WO2018173447A1 - Terminal device, control method, and program - Google Patents
Terminal device, control method, and program Download PDFInfo
- Publication number
- WO2018173447A1 WO2018173447A1 PCT/JP2018/001715 JP2018001715W WO2018173447A1 WO 2018173447 A1 WO2018173447 A1 WO 2018173447A1 JP 2018001715 W JP2018001715 W JP 2018001715W WO 2018173447 A1 WO2018173447 A1 WO 2018173447A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- cell
- base station
- terminal device
- radio link
- station apparatus
- Prior art date
Links
Images
Definitions
- the present invention relates to a terminal device, a control method, and a program, and specifically relates to connection control between the terminal device and a plurality of base station devices.
- Non-patent document 1 A technique has been standardized in which a terminal device performs communication with a first base station device in parallel with communication with a second base station device under the control of the first base station device ( Non-patent document 1).
- a radio link failure Radio Link Failure, RLF
- the terminal device performs another control under the control of the first base station device.
- a connection with the third base station apparatus can be established.
- Non-Patent Document 1 since the connection to another base station apparatus when RLF occurs is performed under the control of the first base station apparatus, the RLF from the terminal apparatus to the first base station apparatus An occurrence notification, an instruction for causing the second base station device to disconnect the terminal device from the first base station device through the backhaul line, and establishment of the connection with the terminal device to the third base station device Must be set for transmission of this instruction and connection with the third base station apparatus for the terminal apparatus. Since these processes require a lot of time, there may be a case where the delay requirement is not satisfied in a system having a severe delay requirement, for example, a next-generation wireless communication system.
- a terminal apparatus communicates in a cell formed by a first base station apparatus and communicates under control of the first base station apparatus in a cell formed by a second base station apparatus. And detecting a radio link failure related to the first cell during communication in the first cell among the plurality of cells formed by the second base station device. When a radio link failure relating to the first cell is detected with the detection means, the second cell different from the first cell among the plurality of cells is not routed through the first base station apparatus. Connecting means for connecting to the second cell, and notifying means for notifying the second cell that a radio link failure has occurred regarding the first cell.
- an alternative radio link can be established at high speed.
- FIG. 1 is a diagram illustrating a configuration example of a wireless communication system.
- FIG. 2 is a diagram illustrating a hardware configuration example of the terminal device.
- FIG. 3 is a block diagram illustrating a functional configuration example of the terminal device.
- FIG. 4 is a diagram illustrating a first example of a flow of processing executed in the wireless communication system.
- FIG. 5 is a diagram illustrating a second example of the flow of processes executed in the wireless communication system.
- FIG. 6 is a diagram illustrating a third example of the flow of processes executed in the wireless communication system.
- FIG. 7 is a diagram illustrating a fourth example of the flow of processes executed in the wireless communication system.
- FIG. 1 shows a configuration of a wireless communication system according to the present embodiment.
- a plurality of base station devices eNB and gNB
- eNB is a base station apparatus regarding 4th generation cellular communication systems, such as long term evolution (LTE), for example.
- LTE long term evolution
- gNB is a base station apparatus regarding the 5th generation cellular communication system called what is called New Radio (NR), for example.
- NR New Radio
- each of cell 1 to cell 3 formed by gNB can be formed from one or more beams formed by one or more transmission reception points (TRP) (not shown).
- TRP transmission reception points
- a cell formed by gNB may be defined as a set of logical beams that may be uniquely specified for all terminal apparatuses or may be determined for each terminal apparatus.
- the cell formed by the eNB may be a cell extending in all directions around the eNB or a sector extending in a certain range of directions. Further, in this example, the eNB forms one cell and the gNB forms three cells, but is not limited thereto.
- the eNB may form a plurality of sectorized cells (sectors), and the gNB may form two or less cells or four or more cells.
- the wireless communication system may include a plurality of eNBs or gNBs.
- eNB and gNB are only examples, and can be replaced with a base station apparatus conforming to an arbitrary wireless communication standard.
- the terminal device can perform communication in a cell formed by at least one of the eNB and the gNB.
- the terminal device communicates with the cell formed by the first base station device among these base station devices, and the cell formed by the second base station device under the control of the first base station device. Can communicate in parallel.
- the first base station apparatus is, for example, an eNB
- the second base station apparatus is, for example, gNB.
- the first base station apparatus is not limited to these.
- both the first base station apparatus and the second base station apparatus are It may be gNB or eNB.
- the cell to which the terminal device can be connected may fluctuate in time due to the movement of the terminal device or the change in the surrounding environment of the terminal device. For example, when one cell is formed by one beam formed by gNB, the terminal device can easily leave the cell by moving. In such a case, a radio link failure (RLF) may occur in a radio link established between the terminal device and the base station device in a cell in which the terminal device has been located. At this time, the terminal device can establish a radio link with another cell instead of the radio link in which the RLF has occurred.
- RLF radio link failure
- the RLF is generated in the radio link between the terminal device and the second base station device established under the control of the first base station device as follows.
- another radio link is established between the terminal device and another base station device. That is, first, when the terminal device detects RLF in the first cell formed by the second base station device, the terminal device transmits a notification that RLF has occurred and a measurement report of the radio quality to the first base station device. . And a 1st base station apparatus determines changing the cell which a terminal device should connect according to a measurement result. The first base station device may determine to simply disconnect the connection related to the second base station device when there is no appropriate base station device to switch to.
- the first base station apparatus When the first base station apparatus switches the connection, the first base station apparatus establishes a connection with the terminal apparatus with respect to the second base station apparatus to which the terminal apparatus was connected and the base station apparatus to which the switching is performed. Instruct. Also, the first base station apparatus can notify the terminal apparatus of setting information for connection with the switching destination base station apparatus. The terminal device can establish a connection with the base station device by executing a random access procedure with the switching destination base station device in accordance with the notification from the first base station device.
- the terminal device of this embodiment notifies the RLF of the first base station device when the connection switching destination cell is formed by the same second base station device as the cell before switching. Without starting, the random access procedure for the switching destination cell is started. That is, when the terminal device detects the RLF for the connected cell, the terminal device searches for other connectable cells, and when the other cell found is formed by the same base station device as the connected cell, The random access procedure for the other connectable cells is started. Note that the terminal device may start the random access procedure without notifying the first base station device of the RLF even if the cells before and after switching of the connection destination are formed by different base station devices. Good.
- the terminal device can obtain information necessary for executing a random access procedure for the base station device to be switched, such as a security key, from the first base station device at the time of switching the connection. If so, the random access procedure can be started without notifying the first base station apparatus of the RLF.
- the terminal apparatus When a terminal apparatus establishes a radio link in a cell connected by a random access procedure, the terminal apparatus notifies the cell that RLF has occurred.
- the terminal device may notify the cell that RLF has occurred during execution of the random access procedure.
- the terminal device may notify in parallel that an RLF has occurred during transmission of a random access preamble (message 1) in a random access procedure standardized by the 3GPP LTE standard.
- the notification that the RLF has occurred may be transmitted, for example, by being included as information in the random access preamble or by a signal transmitted in parallel with the random access preamble. Further, the terminal device may notify that RLF has occurred when transmitting a message (message 3) including identification information of the terminal device itself to be transmitted after receiving the random access response to the random access preamble. . For example, information indicating that RLF has occurred may be included in the message 3 or may be transmitted in parallel with the message 3. Note that the notification that RLF has occurred may include information indicating in which cell the RLF has occurred. For example, when the same base station apparatus forms cells before and after switching, Information may not be included.
- the second base station apparatus can transfer data between cells so that data that has not been transmitted in the cell before switching is transmitted in the cell after switching.
- the base station device that forms the cell after switching may notify the first base station device that the cell to which the terminal device is connected has been switched, but in this case, the cell before and after switching is formed. Since the base station apparatus to perform is the same, this notification need not be performed.
- the base station apparatus forming the cell before and after switching transfers data to the base station apparatus forming the cell before switching. Can be requested. In this case, the base station apparatus forming the cell after switching can notify the first base station apparatus that the connection destination of the terminal apparatus has been switched.
- the terminal device may establish a radio link in the switching destination cell using a procedure that is not a random access procedure. That is, in this embodiment, the terminal device performs communication with the first base station device and communication in the first cell formed by the second base station device under the control of the first base station device.
- the terminal device When RLF occurs in the first cell, the connection is made to the second cell without going through the first base station apparatus. Then, the terminal device notifies the second cell that RLF has occurred. This notification may be performed during the connection process to the second cell that is performed without going through the first base station apparatus.
- a notification that an RLF has occurred can be transmitted / received together with or in parallel with a message transmitted / received during the connection process between the terminal device and the second cell.
- this notification notifies the base station device forming the switching destination cell, for example, via the first base station device. May be.
- notification including information indicating the switching destination cell may be performed. This is because the first base station apparatus indicates to which base station apparatus this notification should be transferred.
- connection destination cell can be switched at high speed.
- the connection process is not performed through the backhaul line, so that the stability of the time required for the connection process can be improved.
- the RLF is notified to the switching destination cell when the connection destination of the wireless link is switched, it is possible to prevent communication continuity from being secured by switching the connection.
