JP2013090040A - Radio control apparatus, and radio control method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To cut down on overhead occurring when an adjacent cell list is updated.SOLUTION: A radio control apparatus comprises: a first table which has stored therein information indicating an antenna device connected to the own apparatus; a second table which has stored therein information indicating an adjacent antenna device adjoining each of the antenna devices connected to the own apparatus; a third table which has stored therein information indicating radio control apparatuses connected to each of the adjacent antenna devices; and an adjacent cell list updating unit which, upon receiving a switching directive signal instructing switchover of antenna device and radio control apparatus connections, updates the information stored in each of the first, the second and the third tables on the basis of the received switching directive signal, whereby information indicating the radio control apparatuses stored in the third table, except the own apparatus, is made a new adjacent cell list.

Description

  The present invention relates to a wireless control device, a wireless control method, and a program.

As the mobile communication system of the 3.9 generation, etc. The ^{3GPP (3 rd Generation Partnership Project)} LTE standardization is underway in the (Long Term Evolution), to support the handover of the mobile terminal between base stations, base The station holds information indicating a base station that covers an area adjacent to the area covered by the station. An adjacent cell list that is information indicating a base station covering the adjacent area is notified from the base station to the mobile terminal using a broadcast channel or the like (Non-Patent Document 1).
The mobile terminal measures the signal strength from the connected base station or the base station included in the adjacent cell list, and notifies the connected base station of the measurement result. Based on the measurement result received from the mobile terminal, the base station selects whether or not handover is required and the handover destination base station.

By the way, when a base station is newly established or removed, in order to perform an appropriate handover, it is necessary to make the adjacent cell list coincide with the actual arrangement of the base stations. In a general mobile communication system, an administrator or operator of the mobile communication system manually updates the neighboring cell list according to installation or removal of a base station. However, ANR (Automatic Neighbor Relation) that updates the neighbor cell list without human intervention has been studied with the aim of automating the operation of the mobile communication system (Non-patent Document 1).
When ANR is used, the mobile terminal measures the signal strength from the base station that can be detected at the current position based on an instruction from the base station, and transmits the measurement result to the base station (Measurement Report). The base station updates the neighbor cell list based on the measurement result received from the mobile terminal, thereby making it possible to match the actual base station arrangement with the neighbor cell list to keep the latest state.

In order to accommodate traffic in mobile communication systems that will increase in the future, the functions of a base station will be separated into a radio control device and an antenna device, and multiple radio control devices will be integrated into the same station Network architecture has been studied (Non-Patent Documents 2 and 3).
A feature of this wireless network architecture is that the connection relationship between the wireless control device and the antenna device can be flexibly and dynamically changed. For example, it is possible to efficiently use the resources of a limited radio control device by allocating more radio control devices to an area where a lot of traffic occurs according to traffic time fluctuation or daily fluctuation. It becomes possible. Also in the radio network architecture, it is necessary to update the neighbor cell list so that the mobile terminal can be appropriately handed over between base stations. The adjacent cell list is managed for each wireless control device that performs wireless protocol processing, and includes information indicating a wireless control device that covers an area adjacent to an area covered by the wireless control device.

3GPP TS 36.300, “Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2” "Nokia Siemens Networks launches Liquid Radio", [online], March 21, 2011, Nokia Siemens Networks, [searched September 16, 2011], Internet <http://www.nokiasiemensnetworks.com/news- events / press-room / press-releases / nokia-siemens-networks-launches-liquid-radio> "Light Radio (TM): Evolve your wireless broadband network for the new generation of applications and users", [online], July 29, 2011, Alcatel-Lucent, [Search September 19, 2011], Internet <http://www.alcatel-lucent.com/features/light_radio/index.html>

Non-Patent Documents 2, 3 and the like are being studied, and in a wireless network architecture in which a base station is separated into a wireless control device and an antenna device and a plurality of wireless control devices are aggregated, depending on traffic conditions, etc. The connection relationship between the radio control device and the antenna device is dynamically changed. When changing the connection relationship, the neighbor relationship of the radio network controller changes, so it is necessary to update the neighbor cell list appropriately.
For example, when ANR is applied to update the neighboring cell list, it is necessary for the mobile terminal to measure the signal strength from the base station and transmit the measurement result to the radio control apparatus. Therefore, when the connection between the antenna device and the radio control device is switched, there is a problem that the traffic (overhead) of the measurement result increases and the bandwidth that can be provided to the user of the mobile terminal becomes narrow.

  The present invention has been made to solve the above problems, and its object is to provide a wireless network architecture capable of dynamically changing the connection relationship between an antenna device and a radio control device, between the antenna device and the radio control device. An object of the present invention is to provide a radio control apparatus, a radio control method, and a program that can reduce overhead generated when switching connections and updating a neighboring cell list.

  In order to solve the above problem, the present invention is a radio control apparatus in a communication system including a plurality of antenna apparatuses that perform radio communication with a mobile terminal and a plurality of radio control apparatuses that control the antenna apparatus. A first table storing information indicating the antenna device connected to the own device, and a communication area adjacent to the communication area of the antenna device for each antenna device connected to the own device. A second table in which information indicating adjacent antenna devices that are antenna devices is stored; a third table in which information indicating the radio control devices connected to the adjacent antenna devices is stored; A switching instruction signal instructing switching of the connection between the antenna apparatus and the radio control apparatus is received, and based on the received switching instruction signal, The information stored in each of the first table, the second table, and the third table is updated, and the own device is excluded from the wireless control device indicated by the information stored in the third table. And a neighbor cell list update unit that converts information indicating the radio controller to a new neighbor cell list.

  Further, according to the present invention, in the above-described invention, the neighbor cell list update unit may be configured to switch the connection destination to the antenna device when the connection switching source of the antenna device indicated by the switching instruction signal is the own device. The corresponding information is deleted from the first table, the information indicating the adjacent antenna device of the antenna device that switches the connection destination is deleted from the second table, and the adjacent of the antenna device that switches the connection destination The information indicating the radio control device corresponding to the antenna device is deleted from the third table, and the information indicating the radio control device connected to the antenna device that switches the connection destination in the third table, Update to information indicating the radio control apparatus to which the connection of the antenna apparatus instructed by the switching instruction signal is switched And features.

  Further, in the present invention described above, in the above-described invention, the adjacent cell list update unit may be configured to switch the antenna device that switches a connection destination when the connection switching destination of the antenna device indicated by the switching instruction signal is the own device. Receiving the antenna device information including the information indicating the information, the adjacent antenna device of the antenna device, and the information indicating the radio control device connected to the adjacent antenna device, and included in the received antenna device information Information indicating an antenna device for switching the connection destination is stored in the first table, information indicating the adjacent antenna device included in the antenna device information is stored in the second table, and is included in the antenna device information. Information indicating the radio control device connected to the adjacent antenna device is stored in the third table, and In the information in the table is stored, said information indicating the radio control device connected to the antenna device switches the connection destination, and updates the information indicating the own apparatus.

  Further, according to the present invention, in the above-described invention, the neighbor cell list update unit further instructs the switching instruction signal when the switching source of the connection of the antenna apparatus indicated by the switching instruction signal is the own apparatus. The antenna apparatus information is transmitted to a radio control apparatus to which the connection of the antenna apparatus is switched.

