WO2020090773A1 - 端末装置、基地局装置、および方法 - Google Patents
端末装置、基地局装置、および方法 Download PDFInfo
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- WO2020090773A1 WO2020090773A1 PCT/JP2019/042255 JP2019042255W WO2020090773A1 WO 2020090773 A1 WO2020090773 A1 WO 2020090773A1 JP 2019042255 W JP2019042255 W JP 2019042255W WO 2020090773 A1 WO2020090773 A1 WO 2020090773A1
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- information element
- setting information
- radio bearer
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/12—Setup of transport tunnels
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0273—Traffic management, e.g. flow control or congestion control adapting protocols for flow control or congestion control to wireless environment, e.g. adapting transmission control protocol [TCP]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W80/00—Wireless network protocols or protocol adaptations to wireless operation
- H04W80/04—Network layer protocols, e.g. mobile IP [Internet Protocol]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/11—Allocation or use of connection identifiers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/19—Connection re-establishment
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/22—Manipulation of transport tunnels
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W80/00—Wireless network protocols or protocol adaptations to wireless operation
- H04W80/08—Upper layer protocols
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/04—Interfaces between hierarchically different network devices
- H04W92/10—Interfaces between hierarchically different network devices between terminal device and access point, i.e. wireless air interface
Definitions
- the present invention relates to a terminal device, a base station device, and a method.
- the present application claims the priority of Japanese Patent Application No. 2018-205078 filed in Japan on October 31, 2018, the contents of which are incorporated herein by reference.
- a wireless access method and wireless network of cellular-mobile communication (hereinafter, referred to as “Long Term Evolution (LTE: registered trademark)” or “Evolved Universal Terrestrial Radio Access: EUTRA”), and a core network (hereinafter, “Evolved”).
- LTE Long Term Evolution
- EUTRA Evolved Universal Terrestrial Radio Access
- Evolved Packet Core: EPC
- 3rd Generation Partnership Project 3rd Generation Partnership Project: 3GPP
- LTE-Advanced Pro which is an extension technology of LTE
- NR New Radio technology
- 5GC 5 Generation Core Network
- 3GPP RP-170855 "Work Item on New Radio (NR) Access Technology” 3GPP TS 23.501 v. 15.3.0, “System Architecture for the 5G System; Stage 2” 3GPP TS 36.300 v. 15.3.0, “Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); 3GPP TS 36.331 v. 15.3.0, "Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC); Protocol specifications” 3GPP TS 36.323 v.
- NR New Radio
- E-UTRA Evolved Universal Terrestrial Radio Access
- PDCP Packet Data Convergence Protocol
- E-UTRA Packet Data Convergence Protocol
- RLC Radio Link Control
- E-UTRA Medium Access Control
- MAC Medium Access Control
- 3GPP TS 23.502 v. 15.3.0 “Procedure for 5G System; Stage 2”
- 3GPP TS 37.324 v. 15.1.0 "NR; Service Data Adaptation Protocol (SDAP) specification”
- a wireless access layer protocol for performing QoS (Quality of Service) management between upper layers above the IP (Internet Protocol) layer (layer) and the wireless access layer of NR is considered. ing.
- One aspect of the present invention has been made in view of the above circumstances, and is a terminal device capable of efficiently performing communication with a base station device, a base station device, a method used for the terminal device, and the base station.
- One of the objects is to provide a method used in an apparatus.
- a terminal device that communicates with a base station device, including a receiving unit that receives an RRC (Radio Resource Control) reset message including a radio bearer setting information element from the base station device, and a processing unit, and The processing unit is configured such that the radio bearer identifier included in the radio bearer setting information element does not exist in the setting of the terminal device, the radio bearer setting information element includes a SDAP (Service Data Adaptation Protocol) setting information element, and the SDAP If the SDAP entity corresponding to the PDU (Protocol Data Unit) session information element included in the setting information element does not exist, the SDAP entity is established and the radio bearer identifier included in the radio bearer setting information element is set to the end.
- RRC Radio Resource Control
- the radio bearer configuration information element does not exist in the device configuration, the SDAP configuration information element is included, the SDAP entity corresponding to the PDU session information element included in the SDAP configuration information element does not exist, and the RRC reconfiguration message is present. If the SDP entity corresponding to the PDU session information element does not exist before receiving the message, the upper layer is notified that the user plane resource (user-plane resources) for the PDU session has been established. ..
- an aspect of the present invention is a base station device that communicates with a terminal device, the terminal device, a transmission unit for transmitting an RRC (Radio Resource Control) reconfiguration message including a radio bearer configuration information element, and And a processing unit that causes the terminal device to perform processing by including a radio bearer setting information element in the RRC reconfiguration message, wherein the processing is such that the radio bearer identifier included in the radio bearer setting information element is the terminal device.
- the radio bearer setting information element includes an SDAP (Service Data Adaptation Protocol) setting information element.
- the radio bearer identifier included in the radio bearer setting information element does not exist in the setting of the terminal device, the radio bearer setting information element includes an SDP setting information element, and the PDU session information element included in the SDAP setting information element If the SDAP entity corresponding to the PDU session information element does not exist before the terminal device receives the RRC reconfiguration message, the PDU is added to the upper layer. Processing for notifying that user-plane resources for a session have been established.
- one aspect of the present invention is a communication method used for a terminal device that communicates with a base station device, comprising receiving an RRC (Radio Resource Control) reconfiguration message including a radio bearer configuration information element from the base station device,
- RRC Radio Resource Control
- the radio bearer identifier included in the radio bearer setting information element does not exist in the setting of the terminal device
- the radio bearer setting information element includes a SDAP (Service Data Adaptation Protocol) setting information element
- the SDAP setting information element is included in the SDAP setting information element.
- the radio bearer setting information element includes an SDAP setting information element, the SDAP entity corresponding to the PDU session information element included in the SDAP setting information element does not exist, and the RRC reconfiguration message is received. If no SDAP entity corresponding to the PDU session exists before the above, the upper layer is notified that a user plane resource (user-plane resources) for the PDU session information element has been established.
- one aspect of the present invention is a communication method used for a base station device that communicates with a terminal device, wherein an RRC (Radio Resource Control) reconfiguration message including a radio bearer configuration information element is transmitted to the terminal device,
- RRC Radio Resource Control
- the terminal device is caused to perform processing, and the processing is such that the radio bearer identifier included in the radio bearer setting information element is present in the setting of the terminal device.
