WO2011155488A1 - 移動通信システム、無線制御装置及び移動通信方法 - Google Patents
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0083—Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
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- the present invention relates to a mobile communication system, a radio control apparatus, and a mobile communication method for controlling handover of a mobile station to a cell formed by a base station managed by a mobile communication provider or a user of a communication service provided by the mobile communication provider About.
- a mobile communication carrier predicts the size of the service area and the traffic generated in the service area, and then installs and configures the base station and the downlink direction transmitted from the base station.
- radio parameters such as the transmission level of the common control channel are designed using means such as simulation.
- cell identification information for identifying a base station is determined. For example, in the case of a W-CDMA system, any one of 512 scrambling codes (ScC) is assigned to the base station. In the case of LTE, any PCI among 504 cell IDs (PCI) is assigned to the base station.
- ScC scrambling codes
- PCI PCI among 504 cell IDs
- Such cell identification information is finite and is repeatedly used in the mobile communication system, but it is important that the same cell identification information is not assigned to the neighboring cells.
- Non-Patent Document 1 In addition to the public communication base stations installed by mobile communication providers as described above, the number of small base stations (Home NodeB) installed at homes by mobile station users is increasing. In such a small base station, users are limited as compared to a base station for public communication, and a small cell can be achieved. Therefore, an increase in throughput can be expected (see Non-Patent Document 1).
- 3GPP TS 22.220 Service requirements for Home NodeBs (UMTS) and Home eNodeBs (LTE)
- the same cell identification information can be used in surrounding cells. That is, there may be a plurality of small base stations set in the same cell identification information (for example, ScC) as handover destinations from public communication base stations that generally cover a wide area.
- ScC cell identification information
- the mobile communication network cannot identify the handover destination cell of the mobile station and complete the handover. Can not.
- an object of the present invention is to provide a mobile communication system, a radio network controller, and a mobile communication method that can select an appropriate handover destination cell even when the same cell identification information is set in neighboring cells.
- a feature of the present invention is that a mobile station (mobile station 300) is handed to a cell formed by a mobile station or a user of a communication service provided by the mobile provider.
- Peripheral cell which relates to mobile communication system for controlling over, and acquires peripheral cell information including cell identification information for identifying peripheral cells located around cell formed by base station and radio communication state in mobile station
- An information acquisition unit neighborhboring cell information acquisition unit 110
- cell identification information of a handover source cell of the mobile station cell identification information of a handover candidate cell of the mobile station
- the handover candidate cell in the mobile station By a handover candidate acquisition unit (handover candidate acquisition unit 120) that acquires the wireless communication state of the mobile station and the neighboring cell information acquisition unit.
- a detection unit that detects a plurality of handover candidate cells in which the same cell identification information is set based on the cell identification information that has been obtained and the cell identification information that has been acquired by the handover candidate acquisition unit Of the plurality of handover candidate cells detected by the detection unit and the wireless communication state acquired by the neighboring cell information acquisition unit, and acquired by the handover candidate acquisition unit
- a determination unit (handover destination determination unit 150) that determines a handover candidate cell having the highest correlation with the radio communication state as a handover destination cell.
- the determination unit uses the reception level of the radio signal received by the mobile station from the neighboring cell as the radio communication state, and the reception level acquired by the neighboring cell information acquisition unit.
- the cell having the highest correlation with the reception level acquired by the handover candidate acquisition unit may be determined as the handover destination cell.
- the handover candidate acquisition unit acquires a radio communication state of the mobile station with the handover source cell and a radio communication state of the mobile station with the handover candidate cell. Also good.
- the determination unit includes a fixed cell in which a transmission level of the common control channel is fixed and a dynamic cell in which the transmission level of the common control channel is dynamically changed in neighboring cells.
- the correlation of the fixed cells may be higher than the correlation of the dynamic cells.
- FIG. 1 is an overall schematic configuration diagram of a mobile communication system according to an embodiment of the present invention.
- FIG. 2 is an explanatory diagram of a basic operation of handover in the mobile communication system according to the embodiment of the present invention.