- the control of the first base station device does not change when the base station devices forming the cells before and after the connection switching are the same, the first base station device is notified of the switching of the radio link. The time required for the connection switching process can be shortened.
- the notification of RLF is performed in the middle of the connection process not via the first base station apparatus, so that, for example, data is transferred from the connection switching source cell to the connection switching destination cell before the connection is established. Can be transferred.
- the RLF notification is performed after the radio link is established in the connection switching destination cell, for example, the above-described procedure can be performed without changing the existing random access procedure.
- the notification of RLF may be performed via the first base station apparatus, and in this case, it is possible to notify the first base station apparatus that RLF has occurred. Also, in this case, for example, when the base station devices forming the cells before and after the connection switching are different from each other, the first base station device changes the base station device that performs communication with the terminal device in cooperation. I can know.
- FIG. 2 shows a hardware configuration example of the terminal device.
- the terminal device has a hardware configuration as shown in FIG. 2, and includes, for example, a CPU 201, a ROM 202, a RAM 203, an external storage device 204, and a communication device 205.
- the CPU 201 executes a program for realizing each function of the terminal device, which is recorded in any of the ROM 202, the RAM 203, and the external storage device 204.
- the CPU 201 may be replaced by one or more processors such as an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), and a DSP (Digital Signal Processor).
- ASIC Application Specific Integrated Circuit
- FPGA Field Programmable Gate Array
- DSP Digital Signal Processor
- a terminal device controls communication apparatus 205, for example by CPU201, and communicates with a base station apparatus.
- FIG. 2 a schematic diagram in which the terminal device includes one communication device 205 is shown, but the present invention is not limited to this.
- the terminal device may have two or more communication devices 205 to communicate with two or more base station devices, and further includes another communication device 205 for communication in another system. You may have.
- the terminal device may be provided with dedicated hardware for executing each function, or may be executed by a computer that executes a part of the hardware and executes the program. All functions may be executed by a computer and a program.
- FIG. 3 is a diagram illustrating a functional configuration example of the terminal device.
- the function of the terminal device is a logical function realized by the hardware of FIG. 2, for example, and can be realized by the CPU 201 executing a program stored in the ROM 202 or the like.
- the terminal device includes, for example, a communication unit 301, an RLF detection unit 302, a connection control unit 303, and an RLF notification unit 304.
- the communication unit 301 can communicate with one or more base station apparatuses, for example, communication in a cell formed by the first base station apparatus, and the second base station under the control of the first base station apparatus Communication in any of one or more cells formed by the device can be performed in parallel. Such parallel communication can be performed in accordance with, for example, the definition of Data flow aggregation discussed in 3GPP, but such parallel communication may be performed by other methods.
- a cell can also be formed including one or more beams.
- the RLF detection unit 302 detects that a radio link failure has occurred in the radio link in communication.
- the RLF detection unit 302 is configured to operate the cell when the terminal device performs communication under the control of the first base station device in any of the plurality of cells formed by the second base station device. Whether or not an RLF has occurred is monitored, and the RLF is detected.
- connection control unit 303 when RLF occurs in the communication under the control of the first base station device performed in the first cell among the plurality of cells formed by the second base station device by the terminal device
- the communication unit 301 is controlled so as to establish a connection with, for example, the second cell among the plurality of cells without using the first base station apparatus.
- the connection control unit 303 causes the terminal device to perform RLF in communication under control of the first base station device that is performed in any one of a plurality of cells formed by the second base station device.
- the communication unit 301 may be controlled so as to establish a connection with the third base station apparatus without going through the first base station apparatus.
- the connection control unit 303 can measure the radio quality of surrounding cells and select a cell with a good measurement result as a switching destination cell. Note that the connection control unit 303 may preferentially select a cell formed by the same base station apparatus as the cell before switching.
- the connection control unit 303 controls the communication unit 301 so as to establish a connection with the switching destination cell using, for example, a random access procedure.
- the RLF notification unit 304 performs processing for notifying the connection switching destination cell that RLF has occurred.
- the RLF notification unit 304 controls the connection control unit 303 to notify that an RLF has occurred, for example, during the connection process with the switching destination cell.
- the RLF notification unit 304 may transmit a notification that an RLF has occurred by including information in a message to be transmitted within the random access procedure or in parallel with this message. In this procedure, the notification that the RLF has occurred is directly notified to the switching destination cell (the base station apparatus forming the cell) without going through the first base station apparatus.
- the RLF notification unit 304 generates a notification that the RLF has occurred, and transmits the notification via the communication unit 301 after the connection processing with the switching destination cell by the connection control unit 303 is completed, for example. Also good.
- the RLF notification unit 304 may notify the switching destination cell of the occurrence of RLF directly without passing through the first base station apparatus, or via the first base station apparatus. You may notify to the switching destination cell.
- the terminal device communicates with a first base station device (for example, an eNB, sometimes called a master eNB (MeNB)), and controls the first base station device.
- a first base station device for example, an eNB, sometimes called a master eNB (MeNB)
- MeNB master eNB
- communication in the first cell among the plurality of cells formed by the second base station apparatus for example, gNB
- a cell that performs communication under the control of another base station device, such as the first cell may be referred to as a secondary cell.
- the terminal device transmits the control plane (C-plane) data to the first base station device, and the user plane (U-plane) data to the first base station device and the second base station device. (S402, S403).
- C-plane control plane
- U-plane user plane
- the terminal apparatus detects the RLF, and according to this, the radio quality of the surrounding cells is detected. Measurement is executed (S404). Then, the terminal device selects a cell with a good measurement result (S405), and executes a random access procedure (S406 to S409).
- This random access procedure conforms to the 4-step random access procedure specified in 3GPP.
- a notification (RLF report) that RLF has occurred is included in either message 1 (random access preamble) or message 3 (message including identification information of the terminal device such as C-RNTI / ID). And transmitted from the terminal device to the switching destination cell (S406, S408).
- a notification that an RLF has occurred may be included in both of these messages, or a notification that an RLF has occurred may be transmitted separately from these messages.
- FIG. 5 shows an example in which the random access procedure of S406 to S409 in FIG. 4 is replaced with a two-step random access procedure.
- the same reference number is attached
- one message corresponding to message 1 and message 3 is transmitted from the terminal device to the second cell (S501), and one message corresponding to message 2 and message 4 is transmitted from the second cell to the terminal device. (S502).
- the terminal device can notify the second cell of the notification that the RLF has occurred by including the notification that the RLF has occurred in the message of S501 or by a message in parallel with this message. In this way, regardless of the connection process used, it is possible to notify the switching destination cell that RLF has occurred, thereby appropriately recovering data transmission to the terminal device. .
- FIG. 6 the fact that RLF has occurred in the random access procedure is not notified, and after the random access procedure (S601 to S602) is completed, the fact that RLF has occurred is notified to the second cell (S603). According to this, it is possible to notify that RLF has occurred in a state where it is confirmed that the connection has been established and the connection destination can be switched reliably, and unnecessarily between the cells before and after switching. Can prevent data transfer.
- FIG. 6 shows an example in which a two-step random access procedure is used, but it is obvious that the same processing can be executed even if a four-step random access procedure is used.
- FIG. 7 will be described.
- the terminal device After the connection with the second cell is established, the terminal device notifies the first base station device of information indicating that RLF has occurred and that the connection with the second cell has been established. (S701). Then, the first base station apparatus transfers information indicating that the RLF has occurred and information indicating the cell in which the RLF has occurred to the second cell (S702).
- the 1st base station apparatus Since the 1st base station apparatus has acquired the information on the 2nd cell from the terminal unit, it can transfer the notice that RLF occurred to the 2nd cell.
- the first base station apparatus since the first base station apparatus performs control when the first cell operates as a secondary cell, the first base station apparatus determines that RLF has occurred in the first cell only by notification that RLF has occurred. be able to. In this way, the terminal device notifies the second cell via the first base station device that RLF has occurred, thereby realizing detailed control in units of cells by the first base station device. be able to.
- a notification method for example, it is possible to appropriately switch the secondary cell under various conditions such as when base station apparatuses forming the first cell and the second cell are different. It becomes possible.
- the terminal device performs communication in the cell formed by the first base station device and the first base station device in the cell formed by the second base station device.
- communication under control is performed in parallel, if a radio link failure occurs in a cell formed by the second base station apparatus, an alternative radio link can be established at high speed.
Landscapes
- Mobile Radio Communication Systems (AREA)
Abstract
A terminal device which is for carrying out, in parallel, communication in cells formed by a first base station device and communication under the control of the first base station device in cells formed by a second base station device, and which detects a wireless link obstruction related to a first cell among multiple cells formed by the second base station device when communication is being carried out in the first cell. When a wireless link obstruction related to the first cell is detected the terminal device connects to a second cell other than the first cell among the multiple cells without utilizing the first base station device, and notifies the second cell that a wireless link obstruction related to the first cell has occurred.
Description
本発明は、端末装置、制御方法、及びプログラムに関するものであり、具体的には、端末装置と複数の基地局装置との間の接続制御に関する。
The present invention relates to a terminal device, a control method, and a program, and specifically relates to connection control between the terminal device and a plurality of base station devices.