- the radio bearer setting information element includes a SDAP (Service Data Adaptation Protocol) setting information element, and there is no SDP entity corresponding to the PDU (Protocol Data Unit) session information element included in the SDAP setting information element.
- SDAP Service Data Adaptation Protocol
- the process of establishing the SDAP entity, the radio bearer identifier included in the radio bearer setting information element does not exist in the setting of the terminal device, the radio bearer setting information element includes the SDAP setting information element, There is no SDAP entity corresponding to the PDU session information element included in the SDP setting information element, and the SDAP entity corresponding to the PDU session information element exists before the terminal device receives the RRC reconfiguration message. If not, the process includes notifying the upper layer that the user plane resource (user-plane resources) for the PDU session information element has been established.
- the terminal device can reduce the complexity of protocol processing and can perform communication efficiently.
- FIG. 1 is a schematic diagram of a communication system according to each embodiment of the present invention.
- FIG. 2A is a UP protocol stack diagram of a terminal device and a base station device in E-UTRA according to each embodiment of the present invention.
- FIG. 2B is a CP protocol stack diagram.
- FIG. 3A is a protocol stack diagram of UP of a terminal device and a base station device in NR in each embodiment of the present invention.
- FIG. 3B is a protocol stack diagram of CPs of a terminal device and a base station device in NR in each embodiment of the present invention.
- the block diagram which shows the structure of the terminal device in each embodiment of this invention.
- the block diagram which shows the structure of the base station apparatus in each embodiment of this invention.
- Information related to radio bearer setting in each embodiment of the present invention and ASN.
- the figure which shows an example of the processing method in embodiment of this invention The figure which shows another example of the processing method in embodiment of this invention.
- LTE (and LTE-A Pro) and NR may be defined as different RATs.
- NR may also be defined as a technology included in LTE.
- LTE may be defined as a technology included in NR.
- the LTE that can be connected by NR and Multi RAT Dual connectivity (MR-DC) described in Non-Patent Document 7 may be distinguished from conventional LTE.
- MR-DC Multi RAT Dual connectivity
- This embodiment may be applied to NR, LTE and other RATs. Although the following description uses terms related to LTE and NR, they may be applied to other techniques using other terms.
- E-UTRA in this embodiment may be replaced with the term LTE
- LTE may be replaced with the term E-UTRA.
- FIG. 1 is a schematic diagram of a communication system according to each embodiment of the present invention.
- E-UTRA100 is a radio access technology described in Non-Patent Document 3 and the like, and is composed of a cell group (Cell Group: CG) configured by one or a plurality of frequency bands.
- the eNB (E-UTRAN Node B) 102 is an E-UTRA base station device.
- EPC (Evolved Packet Core) 104 is a core network described in Non-Patent Document 14 and the like, and was designed as an E-UTRA core network.
- the interface 112 is an interface between the eNB 102 and the EPC 104, and has a control plane (Control Plane: CP) through which a control signal passes and a user plane (User Plane: UP) through which the user data passes.
- Control Plane: CP Control Plane
- User Plane: UP User Plane
- NR106 is a radio access technology described in Non-Patent Document 9 and the like, and is composed of a cell group (Cell Group: CG) configured by one or a plurality of frequency bands.
- the gNB (g Node B) 108 is an NR base station device.
- the 5GC 110 is a core network described in Non-Patent Document 2 and the like, and is designed as an NR core network, but may be used as an E-UTRA core network having a function of connecting to 5CG.
- E-UTRA may include E-UTRA having a function of connecting to 5CG.
- the interface 114 is the interface between the eNB 102 and the 5GC 110
- the interface 116 is the interface between the gNB 108 and the 5GC 110
- the interface 118 is the interface between the gNB 108 and the EPC 104
- the interface 120 is the interface between the eNB 102 and the gNB 108
- the interface 124 is the EPC 104 and the 5GC 110. Is an interface between.
- the interface 114, the interface 116, the interface 118, the interface 120, and the interface 124 are interfaces that pass only CP, only UP, or both CP and UP.
- the interface 114, the interface 116, the interface 118, the interface 120, and the interface 124 may not exist depending on the communication system provided by the communication carrier.
- UE 122 is a terminal device compatible with NR or compatible with both E-UTRA and NR.
- FIG. 2 is a protocol stack diagram of UP and CP of the terminal device and the base station device in the E-UTRA radio access layer in each embodiment of the present invention.
- FIG. 2A is a protocol stack diagram of the UP used when the UE 122 in the E-UTRA 100 communicates with the eNB 102.
- the PHY (Physical layer) 200 is a wireless physical layer (wireless physical layer), and provides a transmission service to an upper layer (upper layer) using a physical channel (Physical Channel).
- the PHY 200 is connected to a higher-order MAC (Medium Access Control layer) 202 described later by a transport channel (Transport Channel). Data moves between the MAC 202 and the PHY 200 via the transport channel. Data is transmitted and received between the PHY of the UE 122 and the eNB 102 via a wireless physical channel.
- the MAC 202 is a medium access control layer (medium access control layer) that maps various logical channels (Logical Channels) to various transport channels.
- the MAC 202 is connected to a higher-order RLC (Radio Link Control layer) 204 described later by a logical channel.
- Logical channels are roughly classified according to the type of information to be transmitted, and are divided into a control channel for transmitting control information and a traffic channel for transmitting user information.
- the MAC 202 has a function of controlling the PHY 200 for performing discontinuous transmission (DRX / DTX), a function of executing a random access (Random Access) procedure, a function of notifying transmission power information, a function of performing HARQ control, and the like.
- DRX / DTX discontinuous transmission
- Random Access random access
- the RLC 204 divides the data received from the higher-order PDCP (Packet Data Convergence Protocol Layer) 206 described later, and adjusts the data size so that the lower layer (lower layer) can appropriately transmit the data.
- Wireless link control layer radio link control layer
- the RLC 200 also has a function for guaranteeing the QoS (Quality of Service) required by each data. That is, the RLC 204 has functions such as data retransmission control (Non-Patent Document 6).
- the PDCP 206 is a packet data convergence protocol layer (packet data convergence protocol layer) for efficiently transmitting an IP packet (IP Packet) that is user data in a wireless section.