- FIG. 3 shows that base stations installed by a mobile communication carrier according to an embodiment of the present invention and base stations (Home NodeB) installed by a user of a communication service provided by the mobile communication carrier are mixed in neighboring cells. It is explanatory drawing of the hand-over operation
- FIG. 4 is a functional block configuration diagram of the radio network controller 100 according to the embodiment of the present invention.
- FIG. 5 is a diagram showing a sequence in the mobile communication system related to determination of a handover destination cell.
- FIG. 5 is a diagram showing a sequence in the mobile communication system related to determination of a handover destination cell.
- FIG. 6 is a diagram showing an operation flow for determining a handover destination cell by the radio network controller 100.
- FIG. 7 is a diagram illustrating an example of the database 500.
- FIG. 8 is a diagram illustrating an example of the database 600.
- FIG. 9 is a diagram illustrating an example of an operation for determining a handover destination cell by the radio network controller 100.
- FIG. 1 is an overall schematic configuration diagram of a mobile communication system according to the present embodiment. Specifically, FIG. 1 shows a configuration example of a typical radio access network in a mobile communication system.
- the mobile communication system shown in FIG. 1 conforms to the W-CDMA system, and the base stations 200 to 203 are connected to the radio network controller 100 so as to be communicable.
- the radio network controller 100 performs, for the base stations 200 to 203, assignment of radio parameters necessary for the base station to perform radio communication with the mobile station 300, management thereof, and the like.
- the mobile communication system includes the mobile station 300 to a cell formed by a base station (for example, the base station 200) installed by a mobile communication carrier or a user of a communication service provided by the mobile communication carrier.
- a base station for example, the base station 200
- an appropriate handover destination can be selected even if scrambling codes (ScC) in neighboring cells overlap.
- ScC scrambling codes
- the base station 200 and the base station 201 are small base stations (Home eNodeB) managed by a user of a communication service provided by a mobile communication carrier.
- the base station 200 and the base station 201 are both installed in a local area network (LAN) managed by the user and provided on the mobile communication provider network 10 via an access line provider network 20 that provides FTTH and ADSL. Connected to the radio control apparatus 100.
- LAN local area network
- SGW 400 is installed at the boundary between the mobile communication carrier network 10 and the access line carrier network 20.
- the SGW 400 is a gateway for protecting the mobile operator network 10 against unauthorized access from other communication networks.
- the SGW 400 permits only access to the mobile communication carrier network 10 that is authorized by a predetermined authentication procedure.
- the base station 200 and the base station 201 are owned by different users. For this reason, the user's mobile station managing one base station is not permitted to connect to the other base station.
- the base station 202 and the base station 203 are base stations for public communication, and are installed on the mobile communication carrier network 10. If it is a mobile station of a user of a mobile communication carrier, it can be connected to the base station 202 and the base station 203 without particular limitation.
- FIG. 2 is an explanatory diagram of the basic operation of handover in the mobile communication system.
- FIG. 3 shows a handover operation in an environment where a base station installed by a mobile communication carrier and a base station (Home NodeB) installed by a user of a communication service provided by the mobile communication carrier are mixed in neighboring cells. It is explanatory drawing.
- the mobile station 300 when the mobile station 300 can detect the cell 211 and the cell 212 by moving or the like, the mobile station 300 wirelessly transmits the cell information of the cell 211 and the cell 212 via the cell 210 that is located. Notify the control device 100.
- the mobile station 300 notifies the radio network controller 100 of the ScC # B of the cell 211 and the ScC # C of the cell 212 in addition to the ScC # A of the cell 210. Further, the mobile station 300 notifies the radio control apparatus 100 of the reception level ( ⁇ 80 dBm) of the cell 211 and the reception level ( ⁇ 110 dBm) of the cell 212 in addition to the reception level ( ⁇ 100 dBm) of the cell 210.
- “Reception level” refers to the reception level of the common control channel.
- the common control channel for example, a control channel that can be received in a neighboring cell, such as a common pilot channel (CPICH), can be used.