  Further, the present invention is the above-described invention, wherein the adjacent cell list update unit further includes an adjacent cell including information indicating an antenna device that switches the connection and a radio control device that switches a connection of the antenna device. A list update instruction signal is received, and the connection indicated by the received adjacent cell list update instruction signal is switched in the information indicating the radio control apparatus connected to the adjacent antenna apparatus stored in the third table The information indicating the radio control apparatus connected to the antenna apparatus is updated to information indicating the radio control apparatus to which the connection is switched indicated by the received neighbor cell list update instruction signal, and the updated third table is updated. The information indicating the wireless control device excluding its own device from the wireless control device indicated by the information stored in the neighbor cell list And wherein the Rukoto.

  Further, the present invention is the above-described invention, wherein the adjacent cell list update unit further includes the adjacent cell when the switching source or switching destination of the antenna device indicated by the switching instruction signal is the own device. Of the radio control apparatuses connected to the antenna apparatus adjacent to the antenna apparatus that generates the list update instruction signal and instructed by the switch instruction signal, the radio control of the switching source and switching destination of the antenna apparatus that has switched the connection The generated neighbor cell list update instruction signal is transmitted to a radio network controller excluding the device.

  The present invention further includes a plurality of antenna devices that perform wireless communication with a mobile terminal, and a plurality of wireless control devices that control the antenna devices, wherein the wireless control device is connected to the own device. A first table in which information indicating the antenna device is stored, and an adjacent antenna device that is an antenna device having a communication area adjacent to the communication area of the antenna device for each of the antenna devices connected to the own device. A wireless control method in a communication system, comprising: a second table storing information to be stored; and a third table storing information indicating the wireless control device connected to each of the adjacent antenna devices. A switching instruction signal instructing switching of connection between the antenna apparatus and the radio control apparatus is received, and the received switching instruction signal is Then, the information stored in each of the first table, the second table, and the third table is updated, and the wireless control device indicated by the information stored in the third table automatically updates. A wireless control method comprising: a neighboring cell list update step that sets information indicating a wireless control device excluding the device as a new neighboring cell list.

  The present invention further includes a plurality of antenna devices that perform wireless communication with a mobile terminal, and a plurality of wireless control devices that control the antenna devices, wherein the wireless control device is connected to the own device. A first table in which information indicating the antenna device is stored, and an adjacent antenna device that is an antenna device having a communication area adjacent to the communication area of the antenna device for each of the antenna devices connected to the own device. Radio control apparatus in a communication system comprising: a second table storing information to be stored; and a third table storing information indicating the radio control apparatus connected to each of the adjacent antenna apparatuses A switching instruction signal for instructing switching of the connection between the antenna device and the wireless control device to a computer provided in the computer; Based on the received switching instruction signal, the information stored in each of the first table, the second table, and the third table is updated, and the information stored in the third table indicates It is a program for executing an adjacent cell list update step in which information indicating a wireless control device excluding its own device from the wireless control device is used as a new adjacent cell list.

  According to the present invention, the wireless control device connects after switching the connection of the antenna device based on the switching instruction signal and the information stored in the first to third tables provided in the own device. The neighbor cell list corresponding to the relationship can be updated. This eliminates the need to transmit the signal strength measured at the mobile terminal to the radio control device after switching the connection between the antenna device and the radio control device, and switches the connection between the antenna device and the radio control device. The overhead caused when updating the cell list can be reduced.

It is the schematic which shows the structure of the mobile communication system 100 in 1st Embodiment. It is a schematic block diagram which shows the structure of the radio | wireless management apparatus 1 and the radio | wireless control apparatus 2 in this embodiment. It is a figure which shows an example of the connection RRH information memorize | stored in the RRH table 21 in this embodiment, and adjacent RRH information. It is the figure which changed the connection destination of the antenna apparatus 3c in the mobile communication system 100 shown in FIG. It is a sequence diagram which shows the process example which updates the adjacent cell list | wrist in this embodiment. It is a figure which shows the process which updates the adjacent cell list | wrist of the radio | wireless control apparatus 2 of the switching origin in this embodiment. It is a figure which shows the process which updates the adjacent cell list | wrist of the radio | wireless control apparatus 2 of the switching destination in this embodiment. It is a figure which shows the process which updates the adjacent cell list of the radio | wireless control apparatus 2 which needs the update of the adjacent cell list in this embodiment. It is a figure which shows the RRH table 21 of each radio | wireless control apparatus 2A-2E after switching the connection destination of the antenna apparatus 3c from the radio | wireless control apparatus 2C to the radio | wireless control apparatus 2B in this embodiment. It is a schematic block diagram which shows the structure of the radio | wireless management apparatus 5 and the radio | wireless control apparatus 2 in 2nd Embodiment. It is a figure which shows an example of the connection RRH information and adjacent RRH information which are memorize | stored in the RCU table 52 in this embodiment. It is a sequence diagram which shows the process example which updates the adjacent cell list | wrist in this embodiment. It is a figure which shows the RCU table 52 after switching the connection destination of the antenna apparatus 3c from the radio | wireless control apparatus 2C to the radio | wireless control apparatus 2B in this embodiment. It is a schematic block diagram which shows the structure of the radio | wireless management apparatus 7 and the radio | wireless control apparatus 8 in 3rd Embodiment. It is a sequence diagram which shows the process example which updates the adjacent cell list | wrist in this embodiment.

  Hereinafter, a wireless control device, a wireless control method, and a program according to embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a schematic diagram illustrating a configuration of a mobile communication system 100 according to the first embodiment. As shown in the figure, the mobile communication system 100 includes a radio management unit (RMU) 1 and a plurality of radio control units (RCU) 2A to 2E connected to the radio management device 1. And a plurality of antenna devices (Remote Radio Heads; RRH) 3a to 3h connected to the radio control devices 2A to 2E, and a packet gateway 102 for connecting the radio management device 1 to the packet core 103. Each of the wireless control devices 2A to 2E has the same configuration. Hereinafter, the wireless control device 2A to 2E will be referred to as the wireless control device 2 when showing either or all of the wireless control devices 2A to 2E. In addition, the antenna devices 3a to 3h have the same configuration, and are hereinafter referred to as the antenna device 3 when showing any or all of the antenna devices 3a to 3h.

  The radio management apparatus 1 controls the connection relationship between the radio control apparatus 2 and the antenna apparatus 3, and the number of mobile terminals (not shown) connected to each radio control apparatus 2 and the traffic required for each radio control apparatus 2. The connection relationship with the antenna device 3 connected to the wireless control device 2 is determined according to the above. Further, the radio management apparatus 1 transmits a switching instruction signal for switching the connection with the antenna apparatus 3 to the radio control apparatus 2 based on the determined connection relationship.

The wireless control device 2 is connected to the packet core 103 via the wireless management device 1 and the packet gateway 102. Further, the radio network controller 2 performs processing such as call control and radio resource scheduling in the radio base station, and performs uplink and downlink baseband processing. The radio control device 2 is connected to different antenna devices 3, receives uplink signals from the connected antenna devices 3, and transmits downlink signals to the connected antenna devices 3.
In addition, a plurality of antenna devices 3 can be connected to the wireless control device 2, and when a plurality of antenna devices 3 are connected, a plurality of connected antenna devices are provided as in the distributed antenna technology. 3 transmits a signal including the same data. In addition, the radio network controller 2 forms a cell in an area (communication area) where the connected antenna device 3 can communicate with the mobile terminal. When a plurality of antenna devices 3 are connected, the communication area of each antenna device 3 is collected to form one cell.