- the PDCP 206 may have a header compression function that compresses unnecessary control information.
- the PDCP 206 may also have a data encryption function (Non-Patent Document 5).
- the data processed by the MAC 202, RLC 204, and PDCP 206 are called MAC PDU (Protocol Data Unit), RLC PDU, and PDCP PDU, respectively.
- MAC PDU Protocol Data Unit
- RLC PDU Physical Location
- PDCP PDU Physical Downlink Control Protocol
- the data passed from the upper layer to the MAC 202, RLC 204, PDCP 206, or the data passed to the upper layer are called MAC SDU (Service Data Unit), RLC SDU, and PDCP SDU, respectively.
- 2B is a protocol stack diagram of the CP used when the UE 122 communicates with the eNB 102 in the E-UTRA 100.
- RRC Radio Resource Control layer
- the RRC 208 is a radio link control layer (radio link control layer) that sets / reconfigures a radio bearer (RB) and controls a logical channel, a transport channel, and a physical channel.
- the RB may be divided into a Signaling Radio Bearer (SRB) and a Data Radio Bearer (DRB), and the SRB is used as a route for transmitting an RRC message that is control information. May be.
- the DRB may be used as a route for transmitting user data.
- Each RB may be set between the RRC 208 of the eNB 102 and the UE 122 (Non-Patent Document 4).
- the above-mentioned function classification of the MAC 202, RLC 204, PDCP 206, and RRC 208 is an example, and some or all of each function may not be implemented. Further, some or all of the functions of each layer may be included in another layer.
- the IP layer and the TCP (Transmission Control Protocol) layer, the UDP (User Datagram Protocol) layer, and the application layer above the IP layer are upper layers of the PDCP layer (not shown).
- the RRC layer and the NAS (non Access Stratum) layer are also upper layers of the SDAP layer (not shown).
- the PDCP layer is a lower layer of the RRC layer, the NAS layer, the IP layer, and the TCP (Transmission Control Protocol) layer, the UDP (User Datagram Protocol) layer, and the application layer above the IP layer.
- FIG. 3 is a protocol stack diagram of UP and CP of the terminal device and the base station device in the NR radio access layer in each embodiment of the present invention.
- 3A is a protocol stack diagram of the UP used when the UE 122 communicates with the gNB 108 in the NR 106.
- the PHY (Physical layer) 300 is an NR wireless physical layer (wireless physical layer), and may provide a transmission service to an upper layer by using a physical channel (Physical Channel).
- the PHY 300 may be connected to a higher-level MAC (Medium Access Control layer) 302, which will be described later, by a transport channel (Transport Channel). Data may move between the MAC 302 and the PHY 300 via the transport channel. Data may be transmitted and received between the PHY of the UE 122 and the gNB 108 via a wireless physical channel.
- the MAC 302 is a medium access control layer (medium access control layer) that maps various logical channels (Logical Channels) to various transport channels.
- the MAC 302 may be connected to a higher-level RLC (Radio Link Control layer) 304 described later by a logical channel.
- the logical channel is roughly classified according to the type of information to be transmitted, and may be divided into a control channel for transmitting control information and a traffic channel for transmitting user information.
- the MAC 302 has a function of controlling the PHY 300 for performing intermittent transmission (DRX / DTX), a function of executing a random access (Random Access) procedure, a function of notifying transmission power information, a function of performing HARQ control, and the like. You may have (nonpatent literature 13).
- the RLC 304 divides the data received from a higher-order PDCP (Packet Data Convergence Protocol Layer) 206, which will be described later, (Segmentation), and adjusts the data size so that the lower layer can appropriately transmit the data. It is a layer (radio link control layer).
- the RLC 304 may also have a function of guaranteeing the QoS (Quality of Service) required by each data. That is, the RLC 304 may have functions such as data retransmission control (Non-Patent Document 12).
- PDCP 306 is a packet data convergence protocol layer (packet data convergence protocol layer) that efficiently transmits an IP packet (IP Packet) that is user data in a wireless section.
- the PDCP 306 may have a header compression function that compresses unnecessary control information.
- the PDCP 306 may also have a data encryption function (Non-Patent Document 11).
- the SDAP (Service Data Adaptation Protocol) 310 associates downlink QoS flows sent from the core network to the terminal device via the base station device with the DRB (mapping), and the terminal device via the base station device.
- Service data adaptation protocol layer service data adaptation protocol layer having a function of performing mapping between an uplink QoS flow sent to the core network and DRB and storing mapping rule information (Non-patent document 16).
- the terminal device receives the SDAP SDU from the upper layer together with the QoS flow information, the SDAP SDU is assigned to the corresponding DRB based on the stored QoS flow and DRB mapping rule. If the QoS flow and DRB mapping rule is not stored, SDP SDU may be assigned to the default radio bearer (default DRB).
- the QoS flow is composed of one or more service data flows (Service Data Flow: SDF) processed by the same QoS policy (Non-Patent Document 2).
- the SDAP may have a reflective QoS (Reflective QoS) function of mapping the uplink QoS flow and the DRB based on the information of the downlink QoS flow.
- an end marker (End Marker) DPU is created and sent to the DRB before the change, so that the SDAP SDU is delivered in order (in- The sequence delivery may be guaranteed (Non-patent document 2, Non-patent document 16).
- the end marker PDU is the SDAP control PDU described in Non-Patent Document 16, in which the SDAP entity of the UE corresponds to the QoS flow identifier included in the QoS flow identifier field of the end marker PDU, and the end marker PDU. Is used to notify that the mapping with the transmitted radio bearer is completed.
- the IP layer and the TCP (Transmission Control Protocol) layer, the UDP (User Datagram Protocol) layer, and the application layer above the IP layer are upper layers of the SDP layer (not shown).
- the RRC layer and the NAS (non Access Stratum) layer are also upper layers of the SDAP layer (not shown).
- the SDAP layer is a lower layer of the RRC layer, the NAS layer, the IP layer, and the TCP (Transmission Control Protocol) layer, the UDP (User Datagram Protocol) layer, and the application layer above the IP layer.
- the data processed by the MAC 302, RLC 304, PDCP 306, and SDAP 310 may be called MAC PDU (Protocol Data Unit), RLC PDU, PDCP PDU, and SDP PDU, respectively.