- CPICH common pilot channel
- a mobile communication carrier assigns different ScCs to neighboring cells (cells 211 and 212) that can be handover candidate cells of a specific cell (for example, cell 210).
- the radio network controller 100 can uniquely identify the cells 210 to 212 based on the ScC # A to C notified from the mobile station 300. That is, the radio network controller 100 can determine, for the mobile station 300, the cell 211 having the highest reception level of the mobile station 300 as the handover destination cell.
- an extremely small cell formed by a small base station such as cell 214 to cell 299 within an area of a vast cell 213 formed by a base station for public communication.
- a small base station such as cell 214 to cell 299
- cells 214 to 299 exist as handover candidate cells of the cell 213.
- a unique ScC is not necessarily assigned to each cell. Is not limited. In the example shown in FIG. 3, ScC # B to E are repeatedly used in cells 214 to 299.
- the mobile communication system according to the present embodiment can reliably specify the handover candidate cell of the mobile station 300 even in the environment as shown in FIG.
- FIG. 4 is a functional block configuration diagram of the radio control device 100.
- the radio network controller 100 includes a neighboring cell information acquisition unit 110, a handover candidate acquisition unit 120, a neighboring cell information holding unit 130, a handover candidate duplication detection unit 140, a handover destination determination unit 150, and a hand.
- An over destination notification unit 160 is provided.
- the neighboring cell information acquisition unit 110 acquires neighboring cell information including ScC (cell identification information) for identifying neighboring cells located around the cells (for example, cells 213 to 299) formed by the respective base stations. In addition, the neighboring cell information acquisition unit 110 acquires a reception level as a wireless communication state in the mobile station 300. The neighboring cell information acquisition unit 110 causes the neighboring cell information holding unit 130 to hold the acquired neighboring cell information and reception level.
- ScC cell identification information
- the handover candidate acquisition unit 120 acquires the cell identification information of the handover source cell of the mobile station 300 and the cell identification information of the handover candidate cell of the mobile station 300 from the mobile station 300. Further, the handover candidate acquisition unit 120 acquires the reception level of the handover candidate cell as the radio communication state with the handover candidate cell in the mobile station 300.
- the neighboring cell information holding unit 130 holds the information acquired by the neighboring cell information acquisition unit 110 and the information acquired by the handover candidate acquisition unit 120. Specifically, the neighboring cell information holding unit 130 holds information in a format such as the database 500 illustrated in FIG. 7 and information in a format such as the database 600 illustrated in FIG.
- the database 500 includes base station (cell) identifiers, ScC (cell identification information) of neighboring cells of the base station, and reception levels of the neighboring cells. Also, as shown in FIG. 8, the database 600 is composed of base station (cell) identifiers and ScCs set in the cells.
- the handover candidate duplication detection unit 140 includes a plurality of handovers in which the same ScC is set based on the ScC acquired by the neighboring cell information acquisition unit 110 and the ScC acquired by the handover candidate acquisition unit 120. Candidate cells are detected. The specific operation of the handover candidate duplication detection unit 140 will be described later.
- the handover destination determining unit 150 includes a radio communication state acquired by the neighboring cell information acquisition unit 110 among a plurality of handover candidate cells detected by the handover candidate duplication detection unit 140, and a handover candidate acquisition unit 120.
- a handover candidate cell having the highest correlation with the acquired wireless communication state is determined as a handover destination cell.
- the handover destination determination unit 150 uses the reception level of the radio signal received from the neighboring cell by the mobile station 300 as the radio communication state, and receives the reception level acquired by the neighboring cell information acquisition unit 110, The cell having the highest correlation with the reception level acquired by the over candidate acquisition unit 120 is determined as the handover destination cell. A specific operation of the handover destination determining unit 150 will be described later.
- the handover destination notifying unit 160 transmits the handover destination cell determined by the handover destination determining unit 150 to the mobile station 300.
- FIG. 5 shows a sequence in the mobile communication system related to determination of a handover destination cell.