  In addition, when a switching instruction signal is input from the wireless management device 1, the wireless control device 2 updates the adjacent cell list provided. In addition, the radio control device 2 transmits the RRH information to another radio control device 2 that needs to update the neighbor cell list. Here, the adjacent cell list is a list that each of the radio control apparatuses 2 has and indicates another radio control apparatus 2 that forms a cell adjacent to the cell formed by the radio apparatus. The RRH information is information related to the antenna device 3 that changes according to switching of the connection with the antenna device 3.

  The antenna device 3 is a wireless communication unit having an antenna element in a wireless base station and having an independent wireless communication function, and performs wireless communication with a mobile terminal. The antenna device 3 is connected to the radio control device 2 using an optical fiber line or the like.

In the example shown in FIG. 1, the antenna device 3a is arranged adjacent to the antenna devices 3b and 3e, the antenna device 3b is arranged adjacent to the antenna devices 3a, 3c, and 3f, and the antenna device 3c is arranged as the antenna devices 3b and 3d. The antenna device 3d is arranged adjacent to the antenna devices 3c and 3h.
The antenna device 3e is disposed adjacent to the antenna devices 3a and 3f, the antenna device 3f is disposed adjacent to the antenna devices 3b, 3e, and 3g, and the antenna device 3g is adjacent to the antenna devices 3c, 3f, and 3h. The antenna device 3h is arranged adjacent to the antenna devices 3d and 3g.
Antenna devices 3a and 3e are connected to the radio control device 2A. Antenna devices 3b and 3f are connected to the wireless control device 2B. Antenna devices 3c and 3g are connected to the wireless control device 2C. An antenna device 3d is connected to the radio control device 2D. An antenna device 3h is connected to the radio control device 2E.

The wireless management device 1 and the wireless control device 2 are installed together in the aggregation center 101, for example. The antenna device 3 is installed at a position away from the aggregation center 101.
The packet gateway 102 connects the radio management apparatus 1 installed in the aggregation center 101 and the packet core 103, transmits and receives signals between the radio management apparatus 1 and the packet core 103, and relays signals. To do.
The packet core 103 is a network connected to another mobile communication system or an external network such as the Internet.

  FIG. 2 is a schematic block diagram showing the configuration of the radio management apparatus 1 and the radio control apparatus 2 in the present embodiment. As shown in the figure, the radio management apparatus 1 includes a resource allocation unit 11. The resource allocation unit 11 determines the antenna device 3 connected to each radio control device 2 based on the traffic information received from each radio control device 2, and generates a switching instruction signal corresponding to the determined connection relationship. Here, the traffic information is information indicating the amount of data transmitted and received by the wireless control device 2 using each antenna device 3, for example. Further, the resource allocation unit 11 determines a connection relationship using a known technique.

The radio control apparatus 2 includes an RRH table 21, an adjacent cell table 22, a communication unit 23, and an adjacent cell list update unit 24. In the RRH table 21, for each connection RRH information indicating the antenna device 3 connected to the own device, another antenna device 3 (adjacent antenna device) having a communication area adjacent to the communication area of the antenna device 3 is displayed. The adjacent RRH information that combines the identifier (RRH-ID) that is indicated and the identifier (RCU-ID) that indicates the radio network controller 2 connected to the antenna device 3 is stored.
The adjacent cell table 22 stores an adjacent cell list that is a list of identifiers (RCU-IDs) indicating other radio control apparatuses 2 that form cells adjacent to the cell of the own apparatus.
The communication unit 23 is connected to the antenna device 3 specified by the connection instruction signal input from the adjacent cell list update unit 24, and communicates with the mobile terminal via the connected antenna device 3. The communication unit 23 transmits traffic information transmitted / received by each antenna device 3 to / from the mobile terminal to the wireless management device 1. In addition, the communication unit 23 reads the neighboring cell list stored in the neighboring cell table 22 and transmits the read neighboring cell list to the antenna device 3. In the antenna device 3, the adjacent cell list is transmitted to the mobile terminal using a broadcast channel or the like.
The adjacent cell list update unit 24 receives the switching instruction signal from the radio management apparatus 1, updates the connection RRH information and the adjacent RRH information stored in the RRH table 21 in accordance with the received switching instruction signal, and the update result In response, the neighboring cell list stored in the neighboring cell table 22 is updated.

  FIG. 3 is a diagram illustrating an example of connection RRH information and adjacent RRH information stored in the RRH table 21 in the present embodiment. The connection RRH information and the adjacent RRH information shown in the figure show the connection relationship between the radio control device 2 and the antenna device 3 shown in FIG. FIG. 3A shows connection RRH information and adjacent RRH information stored in the RRH table 21 provided in the radio network controller 2A. 3B to FIG. 3E show connection RRH information and adjacent RRH information stored in the RRH table 21 provided in each of the radio control apparatuses 2B to 2E, as in FIG. 3A. Is shown. Here, the identifiers (RRH-ID) of the antenna devices 3a to 3h are represented by “a” to “h”, and the identifiers (RCU-ID) of the radio control devices 2A to 2E are represented by “A” to “E”. Represents.

  For example, in the RRH table 21 provided in the wireless control device 2B shown in FIG. 3B, “b” and “f” indicating the antenna devices 3b and 3f connected to the wireless control device 2B. Is stored as connection RRH information. The connection RRH information “b” includes, as neighboring RRH information, a combination of RRH-ID “a” and RCU-ID “A”, a combination of RRH-ID “c” and RCU-ID “C”, and RRH. -A combination of ID "f" and RCU-ID "B" is associated. Similarly, the connection RRH information “f” is associated with a combination of “b-B”, “e-A”, and “g-C”.

  Hereinafter, a process of updating the neighbor cell list stored in each radio control apparatus 2 will be described with a specific example. Here, as shown in FIG. 4, the process of switching the connection destination of the antenna device 3c connected to the radio control device 2C to the radio control device 2B is taken as an example, and the radio management device 1 and the radio control device 2 The operation will be described. That is, the operation when the connection relationship shown in FIG. 1 is changed to the connection relationship shown in FIG. 4 will be described. Hereinafter, as illustrated in FIG. 3, RCU-IDs for identifying the radio control apparatuses 2A to 2E are “A”, “B”, “C”, “D”, and “E”, and the antenna apparatuses 3a to 3h. The RRH-ID for identifying each will be described as “a”, “b”, “c”, “d”, “e”, “f”, “g”, “h”.

  As illustrated in FIG. 4, by switching the connection destination of the antenna device 3c to the radio control device 2B, adjacent cells of the radio control devices 2B, 2C, and 2D change. The adjacent cells of the radio control device 2B are cells formed by the radio control devices 2A, 2C, and 2D. The adjacent cell of the radio control device 2C is a cell formed by the radio control devices 2B and 2E. The adjacent cell of the radio network controller 2D is a cell formed by the radio network controllers 2B and 2E.

  FIG. 5 is a sequence diagram illustrating an example of processing for updating the adjacent cell list in the present embodiment. Here, since the traffic amount in the wireless control device 2C is equal to or greater than a predetermined threshold value and the traffic amount in the wireless control device 2B is equal to or less than the threshold value, the antenna device 3c connected to the wireless control device 2C is connected to the wireless control device 2B. The case of switching to (when switching from the connection relationship shown in FIG. 1 to the connection relationship shown in FIG. 4) will be described as an example.

  As shown in the figure, in each of the radio control units (RCUs) 2A to 2E, the communication unit 23 periodically or every time designated by the radio management unit (RMU) 1 every predetermined period. The traffic information transmitted and received by each antenna device 3 with the mobile terminal is transmitted to the radio management device 1 (step S1).