- MAC PDU Protocol Data Unit
- RLC PDU Packet Data Unit
- PDCP PDU Packet Data Unit
- SDP PDU Session Data Unit
- the data passed from the upper layer to the MAC 202, RLC 204, PDCP 206, or the data passed to the upper layer may be called MAC SDU (Service Data Unit), RLC SDU, PDCP SDU, and SDAP SDU, respectively.
- MAC SDU Service Data Unit
- FIG. 3B is a protocol stack diagram of a CP used when the UE 122 communicates with the gNB 108 in the NR 106.
- the RRC 308 is a radio link control layer (radio link control layer) that sets and resets a radio bearer (RB) and controls a logical channel, a transport channel, and a physical channel.
- the RB may be divided into a Signaling Radio Bearer (SRB) and a Data Radio Bearer (DRB), and the SRB is used as a route for transmitting an RRC message that is control information. May be.
- the DRB may be used as a route for transmitting user data.
- Each RB may be set between the gNB 108 and the RRC 308 of the UE 122. Further, a part of the RB that is composed of the RLC 304 and the MAC 302 may be called an RLC bearer (Non-Patent Document 10).
- the above-mentioned functional classification of the MAC 302, RLC 304, PDCP 306, SDAP 310, and RRC 308 is an example, and some or all of the functions may not be implemented. Further, some or all of the functions of each layer (each layer) may be included in another layer (layer).
- the MAC 202, RLC 204, PDCP 206, and RRC 208 are referred to as E-UTRA MAC or LTE MAC and E-UTRA, respectively, in order to distinguish the E-UTRA protocol from the NR protocol.
- RLC for LTE or RLC for LTE PDCP for E-UTRA or PDCP for LTE
- RRC for E-UTRA or RRC for LTE.
- the MAC 302, RLC 304, PDCP 306, and RRC 308 may be referred to as NR MAC, NR RLC, NR RLC, and NR RRC, respectively.
- the eNB 102, gNB 108, EPC 104, and 5GC 110 may be connected via the interface 112, the interface 116, the interface 118, the interface 120, and the interface 114. Therefore, the RRC 208 of FIG. 2 may be replaced with the RRC 308 of FIG. 3 to support various communication systems.
- the PDCP 206 in FIG. 2 may be replaced with the PDCP 306 in FIG.
- the RRC 308 of FIG. 3 may include the function of the RRC 208 of FIG.
- the PDCP 306 in FIG. 3 may be the PDCP 206 in FIG.
- the NR PDCP may be used as the PDCP even when the UE 122 communicates with the eNB 102.
- FIG. 4 is a diagram showing an example of a flow of an RRC reconfiguration procedure in each embodiment of the present invention.
- the RRC reconfiguration procedure may be an RRC connection reconfiguration procedure.
- the RRC connection reconfiguration procedure (RRC Connection Reconfiguration) is described in Non-Patent Document 4, in which establishment, change, release of a radio bearer (Radio Bearer: RB) in LTE, change of secondary cell, release, etc. are performed. , A procedure used for setting handover, measurement, and the like.
- the RRC reconfiguration procedure (RRC Reconfiguration) performs the settings such as establishment, change and release of RB in NR and change and release of secondary cell described in Non-Patent Document 10, and handover (reconfiguration with synchronization). ) And measurement (Measurement).
- the information included in each message in the RRC connection re-establishment procedure is used to implement the present invention in order to perform the settings such as establishment, change, release of RB, change, release of secondary cell, handover, and measurement described above.
- it is called setting information.
- the setting information is not limited to the above-mentioned setting, may be another setting, and is not limited to the RRC connection re-setting procedure, and may be included in each message in another procedure.
- the RRC connection re-establishment procedure is performed in MR-DC (Multi-RAT Dual Connectivity) described in Non-Patent Document 8 when the core network is the EPC 104 and the master node is the eNB 102 (also referred to as an extended eNB 102).
- MR-DC Multi-RAT Dual Connectivity
- the RRC connection re-establishment procedure includes not only LTE (E-UTRA) configuration information but also Non-Patent Document 10
- the setting information of NR described in the above may be included.
- the RRC connection reconfiguration message may be transmitted from the eNB 102 to the UE 122 via the gNB 108.
- the RRC reconfiguration procedure is performed by MR-DC, particularly when the core network is 5GC110 and the master node is gNB108, that is, NE-DC (NR-E-UTRA Dual Connectivity) (Non-Patent Document 17).
- NE-DC NR-E-UTRA Dual Connectivity
- Non-Patent Document 17 NE-DC (NR-E-UTRA Dual Connectivity)
- the option 4 and the option 4a) described in [4] may be used.
- not only the NR setting information but also the LTE (E-UTRA) setting information described in Non-Patent Document 10 is used for the RRC reconfiguration procedure. May be included.
- the RRC reconfiguration message may be transmitted from the gNB 108 to the UE 122 via the eNB 102.
- the UE 122 receives the RRC reconfiguration message (RRCReconfiguration) from the gNB 108 (step S400), and performs various settings according to the information included in the RRC reconfiguration message, for example, radio bearer setting and SDAP setting processing. Is performed (step S402).
- the UE 122 may send an RRC reconfiguration complete message (RRCReconfigurationComplete) to the gNB 108 (not shown).
- the RRC reconfiguration message may be restated as RRC reconfiguration, and the RRC reconfiguration completion message may be restated as RRC reconfiguration completion.
- FIG. 5 is a block diagram showing the configuration of the terminal device (UE 122) in each embodiment of the present invention. It should be noted that, in order to avoid making the description complicated, FIG. 5 shows only the main components closely related to the present invention.
- the UE 122 illustrated in FIG. 5 includes a reception unit 500 that receives an RRC reconfiguration message or the like from the gNB 108, various information elements (IE: Information Element) included in the received message, and / or (and / or) various fields, and And / or a processing unit 502 that performs processing according to setting information such as various conditions.
- IE Information Element
- FIG. 6 is a block diagram showing the configuration of the base station device (gNB 108) in each embodiment of the present invention. It should be noted that, in order to avoid complicating the description, FIG. 6 shows only the main components closely related to the present invention.
- the gNB 108 illustrated in FIG. 6 includes a transmission unit 600 that transmits an RRC reconfiguration message or the like to the UE 122, and various information elements (IE: Information Element), and / or various fields, and / or configuration information such as various conditions.