- the cells 214 to 299 formed by the small base station (Home NodeB) periodically acquire the ScC and the reception level of the neighboring cells (step S1000).
- the cells 214 to 299 notify the radio network controller 100 of the obtained ScC and reception level of the neighboring cells (step S1001). Note that the measurement timings of the neighboring cells of the cells 214 to 299 may be synchronized in each cell or may be asynchronous.
- the radio network controller 100 holds, for each cell, the ScC and the reception level of the neighboring cells notified from the cell 214 to the cell 299. Specifically, radio control apparatus 100 holds the ScC and the reception level of the neighboring cells according to the format of database 500 and database 600 shown in FIG. 7 (step S1002).
- the mobile station 300 starts communication with the cell 213 formed by the base station for public communication (step S1003).
- the mobile station 300 performs handover to the cell 214 formed by Home ⁇ NodeB will be described.
- the mobile station 300 notifies the radio network controller 100 of the ScC and the reception level (cell information) of the cell 213 in communication and the cell 214 that is a handover candidate cell (step S1004). In this way, the radio network controller 100, based on the information notified from the mobile station 300, the reception level of the mobile station 300 with the handover source cell (cell 213), and the handover candidate cell ( The reception level with the cell 214) is acquired.
- Radio control apparatus 100 detects a plurality of handover candidate cells in which the same ScC is set based on the ScC acquired in step S1002 and the ScC acquired in step S1004 (step S1005).
- cell 236 and cell 268 are detected as cells in which the same ScC as cell 214 is set.
- a method for detecting a plurality of handover candidate cells in which the same ScC is set will be described later.
- Radio control apparatus 100 refers to database 500, and among the detected plurality of handover candidate cells, the same ScC as the ScC of cell 213 that is the handover source cell is assigned, and the reception level of cell 213 is set. Radio control apparatus 100 determines the cell having the closest reception level, that is, the cell having the highest correlation in the radio communication state as the handover destination cell (step S1006). Here, it is assumed that the cell 214 is determined as the handover destination cell.
- the radio network controller 100 notifies the handover instruction to the cell 214 and the mobile station 300 determined as the handover destination cell (step S1007).
- FIG. 6 shows an operation flow for determining a handover destination cell by the radio network controller 100.
- FIG. 9 shows an example of an operation for determining a handover destination cell by the radio network controller 100.
- the radio network controller 100 creates a database 600 based on the cell information of the handover source cell (cell 213) and the handover destination cell (cell 214) notified from the mobile station 300.
- the cell 236 and the cell 268 in which the same ScC (ScC # B) as that of the cell 214 is set are extracted (step S2001).
- the radio network controller 100 refers to the database 500, and among the cells 214, 236 and 268, the reception level ( ⁇ 101 dBm) closest to the report value ( ⁇ 100 dBm) of the reception level of the cell 213 from the mobile station 300. ) Is identified (step S2002).
- the handover candidate cell having the highest correlation between the reception level periodically acquired by the cell information acquisition unit 110 and the reception level acquired at the time of the handover request by the handover candidate acquisition unit 120 is determined as the handover destination cell.
- the radio network controller 100 can reliably identify an appropriate cell as the handover destination cell of the mobile station 300, and a small base station such as Home eNodeB can be identified. Appropriate handover of the mobile station 300 can be realized even in an environment where a large number are installed.
- the reception level of the radio signal received by the mobile station 300 from the neighboring cell is used as the radio communication state used for the correlation determination. For this reason, the correlation can be determined without greatly increasing the processing load in the radio network controller 100.
- the transmission level of the common control channel is described as being fixed.
- the handover destination determining unit 150 may make the correlation of the fixed cells higher than the correlation of the dynamic cells. Thereby, the possibility of specifying an erroneous handover destination cell can be reduced.
- the handover candidate acquisition unit 120 not only determines the wireless communication state (reception level) of the handover candidate cell in the mobile station 300 but also the wireless communication state of the mobile station 300 with the handover source cell and the handover candidate cell.
- the wireless communication state may be acquired.