  In the radio management apparatus 1, the resource allocation unit 11 determines a change in connection between the radio control apparatus 2 and the antenna apparatus 3 based on the traffic information received from each radio control apparatus 2 (step S2). Further, the resource allocation unit 11 generates a switching instruction signal corresponding to the determined connection change, and transmits the generated switching instruction signal to the radio network controller 2C and the radio network controller 2B (step S3). The switching instruction signal transmitted in step S3 is a signal indicating that the connection destination of the antenna device 3c connected to the wireless control device 2C is switched to the wireless control device 2B.

  In the wireless control device 2C, the adjacent cell list update unit 24 outputs the received switching instruction signal to the communication unit 23, and causes the communication unit 23 to disconnect from the antenna device 3c. Thereafter, in the radio network controller 2B, the adjacent cell list update unit 24 outputs the received switching instruction signal to the communication unit 23, and causes the communication unit 23 to connect to the antenna device 3c (step S4). At this time, the communication device 23 provided in the wireless control device 2C and the communication device 23 provided in the wireless control device 2B are simultaneously connected to each other while the antenna device 3c is connected to both the wireless control devices 2B and 2C. Switch to prevent connection.

When the switching of the connection of the antenna device 3c is completed in the radio control device 2C that is the switching source of the antenna device 3c, the adjacent cell list update unit 24 updates the connection RRH information and the adjacent RRH information stored in the RRH table 21. Then, the adjacent cell list stored in the adjacent cell table 22 is updated based on the update result (step S5).
The adjacent cell list update unit 24 generates RRH information related to the antenna device 3c that is the connection switching target, and transmits the generated RRH information to the radio control device 2B that is the switching destination of the antenna device 3c (step S6).

  In the radio control device 2B that is the switching destination of the antenna device 3c, when the neighboring cell list update unit 24 receives the RRH information from the radio control device 2C, the connection RRH stored in the RRH table 21 using the received RRH information. The information and the adjacent RRH information are updated, and the adjacent cell list stored in the adjacent cell table 22 is updated based on the update result (step S7). The adjacent cell list update unit 24 is not directly involved in switching the connection of the antenna device 3c based on the adjacent RRH information stored in the updated RRH table 21, but it is necessary to update the adjacent cell list. An adjacent cell list update instruction signal is transmitted to the device 2D (step S8). The adjacent cell list update instruction signal in step S8 is a signal indicating that the antenna device 3c is connected to the radio network controller 2B.

In the radio network controller 2D, when receiving the neighbor cell list update instruction signal from the radio network controller 2B, the neighbor cell list update unit 24 updates the neighbor RRH information stored in the RRH table 21 and stores the neighbor RRH information in the neighbor cell table 22. The adjacent cell list being updated is updated (step S9).
By the processing from step S1 to step S9 described above, the neighbor cell list is updated as the connection destination of the antenna device 3 is changed.

Next, the process of updating the neighbor cell list of the radio network controller 2C in step S5 will be described in more detail. FIG. 6 is a diagram illustrating a process of updating the neighboring cell list of the switching source radio network controller 2 in the present embodiment.
FIG. 6A is a flowchart of the process of updating the neighboring cell list in the switching source radio network controller 2. FIG. 6B is a diagram illustrating before and after updating of the connection RRH information and the adjacent RRH information stored in the RRH table 21 of the radio network controller 2C.

In the radio control apparatus 2 </ b> C, the neighboring cell list update unit 24 generates RRH information from the neighboring RRH information stored in the RRH table 21. The adjacent cell list updating unit 24 connects the connection RRH information “c” indicating the antenna device 3c to be switched, and the adjacent RRH information (b−B, d−D, and g−C) corresponding to the RRH-ID “c”. ) Are deleted (step S11).
Here, the RRH information includes information (RRH-ID) indicating the antenna device 3 to be switched and adjacent RRH information corresponding to the antenna device 3. In this example, RRH-ID “c” as information indicating the antenna device 3 for switching connection, and “b-B, d-D, g-C” as adjacent RRH information corresponding to the RRH-ID “c”. Is included in the RRH information.

When the adjacent RRH information stored in the RRH table 21 includes the antenna device 3c that switches the connection, the adjacent cell list update unit 24 identifies the identifier of the radio network controller 2 combined with the antenna device 3c. (RCU-ID) is changed to the identifier of the radio control apparatus 2B that is the switching destination. In this example, since the combination of “c-C” is included in the adjacent RRH information corresponding to the RRH-ID “g”, the combination is changed to “c-B” (step S12).
The neighbor cell list update unit 24 updates the neighbor cell list stored in the neighbor cell table 22 based on the neighbor RRH information stored in the updated RRH table 21. In this example, since the RCU-IDs of the radio network controller 2 included in the adjacent RRH information are “B” and “E”, the adjacent cell list update unit 24 updates the adjacent cell list after updating “B, E”. Is stored in the adjacent cell table 22 (step S13).

The adjacent cell list update unit 24 transmits the RRH information generated in step S11 to the radio control device 2 that is the switching destination of the antenna device 3 that switches the connection (step S14). Step S14 corresponds to step S6 in FIG.
As a result of the processing from step S11 to step S13 described above, the neighboring cell list in the switching-source radio control apparatus 2C is updated as shown in FIG. 6B.

Next, the process of updating the neighbor cell list of the radio network controller 2B in step S7 in FIG. 5 will be described in more detail. FIG. 7 is a diagram illustrating a process of updating the neighboring cell list of the switching destination radio network controller 2 in the present embodiment.
FIG. 7A is a flowchart of the process of updating the neighboring cell list in the switching destination radio network controller 2. FIG. 7B is a diagram illustrating before and after updating of the connection RRH information and the adjacent RRH information stored in the RRH table 21 of the radio network controller 2B.

In the radio control apparatus 2B, when the neighboring cell list update unit 24 receives RRH information from the radio control apparatus 2C that is the switching source of the antenna apparatus 3c that switches the connection (step S21), the RRH-ID included in the received RRH information. And the adjacent RRH information are added to the connection RRH information and the adjacent RRH information stored in the RRH table 21 (step S22).
When the RRH-ID included in the received RRH information is included in the adjacent RRH information stored in the RRH table 21, the adjacent cell list update unit 24 selects the RCU-ID combined with the RRH-ID. Then, the RCU-ID indicating the switching destination radio network controller 2 is changed. In this example, “c-C” included in the adjacent RRH information corresponding to the RRH-ID “b” is changed to “c-B” (step S23).

The neighbor cell list update unit 24 updates the neighbor cell list stored in the neighbor cell table 22 based on the neighbor RRH information stored in the updated RRH table 21. In this example, the RCU-IDs of the radio network controller 2 included in the adjacent RRH information are “A”, “B”, “C”, and “D”, and the adjacent cell list update unit 24 determines that the local device “B” "A, C, D" excluding "" is stored in the adjacent cell table 22 as an updated adjacent cell list (step S24).
The adjacent cell list update unit 24 updates the radio control apparatus 2 excluding the radio control apparatus 2 and the own apparatus from the radio control apparatuses 2 included in the adjacent RRH information corresponding to the antenna apparatus 3c to be switched, An adjacent cell list update instruction signal indicating that the connection destination of the antenna device 3c has been changed to the wireless control device 2B is transmitted (step S25). Step S25 corresponds to step S8 in FIG.
By the processing from step S21 to step S24 described above, the neighbor cell list in the switching destination radio network controller 2 is updated as shown in FIG. 7B.