端末装置が、第1の基地局装置との通信と、その第1の基地局装置の制御下での第2の基地局装置との通信とを並行して行う技術が規格化されている(非特許文献1参照)。非特許文献1に記載の技術では、第2の基地局装置との接続において無線リンク障害(Radio Link Failure、RLF)が発生すると、端末装置は、第1の基地局装置の制御によって、別の第3の基地局装置との接続を確立することができる。
A technique has been standardized in which a terminal device performs communication with a first base station device in parallel with communication with a second base station device under the control of the first base station device ( Non-patent document 1). In the technique described in Non-Patent Document 1, when a radio link failure (Radio Link Failure, RLF) occurs in the connection with the second base station device, the terminal device performs another control under the control of the first base station device. A connection with the third base station apparatus can be established.
非特許文献1に記載の技術では、RLFが発生した場合の別の基地局装置への接続を第1の基地局装置の制御下で行うため、端末装置から第1の基地局装置へのRLF発生通知や、第1の基地局装置による、バックホール回線を通じて第2の基地局装置に端末装置との接続を切断させるための指示及び第3の基地局装置への端末装置との接続の確立の指示の送信と、端末装置に対する第3の基地局装置との接続のための設定が必要である。これらの処理には多くの時間を要するため、遅延の要求の厳しいシステム、例えば次世代無線通信システムでは、その遅延の要求を満たすことができない場合がありうる。
In the technique described in Non-Patent Document 1, since the connection to another base station apparatus when RLF occurs is performed under the control of the first base station apparatus, the RLF from the terminal apparatus to the first base station apparatus An occurrence notification, an instruction for causing the second base station device to disconnect the terminal device from the first base station device through the backhaul line, and establishment of the connection with the terminal device to the third base station device Must be set for transmission of this instruction and connection with the third base station apparatus for the terminal apparatus. Since these processes require a lot of time, there may be a case where the delay requirement is not satisfied in a system having a severe delay requirement, for example, a next-generation wireless communication system.
本発明は、端末装置が、複数の基地局装置との間で形成した無線リンクにおいて無線リンク障害が生じた場合に、代替の無線リンクを高速に確立する。
In the present invention, when a radio link failure occurs in a radio link formed between a terminal device and a plurality of base station devices, an alternative radio link is established at high speed.
本発明の一態様による端末装置は、第1の基地局装置が形成するセルでの通信と、第2の基地局装置が形成するセルでの前記第1の基地局装置の制御下での通信とを並行して行う端末装置であって、前記第2の基地局装置が形成する複数のセルのうちの第1のセルでの通信中に、当該第1のセルに関する無線リンク障害を検出する検出手段と、前記第1のセルに関する無線リンク障害が検出された場合に、前記複数のセルのうちの前記第1のセルと異なる第2のセルへ、前記第1の基地局装置を介さずに接続する接続手段と、前記第2のセルへ、前記第1のセルに関する無線リンク障害が生じたことの通知を行う通知手段と、を有する。
A terminal apparatus according to an aspect of the present invention communicates in a cell formed by a first base station apparatus and communicates under control of the first base station apparatus in a cell formed by a second base station apparatus. And detecting a radio link failure related to the first cell during communication in the first cell among the plurality of cells formed by the second base station device. When a radio link failure relating to the first cell is detected with the detection means, the second cell different from the first cell among the plurality of cells is not routed through the first base station apparatus. Connecting means for connecting to the second cell, and notifying means for notifying the second cell that a radio link failure has occurred regarding the first cell.
本発明によれば、端末装置が、複数の基地局装置との間で形成した無線リンクにおいて無線リンク障害が生じた場合に、代替の無線リンクを高速に確立することができる。
According to the present invention, when a radio link failure occurs in a radio link formed between a terminal device and a plurality of base station devices, an alternative radio link can be established at high speed.
本発明のその他の特徴及び利点は、添付図面を参照とした以下の説明により明らかになるであろう。なお、添付図面においては、同じ若しくは同様の構成には、同じ参照番号を付す。
Other features and advantages of the present invention will become apparent from the following description with reference to the accompanying drawings. In the accompanying drawings, the same or similar components are denoted by the same reference numerals.
添付図面は明細書に含まれ、その一部を構成し、本発明の実施の形態を示し、その記述と共に本発明の原理を説明するために用いられる。
図1は、無線通信システムの構成例を示す図である。
図2は、端末装置のハードウェア構成例を示す図である。
図3は、端末装置の機能構成例を示すブロック図である。
図4は、無線通信システムで実行される処理の流れの第1の例を示す図である。
図5は、無線通信システムで実行される処理の流れの第2の例を示す図である。
図6は、無線通信システムで実行される処理の流れの第3の例を示す図である。
図7は、無線通信システムで実行される処理の流れの第4の例を示す図である。
The accompanying drawings are included in the specification, constitute a part thereof, show an embodiment of the present invention, and are used to explain the principle of the present invention together with the description.
FIG. 1 is a diagram illustrating a configuration example of a wireless communication system. FIG. 2 is a diagram illustrating a hardware configuration example of the terminal device. FIG. 3 is a block diagram illustrating a functional configuration example of the terminal device. FIG. 4 is a diagram illustrating a first example of a flow of processing executed in the wireless communication system. FIG. 5 is a diagram illustrating a second example of the flow of processes executed in the wireless communication system. FIG. 6 is a diagram illustrating a third example of the flow of processes executed in the wireless communication system. FIG. 7 is a diagram illustrating a fourth example of the flow of processes executed in the wireless communication system.
以下、本発明の実施の形態について図面を参照しながら説明する。
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(システム構成)
図1に、本実施形態に係る無線通信システムの構成を示す。この無線通信システムでは、複数の基地局装置(eNB及びgNB)がそれぞれ1つ以上のセルを形成する。なお、eNBは、例えば、ロングタームエボリューション(LTE)等の第4世代のセルラ通信システムに関する基地局装置である。また、gNBは、例えば、いわゆるNew Radio(NR)と呼ばれる第5世代のセルラ通信システムに関する基地局装置である。なお、例えばgNBが形成するセル1~セル3のそれぞれは、不図示の1つ以上のTransmission Reception Point(TRP)が形成する1つ以上のビームから形成されうる。なお、gNBが形成するセルは、全端末装置に対して一意に特定されてもよいし、端末装置ごとに定められてもよい、論理的なビームの集合として定義されうる。また、eNBが形成するセルは、eNBを中心として全方位に広がるセル又は一定の範囲の方位に広がるセクタでありうる。また、本例ではeNBは1つのセルを形成し、gNBは3つのセルを形成しているがこれに限られない。例えば、eNBはセクタ化された複数のセル(セクタ)を形成してもよいし、gNBは2つ以下又は4つ以上のセルを形成してもよい。また、図1では、1つのeNBと1つのgNBが示されているが、無線通信システムは、複数のeNB又はgNBを含んでもよい。また、eNBおよびgNBは一例に過ぎず、任意の無線通信規格に従う基地局装置と置き換えられうる。 (System configuration)
FIG. 1 shows a configuration of a wireless communication system according to the present embodiment. In this wireless communication system, a plurality of base station devices (eNB and gNB) each form one or more cells. In addition, eNB is a base station apparatus regarding 4th generation cellular communication systems, such as long term evolution (LTE), for example. Moreover, gNB is a base station apparatus regarding the 5th generation cellular communication system called what is called New Radio (NR), for example. For example, each of cell 1 tocell 3 formed by gNB can be formed from one or more beams formed by one or more transmission reception points (TRP) (not shown). A cell formed by gNB may be defined as a set of logical beams that may be uniquely specified for all terminal apparatuses or may be determined for each terminal apparatus. The cell formed by the eNB may be a cell extending in all directions around the eNB or a sector extending in a certain range of directions. Further, in this example, the eNB forms one cell and the gNB forms three cells, but is not limited thereto. For example, the eNB may form a plurality of sectorized cells (sectors), and the gNB may form two or less cells or four or more cells. Moreover, although one eNB and one gNB are shown in FIG. 1, the wireless communication system may include a plurality of eNBs or gNBs. Moreover, eNB and gNB are only examples, and can be replaced with a base station apparatus conforming to an arbitrary wireless communication standard.