- a processing unit 602 that causes the processing unit 502 of the UE 122 to perform processing by creating an RRC reconfiguration message and transmitting the RRC reconfiguration message to the UE 122.
- the configuration shown in FIG. 6 may be applied to the eNB 102.
- the message transmitted from the transmission unit 600 to the UE 122 may be an RRC connection reconfiguration message.
- FIG. 7 shows ASN.3 representing the information elements included in the RRC reconfiguration message in FIG. 4 in the first embodiment of the present invention.
- 1 is an example of the (Abstract Syntax Notation One) description.
- specifications related to RRC Non-Patent Document 4, Non-Patent Document 10
- ASN. In the example of No. 1, ⁇ Omitted> and ⁇ Omitted> are ASN. It indicates that other information is omitted, not a part of the notation of 1. The information element may be omitted even where there is no description of ⁇ omitted> or ⁇ omitted>. Note that ASN. 1 is ASN.
- the information element represented by DRB-ToAddModList or DRBToAddMod in FIG. 7 may be a list of information indicating the setting of the DRB (data radio bearer) to be added or changed, and in the embodiment of the present invention radio bearer setting information It may be paraphrased as an element or a data radio bearer information element.
- the information element represented by DRB-Identity in the radio bearer setting information element is information on the DRB identifier of the DRB to be added or changed, and in the embodiment of the present invention, the radio bearer identifier information element or the data radio bearer. It may be paraphrased as an identifier information element. In the example of FIG. 7, an integer value of 1 to 32 is used, but another value may be used. For DC, the DRB identifier is unique within the scope of UE 122.
- the information element represented by cnAssociation in the radio bearer setting information element may be an information element indicating whether the EPC 104 is used in the core network or the 5GC 110 is used. In the embodiment of the present invention, the core network is used. It may be paraphrased as an association information element. That is, when the UE 122 connects to the EPC, the DRB is associated with the EPS bearer identifier information element (eps-Bearer Identity) in cnAssociation or the EPS bearer identifier that is the value of the EPS bearer identifier information element, and the UE 122 connects with the 5GC 110.
- EPS bearer identifier information element eps-Bearer Identity
- the DRB is the SDAP entity set according to the SDAP setting information element (sdap-Config) described below, or the PDU session information element described below or the value of the PDU session information element included in the SDAP setting information element. It may be associated with a PDU session identifier or the PDU session indicated by the PDU session information element. That is, the information represented by cnAssociation includes an EPS bearer identifier information element (eps-BearerIdentity) when the EPC 104 is used in the core network when using EN-DC, and when using the core network 5GC110, that is, When EN-DC is not used, an information element (sdap-Config) indicating SDAP setting may be included.
- EPS bearer identifier information element eps-BearerIdentity
- the information element represented by sdap-Config may be information regarding the setting or re-setting of the SDAP entity that determines the correspondence (map) method of the QoS flow and the DRB when the core network is 5GC110, In the embodiment of the present invention, it may be paraphrased as SDAP setting information element.
- the field or information element indicated by pdu-session or PDU-SessionID included in the SDAP setting information element corresponds to the value of the radio bearer identifier information element included in the radio bearer setting information element including this SDAP setting information element.
- the identifier of the PDU session described in Non-Patent Document 2 to which the QoS flow associated with the radio bearer belongs may be used, and may be paraphrased as a PDU session information element in the embodiment of the present invention.
- the value of the PDU session information element may be a non-negative integer.
- the information element indicated by mappedQoS-FlowsToAdd included in the SDAP setting information element corresponds to the radio bearer corresponding to the value of the radio bearer identifier information element included in the radio bearer setting information element including this SDAP setting information element (map). ) Or added (map), which may be information indicating a list of a QoS flow identifier (QFI: QoS Flow Identity) information element described later of the QoS flow, which is added in the embodiment of the present invention. It may be paraphrased as a QoS flow information element.
- QFI QoS Flow Identity
- the information element indicated by mappedQoS-FlowsToRelease included in the SDAP setting information element corresponds to the radio bearer corresponding to the value of the radio bearer identifier information element included in the radio bearer setting information element including the SDAP setting information element. It may be information indicating a list of a QoS flow identifier (QFI: QoS Flow Identity) information element, which will be described later, of the QoS flow that releases the correspondence among the (map) QoS flows. In the form, it may be paraphrased as a QoS flow information element to be released.
- QFI QoS Flow Identity
- the above-mentioned QoS flow may be the QoS flow of the PDU session indicated by the PDU session information element included in this SDAP setting information element.
- the information element indicated by QFI may be the QoS flow identifier uniquely identifying the QoS flow described in Non-Patent Document 2, and may be paraphrased as the QoS flow identifier information element in the embodiment of the present invention.
- the value of the QoS flow identifier information element may be a non-negative integer. Also, the value of the QoS flow identifier information element may be unique to the PDU session.
- the SDAP setting information element also includes an uplink header information element indicating whether or not an uplink SDAP header is present in the uplink data transmitted via the set DRB, and the set DRB.
- a downlink header information element indicating whether or not a downlink SDAP header is present in the downlink data to be received and received, and a default bearer information element indicating whether or not the DRB to be set is a default radio bearer (default DRB) Etc. may be included.
- the information element represented by pdcp-Config or PDCP-Config in the radio bearer setting information element is information about the setting of the NR PDCP entity for establishing or changing the PDCP 306 for SRB or DRB.
- it may be paraphrased as a PDCP setting information element.
- the information on the setting of the NR PDCP entity includes information indicating the size of the uplink sequence number, information indicating the size of the downlink sequence number, information indicating the profile of header compression (RoHC: RObust Header Compression), and reordering ( Re-ordering) timer information and the like may be included.
- the information element represented by DRB-ToReleaseList in the radio bearer setting information element may be list information of the DRB identifier of the DRB to be released, and in the embodiment of the present invention, the radio bearer information element to be released, Or it may be paraphrased as a data radio bearer information element to be released.
- the information elements shown in FIG. 7 may be optional. That is, the information elements shown in FIG. 7 may be included in the RRC reconfiguration message depending on the necessity and conditions.
- the processing unit 602 of the gNB 108 creates an RRC reconfiguration message including a radio bearer configuration information element for causing the UE 122 to perform processing, and transmits it from the transmission unit 600 to the UE 122 (not shown).
