell corresponding to the PCI of the Reestablishment Cell of the message is not described in the table.
The cell relationship setting device according to any one of claims 1 to 5, wherein When the cell relationship setting unit detects the presence of a cell that is not described in the table describing the cell relationship based on a message related to handover, the table is configured so that the cell relationship is described in the table. And setting an interface for direct communication between base stations for the base stations forming the cell,
A cell relation setting method characterized by that. When the presence of a cell that is not described in the table describing the cell relationship is detected by the cell relationship setting MR threshold value setting unit based on the handover-related message, the MR (Measurement Report) for setting the cell relationship is detected. ) Is set so as to lower the MR threshold that is a threshold for the reception power level in the transmission condition for transmitting
A cell relation setting method characterized by that. When the cell relationship setting unit detects the presence of a cell that is not described in the table describing the cell relationship based on a message related to handover, the table is configured so that the cell relationship is described in the table. And setting a direct communication interface between the base stations for the base stations forming the cell,
A cell-related setting program for causing a computer to execute. When the presence of a cell that is not described in the table describing the cell relationship is detected by the cell relationship setting MR threshold value setting unit based on the handover-related message, the MR (Measurement Report) for setting the cell relationship is detected. ) For setting the MR threshold to be a threshold for the received power level in the transmission condition for transmitting
A cell-related setting program for causing a computer to execute.

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