図1に、本実施形態に係る無線通信システムの構成を示す。この無線通信システムでは、複数の基地局装置(eNB及びgNB)がそれぞれ1つ以上のセルを形成する。なお、eNBは、例えば、ロングタームエボリューション(LTE)等の第4世代のセルラ通信システムに関する基地局装置である。また、gNBは、例えば、いわゆるNew Radio(NR)と呼ばれる第5世代のセルラ通信システムに関する基地局装置である。なお、例えばgNBが形成するセル1~セル3のそれぞれは、不図示の1つ以上のTransmission Reception Point(TRP)が形成する1つ以上のビームから形成されうる。なお、gNBが形成するセルは、全端末装置に対して一意に特定されてもよいし、端末装置ごとに定められてもよい、論理的なビームの集合として定義されうる。また、eNBが形成するセルは、eNBを中心として全方位に広がるセル又は一定の範囲の方位に広がるセクタでありうる。また、本例ではeNBは1つのセルを形成し、gNBは3つのセルを形成しているがこれに限られない。例えば、eNBはセクタ化された複数のセル(セクタ)を形成してもよいし、gNBは2つ以下又は4つ以上のセルを形成してもよい。また、図1では、1つのeNBと1つのgNBが示されているが、無線通信システムは、複数のeNB又はgNBを含んでもよい。また、eNBおよびgNBは一例に過ぎず、任意の無線通信規格に従う基地局装置と置き換えられうる。 (System configuration)
FIG. 1 shows a configuration of a wireless communication system according to the present embodiment. In this wireless communication system, a plurality of base station devices (eNB and gNB) each form one or more cells. In addition, eNB is a base station apparatus regarding 4th generation cellular communication systems, such as long term evolution (LTE), for example. Moreover, gNB is a base station apparatus regarding the 5th generation cellular communication system called what is called New Radio (NR), for example. For example, each of cell 1 to
端末装置は、少なくともeNBとgNBとのいずれかが形成したセルでの通信を行うことができる。また、端末装置は、これらの基地局装置のうちの第1の基地局装置が形成したセルで通信しながら、その第1の基地局装置の制御下で第2の基地局装置が形成したセルで並行して通信することができる。ここで、第1の基地局装置は例えばeNBであり、第2の基地局装置は例えばgNBであるが、これらに限られず、例えば、第1の基地局装置及び第2の基地局装置が両方gNB又はeNBであってもよい。
The terminal device can perform communication in a cell formed by at least one of the eNB and the gNB. In addition, the terminal device communicates with the cell formed by the first base station device among these base station devices, and the cell formed by the second base station device under the control of the first base station device. Can communicate in parallel. Here, the first base station apparatus is, for example, an eNB, and the second base station apparatus is, for example, gNB. However, the first base station apparatus is not limited to these. For example, both the first base station apparatus and the second base station apparatus are It may be gNB or eNB.
端末装置が移動可能であることにより又は端末装置の周辺環境の変化により、端末装置が接続可能なセルは時間変動しうる。例えば、gNBが形成する1つのビームによって1つのセルが形成される場合、端末装置は、移動することによって、そのセルを容易に離脱しうる。このような場合、端末装置がそれまで在圏していたセルで端末装置と基地局装置との間で確立されていた無線リンクに無線リンク障害(RLF)が発生してしまいうる。このとき、端末装置は、RLFが発生した無線リンクに代えて、別のセルとの無線リンクを確立することができる。
The cell to which the terminal device can be connected may fluctuate in time due to the movement of the terminal device or the change in the surrounding environment of the terminal device. For example, when one cell is formed by one beam formed by gNB, the terminal device can easily leave the cell by moving. In such a case, a radio link failure (RLF) may occur in a radio link established between the terminal device and the base station device in a cell in which the terminal device has been located. At this time, the terminal device can establish a radio link with another cell instead of the radio link in which the RLF has occurred.
例えば、LTEのRelease 12におけるDual Connectivityでは、以下のようにして、第1の基地局装置による制御下で確立されていた端末装置と第2の基地局装置との間の無線リンクにおいてRLFが発生した場合に、その端末装置と別の基地局装置との間で別の無線リンクが確立される。すなわち、まず、端末装置は、第2の基地局装置が形成した第1のセルにおいてRLFを検出すると、RLFが発生したことの通知及び無線品質の測定報告を第1の基地局装置へ送信する。そして、第1の基地局装置は、測定結果に応じて、端末装置が接続すべきセルを変更させることを決定する。なお、第1の基地局装置は、切り替え先の適切な基地局装置がない場合、第2の基地局装置に関する接続を単に切断させることを決定してもよい。そして、第1の基地局装置は、接続を切り替えさせる場合に、端末装置が接続していた第2の基地局装置と切り替え先の基地局装置とに対して端末装置と接続を確立するように指示する。また、第1の基地局装置は、端末装置に対して、切り替え先の基地局装置との接続のための設定情報を通知しうる。端末装置は、第1の基地局装置からの通知に従って、切り替え先の基地局装置との間でランダムアクセス手順を実行することにより、その基地局装置との接続を確立することができる。
For example, in Dual Connectivity in LTE Release 12, the RLF is generated in the radio link between the terminal device and the second base station device established under the control of the first base station device as follows. In this case, another radio link is established between the terminal device and another base station device. That is, first, when the terminal device detects RLF in the first cell formed by the second base station device, the terminal device transmits a notification that RLF has occurred and a measurement report of the radio quality to the first base station device. . And a 1st base station apparatus determines changing the cell which a terminal device should connect according to a measurement result. The first base station device may determine to simply disconnect the connection related to the second base station device when there is no appropriate base station device to switch to. When the first base station apparatus switches the connection, the first base station apparatus establishes a connection with the terminal apparatus with respect to the second base station apparatus to which the terminal apparatus was connected and the base station apparatus to which the switching is performed. Instruct. Also, the first base station apparatus can notify the terminal apparatus of setting information for connection with the switching destination base station apparatus. The terminal device can establish a connection with the base station device by executing a random access procedure with the switching destination base station device in accordance with the notification from the first base station device.
しかしながら、このような手順は装置間で信号が送受信される回数が多いため、開始から完了までに要する時間が長期化してしまいうる。また、例えば基地局装置間のバックホール回線は遅延が大きい場合があるため、さらにこの時間が長期化し、又は不安定になりうる。このため、従来の手法では、RLFが生じた場合に、例えば第5世代の無線通信システム等で要求されるリアルタイム性を満たせなくなってしまいうる。
However, in such a procedure, since the number of times that signals are transmitted and received between the devices is large, the time required from the start to the completion can be prolonged. Further, for example, the backhaul line between the base station apparatuses may have a large delay, so that this time may be prolonged or unstable. For this reason, in the conventional method, when RLF occurs, the real-time property required in, for example, the fifth generation wireless communication system may not be satisfied.
これに対して、本実施形態の端末装置は、接続の切り替え先のセルが切り替え前のセルと同じ第2の基地局装置によって形成される場合に、第1の基地局装置のRLFを通知することなく、切り替え先のセルに対するランダムアクセス手順を開始する。すなわち、端末装置は、接続中のセルについてRLFを検出すると、接続可能な他のセルを探索し、発見した他のセルが接続中のセルと同一の基地局装置によって形成されている場合は、その接続可能な他のセルに対するランダムアクセス手順を開始する。なお、端末装置は、接続先の切り替え前後のセルがそれぞれ異なる基地局装置によって形成される場合であっても、第1の基地局装置にRLFを通知することなくランダムアクセス手順を開始してもよい。例えば、端末装置は、セキュリティ鍵などの切り替え先の基地局装置に対するランダムアクセス手順の実行に必要な情報を接続の切り替えの際に第1の基地局装置から取得しうるが、この情報を事前に有している場合は、第1の基地局装置にRLFを通知せずにランダムアクセス手順を開始しうる。端末装置は、ランダムアクセス手順で接続するセルにおいて無線リンクを確立すると、RLFが生じたことをそのセルに通知する。なお、端末装置は、ランダムアクセス手順の実行中に、RLFが生じたことをそのセルに通知してもよい。例えば、端末装置は、3GPPのLTE規格で規格化されているランダムアクセス手順における、ランダムアクセスプリアンブル(メッセージ1)の送信時にRLFが生じたことを並行して通知してもよい。RLFが生じたことの通知は、例えばランダムアクセスプリアンブル内に情報として含められることによって、又はランダムアクセスプリアンブルと並行して送信される信号によって、送信されうる。また、端末装置は、ランダムアクセスプリアンブルに対するランダムアクセス応答の受信後に送信されるべき端末装置自身の識別情報を含んだメッセージ(メッセージ3)の送信時に、RLFが生じたことの通知を行ってもよい。例えば、RLFが生じたことを示す情報がメッセージ3に含められてもよいし、メッセージ3と並行して送信されてもよい。なお、RLFが生じたことの通知は、どのセルでRLFが生じたかを示す情報を含んでもよいが、例えば、切り替え前後のセルを同一の基地局装置が形成している場合は、このような情報は含まれなくてもよい。
On the other hand, the terminal device of this embodiment notifies the RLF of the first base station device when the connection switching destination cell is formed by the same second base station device as the cell before switching. Without starting, the random access procedure for the switching destination cell is started. That is, when the terminal device detects the RLF for the connected cell, the terminal device searches for other connectable cells, and when the other cell found is formed by the same base station device as the connected cell, The random access procedure for the other connectable cells is started. Note that the terminal device may start the random access procedure without notifying the first base station device of the RLF even if the cells before and after switching of the connection destination are formed by different base station devices. Good. For example, the terminal device can obtain information necessary for executing a random access procedure for the base station device to be switched, such as a security key, from the first base station device at the time of switching the connection. If so, the random access procedure can be started without notifying the first base station apparatus of the RLF. When a terminal apparatus establishes a radio link in a cell connected by a random access procedure, the terminal apparatus notifies the cell that RLF has occurred. The terminal device may notify the cell that RLF has occurred during execution of the random access procedure. For example, the terminal device may notify in parallel that an RLF has occurred during transmission of a random access preamble (message 1) in a random access procedure standardized by the 3GPP LTE standard. The notification that the RLF has occurred may be transmitted, for example, by being included as information in the random access preamble or by a signal transmitted in parallel with the random access preamble. Further, the terminal device may notify that RLF has occurred when transmitting a message (message 3) including identification information of the terminal device itself to be transmitted after receiving the random access response to the random access preamble. . For example, information indicating that RLF has occurred may be included in the message 3 or may be transmitted in parallel with the message 3. Note that the notification that RLF has occurred may include information indicating in which cell the RLF has occurred. For example, when the same base station apparatus forms cells before and after switching, Information may not be included.