- the wireless communication state used for the correlation determination is not limited to the reception level of the common control channel, and for example, using a chip power to noise power ratio (Ec / No), a round trip time (Round Trip Time), etc. Also good.
- the mobile communication system compliant with the W-CDMA scheme has been described as an example.
- LTE Long Termination Evolution
- the cell ID (PCI) may be set redundantly in the peripheral cells as in the case of the ScC, so that the present invention is naturally applicable to such a case.
- the base station may have the function of the radio control device 100.
- the base station includes a neighboring cell information acquisition unit 110, a handover candidate acquisition unit 120, a neighboring cell information holding unit 130, a handover candidate duplication detection unit 140, a handover destination determination unit 150, and a handover destination notification unit. 160 functions can be provided.
- the base stations in the mobile communication system may share the wireless communication state acquired by each base station with each other.
- radio network controller 100 may be executed in the base station.
- the present invention it is possible to provide a mobile communication system, a radio control apparatus, and a mobile communication method capable of selecting an appropriate handover destination cell even when the same cell identification information is set in neighboring cells. it can.
- DESCRIPTION OF SYMBOLS 10 ... Mobile communication carrier network 20 ... Access line carrier network 100 ... Radio control apparatus 110 ... Neighbor cell information acquisition part 120 ... Handover candidate acquisition part 130 ... Neighbor cell information holding part 140 ... Handover candidate duplication detection part 150 ... Handover destination determining unit 160 ... Handover destination notifying unit 200-203 ... Base station 210-299 ... Cell 300 ... Mobile station 400 ... SGW 500,600 ... Database
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Abstract
Description
図1は、本実施形態に係る移動通信システムの全体概略構成図である。具体的には、図1は、移動通信システムにおける代表的な無線アクセスネットワークの構成例を示す。
次に、図2及び図3を参照して、本実施形態に係る移動通信システムのハンドオーバー動作の概要について説明する。
図4は、無線制御装置100の機能ブロック構成図である。図4に示すように、無線制御装置100は、周辺セル情報取得部110、ハンドオーバー候補取得部120、周辺セル情報保持部130、ハンドオーバー候補重複検出部140、ハンドオーバー先決定部150及びハンドオーバー先通知部160を備える。
次に、上述した移動通信システムの動作、具体的には、無線制御装置100によるハンドオーバー先セルの決定動作について説明する。図5は、ハンドオーバー先セルの決定に係る移動通信システム内でのシーケンスを示す。
以上説明した本実施形態に係る無線制御装置100によれば、同一のScCが設定されている複数のハンドオーバー候補セル(セル214、セル236及びセル268)のうち、周辺セル情報取得部110によって定期的に取得された受信レベルと、ハンドオーバー候補取得部120によってハンドオーバー要求時に取得された受信レベルとの相関が最も高いハンドオーバー候補セルがハンドオーバー先セルとして決定される。
