JP2013070232A - Base station and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a base station capable of suppressing the waste of wireless resource due to transmission of SyncRequest to the cell of a handover source or a connection source during handover or re-connection, and to provide a communication control method.SOLUTION: A base station 100A includes a handover control unit 107 controlling handover of a mobile station or re-connection with a cell, a UL step-out detection unit 105 detecting step-out of an uplink to be set with the mobile station, and a synchronization request transmission unit 109 transmitting SyncRequest for requesting synchronization establishment of uplink for the mobile station, when step-out of the uplink is detected by the UL step-out detection unit 105. The synchronization request transmission unit 109 stops transmission of SyncRequest when handover of the mobile station or re-connection with the cell is carried out by the handover control unit 107.

Description

  The present invention relates to a base station and a communication control method for transmitting a SyncRequest for requesting establishment of uplink synchronization to a mobile station when uplink synchronization loss is detected.

  In Long Term Evolution (LTE), which is standardized by the 3rd Generation Partnership Project (3GPP), when a base station (eNB) detects that the uplink (UL) is out of synchronization, the base station sets the uplink. It is defined that a SyncRequest is transmitted to a station via a downlink control physical channel (PDCCH) (see, for example, Non-Patent Document 1). The mobile station that has received the SyncRequest executes a Random access (RA) procedure and reestablishes uplink synchronization.

3GPP TS 36.300 V10.3.0, 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2 (Release 10 ), March 2011

  However, the conventional uplink synchronization establishment method described above has the following problems. That is, in the case of handover or reconnection of a mobile station, there is a high possibility that the mobile station does not already exist in the handover source or connection source cell. There has been a problem of detecting a loss of synchronization and transmitting a SyncRequest even though the mobile station does not already exist in the cell.

  Therefore, the present invention has been made in view of such a situation, and suppresses waste of radio resources due to transmission of a SyncRequest to a handover source or connection source cell during handover or reconnection. An object of the present invention is to provide a base station and a communication control method that can be used.

  A first feature of the present invention is that a handover control unit (handover control unit 107) that controls handover of a mobile station (mobile station 200) or reconnection to a cell (for example, cell C1), the mobile station When the uplink out-of-synchronization is detected by the out-of-synchronization detecting unit (UL out-of-synchronization detecting unit 105) configured to detect the uplink out-of-synchronization, the mobile station receives the uplink A synchronization request transmission unit (synchronization request transmission unit 109) that transmits a SyncRequest requesting link synchronization establishment, and the synchronization request transmission unit performs handover of the mobile station or re-establishment to a cell by the handover control unit. When the connection is executed, the gist is that the base station (for example, the base station 100A) stops the transmission of the SyncRequest.

  The second feature of the present invention is that the communication device controls the handover of the mobile station or the reconnection to the cell, and the communication device detects a loss of uplink synchronization established with the mobile station. And a step of transmitting a SyncRequest requesting establishment of uplink synchronization to the mobile station when the communication device detects an out-of-synchronization of the uplink, and the step of transmitting the SyncRequest includes: The gist of the present invention is a communication control method for canceling transmission of the SyncRequest when a mobile station handover or reconnection to a cell is executed.

  According to the features of the present invention, it is possible to provide a base station and a communication control method capable of suppressing waste of radio resources due to transmission of a SyncRequest to a handover source or connection source cell at the time of handover or reconnection. be able to.

1 is an overall schematic configuration diagram of a wireless communication system according to an embodiment of the present invention. FIG. 3 is a functional block configuration diagram of a base station 100A according to the embodiment of the present invention. FIG. 8 shows an example of a communication sequence between the base station 100A and the mobile station 200 related to transmission cancellation of SyncRequest according to the embodiment of the present invention, and a communication sequence between the base station 100A and the mobile station 200 until uplink synchronization is established. FIG. FIG. 10 is a diagram showing another example of a communication sequence between the base station 100A and the mobile station 200 related to the SyncRequest transmission stop according to the embodiment of the present invention. FIG. 7 is a diagram illustrating a flow of a SyncRequest transmission operation in the base station 100A (PF) accompanying a handover decision of the mobile station 200 according to the embodiment of the present invention.

  Next, an embodiment of the present invention will be described. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals. However, it should be noted that the drawings are schematic and ratios of dimensions and the like are different from actual ones.

  Accordingly, specific dimensions and the like should be determined in consideration of the following description. Moreover, it is a matter of course that portions having different dimensional relationships and ratios are included between the drawings.