そして、第2の基地局装置は、切り替え前のセルで送信が完了しなかったデータを切り替え後のセルで送信するように、セル間でのデータの転送を行いうる。なお、切り替え後のセルを形成する基地局装置は、端末装置の接続先のセルが切り替えられたことを第1の基地局装置に通知してもよいが、この場合、切り替え前後のセルを形成する基地局装置が同じであるため、この通知を行わなくてもよい。なお、切り替え前後のセルを形成する基地局装置が異なる場合は、切り替え後のセルを形成している基地局装置は、切り替え前のセルを形成している基地局装置に対してデータの転送を要求しうる。また、この場合、切り替え後のセルを形成している基地局装置は、第1の基地局装置に対して、端末装置の接続先が切り替えられたことを通知しうる。
Then, the second base station apparatus can transfer data between cells so that data that has not been transmitted in the cell before switching is transmitted in the cell after switching. The base station device that forms the cell after switching may notify the first base station device that the cell to which the terminal device is connected has been switched, but in this case, the cell before and after switching is formed. Since the base station apparatus to perform is the same, this notification need not be performed. In addition, when the base station apparatus forming the cell before and after switching is different, the base station apparatus forming the cell after switching transfers data to the base station apparatus forming the cell before switching. Can be requested. In this case, the base station apparatus forming the cell after switching can notify the first base station apparatus that the connection destination of the terminal apparatus has been switched.
なお、上述のランダムアクセス手順は、例えば、3GPPのLTE規格で規格化されている4ステップまたは2ステップのランダムアクセス手順でありうる。また、端末装置は、ランダムアクセス手順ではない手順を用いて、切り替え先のセルにおける無線リンクを確立してもよい。すなわち、本実施形態では、端末装置は、第1の基地局装置との通信と、第1の基地局装置の制御下で第2の基地局装置が形成する第1のセルでの通信を実行している際に、その第1のセルでRLFが生じた場合、第1の基地局装置を介さずに第2のセルへと接続する。そして、端末装置は、その第2のセルに対して、RLFが生じたことを通知する。なお、この通知は、第1の基地局装置を介さずに行われる第2のセルへの接続処理の間に行われうる。すなわち、端末装置と第2のセルとの間で接続処理の間に送受信されるメッセージと共に又はそのようなメッセージと並行して、RLFが生じたことの通知が送受信されうる。また、この通知は、端末装置が切り替え先のセルでの接続を確立した後に、例えば第1の基地局装置を介して、切り替え先のセルを形成している基地局装置へ、RLFを通知してもよい。なお、この場合、切り替え先のセルを示す情報を含んだ通知が行われうる。第1の基地局装置がこの通知をどの基地局装置に転送すべきかを示すためである。
Note that the above-described random access procedure can be, for example, a 4-step or 2-step random access procedure standardized by the LTE standard of 3GPP. The terminal device may establish a radio link in the switching destination cell using a procedure that is not a random access procedure. That is, in this embodiment, the terminal device performs communication with the first base station device and communication in the first cell formed by the second base station device under the control of the first base station device. When RLF occurs in the first cell, the connection is made to the second cell without going through the first base station apparatus. Then, the terminal device notifies the second cell that RLF has occurred. This notification may be performed during the connection process to the second cell that is performed without going through the first base station apparatus. That is, a notification that an RLF has occurred can be transmitted / received together with or in parallel with a message transmitted / received during the connection process between the terminal device and the second cell. In addition, after the terminal device establishes the connection in the switching destination cell, this notification notifies the base station device forming the switching destination cell, for example, via the first base station device. May be. In this case, notification including information indicating the switching destination cell may be performed. This is because the first base station apparatus indicates to which base station apparatus this notification should be transferred.
これにより、接続の切り替え処理に関する信号が送受信される頻度が低減するため、高速に接続先のセルの切り替えを行うことができる。また、接続の切り替え前後のセルを形成する基地局装置が同一である場合、バックホール回線を通じて接続処理が行われることがないため、接続処理に要する時間の安定性を高めることができる。また、無線リンクの接続先の切り替えに伴って、切り替え先のセルにRLFの通知が行われるため、接続の切り替えによって通信の連続性が担保されなくなることを防ぐことができる。さらに、接続の切り替え前後のセルを形成する基地局装置が同一である際に第1の基地局装置の制御が変わらない場合は、第1の基地局装置への無線リンクの切り替えの通知が行われなくてもよく、接続の切り替え処理に要する時間を短縮することができる。また、RLFの通知が、第1の基地局装置を介さない接続処理の途中で行われることにより、例えば接続の切り替え先のセルに、接続の切り替え元のセルから、接続が確立する前にデータを転送させることができる。また、RLFの通知が、接続の切り替え先のセルでの無線リンクの確立後に行われることで、例えば既存のランダムアクセス手順を変更することなく、上述の手順を行うことが可能となる。また、RLFの通知は第1の基地局装置を経由して行われてもよく、この場合、第1の基地局装置に対してもRLFが発生したことを通知することができる。また、この場合、例えば接続の切り替え前後のセルを形成する基地局装置が互いに異なる場合に、第1の基地局装置は、端末装置との通信を連携して行う基地局装置が変化することを知ることができる。
This reduces the frequency with which signals related to connection switching processing are transmitted and received, so that the connection destination cell can be switched at high speed. In addition, when the base station apparatuses forming the cells before and after the connection switching are the same, the connection process is not performed through the backhaul line, so that the stability of the time required for the connection process can be improved. In addition, since the RLF is notified to the switching destination cell when the connection destination of the wireless link is switched, it is possible to prevent communication continuity from being secured by switching the connection. Further, when the control of the first base station device does not change when the base station devices forming the cells before and after the connection switching are the same, the first base station device is notified of the switching of the radio link. The time required for the connection switching process can be shortened. In addition, the notification of RLF is performed in the middle of the connection process not via the first base station apparatus, so that, for example, data is transferred from the connection switching source cell to the connection switching destination cell before the connection is established. Can be transferred. In addition, since the RLF notification is performed after the radio link is established in the connection switching destination cell, for example, the above-described procedure can be performed without changing the existing random access procedure. Further, the notification of RLF may be performed via the first base station apparatus, and in this case, it is possible to notify the first base station apparatus that RLF has occurred. Also, in this case, for example, when the base station devices forming the cells before and after the connection switching are different from each other, the first base station device changes the base station device that performs communication with the terminal device in cooperation. I can know.
以下では、このような処理を実行する端末装置の構成及び実行される処理の流れについて説明する。
In the following, the configuration of a terminal device that executes such a process and the flow of the process to be executed will be described.
(装置構成)
図2に、端末装置のハードウェア構成例を示す。端末装置は、一例において、図2に示すようなハードウェア構成を有し、例えば、CPU201、ROM202、RAM203、外部記憶装置204、及び通信装置205を有する。端末装置では、例えばROM202、RAM203及び外部記憶装置204のいずれかに記録された、端末装置の各機能を実現するプログラムがCPU201により実行される。なお、CPU201は、ASIC(特定用途向け集積回路)、FPGA(フィールドプログラマブルゲートアレイ)、DSP(デジタルシグナルプロセッサ)等の1つ以上のプロセッサによって置き換えられてもよい。 (Device configuration)
FIG. 2 shows a hardware configuration example of the terminal device. For example, the terminal device has a hardware configuration as shown in FIG. 2, and includes, for example, aCPU 201, a ROM 202, a RAM 203, an external storage device 204, and a communication device 205. In the terminal device, for example, the CPU 201 executes a program for realizing each function of the terminal device, which is recorded in any of the ROM 202, the RAM 203, and the external storage device 204. The CPU 201 may be replaced by one or more processors such as an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), and a DSP (Digital Signal Processor).
図2に、端末装置のハードウェア構成例を示す。端末装置は、一例において、図2に示すようなハードウェア構成を有し、例えば、CPU201、ROM202、RAM203、外部記憶装置204、及び通信装置205を有する。端末装置では、例えばROM202、RAM203及び外部記憶装置204のいずれかに記録された、端末装置の各機能を実現するプログラムがCPU201により実行される。なお、CPU201は、ASIC(特定用途向け集積回路)、FPGA(フィールドプログラマブルゲートアレイ)、DSP(デジタルシグナルプロセッサ)等の1つ以上のプロセッサによって置き換えられてもよい。 (Device configuration)
FIG. 2 shows a hardware configuration example of the terminal device. For example, the terminal device has a hardware configuration as shown in FIG. 2, and includes, for example, a
そして、端末装置は、例えばCPU201により通信装置205を制御して、基地局装置との間の通信を行う。なお、図2では、端末装置は、1つの通信装置205を有するような概略図を示しているが、これに限られない。例えば、端末装置は、2つ以上の基地局装置と通信するために2つ以上の通信装置205を有してもよいし、さらに、他のシステムでの通信のための別の通信装置205を有してもよい。
And a terminal device controls communication apparatus 205, for example by CPU201, and communicates with a base station apparatus. In FIG. 2, a schematic diagram in which the terminal device includes one communication device 205 is shown, but the present invention is not limited to this. For example, the terminal device may have two or more communication devices 205 to communicate with two or more base station devices, and further includes another communication device 205 for communication in another system. You may have.