Next, the process of updating the neighbor cell list of the radio network controller 2D in step S9 in FIG. 5 will be described in more detail. FIG. 8 is a diagram illustrating processing for updating the neighboring cell list of the radio network controller 2 that requires updating of the neighboring cell list in the present embodiment.
FIG. 8A is a flowchart of a process of updating the neighbor cell list in the radio control apparatus 2 other than the switching destination and the switching source of the antenna apparatus 3. FIG. 8B is a diagram illustrating before and after updating of the connection RRH information and the adjacent RRH information stored in the RRH table 21 of the radio network controller 2D.

  In the radio network controller 2D, when the neighbor cell list update unit 24 receives the neighbor cell list update instruction signal from the radio controller 2B (step S31), the neighbor cell list update unit 24 stores the neighbor cell list update instruction signal in the RRH table 21 based on the received neighbor cell list update instruction signal. Updated adjacent RRH information. In this example, the radio control apparatus 2 combined with the antenna apparatus 3c included in the adjacent RRH information based on the fact that the connection destination of the antenna apparatus 3c is the radio control apparatus 2B indicated by the adjacent cell list update instruction signal. The RCU-ID is changed to “B” (step S32).

The neighbor cell list update unit 24 updates the neighbor cell list stored in the neighbor cell table 22 based on the neighbor RRH information stored in the updated RRH table 21. In this example, since the RCU-IDs of the radio network controller 2 included in the adjacent RRH information are “B” and “E”, the adjacent cell list update unit 24 updates the adjacent cell list after updating “B, E”. Is stored in the adjacent cell table 22 (step S33).
By the processing from step S31 to step S33 described above, the adjacent cell list in the radio network controller 2D other than the switching source and the switching destination is updated as shown in FIG. 8B.

  FIG. 9 is a diagram illustrating the RRH table 21 of each of the radio control devices 2A to 2E after the connection destination of the antenna device 3c is switched from the radio control device 2C to the radio control device 2B in the present embodiment. FIG. 9A shows connection RRH information and adjacent RRH information stored in the RRH table 21 provided in the radio network controller 2A. Similarly, FIGS. 9B to 9E show connection RRH information and adjacent RRH information stored in the RRH table 21 provided in the radio control apparatuses 2B to 2E. 9 is compared with FIG. 3, “c” is added to the connection RRH information of the radio network controller 2 </ b> B of FIG. 9B, and “b−B” is added to the adjacent RRH information of FIG. 9B. , D-D, g-C ". Further, “c” is deleted from the connection RRH information of the wireless control device 2C in FIG. 9C, and “b-B, d-D, g-C” is deleted. Further, in the adjacent RRH information of the radio network controller 2D of FIG. 9D, the RCU-ID “C” combined with the RRH-ID “c” is changed to “B”.

As described above, in the mobile communication system 100 that dynamically changes the connection relationship between the radio control apparatus 2 and the antenna apparatus 3, when the radio control apparatus 2 receives the switching instruction signal for switching the connection of the antenna apparatus 3, the RRH Based on the connection RRH information and the adjacent RRH information stored in the table 21, the adjacent cell list stored in the adjacent cell table 22 can be updated. In addition, the wireless control device 2 that has received the switching instruction signal is directed to the wireless control device 2 that needs to update the neighboring cell list by switching the connection of the antenna device 3 among the wireless control devices 2 that do not receive the switching instruction signal. Then, an adjacent cell list update instruction signal is transmitted. Receiving the neighbor cell list update instruction signal, the radio network controller 2 updates the neighbor cell list and updates the neighbor RRH information stored in the RRH table 21 based on the received neighbor cell list update instruction signal. Can do.
Thereby, after changing the connection between the radio control apparatus 2 and the antenna apparatus 3, it is possible to update the adjacent cell list without measuring the signal strength at the mobile terminal, and between the antenna apparatus 3 and the radio control apparatus 2 It is possible to reduce the overhead generated when the connection between the two is switched and the neighboring cell list is updated.

In addition, since the adjacent cell list after switching the connection destination of the antenna device 3 can be calculated before switching, the adjacent cell list can be updated immediately before switching the connection destination, at the same time, or immediately after switching. Therefore, the time lag between the switching of the connection destination and the update of the neighboring cell list can be shortened.
In addition, the wireless control device 2 shortens the difference between the timing of switching the antenna device 3 to be connected and the timing of notifying the updated neighboring cell list to the mobile terminal that communicates with the own device via the antenna device 3. It is possible to reduce a possibility that communication of the mobile terminal is disconnected without being able to perform handover correctly, and the stability of the mobile communication system 100 can be improved.

  In the above-described embodiment, the configuration in which the switching destination radio control apparatus 2B transmits the neighboring cell list update instruction signal to the radio control apparatus 2D has been described. However, the switching source radio control apparatus 2C performs the neighboring cell list update instruction signal. May be transmitted to the radio network controller 2D. In this case, in the radio network controller 2B, the adjacent cell list update unit 24 detects and detects the RCU-ID included in the adjacent RRH information corresponding to the antenna device 3c to be switched before updating the adjacent RRH information. Among the RCU-IDs, the neighbor cell list update instruction signal is transmitted to the radio network controller 2 excluding the radio system 2 that is the switching destination and the switching source.

(Second Embodiment)
FIG. 10 is a schematic block diagram illustrating configurations of the wireless management device 5 and the wireless control device 2 in the second embodiment. Note that the mobile communication system in the present embodiment includes a radio management apparatus 5 instead of the radio management apparatus 1 included in the mobile communication system 100 in the first embodiment. Moreover, in the figure, the same code | symbol is attached | subjected to the same function part as the function part in 1st Embodiment, and description about the said function part is abbreviate | omitted.

  As shown in the figure, the radio management apparatus 5 includes a resource allocation unit 11, an RCU table 52, and an RCU table update unit 53. The RCU table 52 stores connection RRH information and adjacent RRH information for each radio control apparatus 2 connected to the radio management apparatus 5. The RCU table update unit 53 updates connection RRH information and adjacent RRH information stored in the RCU table 52. Further, the RCU table update unit 53 generates a neighbor cell list update instruction signal and transmits the generated neighbor cell list update signal to the radio control apparatus 2.

  FIG. 11 is a diagram illustrating an example of connection RRH information and adjacent RRH information stored in the RCU table 52 in the present embodiment. The example shown in the figure shows the connection relationship between the radio network controller 2 and the antenna device 3 in FIG. The RCU table 52 stores connection RRH information and adjacent RRH information for each piece of information (RCU-ID) indicating the radio network controller 2. For example, “B” indicating the wireless control device 2B, “b” and “f” indicating the antenna devices 3b and 3f connected to the wireless control device 2B, and adjacent RRH information “aA, c-C, f-B "and adjacent RRH information" b-B, e-A, g-C "for the antenna device 3f are associated with each other.

Hereinafter, a process of updating the neighbor cell list stored in each radio control apparatus 2 will be described with a specific example. FIG. 4 is a diagram in which the connection destination of the antenna device 3c in the mobile communication system 100 shown in FIG. 1 is changed. Here, as shown in FIG. 4, the process of switching the connection destination of the antenna device 3c connected to the wireless control device 2C to the wireless control device 2B is taken as an example, and the wireless management device 5 and the wireless control device 2 The operation will be described. That is, the operation when the connection relationship shown in FIG. 1 is changed to the connection relationship shown in FIG. 4 will be described.
FIG. 12 is a sequence diagram illustrating a processing example of updating the adjacent cell list in the present embodiment. Here, similarly to the example shown in FIG. 5 in the first embodiment, the amount of traffic in the wireless control device 2C is equal to or greater than a predetermined threshold value, and the traffic amount in the wireless control device 2B is equal to or less than the threshold value. The case where the antenna device 3c connected to the device 2C is switched to the radio control device 2B (when switching from the connection relationship shown in FIG. 1 to the connection relationship shown in FIG. 4) will be described as an example.