(1) Overall Schematic Configuration of Radio Communication System FIG. 1 is an overall schematic configuration diagram of a radio communication system according to the present embodiment. As shown in FIG. 1, the radio communication system according to the present embodiment employs a Long Term Evolution (LTE) scheme, and includes a core network 50, base stations 100A, 100B (eNB), and a mobile station 200 (UE). Including.

  The base stations 100A and 100B are connected to the core network 50. Base station 100A (100B) forms cell C1 (cell C2) and performs radio communication with mobile station 200 according to the LTE scheme. In particular, in the present embodiment, the base station 100A (or the base station 100B, hereinafter the same) transmits a SyncRequest requesting the mobile station 200 to establish uplink synchronization when an uplink synchronization loss is detected.

  When receiving the SyncRequest from the base station 100A, the mobile station 200 executes a Random access (RA) procedure to reestablish uplink synchronization.

(2) Functional Block Configuration of Radio Communication System Next, a functional block configuration of the radio communication system according to the present embodiment will be described. Specifically, the functional block configuration of base station 100A will be described. FIG. 2 is a functional block configuration diagram of the base station 100A.

  As illustrated in FIG. 2, the base station 100A includes a wireless communication unit 101, a data transmission / reception unit 103, a UL synchronization loss detection unit 105, a handover control unit 107, and a synchronization request transmission unit 109. The base station 100A realizes these functional blocks by a platform unit (PF) and an application unit (AP).

  The radio communication unit 101 performs radio communication with the mobile station 200 according to the LTE scheme.

  The data transmission / reception unit 103 transmits / receives control data (C-plane data) and user data (U-Plane data) for the mobile station 200 via the wireless communication unit 101. In particular, in the present embodiment, the data transmission / reception unit 103 transmits SyncRequest, which is a type of control data transmitted from the handover control unit 107, to the mobile station 200 via the downlink control physical channel (PDCCH).

  The UL out-of-sync detection unit 105 detects an uplink (UL) out-of-synchronization configured with the mobile station 200. Specifically, the UL synchronization loss detection unit 105 monitors the quality of the uplink physical channel (Sounding RS or PUCCH) transmitted from the mobile station 200. The UL out-of-synchronization detection unit 105 detects out-of-synchronization when the quality of the uplink physical channel transmitted from the mobile station 200 falls below the threshold for a predetermined time (or a predetermined number of observations).

  The handover control unit 107 controls handover or reconnection to another cell or the same cell of the mobile station 200. Specifically, the handover control unit 107 is configured such that the mobile station 200 located in the cell C1 formed by the base station 100A is another cell different from the cell C1, specifically, a cell formed by the base station 100B. Controls handover to C2. In the case of handover within the same cell of the mobile station 200, the handover control unit 107 controls handover to the cell C1 for the mobile station 200 located in the cell C1 formed by the base station 100A. In addition, the handover control unit 107 controls reconnection to the cell C2 when the mobile station 200 temporarily disconnects from the cell C1 and reconnects to the cell C2.

  More specifically, the handover control unit 107 receives a Measurement Report from the mobile station 200 and transmits / receives a command such as Handover Request or Handover Request Ack to / from the base station 100B forming the handover destination cell C2. In addition, the handover control unit 107 receives a reconnection request from the mobile station 200 and executes reconfiguration of individual resources.

  When the UL synchronization loss detection unit 105 detects uplink synchronization loss, the synchronization request transmission unit 109 transmits a SyncRequest requesting the mobile station 200 to establish uplink synchronization. Specifically, as described above, the synchronization request transmission unit 109 transmits SyncRequest to the mobile station 200 via the PDCCH.

  In particular, in the present embodiment, the synchronization request transmission unit 109 transmits a SyncRequest to the mobile station 200 when the handover control unit 107 performs handover or reconnection to another cell or the same cell of the mobile station 200. Cancel. Specifically, the synchronization request transmission unit 109 cancels the transmission of SyncRequest when it is determined by the handover control unit 107 that handover or reconnection to the other cell or the same cell of the mobile station 200 is performed. To do. Even if the transmission of SyncRequest is stopped in this way, the mobile station 200 executes a process of establishing uplink synchronization in the handover destination or reconnection destination cell, and thus no problem occurs.