- the receiving unit 500 of the UE 122 receives the RRC reconfiguration message from the gNB 108 (step S800). Note that the UE 122 may receive the RRC message including the radio bearer setting information element described above from the eNB 102.
- the processing unit 502 of the UE 122 determines whether the value of the radio bearer identifier information element included in the radio bearer setting information element described above is set in the UE 122, and the SDAP setting information element in the radio bearer setting information element described above. Is included, the value of the radio bearer identifier information element included in the radio bearer setting information element described above is not set in the UE 122, and / or SDAP is set in the radio bearer setting information element described above. Based on the fact that the setting information element is included, the process of step S804 described later is performed (step S802).
- the processing unit 502 of the UE 122 determines whether or not the SDAP entity corresponding to the PDU session indicated by the PDU session information element included in the SDAP setting information element described above is present, and is included in the SDAP setting information element described above. , SDP entity corresponding to the PDU session indicated by the PDU session information element does not exist, the process of step S806 and / or step S808 is performed (step S804).
- the processing unit 502 of the UE 122 establishes an SDAP entity (step S806).
- the DRB corresponding to the value of the radio bearer identifier information element may be established by establishing the PDCP entity or the like before establishing the SDAP entity described above.
- the SDAP entity may be further set or reset. Further, when the SDAP entity is set or reset, the above-mentioned established DRB may be associated with the above-mentioned SDAP entity.
- the processing unit 502 of the UE 122 determines, before receiving the above-mentioned RRC re-establishment message, whether or not the SDP entity corresponding to the above-mentioned PDU session was present, and before receiving the above-mentioned RRC re-establishment message. , Based on the fact that the SDAP entity corresponding to the above-mentioned PDU session does not exist, the upper layer is notified that "a user plane resource (user-plane resources) for the above-mentioned PDU session has been established". (Step S808). Note that "the user plane resource (user-plane resources) for the above PDU session has been established" means that "the user plane resource (user-plane resources) for the above PDU session has been set", etc. You may paraphrase it with the expression.
- the user plane resource for the above-mentioned PDU session has been established means “a QoS flow identifier information element included in the additional QoS flow information element included in the above-mentioned SDAP setting information element or a QoS flow identifier information element. In other words, the correspondence rule between the QoS flow and the radio bearer corresponding to the value is stored.
- “Notifying that the user plane resource for the PDU session is established” may be, for example, notifying the upper layer of the above-mentioned PDU session identifier information element or the value of the PDU session identifier information element.
- the above-mentioned QoS flow identifier information element or the value of the QoS flow identifier information element may be notified to the upper layer at the same time, or the above-mentioned PDU session identifier information element or the above-mentioned PDU session identifier information element value.
- the above QoS flow identifier information element or the value of the QoS identifier information element may be notified to the upper layer.
- determining whether or not there is an SDAP entity corresponding to the above-mentioned PDU session before receiving the above-mentioned RRC reconfiguration message means “establishing the above-mentioned SDAP entity (in step S806). , It is judged whether or not there is a result of the full setting. " In addition, "based on the fact that the SDAP entity corresponding to the above-mentioned PDU session does not exist before receiving the above-mentioned RRC reconfiguration message", means “establishment of the above-mentioned SDAP entity (in step S806)". However, it is not based on the result of the full setting ”.
- step S808 "the SDP entity corresponding to the above-mentioned PDU session does not exist before receiving the above-mentioned RRC re-establishment message” means “receive the above-mentioned RRC re-establishment message.” Before, it may be paraphrased as a condition (else) other than that, that the SDAP entity corresponding to the above-mentioned PDU session existed. " Further, “the establishment of the SDAP entity (in step S806) described above is not the result of the full setting” means that the establishment of the SDAP entity described above (in step S806) is the result of the full configuration. May be paraphrased as other conditions (else).
- the processing unit 602 of the gNB 108 creates an RRC reconfiguration message including a radio bearer configuration information element for causing the UE 122 to perform processing, and transmits it from the transmission unit 600 to the UE 122 (not shown).
- the reception unit 500 of the UE 122 receives the RRC reconfiguration message from the gNB 108 (step S900). Note that the UE 122 may receive the RRC message including the radio bearer setting information element described above from the eNB 102.
- the processing unit 502 of the UE 122 determines whether the value of the radio bearer identifier information element included in the radio bearer setting information element described above is set in the UE 122, and the SDAP setting information element in the radio bearer setting information element described above. Is included, the value of the radio bearer identifier information element included in the radio bearer setting information element described above is not set in the UE 122, and / or SDAP is set in the radio bearer setting information element described above. Based on the fact that the setting information element is included, the process of step S904 described later is performed (step S902).
- the processing unit 502 of the UE 122 determines whether or not the SDAP entity corresponding to the PDU session indicated by the PDU session information element included in the SDAP setting information element described above is present, and is included in the SDAP setting information element described above. , SDP entity corresponding to the PDU session indicated by the PDU session information element does not exist, the processing of step S906 described later and / or step S908 described later is performed (step S904).
- the processing unit 502 of the UE 122 establishes an SDAP entity (step S806).
- the DRB corresponding to the value of the radio bearer identifier information element may be established by establishing the PDCP entity or the like before establishing the SDAP entity described above.
- the SDAP entity may be further set or reset. Further, when the SDAP entity is set or reset, the above-mentioned established DRB may be associated with the above-mentioned SDAP entity.
- the processing unit 502 of the UE 122 determines, before receiving the above-mentioned RRC re-establishment message, whether or not the SDP entity corresponding to the above-mentioned PDU session was present, and before receiving the above-mentioned RRC re-establishment message. Then, based on the existence of the SDAP entity corresponding to the PDU session described above, the established SDAP entity (in step S906) is associated with the PDU session described above (step S908).
- determining whether or not there is an SDAP entity corresponding to the above-mentioned PDU session before receiving the above-mentioned RRC reconfiguration message means “establishing the above-mentioned SDAP entity (in step S906)”. , It is judged whether or not there is a result of the full setting. "
- based on the existence of the SDAP entity corresponding to the above-mentioned PDU session before receiving the above-mentioned RRC reconfiguration message means “the establishment of the above-mentioned SDAP entity (in step S906), It may be paraphrased or supplemented based on the fact that it is the result of the full setting ”.