  As shown in the figure, in each of the radio control units (RCUs) 2A to 2E, the communication unit 23 periodically or every time designated by the radio management unit (RMU) 5 every predetermined period. The traffic information transmitted / received by each antenna device 3 to / from the mobile terminal is transmitted to the radio management apparatus 1 (step S201).

  In the radio management apparatus 5, the resource allocation unit 11 determines a change in connection between the radio control apparatus 2 and the antenna apparatus 3 based on the traffic information received from each radio control apparatus 2 (step S202). Further, the resource allocation unit 11 generates a switching instruction signal corresponding to the determined connection change, and transmits the generated switching instruction signal to the radio network controller 2C and the radio network controller 2B (step S203). The switching instruction signal transmitted in step S203 is a signal indicating that the connection destination of the antenna device 3c connected to the wireless control device 2C is switched to the wireless control device 2B.

  In the wireless control device 2C, the adjacent cell list update unit 24 outputs the received switching instruction signal to the communication unit 23, and causes the communication unit 23 to disconnect from the antenna device 3c. Thereafter, in the radio network controller 2B, the adjacent cell list update unit 24 outputs the received switching instruction signal to the communication unit 23, and causes the communication unit 23 to connect to the antenna device 3c (step S204). At this time, the communication device 23 provided in the wireless control device 2C and the communication device 23 provided in the wireless control device 2B are simultaneously connected to each other while the antenna device 3c is connected to both the wireless control devices 2B and 2C. Switch to prevent connection.

When the switching of the connection of the antenna device 3c is completed in the radio control device 2C that is the switching source of the antenna device 3c, the adjacent cell list update unit 24 updates the connection RRH information and the adjacent RRH information stored in the RRH table 21. Then, the neighboring cell list stored in the neighboring cell table 22 is updated based on the update result (step S205).
The adjacent cell list update unit 24 generates RRH information for the radio control device 2C that is the connection switching target, and transmits the generated RRH information to the radio control device 2B that is the switching destination of the antenna device 3c (step S206).

  In the radio control device 2B that is the switching destination of the antenna device 3c, when the neighboring cell list update unit 24 receives the RRH information from the radio control device 2C, the connection RRH stored in the RRH table 21 using the received RRH information. The information and the adjacent RRH information are updated, and the adjacent cell list stored in the adjacent cell table 22 is updated based on the update result (step S207).

In the radio management apparatus 5, the RCU table updating unit 53 updates the connection RRH information and the adjacent RRH information stored in the RCU table 52 based on the switching instruction signal generated in step S203.
Specifically, the RCU table updating unit 53 includes, in the RCU table 52, RRH-ID “c” indicating the antenna device 3c to be switched and adjacent RRH information “b-B, d-D, g-C”, The correspondence with the RCU-ID “C” indicating the radio control device 2C (switching source radio control device 2C) is deleted. In addition, the RCU table updating unit 53 stores the RRH-ID “c” indicating the antenna device 3 c to be switched and the adjacent RRH information “b-B, d-D, g-C” in the RCU table 52. Is associated with the RCU-ID “B” indicating the wireless control device 2B of the switching destination. Further, the RCU table updating unit 53 sets the RCU-ID “C” combined with the antenna device 3c to be switched among the adjacent RRH information stored in the RCU table 52 to the radio control device 2B to be switched to. Change to the indicated RCU-ID “B”.
The RCU table updating unit 53 receives the RRH information transmitted from the radio control apparatus 2C to the radio control apparatus 2B in step S206, and the connection RRH information stored in the RCU table 52 based on the received RRH information. And the adjacent RRH information may be updated.
The RCU table update unit 53 generates a neighbor cell list change instruction signal indicating that the antenna device 3c is connected to the radio network controller 2B (step S208), and sends the generated neighbor cell list update signal to the RCU table 52. Among the wireless control devices 2 whose stored adjacent RRH information has been changed, the information is transmitted to the wireless control device 2D other than the switching destination and the switching-source wireless control device 2 (step S209).

In the radio control apparatus 2D, when receiving the adjacent cell list update instruction signal from the radio control apparatus 2B, the adjacent cell list update unit 24 updates the adjacent RRH information stored in the RRH table 21 (step S210).
By the processing from step S201 to step S210 described above, the neighbor cell list is updated as the connection destination of the antenna device 3 is changed.
Note that the update of the adjacent cell list in step S205 described above is performed in the same manner as the processing shown in FIG. Further, the update of the adjacent cell list in step S207 is performed in the same manner as the processing shown in FIG. Further, the update of the adjacent cell list in step S210 is performed in the same manner as the processing shown in FIG.

  FIG. 13 is a diagram illustrating the RCU table 52 after the connection destination of the antenna device 3c is switched from the wireless control device 2C to the wireless control device 2B in the present embodiment. Comparing FIG. 13 with FIG. 11, the RRH-ID “c” of the connection RRH information is associated with the RCU-ID “B” of the radio network controller 2B, and the adjacent RRH information of the RRH-ID “c” is RCU- It is associated with the ID “B”. Also, in the adjacent RRH information of RRH-ID “b”, the adjacent RRH information of RRH-ID “g”, and the adjacent RRH information of RRH-ID “d”, “c-C” becomes “c-B”. has been changed.

As described above, in the mobile communication system that dynamically changes the connection relationship between the radio control apparatus 2 and the antenna apparatus 3, when the radio control apparatus 2 receives the switching instruction signal for switching the connection of the antenna apparatus 3, the RRH table. The neighboring cell list stored in the neighboring cell table 22 can be updated based on the connection RRH information and the neighboring RRH information stored in 21. In addition, the wireless control device 2 that has received the switching instruction signal transmits information (RRH information) related to the antenna device 3 that switches the connection destination to the wireless management device 1. When the radio management apparatus 1 receives the RRH information, among the radio control apparatuses 2 that do not receive the switching instruction signal, the radio management apparatus 1 switches the connection of the antenna apparatus 3 to switch the radio control apparatus 2 that needs to update the adjacent cell list. An adjacent cell list update instruction signal is transmitted. Receiving the neighbor cell list update instruction signal, the radio network controller 2 updates the neighbor cell list and updates the neighbor RRH information stored in the RRH table 21 based on the received neighbor cell list update instruction signal. Can do.
Thereby, after changing the connection between the radio control apparatus 2 and the antenna apparatus 3, it is possible to update the adjacent cell list without measuring the signal strength at the mobile terminal, and between the antenna apparatus 3 and the radio control apparatus 2 It is possible to reduce the overhead generated when the connection between the two is switched and the neighboring cell list is updated.

(Third embodiment)
FIG. 14 is a schematic block diagram illustrating configurations of the wireless management device 7 and the wireless control device 8 according to the third embodiment. The mobile communication system according to the present embodiment includes a wireless management device 7 instead of the wireless management device 1 included in the mobile communication system 100 according to the first embodiment, and a wireless control device 8 instead of the wireless control device 2. It has. Moreover, in the same figure, the same code | symbol is attached | subjected to the same function part as the function part in 1st Embodiment or 2nd Embodiment, and description about the said function part is abbreviate | omitted.