  In addition, the synchronization request transmission unit 109, when the handover or reconnection is stopped after the handover control unit 107 starts handover or reconnection to another cell or the same cell of the mobile station 200, the mobile station 200 200 SyncRequest can be sent. Specifically, the synchronization request transmission unit 109 notifies the handover control unit 107 that the handover or reconnection has been canceled in a state where the uplink synchronization loss is detected by the UL synchronization loss detection unit 105. If so, a SyncRequest is transmitted to the mobile station 200.

(3) Operation of Radio Communication System Next, the operation of the radio communication system according to the present embodiment will be described. Specifically, an uplink synchronization establishment operation by the base station 100A (eNB) and the mobile station 200 (UE) will be described.

(3.1) Communication Sequence First, a communication sequence between the base station 100A and the mobile station 200 related to the cancellation of the SyncRequest transmission from the determination of the handover of the mobile station 200 will be described.

(3.1.1) Sequence example 1
FIG. 3A shows an example of a communication sequence by the base station 100A and the mobile station 200 related to the transmission stop of SyncRequest. FIG. 3B shows a communication sequence by the base station 100A and the mobile station 200 until the uplink synchronization is established.

  As shown in FIG. 3A, the base station 100A determines that the mobile station 200 is to be handed over to another cell or the same cell based on the Measurement Report (S5) transmitted from the mobile station 200 (S10). ).

  As a result, the mobile station 200 starts predetermined communication with the base station 100B forming the handover destination cell (for example, the cell C2). For this reason, the base station 100A detects the loss of uplink synchronization that is set with the mobile station 200 (S20).

  Next, in a normal state, that is, when handover of the mobile station 200 has not been determined, a SyncRequest should be transmitted to the mobile station 200 upon detection of uplink out-of-synchronization. Since over is determined, the base station 100A (PF) stops transmitting the SyncRequest (S25). In addition, the base station 100A (PF) also stops e-mail notification to the base station 100A (AP) that the uplink synchronization loss has been detected.

  Here, FIG. 3B shows a communication sequence executed when the base station 100A (PF) transmits a SyncRequest to the mobile station 200. The communication sequence shown in FIG. 3B is defined in 3GPP. As shown in FIG. 3B, the base station 100A (PF) transmits a SyncRequest to the mobile station 200 (S1). When receiving the SyncRequest, the mobile station 200 transmits RA preamble to the base station 100A (PF) according to the Random Access procedure (S2). Note that the base station 100A (PF) can also use the mobile station 200 for DL data resuming when releasing individual radio resources used for the uplink (Time Alignment (TA) timer expires) in addition to loss of uplink synchronization. You can send SyncRequest to

  The base station 100A that has correctly received the RA preamble returns an RA response to the mobile station 200 (S3). The mobile station 200 that has received the RA response performs settings necessary for starting transmission / reception of control data with the base station 100A, and establishes uplink synchronization. Thereafter, the mobile station 200 transmits Msg3 to the base station 100A (S4). The base station 100A determines that uplink synchronization is established based on reception of Msg3, and starts scheduling of the mobile station 200 in the uplink and downlink.

(3.1.2) Sequence example 2
FIG. 4 shows another example of a communication sequence by the base station 100A and the mobile station 200 related to the SyncRequest transmission cancellation. Specifically, FIG. 4 shows a communication sequence in the case where the handover is stopped after the handover of the mobile station 200 is determined. In such a case, since it is assumed that the mobile station 200 is located in the handover source cell (cell C1), the mobile station 200 transmits a SyncRequest when the handover is stopped, and the uplink is out of synchronization. It is necessary to notify the base station 100A (AP) that it has been detected.

  The processing of S10 to S25 shown in FIG. 4 is the same as the content shown in FIG.

  The base station 100A (AP) decides to cancel the handover of the mobile station 200 (S30). Note that factors for determining the cancellation of the handover of the mobile station 200 include cases where the handover destination resource is insufficient, or when the resources of the transmission path used for the handover are not valid, the movement in the handover destination cell. Examples include a case where the radio reception quality of the station 200 deteriorates rapidly, or a case where the radio reception quality of the mobile station 200 in the handover source cell suddenly recovers.

  Base station 100A (PF) notifies base station 100A (AP) that uplink synchronization loss has occurred, based on the fact that uplink synchronization loss has already been detected in S20 (S40). . Further, the base station 100A (PF) transmits a SyncRequest to the mobile station 200 (S50).