上述した実施形態では、共通制御チャネルの送信レベルが固定であるものとして説明したが、共通制御チャネルの送信レベルが固定である固定セルと、当該送信レベルが動的に変更される動的セルとが、周辺セルにおいて混在している場合、ハンドオーバー先決定部150は、固定セルの相関を動的セルの相関よりも高くしてもよい。これにより、誤ったハンドオーバー先セルを特定する可能性を低減できる。
上述したように、本発明の一実施形態を通じて本発明の内容を開示したが、この開示の一部をなす論述及び図面は、本発明を限定するものであると理解すべきではない。この開示から当業者には様々な代替実施の形態が明らかとなろう。
20…アクセス回線事業者ネットワーク
100…無線制御装置
110…周辺セル情報取得部
120…ハンドオーバー候補取得部
130…周辺セル情報保持部
140…ハンドオーバー候補重複検出部
150…ハンドオーバー先決定部
160…ハンドオーバー先通知部
200~203…基地局
210~299…セル
300…移動局
400…SGW
500,600…データベース
Claims (6)
- 移動通信事業者または前記移動通信事業者が提供する通信サービスのユーザが管理する基地局が形成するセルへの移動局のハンドオーバーを制御する移動通信システムであって、
前記基地局の形成するセルの周辺に位置する周辺セルを識別するセル識別情報を含む周辺セル情報と、前記移動局における無線通信状態とを取得する周辺セル情報取得部と、
前記移動局のハンドオーバー元セルのセル識別情報及び前記移動局のハンドオーバー候補セルのセル識別情報と、前記移動局における前記ハンドオーバー候補セルとの無線通信状態を取得するハンドオーバー候補取得部と、
前記周辺セル情報取得部によって取得された前記セル識別情報と、前記ハンドオーバー候補取得部によって取得された前記セル識別情報とに基づいて、同一のセル識別情報が設定されている複数のハンドオーバー候補セルを検出する検出部と、
前記検出部によって検出された前記複数のハンドオーバー候補セルのうち、前記周辺セル情報取得部によって取得された前記無線通信状態と、前記ハンドオーバー候補取得部によって取得された前記無線通信状態との相関が最も高いハンドオーバー候補セルをハンドオーバー先セルとして決定する決定部と
を備える移動通信システム。 - 前記決定部は、前記無線通信状態として、前記移動局が周辺セルから受信した無線信号の受信レベルを用い、前記周辺セル情報取得部によって取得された前記受信レベルと、前記ハンドオーバー候補取得部によって取得された前記受信レベルとの相関が最も高いセルを、前記ハンドオーバー先セルとして決定する請求項1に記載の移動通信システム。
- 前記ハンドオーバー候補取得部は、前記移動局のハンドオーバー元セルとの無線通信状態と、前記移動局における前記ハンドオーバー候補セルとの無線通信状態とを取得する請求項1に記載の移動通信システム。
- 前記決定部は、共通制御チャネルの送信レベルが固定である固定セルと、前記共通制御チャネルの送信レベルが動的に変更される動的セルとが、周辺セルにおいて混在している場合、前記固定セルの相関を前記動的セルの相関よりも高くする請求項1に記載の移動通信システム。
- 移動通信事業者または前記移動通信事業者が提供する通信サービスのユーザが管理する基地局が形成するセルへの移動局のハンドオーバーを制御する無線制御装置であって、
前記基地局の形成するセルの周辺に位置する周辺セルを識別するセル識別情報を含む周辺セル情報と、前記移動局における無線通信状態とを取得する周辺セル情報取得部と、
前記移動局のハンドオーバー元セルのセル識別情報及び前記移動局のハンドオーバー候補セルのセル識別情報と、前記移動局における前記ハンドオーバー候補セルとの無線通信状態を取得するハンドオーバー候補取得部と、
前記周辺セル情報取得部によって取得された前記セル識別情報と、前記ハンドオーバー候補取得部によって取得された前記セル識別情報とに基づいて、同一のセル識別情報が設定されている複数のハンドオーバー候補セルを検出する検出部と、
前記検出部によって検出された前記複数のハンドオーバー候補セルのうち、前記周辺セル情報取得部によって取得された前記無線通信状態と、前記ハンドオーバー候補取得部によって取得された前記無線通信状態との相関が最も高いハンドオーバー候補セルをハンドオーバー先セルとして決定する決定部と
を備える無線制御装置。 - 移動通信事業者または前記移動通信事業者が提供する通信サービスのユーザが管理する基地局が形成するセルへの移動局のハンドオーバーを制御する移動通信方法であって、
前記基地局の形成するセルの周辺に位置する周辺セルを識別するセル識別情報を含む周辺セル情報と、前記移動局における無線通信状態とを取得する第1取得ステップと、
前記移動局のハンドオーバー元セルのセル識別情報及び前記移動局のハンドオーバー候補セルのセル識別情報と、前記移動局における前記ハンドオーバー候補セルとの無線通信状態を取得する第2取得ステップと、
取得された前記セル識別情報と、前記ハンドオーバー候補取得部によって取得された前記セル識別情報とに基づいて、同一のセル識別情報が設定されている複数のハンドオーバー候補セルを検出する検出ステップと、
検出された前記複数のハンドオーバー候補セルのうち、前記第1取得ステップにおいて取得された前記無線通信状態と、前記第2取得ステップにおいて取得された前記無線通信状態との相関が最も高いハンドオーバー候補セルをハンドオーバー先セルとして決定するステップと
を備える移動通信方法。
Priority Applications (3)
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EP11792445.6A EP2579646A4 (en) | 2010-06-07 | 2011-06-07 | Mobile communication system, wireless control device and mobile communication method |