- step S908 "Before receiving the above-mentioned RRC reconfiguration message, there was an SDP entity corresponding to the above-mentioned PDU session" means "before receiving the above-mentioned RRC reconfiguration message.
- the fact that the SDAP entity corresponding to the above-mentioned PDU session does not exist ” may be paraphrased as other conditions (else).
- the establishment of the SDAP entity (in step S906) described above is the result of the full setting” means that the establishment of the SDAP entity described above (in step S806) is not the result of the full configuration. May be paraphrased as other conditions (else).
- the process of notifying the upper layer that “user plane resources (user-plane resources) have been established or set for the PDU session corresponding to the PDU session information element described above” is It may be performed by RRC308 or RRC208, or may be performed by SDAP310. Further, the upper layer for notifying that "user plane resources (user-plane resources) for the PDU session corresponding to the above-mentioned PDU session information element has been established or set” may be the NAS layer. Also, the notification to the upper layer of "the fact that the user plane resource (user-plane resources) has been established or set for the PDU session corresponding to the PDU session information element described above" is sent to the upper layer in SDAP 310.
- the RRC 308 that the association rule between the QoS flow identifier information element included in the added QoS flow information element included in the element or the QoS flow corresponding to the value of the QoS flow identifier information element and the radio bearer is stored. Alternatively, it may be performed after checking with RRC208.
- the method for confirming that the association rule has been stored may be a notification from the SDAP 310 to the RRC 308 or RRC 208 indicating that the association rule has been stored.
- the terminal device when the SDAP entity is established, the fact that the user plane resource for the PDU session is established or set is notified to the upper layer when the PDU session is newly established.
- the upper layer can detect that the user plane resource for the PDU session has been established in the lower layer, and the user data can be transmitted at an optimum timing. That is, the terminal device can reduce the complexity of protocol processing and can perform communication efficiently.
- radio bearer setting in each embodiment of the present invention may be included not only in the RRC connection re-establishment procedure but also in the RRC establishment (RRC Establishment) procedure and the RRC re-establishment (RRC re-establishment) procedure. ..
- the radio bearer in each embodiment of the present invention may be DRB or SRB.
- the notification to the upper layer of "the fact that -plane resources) has been established or set” is not limited to the paraphrasing example in each embodiment of the present invention, and "the user plane resource for the PDU session corresponding to the PDU session information element is Other information may be used as long as the information indicates "established” and / or "user-plane resources (user-plane resources) for the PDU session corresponding to the PDU session information element has been established or set".
- the radio bearer setting information element includes the SDAP setting information element
- EN-DC is not used, that is, EN-DC is used. It may mean that it is the opposite of. This is because, as described in Non-Patent Document 8 and Non-Patent Document 9, in NR (New Radio technology), EPC is used as a core network only in the case of EN-DC.
- a receiving unit that receives an RRC reconfiguration message including a radio bearer setting information element from the base station device, and a radio bearer identifier information element included in the radio bearer setting information element.
- a value does not exist in the setting of the terminal device, and an SDAP entity for the PDU session information element included in the SDAP setting information element exists based on that the radio bearer setting information element includes the SDAP setting information element. Otherwise, it establishes an SDAP entity, further determines whether there was an SDAP entity for the PDU session information element before receiving the RRC reconfiguration message, and receives the RRC reconfiguration message.
- a transmitter that transmits an RRC reconfiguration message including a radio bearer configuration information element to the terminal device, and the RRC reconfiguration message includes a radio bearer configuration information element
- a processing unit for causing the terminal device to perform a process, wherein the process is such that the value of the radio bearer identifier information element included in the radio bearer setting information element does not exist in the setting of the terminal device, and the radio Based on the SDAP setting information element being included in the bearer setting information element, if the SDAP entity for the PDU session information element included in the SDAP setting information element does not exist, the SDAP entity is established and further the RRC re-establishment is performed.
- the SDP entity for the PDU session information element Based on the fact that the user plane resource for the PDU session corresponding to the value of the PDU session information element is set to the upper layer, and before receiving the RRC reconfiguration message, A process of associating the established SDAP entity with the PDU session based on the existence of the SDP entity for the PDU session information element.
- a method of a terminal device that communicates with a base station device comprising receiving an RRC reconfiguration message including a radio bearer configuration information element from the base station device, the radio bearer identifier information element included in the radio bearer configuration information element.
- a value does not exist in the setting of the terminal device, and an SDAP entity for the PDU session information element included in the SDAP setting information element exists based on that the radio bearer setting information element includes the SDAP setting information element. Otherwise, it establishes an SDAP entity, further determines whether there was an SDAP entity for the PDU session information element before receiving the RRC reconfiguration message, and receives the RRC reconfiguration message. Prior to the SDP session information element.
- a method of a base station device for communicating with a terminal device which transmits an RRC reconfiguration message including a radio bearer configuration information element to the terminal device, wherein the RRC reconfiguration message includes a radio bearer configuration information element
- the terminal device is caused to perform processing, and the processing is such that the value of the radio bearer identifier information element included in the radio bearer setting information element does not exist in the setting of the terminal apparatus, and the SDAP setting to the radio bearer setting information element. If the SDAP entity for the PDU session information element included in the SDAP configuration information element does not exist based on the inclusion of the information element, establish the SDAP entity, and further before receiving the RRC reconfiguration message.
- the user plane resource for the PDU session corresponding to the value of the PDU session information element is determined based on the fact that the SDP entity for the PDU session information element does not exist before receiving the RRC reconfiguration message.
- the established SDP entity is related to the PDU session based on the existence of the SDP entity for the PDU session information element before notifying the upper layer of the setting and receiving the RRC reconfiguration message. This is a process.
- the program that operates on the device related to the present invention may be a program that controls the Central Processing Unit (CPU) or the like to cause the computer to function so as to realize the functions of the above-described embodiments related to the present invention. ..
- the program or information handled by the program is temporarily read into a volatile memory such as Random Access Memory (RAM) at the time of processing, or stored in a nonvolatile memory such as a flash memory or a Hard Disk Drive (HDD).
- RAM Random Access Memory
- HDD Hard Disk Drive
- the CPU reads, corrects, and writes.
- a part of the device in the above-described embodiment may be realized by a computer.
- the program for realizing the control function is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read by the computer system and executed.
- the "computer system” referred to here is a computer system built in the apparatus and includes operating systems and hardware such as peripheral devices.