(3.2) Operation Flow of Base Station 100A FIG. 5 shows a SyncRequest transmission operation flow in the base station 100A (PF) when the handover of the mobile station 200 is determined.

  As shown in FIG. 5, the base station 100A (PF) detects an uplink out of synchronization (S110). Here, the base station 100A (PF) determines whether or not a handover to another cell of the mobile station 200 or the same cell has been determined (S120).

  When handover to the other cell or the same cell of the mobile station 200 has not been determined, the base station 100A (PF) notifies the base station 100A (AP) by e-mail that the uplink synchronization loss has been detected (S130). ) And a SyncRequest is transmitted to the mobile station 200 (S140).

  On the other hand, after the handover to the other cell of the mobile station 200 or the same cell is determined in S120, it is determined whether or not to cancel the handover is determined (S150). The process of S150 is preferably executed after a predetermined time (for example, 1 ms) has elapsed since the process of S120. When it is determined to cancel the handover, the base station 100A (PF) executes the processes of S130 and S140 described above.

  The above-described operation example is a case where the mobile station 200 is handed over, but the base station 100A (PF) performs substantially the same processing when the mobile station 200 is reconnected to another cell or the same cell. Should be executed.

(4) Operation / Effect According to the base station 100A (PF), when handover or reconnection to the other cell or the same cell of the mobile station 200 is executed, transmission of SyncRequest is stopped. For this reason, the SyncRequest may be transmitted to the mobile station 200 even though the mobile station 200 does not already exist in the handover source or connection source cell, that is, the cell formed by the base station 100A. Is prevented. That is, according to the base station 100A (PF), waste of radio resources due to sending a SyncRequest to the handover source or connection source cell during handover or reconnection can be suppressed.

  Further, in the present embodiment, when handover or reconnection is canceled after execution of handover or reconnection to another cell or the same cell of the mobile station 200, and uplink synchronization loss is detected. When the mobile station 200 is in sync, a SyncRequest is transmitted to the mobile station 200. For this reason, when handover or reconnection is canceled in a state where uplink synchronization loss is detected, uplink synchronization set with the mobile station 200 can be quickly reestablished.

(5) Other Embodiments As described above, the content of the present invention has been disclosed through one embodiment of the present invention. However, it is understood that the description and drawings constituting a part of this disclosure limit the present invention. should not do. From this disclosure, various alternative embodiments will be apparent to those skilled in the art.

  For example, in the above-described embodiment of the present invention, when the handover or reconnection is canceled after the handover or reconnection to the other cell or the same cell of the mobile station 200 is performed, and the uplink is out of synchronization. Although SyncRequest has been transmitted to the mobile station 200 when this is detected, such processing does not necessarily have to be executed.

  In the above-described embodiment, the base station 100A (PF) executes processing related to transmission of SyncRequest. However, all or part of such processing is performed by, for example, another communication device connected to the core network 50. (For example, MME) may be executed.

  As described above, the present invention naturally includes various embodiments that are not described herein. Therefore, the technical scope of the present invention is defined only by the invention specifying matters according to the scope of claims reasonable from the above description.

50 ... Core network
100A, 100B ... Base station
101 ... Wireless communication part
103 ... Data transceiver
105… UL out-of-sync detection section
107 ... Handover controller
109 ... Synchronization request transmitter
200 ... Mobile station
C1, C2 ... cell

Claims (3)

A handover controller that controls handover of a mobile station or reconnection to a cell;
An out-of-synchronization detection unit for detecting out-of-synchronization of the uplink set with the mobile station;
A synchronization request transmission unit that transmits a SyncRequest requesting the mobile station to establish synchronization of the uplink when the synchronization loss of the uplink is detected by the synchronization loss detection unit;
The synchronization request transmission unit is a base station that suspends transmission of the SyncRequest when the handover control unit executes handover of the mobile station or reconnection to a cell.   The synchronization request transmission unit transmits the SyncRequest to the mobile station when the handover or the reconnection is canceled after the handover control unit starts handover of the mobile station or reconnection to a cell. The base station according to claim 1. A communication device controlling handover of a mobile station or reconnection to a cell;
The communication device detecting an uplink out-of-synchronization configured with the mobile station;
When the communication device detects out-of-synchronization of the uplink, a step of transmitting a SyncRequest requesting establishment of the uplink synchronization to the mobile station,
In the step of transmitting the SyncRequest, a communication control method for canceling the transmission of the SyncRequest when handover of the mobile station or reconnection to a cell is executed.

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