US13/702,422 US20130142171A1 (en) | 2010-06-07 | 2011-06-07 | Mobile communication system, radio network controller, and mobile communication method |
CN201180028131.5A CN102934484B (zh) | 2010-06-07 | 2011-06-07 | 移动通信系统、无线控制装置以及移动通信方法 |
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JP2010130536A JP5380372B2 (ja) | 2010-06-07 | 2010-06-07 | 移動通信システム、無線制御装置及び移動通信方法 |
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EP (1) | EP2579646A4 (ja) |
JP (1) | JP5380372B2 (ja) |
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CN105228202B (zh) * | 2015-10-12 | 2020-03-03 | 小米科技有限责任公司 | 网络连接方法及装置 |
JP7438940B2 (ja) * | 2018-05-31 | 2024-02-27 | ソニーセミコンダクタソリューションズ株式会社 | 情報処理装置、情報処理方法、送信機、送信方法、受信機、受信方法 |
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JP4700065B2 (ja) * | 2005-11-21 | 2011-06-15 | 三菱電機株式会社 | 無線通信システム、基地局、移動機、およびハンドオーバ制御サーバ |
US20090132674A1 (en) * | 2007-11-16 | 2009-05-21 | Qualcomm Incorporated | Resolving node identifier confusion |
EA022231B1 (ru) * | 2008-02-04 | 2015-11-30 | Хуавэй Текнолоджиз Ко., Лтд. | Система мобильной связи, устройство базовой станции, устройство мобильной станции и способ мобильной связи |
US8886200B2 (en) * | 2008-09-18 | 2014-11-11 | Qualcomm Incorporated | Using signal monitoring to resolve access point identifier ambiguity |
KR20100088855A (ko) * | 2009-02-02 | 2010-08-11 | 삼성전자주식회사 | 매크로 및 펨토 셀들을 가지는 무선 통신 네트워크의 측정 보고 방법 및 이를 위한 시스템 |
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2011
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Non-Patent Citations (4)
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3RD GENERATION PARTNERSHIP PROJECT: "Service requirements for Home NodeBs (UMTS) and Home eNodeBs (LTE) ( 3GPP TS 22.220)", July 2008 (2008-07-01) |
MOTOROLA: "PCID Confusion Resolution Without Gaps", 3GPP TSG-RAN WG2#66BIS, R2-093923, 29 June 2009 (2009-06-29) - 3 July 2009 (2009-07-03), pages 1 - 5, XP050352116, Retrieved from the Internet <URL:www.3gpp.org/ftp/tsg_ran/WG2_RL2/TSGR2_66bis/Docs/R2-093923.zip> [retrieved on 20110623] * |
MOTOROLA: "PCID confusion", 3GPP TSG-RAN WG2#65BIS, R2-092307, 23 March 2009 (2009-03-23) - 27 March 2009 (2009-03-27), pages 1 - 3, XP050340071, Retrieved from the Internet <URL:http://www.3gpp.org/ftp/tsg_ran/WG2RL2/TSGR265bis/Docs/R2-092307.zip> [retrieved on 20110623] * |
See also references of EP2579646A4 |
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US20130142171A1 (en) | 2013-06-06 |
EP2579646A4 (en) | 2017-07-05 |
CN102934484B (zh) | 2015-08-19 |
CN102934484A (zh) | 2013-02-13 |
JP5380372B2 (ja) | 2014-01-08 |
JP2011259111A (ja) | 2011-12-22 |
EP2579646A1 (en) | 2013-04-10 |
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