- the "computer-readable recording medium” may be any of a semiconductor recording medium, an optical recording medium, a magnetic recording medium and the like.
- a "computer-readable recording medium” means that a program can be dynamically retained for a short time, such as a communication line for transmitting the program through a network such as the Internet or a communication line such as a telephone line. It may also include a program that holds a program for a certain period of time, such as a volatile memory inside a computer system that serves as a server or a client in that case. Further, the above-mentioned program may be for realizing a part of the above-mentioned functions, or may be one for realizing the above-mentioned functions in combination with a program already recorded in the computer system. ..
- each functional block or various features of the device used in the above-described embodiment may be implemented or executed by an electric circuit, that is, typically an integrated circuit or a plurality of integrated circuits.
- An electrical circuit designed to perform the functions described herein may be a general purpose processor, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a field programmable gate array (FPGA), or others. Programmable logic devices, discrete gate or transistor logic, discrete hardware components, or combinations thereof.
- a general purpose processor may be a microprocessor, but in the alternative, the processor may be any conventional processor, controller, microcontroller, or state machine.
- the general-purpose processor or each of the circuits described above may be configured with a digital circuit or an analog circuit. Further, in the case where an integrated circuit technology that replaces the current integrated circuit has appeared due to the progress of semiconductor technology, it is possible to use the integrated circuit according to the technology.
- the present invention is not limited to the above embodiment.
- a stationary or non-movable electronic device installed indoors or outdoors, for example, an AV device, a kitchen device, It can be applied to terminal equipment or communication equipment such as cleaning / laundry equipment, air conditioning equipment, office equipment, vending machines, and other household appliances.
- One embodiment of the present invention is used in a communication system, a communication device (eg, a mobile phone device, a base station device, a wireless LAN device, or a sensor device), an integrated circuit (eg, a communication chip), a program, or the like. be able to.
- a communication device eg, a mobile phone device, a base station device, a wireless LAN device, or a sensor device
- an integrated circuit eg, a communication chip
- a program e.g, a program, or the like.
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Abstract
Description
本願は、2018年10月31日に日本に出願された特願2018-205078号について優先権を主張し、その内容をここに援用する。
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDUセッション情報要素に対応するSDAPエンティティが存在せず、前記端末装置が前記RRC再設定メッセージを受信する前に、前記PDUセッション情報要素に対応するSDAPエンティティが存在していなかった場合には、上位レイヤに、PDUセッションに対するユーザプレーンリソース(user-plane resources)が確立されたことを通知する処理と、を含む。
図1から図9を用いて、本発明の実施の形態を説明する。本発明の実施の形態では、SDAPエンティティが確立された際、PDUセッションに対するユーザプレーンリソースが確立、または設定された事を、PDUセッションが新たに確立された時に上位レイヤに通知する。
Claims (4)
- 基地局装置と通信を行う端末装置であって、
前記基地局装置から無線ベアラ設定情報要素を含むRRC(Radio Resource Control)再設定メッセージを受信する受信部と、
処理部と、を備え、
前記処理部は、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP(Service Data Adaptation Protocol)設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDU(Protocol Data Unit)セッション情報要素に対応するSDAPエンティティが存在しない場合には、SDAPエンティティを確立し、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDUセッション情報要素に対応するSDAPエンティティが存在せず、前記RRC再設定メッセージを受信する前に、前記PDUセッション情報要素に対応するSDAPエンティティが存在していなかった場合には、上位レイヤに、PDUセッションに対するユーザプレーンリソース(user-plane resources)が確立されたことを通知する、
端末装置。 - 端末装置と通信を行う基地局装置であって、
前記端末装置に、無線ベアラ設定情報要素を含むRRC(Radio Resource Control)再設定メッセージを送信する送信部と、
前記RRC再設定メッセージに無線ベアラ設定情報要素を含めることにより、前記端末装置に処理を行わせる処理部とを有し、
前記処理は、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP(Service Data Adaptation Protocol)設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDU(Protocol Data Unit)セッション情報要素に対応するSDAPエンティティが存在しない場合には、SDAPエンティティを確立する処理と、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDUセッション情報要素に対応するSDAPエンティティが存在せず、前記端末装置が前記RRC再設定メッセージを受信する前に、前記PDUセッション情報要素に対応するSDAPエンティティが存在していなかった場合には、上位レイヤに、PDUセッションに対するユーザプレーンリソース(user-plane resources)が確立されたことを通知する処理と、
を含む、基地局装置。 - 基地局装置と通信する端末装置に用いられる通信方法であって、
前記基地局装置から無線ベアラ設定情報要素を含むRRC(Radio Resource Control)再設定メッセージを受信し、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP(Service Data Adaptation Protocol)設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDU(Protocol Data Unit)セッション情報要素に対応するSDAPエンティティが存在しない場合には、SDAPエンティティを確立し、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDUセッション情報要素に対応するSDAPエンティティが存在せず、前記RRC再設定メッセージを受信する前に、前記PDUセッションに対応するSDAPエンティティが存在していなかった場合には、上位レイヤに、前記PDUセッション情報要素に対するユーザプレーンリソース(user-plane resources)が確立されたことを通知する、
通信方法。 - 端末装置と通信する基地局装置に用いられる通信方法であって、
前記端末装置に、無線ベアラ設定情報要素を含むRRC(Radio Resource Control)再設定メッセージを送信し、
前記RRC再設定メッセージに無線ベアラ設定情報要素を含めることにより、前記端末装置に処理を行わせ、
前記処理は、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP(Service Data Adaptation Protocol)設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDU(Protocol Data Unit)セッション情報要素に対応するSDAPエンティティが存在しない場合には、SDAPエンティティを確立する処理と、
前記無線ベアラ設定情報要素に含まれる無線ベアラ識別子が前記端末装置の設定に存在せず、前記無線ベアラ設定情報要素にSDAP設定情報要素が含まれ、前記SDAP設定情報要素に含まれるPDUセッション情報要素に対応するSDAPエンティティが存在せず、前記端末装置が前記RRC再設定メッセージを受信する前に前記PDUセッション情報要素に対応するSDAPエンティティが存在していなかった場合には、上位レイヤに、前記PDUセッション情報要素に対するユーザプレーンリソース(user-plane resources)が確立されたことを通知する処理と、
を含む、通信方法。
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