  As shown in the figure, the radio management apparatus 7 includes a resource allocation unit 11, an RCU table 52, and an RCU table update unit 73. The RCU table update unit 73 updates the connection RRH information and the adjacent RRH information stored in the RCU table 52 based on the switching instruction signal generated by the resource allocation unit 11. Further, the RCU table update unit 73 generates RRH information from the updated connection RRH information and adjacent RRH information, and transmits the generated RRH information and a switching instruction signal to the switching destination and the switching source radio control apparatus 8. Also, the RCU table update unit 73 receives the neighbor cell update instruction signal and updates the neighbor RRH information.

  The radio control apparatus 8 includes an RRH table 21, an adjacent cell table 22, a communication unit 23, and an adjacent cell list update unit 84. The adjacent cell list update unit 84 updates the connection RRH information and the adjacent RRH information stored in the RRH table 21 based on the switching instruction signal and the RRH information received from the radio management apparatus 7. Further, the neighboring cell list update unit 84 updates neighboring RRH information stored in the RRH table 21 based on a neighboring cell list update instruction signal received from another radio control apparatus 8. Further, the neighboring cell list update unit 84 updates the neighboring cell list stored in the neighboring cell table 22 in accordance with the update result of the neighboring RRH information.

Hereinafter, a process of updating the neighbor cell list stored in each radio control device 8 will be described with a specific example. Here, as shown in FIG. 4, the process of switching the connection destination of the antenna device 3c connected to the wireless control device 8C to the wireless control device 8B is taken as an example, and the wireless management device 7 and the wireless control device 8 The operation will be described. That is, the operation when the connection relationship shown in FIG. 1 is changed to the connection relationship shown in FIG. 4 will be described.
FIG. 15 is a sequence diagram illustrating a processing example of updating the neighboring cell list in the present embodiment. Here, similarly to the example shown in FIG. 5 in the first embodiment, the traffic amount in the radio control device 8C is equal to or greater than a predetermined threshold value, and the traffic amount in the radio control device 8B is equal to or less than the threshold value. The case where the antenna device 3c connected to the device 8C is switched to the radio control device 8B will be described as an example. Further, it is assumed that the connection RRH information and the adjacent RRH information stored in the RCU table 52 are in the state shown in FIG.

As shown in the figure, in each of the radio control units (RCUs) 8A to 8E, the communication unit 23 periodically or every time designated by the radio management unit (RMU) 1 every predetermined period. The traffic information transmitted / received by each antenna device 3 to / from the mobile terminal is transmitted to the radio management device 7 (step S301).
In the radio management apparatus 7, the resource allocation unit 11 determines a connection change for switching the connection destination of the antenna apparatus 3c from the radio control apparatus 8C to the radio control apparatus 8B based on the traffic information received from each radio control apparatus 8. (Step S302).

The RCU table update unit 73 updates the connection RRH information and the adjacent RRH information stored in the RCU table 52 based on the connection change determined by the resource allocation unit 11. Specifically, the RCU table updating unit 73 includes, in the RCU table 52, RRH-ID “c” indicating the antenna device 3c to be switched and adjacent RRH information “b-B, d-D, g-C”, The correspondence with the RCU-ID “C” indicating the radio control apparatus 8C as the switching source is deleted. In addition, the RCU table updating unit 53 stores the RRH-ID “c” indicating the antenna device 3c to be switched and the adjacent RRH information “b-B, d-D, g-C” in the RCU table 52 as the switching destination. Corresponding to RCU-ID “B” indicating radio control apparatus 8B. Further, the RCU table updating unit 53 sets the RCU-ID combined with the switching target antenna device 3c among the adjacent RRH information stored in the RCU table 52 to the RCU- indicating the switching destination radio control device 8B. Change to ID “B”.
The RCU table updating unit 73 generates RRH information including information indicating the antenna device 3c to be switched and adjacent RRH information corresponding to the antenna device 3c (step S303), and switches the generated RRH information and the switching instruction signal. The data is transmitted to the destination and switching source radio control apparatuses 8B and 8C (step S304).

  In the radio control device 8C, the adjacent cell list update unit 84 outputs the received switching instruction signal to the communication unit 23, and causes the communication unit 23 to disconnect from the antenna device 3c. Thereafter, in the radio network controller 8B, the adjacent cell list update unit 84 outputs the received switching instruction signal to the communication unit 23, and causes the communication unit 23 to connect to the antenna device 3c (step S305).

When the switching of the connection of the antenna device 3c is completed in the radio control device 8C, the neighboring cell list update unit 84 sets RRH-ID “c” indicating the antenna device 3c from the connection RRH information stored in the RRH table 21. Then, the connection RRH information corresponding to the antenna device 3c is deleted and updated, and the adjacent cell list stored in the adjacent cell table 22 is updated based on the update result. By this update, the RRH table 21 becomes the state shown in FIG.
Further, in the radio control device 8B, when the switching of the connection of the antenna device 3c is completed, the neighboring cell list update unit 84 adds the RRH-ID included in the RRH information to the connection RRH information stored in the RRH table 21. “C” is added, and the adjacent RRH information stored in the RRH table 21 is not updated to add the adjacent RRH information included in the RRH information, and is stored in the adjacent cell table 22 based on the update result. Update the adjacent cell list. By this update, the RRH table 21 becomes the state shown in FIG. 7B (step S306).

  In the radio control apparatus 8B that is the switching destination, the adjacent cell list update unit 84 is not directly involved in switching the connection of the antenna apparatus 3c based on the adjacent RRH information stored in the updated RRH table 21, An adjacent cell list update instruction signal is transmitted to the radio network controller 8D that needs to update the cell list (step S307). The adjacent cell list update signal in step S307 is a signal indicating that the antenna device 3c is connected to the radio control device 8B.

In the radio control device 8D, when receiving the neighbor cell list update instruction signal from the radio control device 8B, the neighbor cell list update unit 84 updates the neighbor RRH information stored in the RRH table 21 (step S308). Note that the update of the adjacent cell list in step S308 is performed in the same manner as the processing shown in FIG.
By the processing from step S301 to step S308 described above, the neighbor cell list is updated as the connection destination of the antenna device 3 is changed.
In step S307, the switching-destination radio control apparatus 8B transmits an adjacent cell list update instruction to the radio control apparatus 8D. However, the switching-source radio control apparatus 8C performs radio control on the adjacent cell list update instruction signal. You may make it transmit to apparatus 8D.

As described above, in the mobile communication system that dynamically changes the connection relationship between the radio control device 8 and the antenna device 3, the radio control device 8 receives the switching instruction signal for switching the connection of the antenna device 3 and the RRH information. Then, the connection RRH information and adjacent RRH information stored in the RRH table 21 can be updated, and the adjacent cell list can be updated from the update result. In addition, the wireless control device 8 that has received the switching instruction signal is directed to the wireless control device 8 that needs to update the neighboring cell list by switching the connection of the antenna device 3 among the wireless control devices 8 that do not receive the switching instruction signal. Then, an adjacent cell list update instruction signal is transmitted. The radio control apparatus 8 that has received the neighbor cell list update instruction signal updates the neighbor cell list and updates the neighbor RRH information stored in the RRH table 21 based on the received neighbor cell list update instruction signal. Can do.
Thereby, after changing the connection between the radio control apparatus 8 and the antenna apparatus 3, it is possible to update the adjacent cell list without measuring the signal strength in the mobile terminal, and between the antenna apparatus 3 and the radio control apparatus 8. It is possible to reduce the overhead generated when the connection between the two is switched and the neighboring cell list is updated.