なお、端末装置は、各機能を実行する専用のハードウェアを備えてもよいし、一部をハードウェアで実行し、プログラムを動作させるコンピュータでその他の部分を実行してもよい。また、全機能がコンピュータとプログラムにより実行されてもよい。
The terminal device may be provided with dedicated hardware for executing each function, or may be executed by a computer that executes a part of the hardware and executes the program. All functions may be executed by a computer and a program.
図3は、端末装置の機能構成例を示す図である。端末装置の機能は、例えば図2のハードウェアによって実現される論理的な機能であり、CPU201がROM202等に記憶されたプログラムを実行することによって実現されうる。端末装置は、例えば、通信部301、RLF検出部302、接続制御部303、及びRLF通知部304を含んで構成される。
FIG. 3 is a diagram illustrating a functional configuration example of the terminal device. The function of the terminal device is a logical function realized by the hardware of FIG. 2, for example, and can be realized by the CPU 201 executing a program stored in the ROM 202 or the like. The terminal device includes, for example, a communication unit 301, an RLF detection unit 302, a connection control unit 303, and an RLF notification unit 304.
通信部301は、1つ以上の基地局装置と通信可能であり、例えば、第1の基地局装置が形成したセルでの通信と、第1の基地局装置の制御下で第2の基地局装置が形成した1つ以上のセルのうちのいずれかでの通信とを並行して行うことができる。なお、このような並行通信は、例えば3GPPで議論されているData flow aggregationの規定に従って行われうるが、他の手法によってこのような並行通信が行われてもよい。また、セルは、1つ以上のビームを含んで形成されうる。
The communication unit 301 can communicate with one or more base station apparatuses, for example, communication in a cell formed by the first base station apparatus, and the second base station under the control of the first base station apparatus Communication in any of one or more cells formed by the device can be performed in parallel. Such parallel communication can be performed in accordance with, for example, the definition of Data flow aggregation discussed in 3GPP, but such parallel communication may be performed by other methods. A cell can also be formed including one or more beams.
RLF検出部302は、通信中の無線リンクにおいて無線リンク障害が発生したことを検出する。RLF検出部302は、特に、端末装置が、第2の基地局装置が形成した複数のセルのいずれかでの第1の基地局装置の制御下での通信を行っている場合に、そのセルに関するRLFが発生したか否かを監視し、RLFを検出する。
The RLF detection unit 302 detects that a radio link failure has occurred in the radio link in communication. The RLF detection unit 302 is configured to operate the cell when the terminal device performs communication under the control of the first base station device in any of the plurality of cells formed by the second base station device. Whether or not an RLF has occurred is monitored, and the RLF is detected.
接続制御部303は、端末装置が第2の基地局装置が形成した複数のセルのうちの第1のセルで行っている第1の基地局装置の制御下での通信においてRLFが発生した場合に、第1の基地局装置を介さずに、例えば上述の複数のセルのうちの第2のセルとの接続を確立するように、通信部301を制御する。なお、接続制御部303は、端末装置が第2の基地局装置が形成した複数のセルのいずれかのセルで行っている第1の基地局装置の制御下での通信においてRLFが発生した場合に、第1の基地局装置を介さずに、第3の基地局装置との間での接続を確立するように、通信部301を制御してもよい。接続制御部303は、例えば、RLFが検出されたことに応じて、周囲のセルの無線品質を測定し、測定結果の良好なセルを切り替え先のセルとして選択しうる。なお、接続制御部303は、切り替え前のセルと同じ基地局装置が形成するセルを優先的に選択するようにしてもよい。接続制御部303は、例えばランダムアクセス手順を用いて、切り替え先のセルとの接続を確立するように通信部301を制御する。
The connection control unit 303, when RLF occurs in the communication under the control of the first base station device performed in the first cell among the plurality of cells formed by the second base station device by the terminal device In addition, the communication unit 301 is controlled so as to establish a connection with, for example, the second cell among the plurality of cells without using the first base station apparatus. Note that the connection control unit 303 causes the terminal device to perform RLF in communication under control of the first base station device that is performed in any one of a plurality of cells formed by the second base station device. In addition, the communication unit 301 may be controlled so as to establish a connection with the third base station apparatus without going through the first base station apparatus. For example, in response to detection of RLF, the connection control unit 303 can measure the radio quality of surrounding cells and select a cell with a good measurement result as a switching destination cell. Note that the connection control unit 303 may preferentially select a cell formed by the same base station apparatus as the cell before switching. The connection control unit 303 controls the communication unit 301 so as to establish a connection with the switching destination cell using, for example, a random access procedure.
RLF通知部304は、RLFが発生したことを、接続の切り替え先のセルに対して通知するための処理を行う。例えば、RLF通知部304は、例えば切り替え先のセルとの接続処理中に、RLFが発生したことを通知するように接続制御部303を制御する。例えば、RLF通知部304は、ランダムアクセス手順内で送信するメッセージ中に情報を含めて、又はこのメッセージと並行して、RLFが発生したことの通知を送信しうる。この手順では、RLFが発生したことの通知は、第1の基地局装置を介さずに、直接、切り替え先のセル(そのセルを形成している基地局装置)に通知される。また、RLF通知部304は、RLFが発生したことの通知を生成して、例えば接続制御部303による切り替え先のセルとの間の接続処理が完了した後に、通信部301を介して送信してもよい。この場合、例えば、RLF通知部304は、RLFの発生を、第1の基地局装置を介さずに、直接、切り替え先のセルに通知してもよいし、第1の基地局装置を介して切り替え先のセルに通知してもよい。
The RLF notification unit 304 performs processing for notifying the connection switching destination cell that RLF has occurred. For example, the RLF notification unit 304 controls the connection control unit 303 to notify that an RLF has occurred, for example, during the connection process with the switching destination cell. For example, the RLF notification unit 304 may transmit a notification that an RLF has occurred by including information in a message to be transmitted within the random access procedure or in parallel with this message. In this procedure, the notification that the RLF has occurred is directly notified to the switching destination cell (the base station apparatus forming the cell) without going through the first base station apparatus. Also, the RLF notification unit 304 generates a notification that the RLF has occurred, and transmits the notification via the communication unit 301 after the connection processing with the switching destination cell by the connection control unit 303 is completed, for example. Also good. In this case, for example, the RLF notification unit 304 may notify the switching destination cell of the occurrence of RLF directly without passing through the first base station apparatus, or via the first base station apparatus. You may notify to the switching destination cell.
(処理の流れ)
続いて、無線通信システムで実行される処理の流れの例について図4~図7を用いて説明する。 (Process flow)
Next, an example of the flow of processing executed in the wireless communication system will be described with reference to FIGS.
続いて、無線通信システムで実行される処理の流れの例について図4~図7を用いて説明する。 (Process flow)
Next, an example of the flow of processing executed in the wireless communication system will be described with reference to FIGS.
まず、図4について説明する。本処理例では、端末装置は、初期的な状態として、第1の基地局装置(例えばeNB、場合によってはマスターeNB(MeNB)と呼ぶ。)との通信と、第1の基地局装置の制御下で第2の基地局装置(例えばgNB)が形成した複数のセルのうちの第1セルでの通信とを並行して行っている(S401)。なお、第1セルなどの、他の基地局装置の制御下での通信を行うセルは、セカンダリセルと呼ばれうる。この状態において、端末装置は、制御プレーン(C-plane)のデータを第1の基地局装置と、ユーザプレーン(U-plane)のデータを第1の基地局装置及び第2の基地局装置との間で送受信しうる(S402、S403)。ここで、端末装置は、第2の基地局装置が形成した第1セルとの間の無線リンクにおいてRLFが発生すると、そのRLFを検出し、これに応じて、周囲のセルについての無線品質の測定を実行する(S404)。そして、端末装置は、測定結果の良好なセルを選択し(S405)、ランダムアクセス手順(S406~S409)を実行する。なお、このランダムアクセス手順は、3GPPで規定されている4ステップのランダムアクセス手順に準じたものである。ただし、メッセージ1(ランダムアクセスプリアンブル)と、メッセージ3(C-RNTI/ID等の、端末装置の識別情報を含んだメッセージ)とのいずれかにRLFが生じたことの通知(RLF report)が含められて、端末装置から切り替え先のセルに送信される(S406、S408)。なお、これらの両方のメッセージに、RLFが生じたことの通知が含められてもよいし、これらのメッセージとは別にRLFが生じたことの通知が送信されてもよい。ランダムアクセス手順によって端末装置と第2の基地局装置が形成した第2セルとの間での無線リンクが確立すると、第2セルは、切り替え元の第1セルから、未送信データを取得し(S410)、端末装置へのデータ送信を回復する(S411)。これにより、端末装置は、第1の基地局装置が介在することなく、高速にセカンダリセルの切り替えを行うことができる。
First, FIG. 4 will be described. In this processing example, the terminal device, as an initial state, communicates with a first base station device (for example, an eNB, sometimes called a master eNB (MeNB)), and controls the first base station device. Below, communication in the first cell among the plurality of cells formed by the second base station apparatus (for example, gNB) is performed in parallel (S401). A cell that performs communication under the control of another base station device, such as the first cell, may be referred to as a secondary cell. In this state, the terminal device transmits the control plane (C-plane) data to the first base station device, and the user plane (U-plane) data to the first base station device and the second base station device. (S402, S403). Here, when the RLF occurs in the radio link with the first cell formed by the second base station apparatus, the terminal apparatus detects the RLF, and according to this, the radio quality of the surrounding cells is detected. Measurement is executed (S404). Then, the terminal device selects a cell with a good measurement result (S405), and executes a random access procedure (S406 to S409). This random access procedure conforms to the 4-step random access procedure specified in 3GPP. However, a notification (RLF report) that RLF has occurred is included in either message 1 (random access preamble) or message 3 (message including identification information of the terminal device such as C-RNTI / ID). And transmitted from the terminal device to the switching destination cell (S406, S408). Note that a notification that an RLF has occurred may be included in both of these messages, or a notification that an RLF has occurred may be transmitted separately from these messages. When a radio link is established between the terminal device and the second cell formed by the second base station device by the random access procedure, the second cell acquires untransmitted data from the switching-source first cell ( S410), the data transmission to the terminal device is recovered (S411). Thereby, the terminal device can switch a secondary cell at high speed, without the 1st base station apparatus interposing.
続いて、図5について説明する。図5は、図4のS406~S409のランダムアクセス手順が2ステップのランダムアクセス手順で置き換えられた場合の例を示している。なお、ここでは、図4と共通の処理については、同一の参照番号を付して説明を省略する。この場合、メッセージ1とメッセージ3とに対応する1つのメッセージが端末装置から第2セルへ送信され(S501)、メッセージ2とメッセージ4とに対応する1つのメッセージが第2セルから端末装置へ送信される(S502)。この場合、端末装置は、S501のメッセージにRLFが生じたことの通知を含めて、又はこのメッセージと並行したメッセージによって、RLFが生じたことの通知を第2セルへと通知することができる。このように、用いられる接続処理によらずに、切り替え先のセルに対して、RLFが生じたことを通知することができ、これにより、端末装置へのデータ送信を適切に回復することができる。
Subsequently, FIG. 5 will be described. FIG. 5 shows an example in which the random access procedure of S406 to S409 in FIG. 4 is replaced with a two-step random access procedure. In addition, about the process which is common in FIG. 4, the same reference number is attached | subjected and description is abbreviate | omitted. In this case, one message corresponding to message 1 and message 3 is transmitted from the terminal device to the second cell (S501), and one message corresponding to message 2 and message 4 is transmitted from the second cell to the terminal device. (S502). In this case, the terminal device can notify the second cell of the notification that the RLF has occurred by including the notification that the RLF has occurred in the message of S501 or by a message in parallel with this message. In this way, regardless of the connection process used, it is possible to notify the switching destination cell that RLF has occurred, thereby appropriately recovering data transmission to the terminal device. .
次に、図6について説明する。図6では、ランダムアクセス手順においてRLFが生じたことを通知せず、ランダムアクセス手順(S601~S602)が完了した後に、第2セルにRLFが生じたことを通知する(S603)。これによれば、接続が確立したことが確認され、確実に接続先を切り替えることができるようになった状態で、RLFが発生したことを通知することができ、不必要に切り替え前後のセル間でデータ転送が行われないようにすることができる。なお、図6では、2ステップのランダムアクセス手順が用いられている例を示しているが、4ステップのランダムアクセス手順が用いられても同様の処理が実行可能であることは明らかである。
Next, FIG. 6 will be described. In FIG. 6, the fact that RLF has occurred in the random access procedure is not notified, and after the random access procedure (S601 to S602) is completed, the fact that RLF has occurred is notified to the second cell (S603). According to this, it is possible to notify that RLF has occurred in a state where it is confirmed that the connection has been established and the connection destination can be switched reliably, and unnecessarily between the cells before and after switching. Can prevent data transfer. FIG. 6 shows an example in which a two-step random access procedure is used, but it is obvious that the same processing can be executed even if a four-step random access procedure is used.
最後に、図7について説明する。図7では、図6と同様に、ランダムアクセス手順(S601~S602)が完了した後に、第2セルにRLFが生じたことを通知するが、この通知を、第1の基地局装置を介して行う(S701~S702)。例えば、端末装置は、第2セルとの接続が確立した後に、第1の基地局装置に対して、RLFが生じたこと、そして第2セルとの接続が確立したことを示す情報を通知する(S701)。そして、第1の基地局装置は、RLFが生じたことと、RLFが生じたセルを示す情報を、第2セルへと転送する(S702)。第1の基地局装置は、端末装置から第2セルの情報を取得しているため、RLFが生じたことの通知を第2セルへと転送することができる。また、第1の基地局装置は、第1セルがセカンダリセルとして動作する際の制御を行っているため、RLFが生じたことの通知のみで、第1セルにおいてRLFが生じたことを判定することができる。このように、端末装置が、第1の基地局装置を介して第2セルへとRLFが生じたことを通知することにより、第1の基地局装置によるセル単位での詳細な制御を実現することができる。また、このような通知手法が用いられることにより、例えば、第1セルと第2セルとを形成する基地局装置が異なる場合等の様々な条件下で、セカンダリセルの適切な切り替えを行うことが可能となる。
Finally, FIG. 7 will be described. In FIG. 7, as in FIG. 6, after the random access procedure (S601 to S602) is completed, notification is made that RLF has occurred in the second cell. This notification is sent via the first base station apparatus. This is performed (S701 to S702). For example, after the connection with the second cell is established, the terminal device notifies the first base station device of information indicating that RLF has occurred and that the connection with the second cell has been established. (S701). Then, the first base station apparatus transfers information indicating that the RLF has occurred and information indicating the cell in which the RLF has occurred to the second cell (S702). Since the 1st base station apparatus has acquired the information on the 2nd cell from the terminal unit, it can transfer the notice that RLF occurred to the 2nd cell. In addition, since the first base station apparatus performs control when the first cell operates as a secondary cell, the first base station apparatus determines that RLF has occurred in the first cell only by notification that RLF has occurred. be able to. In this way, the terminal device notifies the second cell via the first base station device that RLF has occurred, thereby realizing detailed control in units of cells by the first base station device. be able to. In addition, by using such a notification method, for example, it is possible to appropriately switch the secondary cell under various conditions such as when base station apparatuses forming the first cell and the second cell are different. It becomes possible.
以上のように、本実施形態によれば、端末装置が、第1の基地局装置が形成したセルでの通信と、第2の基地局装置が形成したセルでの第1の基地局装置の制御下での通信とを並行して行う場合に、第2の基地局装置が形成したセルにおいて無線リンク障害が生じた場合に、代替の無線リンクを高速に確立することが可能となる。
As described above, according to the present embodiment, the terminal device performs communication in the cell formed by the first base station device and the first base station device in the cell formed by the second base station device. When communication under control is performed in parallel, if a radio link failure occurs in a cell formed by the second base station apparatus, an alternative radio link can be established at high speed.
本発明は上記実施の形態に制限されるものではなく、本発明の精神及び範囲から離脱することなく、様々な変更及び変形が可能である。従って、本発明の範囲を公にするために、以下の請求項を添付する。
The present invention is not limited to the above embodiment, and various changes and modifications can be made without departing from the spirit and scope of the present invention. Therefore, in order to make the scope of the present invention public, the following claims are attached.
本願は、2017年3月24日提出の日本国特許出願特願2017-058980を基礎として優先権を主張するものであり、その記載内容の全てを、ここに援用する。
This application claims priority on the basis of Japanese Patent Application No. 2017-058980 filed on Mar. 24, 2017, the entire contents of which are incorporated herein by reference.
Claims (10)
- 第1の基地局装置が形成するセルでの通信と、第2の基地局装置が形成するセルでの前記第1の基地局装置の制御下での通信とを並行して行う端末装置であって、
前記第2の基地局装置が形成する複数のセルのうちの第1のセルでの通信中に、当該第1のセルに関する無線リンク障害を検出する検出手段と、
前記第1のセルに関する無線リンク障害が検出された場合に、前記複数のセルのうちの前記第1のセルと異なる第2のセルへ、前記第1の基地局装置を介さずに接続する接続手段と、
前記第2のセルへ、前記第1のセルに関する無線リンク障害が生じたことの通知を行う通知手段と、
を有することを特徴とする端末装置。 A terminal device that concurrently performs communication in a cell formed by a first base station device and communication under control of the first base station device in a cell formed by a second base station device. And
Detecting means for detecting a radio link failure related to the first cell during communication in the first cell among the plurality of cells formed by the second base station device;
A connection for connecting to a second cell different from the first cell among the plurality of cells without passing through the first base station device when a radio link failure relating to the first cell is detected. Means,
Notifying means for notifying the second cell that a radio link failure has occurred with respect to the first cell;
The terminal device characterized by having. - 前記接続手段は、ランダムアクセス手順を用いて前記第2のセルへ接続する、
ことを特徴とする請求項1に記載の端末装置。 The connection means connects to the second cell using a random access procedure;
The terminal device according to claim 1. - 前記通知手段は、前記接続手段が前記第2のセルへの接続処理を行っている間に、前記通知を行う、
ことを特徴とする請求項1又は2に記載の端末装置。 The notification means performs the notification while the connection means is performing connection processing to the second cell.