In the above-described embodiment, the configuration in which the connection RRH information and the adjacent RRH information are stored in the RRH table has been described. However, the present invention is not limited to this, and information indicating an antenna device connected to the own device. Information indicating an antenna device (adjacent antenna device) having a communication area adjacent to a communication area of each antenna device connected to the own device, and connected to each adjacent antenna device of the antenna device connected to the own device The information indicating the wireless control device being used may be stored. Furthermore, each information may be stored in an individual table (storage unit).
Note that the adjacent antenna device information in the present invention corresponds to the RRH information in the above-described embodiment. The communication system in the present invention corresponds to the mobile communication system in the above-described embodiment.

  Note that a program for realizing the functions of the wireless management devices 1, 5, 7 and the wireless control devices 2, 8 in the present invention is recorded on a computer-readable recording medium, and the program recorded on the recording medium is recorded. The resource allocation unit 11, the RCU table 52, the RCU table update units 53 and 73, the RRH table 21, the adjacent cell table 22, the communication unit 23, and the adjacent cell list update units 24 and 84 perform by causing the computer system to read and execute. Processing may be performed. Here, the “computer system” includes an OS and hardware such as peripheral devices. The “computer system” includes a WWW system having a homepage providing environment (or display environment). The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Further, the “computer-readable recording medium” refers to a volatile memory (RAM) in a computer system that becomes a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, those holding programs for a certain period of time are also included.

  The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. The 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.

1, 5, 7... Wireless management device 2, 2A, 2B, 2C, 2D, 2E, 8, 8A, 8B, 8C, 8D, 8E ... Wireless control device 3, 3a, 3b, 3c, 3d, 3e, 3f, 3g, 3h ... Antenna device 11 ... Resource allocation unit 21 ... RRH table 22 ... Adjacent cell table 23 ... Communication unit 24, 84 ... Adjacent cell list update unit 52 ... RCU table 53, 73 ... RCU table update unit 100 ... Mobile communication system (Communications system)
101 ... Aggregation center 102 ... Packet gateway 103 ... Packet core

Claims (8)

A wireless control device in a communication system comprising a plurality of antenna devices that perform wireless communication with a mobile terminal, and a plurality of wireless control devices that control the antenna devices,
A first table storing information indicating the antenna device connected to the device;
A second table storing information indicating an adjacent antenna device that is an antenna device having a communication area adjacent to a communication area of the antenna device for each of the antenna devices connected to the own device;
A third table storing information indicating the radio network controller connected to each of the adjacent antenna devices;
A switching instruction signal instructing switching of the connection between the antenna apparatus and the radio control apparatus is received, and the first table, the second table, and the third table are each based on the received switching instruction signal Neighbor cell list that updates information stored in the third table and sets information indicating the radio network controller excluding its own device from the radio network controller indicated by the information stored in the third table as a new neighbor cell list A wireless control device comprising: an update unit. The wireless control device according to claim 1,
The adjacent cell list update unit
When the switching source of the connection of the antenna device indicated by the switching instruction signal is the own device,
Deleting information corresponding to the antenna device for switching the connection destination from the first table;
Deleting the information indicating the adjacent antenna device of the antenna device that switches the connection destination from the second table;
Deleting information indicating the radio control device corresponding to the adjacent antenna device of the antenna device that switches the connection destination from the third table;
In the third table, the information indicating the radio control device connected to the antenna device that switches the connection destination indicates the radio control device that is the switching destination of the connection of the antenna device indicated by the switching instruction signal. A wireless control device that is updated to information. The wireless control device according to claim 1 or 2,
The adjacent cell list update unit
When the switching destination of the connection of the antenna device indicated by the switching instruction signal is the own device,
Received and received antenna device information including information indicating the antenna device for switching the connection destination, and information indicating the adjacent antenna device of the antenna device and the radio control device connected to the adjacent antenna device. Information indicating an antenna device for switching the connection destination included in the antenna device information is stored in the first table, and information indicating the adjacent antenna device included in the antenna device information is stored in the second table. Storing the information indicating the radio control device connected to the adjacent antenna device included in the antenna device information in the third table,
In the information stored in the third table, the information indicating the wireless control device connected to the antenna device that switches the connection destination is updated to information indicating the own device. . The wireless control device according to claim 3,
The adjacent cell list update unit further includes:
When the switching source of the connection of the antenna device indicated by the switching instruction signal is the own device,
The radio control apparatus, wherein the antenna apparatus information is transmitted to a radio control apparatus that is a switching destination of the connection of the antenna apparatus instructed by the switching instruction signal. The wireless control device according to any one of claims 1 to 4,
The adjacent cell list update unit further includes:
An adjacent cell list update instruction signal including information indicating the antenna device that switches the connection and a radio control device that switches the connection of the antenna device is received, and the adjacent antenna device stored in the third table receives In the information indicating the connected radio control apparatus, information indicating the radio control apparatus connected to the antenna apparatus that switches the connection indicated by the received adjacent cell list update instruction signal is updated to the received adjacent cell list. Update to information indicating the wireless control device to which the connection indicated by the instruction signal is switched,
The wireless control device, wherein information indicating a wireless control device excluding its own device from the wireless control device indicated by the information stored in the updated third table is used as the neighboring cell list. The wireless control device according to claim 5,
The adjacent cell list update unit further includes:
When the switching source or switching destination of the connection of the antenna device indicated by the switching instruction signal is the own device, the neighbor cell list update instruction signal is generated,
Among the wireless control devices connected to the antenna device adjacent to the antenna device indicated by the switching instruction signal, the wireless control devices excluding the switching source and switching destination wireless control devices of the antenna device that has switched the connection. And transmitting the generated neighbor cell list update instruction signal. A plurality of antenna apparatuses that perform radio communication with a mobile terminal; and a plurality of radio control apparatuses that control the antenna apparatus. The radio control apparatus includes information indicating the antenna apparatus connected to the radio apparatus. The first table stored and information indicating an adjacent antenna device that is an antenna device having a communication area adjacent to the communication area of the antenna device is stored for each antenna device connected to the own device. A wireless control method in a communication system, comprising: a second table, and a third table storing information indicating the wireless control device connected to each of the adjacent antenna devices,
A switching instruction signal instructing switching of the connection between the antenna apparatus and the radio control apparatus is received, and the first table, the second table, and the third table are each based on the received switching instruction signal Neighbor cell list that updates information stored in the third table and sets information indicating the radio network controller excluding its own device from the radio network controller indicated by the information stored in the third table as a new neighbor cell list A wireless control method comprising: an updating step. A plurality of antenna apparatuses that perform radio communication with a mobile terminal; and a plurality of radio control apparatuses that control the antenna apparatus. The radio control apparatus includes information indicating the antenna apparatus connected to the radio apparatus. The first table stored and information indicating an adjacent antenna device that is an antenna device having a communication area adjacent to the communication area of the antenna device is stored for each antenna device connected to the own device. A computer provided in a wireless control device in a communication system, comprising: a second table that stores information indicating the wireless control device connected to each of the adjacent antenna devices; In addition,
A switching instruction signal instructing switching of the connection between the antenna apparatus and the radio control apparatus is received, and the first table, the second table, and the third table are each based on the received switching instruction signal Neighbor cell list that updates information stored in the third table and sets information indicating the radio network controller excluding its own device from the radio network controller indicated by the information stored in the third table as a new neighbor cell list A program for executing update steps.

Images