The terminal device according to claim 1, wherein the terminal device is a terminal device. - 前記通知手段は、ランダムアクセスプリアンブルの送信時に前記無線リンク障害が生じたことの通知を行う、
ことを特徴とする請求項2に従属する請求項3に記載の端末装置。 The notifying means notifies that the radio link failure has occurred during transmission of a random access preamble;
The terminal device according to claim 3, which is dependent on claim 2. - 前記通知手段は、前記第2のセルからのランダムアクセス応答の受信後に送信されるべき前記端末装置の識別情報の送信時に前記無線リンク障害が生じたことの通知を行う、
ことを特徴とする請求項2に従属する請求項3、又は請求項4に記載の端末装置。 The notifying means notifies that the radio link failure has occurred when transmitting the identification information of the terminal device to be transmitted after receiving a random access response from the second cell;
The terminal device according to claim 3 or claim 4, which is dependent on claim 2. - 前記通知手段は、前記接続手段が前記第2のセルへの接続処理を完了した後に、前記通知を行う、
ことを特徴とする請求項1に記載の端末装置。 The notification means performs the notification after the connection means completes the connection process to the second cell.
The terminal device according to claim 1. - 前記通知手段は、前記第1の基地局装置を通じて前記通知を行う、
ことを特徴とする請求項6に記載の端末装置。 The notification means performs the notification through the first base station device.
The terminal device according to claim 6. - 前記複数のセルは、それぞれ、前記第2の基地局装置が形成する1つ以上のビームを含む、
ことを特徴とする請求項1から7のいずれか1項に記載の端末装置。 Each of the plurality of cells includes one or more beams formed by the second base station apparatus.
The terminal device according to claim 1, wherein the terminal device is a terminal device. - 第1の基地局装置が形成するセルでの通信と、第2の基地局装置が形成するセルでの前記第1の基地局装置の制御下での通信とを並行して行う端末装置の制御方法であって、
検出手段が、前記第2の基地局装置が形成する複数のセルのうちの第1のセルでの通信中に、当該第1のセルに関する無線リンク障害を検出する検出工程と、
接続手段が、前記第1のセルに関する無線リンク障害が検出された場合に、前記複数のセルのうちの前記第1のセルと異なる第2のセルへ、前記第1の基地局装置を介さずに接続する接続工程と、
通知手段が、前記第2のセルへ、前記第1のセルに関する無線リンク障害が生じたことの通知を行う通知工程と、
を有することを特徴とする制御方法。 Control of a terminal apparatus that performs communication in the cell formed by the first base station apparatus and communication under the control of the first base station apparatus in the cell formed by the second base station apparatus in parallel A method,
A detecting step for detecting a radio link failure related to the first cell during communication in the first cell among the plurality of cells formed by the second base station device;
When the connection means detects a radio link failure related to the first cell, the connection means does not pass through the first base station apparatus to the second cell different from the first cell among the plurality of cells. A connection step to connect to,
A notifying step for notifying the second cell that a radio link failure has occurred with respect to the first cell;
A control method characterized by comprising: - 第1の基地局装置が形成するセルでの通信と、第2の基地局装置が形成するセルでの前記第1の基地局装置の制御下での通信とを並行して行う端末装置に備えられたコンピュータに、
前記第2の基地局装置が形成する複数のセルのうちの第1のセルでの通信中に、当該第1のセルに関する無線リンク障害を検出させ、
前記第1のセルに関する無線リンク障害が検出された場合に、前記複数のセルのうちの前記第1のセルと異なる第2のセルへ、前記第1の基地局装置を介さずに接続させ、
前記第2のセルへ、前記第1のセルに関する無線リンク障害が生じたことの通知を行わせる、
ためのプログラム。 Provided in a terminal apparatus that performs communication in the cell formed by the first base station apparatus and communication under the control of the first base station apparatus in the cell formed by the second base station apparatus in parallel Computer
During communication in a first cell among a plurality of cells formed by the second base station device, a radio link failure related to the first cell is detected,
When a radio link failure related to the first cell is detected, the second cell different from the first cell among the plurality of cells is connected without going through the first base station device,
Notifying the second cell that a radio link failure has occurred with respect to the first cell;
Program for.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2017-058980 | 2017-03-24 | ||
JP2017058980A JP2018164137A (en) | 2017-03-24 | 2017-03-24 | Terminal device, control method, and program |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2018173447A1 true WO2018173447A1 (en) | 2018-09-27 |
Family
ID=63584482
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2018/001715 WO2018173447A1 (en) | 2017-03-24 | 2018-01-22 | Terminal device, control method, and program |
Country Status (2)
Country | Link |
---|---|
JP (1) | JP2018164137A (en) |
WO (1) | WO2018173447A1 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020063484A1 (en) * | 2018-09-28 | 2020-04-02 | 华为技术有限公司 | Link detection method and apparatus |
WO2021095321A1 (en) * | 2019-11-12 | 2021-05-20 | Kddi株式会社 | Control device selectively using multiple antennas, terminal device comminicating with control device, communication method, and program |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015116877A1 (en) * | 2014-01-31 | 2015-08-06 | Qualcomm Incorporated | Procedures for managing secondary enb (senb) radio link failure (s-rlf) in dual connectivity scenarios |
WO2015141407A1 (en) * | 2014-03-17 | 2015-09-24 | Kddi株式会社 | Communications device, communications method, and program |
-
2017
- 2017-03-24 JP JP2017058980A patent/JP2018164137A/en active Pending
-
2018
- 2018-01-22 WO PCT/JP2018/001715 patent/WO2018173447A1/en active Application Filing
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015116877A1 (en) * | 2014-01-31 | 2015-08-06 | Qualcomm Incorporated | Procedures for managing secondary enb (senb) radio link failure (s-rlf) in dual connectivity scenarios |
WO2015141407A1 (en) * | 2014-03-17 | 2015-09-24 | Kddi株式会社 | Communications device, communications method, and program |
Non-Patent Citations (3)
Title |
---|
CATT: "CP procedures for LIE and NR interworking", 3GPP TSG- RAN WG2#95 R2-164712, 21 August 2016 (2016-08-21), XP051126475, Retrieved from the Internet <URL:http://www.3gpp.org/ftp/tsg_ran/WG2_RL2/TSGR2_95/Docs/R2-164712.zip> * |
HISILICON, HUAWEI: "RLF for NR", 3GPP TSG-RAN WG2#95BIS R2-167003, 9 October 2016 (2016-10-09), XP051151412, Retrieved from the Internet <URL:http://www.3gpp.org/ftp/tsg_ran/WG2_RL2/TSGR2_95bis/Docs/R2-167003.zip> * |
ITRI: "RRC message related issues for LTE-NR tight interworking", 3GPP TSG-RAN WG2#95BIS R2-166494, 9 October 2016 (2016-10-09), XP051151010, Retrieved from the Internet <URL:http://www.3gpp.org/ftp/tsg_ran/WG2_RL2/TSGR2_95bis/Docs/R2-166494.zip> * |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020063484A1 (en) * | 2018-09-28 | 2020-04-02 | 华为技术有限公司 | Link detection method and apparatus |
US12022548B2 (en) | 2018-09-28 | 2024-06-25 | Huawei Technologies Co., Ltd. | Link detection method and apparatus |
WO2021095321A1 (en) * | 2019-11-12 | 2021-05-20 | Kddi株式会社 | Control device selectively using multiple antennas, terminal device comminicating with control device, communication method, and program |
Also Published As
Publication number | Publication date |
---|---|
JP2018164137A (en) | 2018-10-18 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP7548375B2 (en) | Wireless terminal, wireless station, and method thereof | |
US10939339B2 (en) | Method and apparatus for mobility management | |
US11070998B2 (en) | Apparatus and method for a mobile telecommunications system | |
WO2015059899A1 (en) | Base station device, communication device, control method, and program | |
JP6287842B2 (en) | Wireless communication system, wireless station, wireless terminal, communication control method, and program | |
CN110099419B (en) | Communication switching method and device | |
US20220061042A1 (en) | Enhancing handover performance using radio resource control diversity | |
JP7521048B2 (en) | Terminal device, base station device, and control method and program for wireless communication system in which handover including relay transmission path is performed | |
KR102015445B1 (en) | Method and apparatus for establishing interface | |
WO2018173447A1 (en) | Terminal device, control method, and program | |
CN113225750B (en) | Information reporting and acquiring method, terminal and network side equipment | |
WO2018196083A1 (en) | Method and apparatus for secondary base station change | |
JP6527783B2 (en) | Base station apparatus, communication apparatus, control method and program | |
WO2019146204A1 (en) | Terminal device, relay device, control method and program |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 18771191 Country of ref document: EP Kind code of ref document: A1 |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
122 | Ep: pct application non-entry in european phase |
Ref document number: 18771191 Country of ref document: EP Kind code of ref document: A1 |