WO2013137698A1 - 무선 통신 시스템에서 nas 시그널링 요청 처리 방법 및 장치 - Google Patents
무선 통신 시스템에서 nas 시그널링 요청 처리 방법 및 장치 Download PDFInfo
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- WO2013137698A1 WO2013137698A1 PCT/KR2013/002192 KR2013002192W WO2013137698A1 WO 2013137698 A1 WO2013137698 A1 WO 2013137698A1 KR 2013002192 W KR2013002192 W KR 2013002192W WO 2013137698 A1 WO2013137698 A1 WO 2013137698A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/06—Management of faults, events, alarms or notifications
- H04L41/0654—Management of faults, events, alarms or notifications using network fault recovery
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/04—Arrangements for maintaining operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/16—Discovering, processing access restriction or access information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W60/00—Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration
- H04W60/04—Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration using triggered events
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/16—Performing reselection for specific purposes
- H04W36/165—Performing reselection for specific purposes for reducing network power consumption
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- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/18—Selecting a network or a communication service
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
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- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
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Definitions
- the following description relates to a wireless communication system, and more particularly, to a method and apparatus for processing a NAS signaling request.
- Non-Access Stratum corresponds to a top stratum of a control plane between a user equipment (UE) and a network node (eg, a mobility management entity (MME)) in a wireless communication system.
- a network node eg, a mobility management entity (MME)
- MM mobility management
- SM session management
- EPS Evolved Packet System
- the ESM (EPS SM) protocol may include the process of processing the EPS bearer context, by the AS (Access Stratum) It can be used for control of a user plane bearer with bearer control provided.
- a method for a terminal performing a non-access stratum (NAS) signaling process may include: information indicating a network failure from a network node of a first network; Receiving a first message comprising a; Starting a network selection related timer; And performing a selection of a second network among network candidates except the first network during the network selection related timer operation.
- NAS non-access stratum
- a terminal device for performing a NAS (Non-Access Stratum) signaling process in a wireless communication system a transmission and reception module; And a processor, wherein the processor is configured to receive a first message from the network node of a first network, the first message including information indicating a network failure, by using the transmission / reception module; Start a network selection related timer; During the network selection related timer operation, the second network may be configured to perform a selection of a second network among network candidates except the first network.
- NAS Non-Access Stratum
- the first network may be a PLMN (Public Land Mobile Network) that provides information indicating the network failure.
- PLMN Public Land Mobile Network
- the selection of the second network may be performed to select one or more of RAT or PLMN among candidates other than a combination of PLMN and RAT (Radio Access Technology) that provided the information indicating the network failure.
- RAT Radio Access Technology
- the method may further include transmitting a second message for the request of the NAS signaling process to a network node of the first network.
- the first message may be a rejection message indicating that the NAS signaling process requested in the second message is not allowed by the network.
- the second message may be one of an attach request message, a tracking area update (TAU) request message, a routing area update (RAU) request message, or a service request message.
- TAU tracking area update
- RAU routing area update
- the first message may be one of an attach rejection message, a TAU rejection message, a RAU rejection message, or a service rejection message.
- the method may further include setting a value of the attempt counter to an upper limit value.
- the upper limit value may be five.
- the update status of the terminal may be set to not updated.
- GUI globally unique temporary identifier
- TAI last registered registered tracking area identity
- KAI key set identifier
- PLMN list an equivalent PLMN list
- the terminal may be set to the EMM-DEREGISTERED. PLMN-SEARCH state.
- P-TMSI Packet Temporary Mobile Subscriber Identity
- P-TMSI signature P-TMSI signature
- Routing Area Identity RAI
- GPRS General Packet Radio Service
- the network node may be a mobility management entity (MME).
- MME mobility management entity
- an efficient processing method and apparatus may be provided when a NAS signaling request fails or is rejected due to a lower layer failure or a network failure in the NAS signaling process.
- FIG. 1 is a diagram illustrating a schematic structure of an EPS (Evolved Packet System) including an Evolved Packet Core (EPC).
- EPS Evolved Packet System
- EPC Evolved Packet Core
- FIG. 2 is a diagram illustrating a control plane for an interface between a UE, an eNB, and an MME.
- 3 is a view for explaining the attach process.
- FIG. 4 is a view for explaining a TAU process.
- FIG. 5 is a diagram illustrating a service request process.
- FIG. 6 is a flowchart illustrating a method of performing a NAS signaling process according to an example of the present invention.
- FIG. 7 is a diagram illustrating a configuration of a preferred embodiment of a terminal device according to an example of the present invention.
- each component or feature may be considered to be optional unless otherwise stated.
- Each component or feature may be embodied in a form that is not combined with other components or features.
- some components and / or features may be combined to form an embodiment of the present invention.
- the order of the operations described in the embodiments of the present invention may be changed. Some components or features of one embodiment may be included in another embodiment or may be replaced with corresponding components or features of another embodiment.
- Embodiments of the present invention may be supported by standard documents disclosed in relation to at least one of the Institute of Electrical and Electronics Engineers (IEEE) 802 series system, 3GPP system, 3GPP LTE and LTE-A system, and 3GPP2 system. That is, steps or parts which are not described to clearly reveal the technical spirit of the present invention among the embodiments of the present invention may be supported by the above documents. In addition, all terms disclosed in the present document can be described by the above standard document.
- IEEE Institute of Electrical and Electronics Engineers
- UMTS Universal Mobile Telecommunications System
- GSM Global System for Mobile Communication
- EPS Evolved Packet System
- EPC Evolved Packet Core
- IP-based packet switched core network IP-based packet switched core network
- UMTS is an evolutionary network.
- NodeB base station of GERAN / UTRAN. It is installed outdoors and its coverage is macro cell size.
- eNodeB base station of LTE. It is installed outdoors and its coverage is macro cell size.
- HNB Home NodeB
- CPE Customer Premises Equipment
- UTRAN UMTS Terrestrial Radio Access Network
- HeNB Home eNodeB
- CPE Customer Premises Equipment
- E-UTRAN Evolved-UTRAN
- the UE User Equipment: a user device.
- the UE may be referred to in terms of terminal, mobile equipment (ME), mobile station (MS), and the like.
- the UE may be a portable device such as a laptop, a mobile phone, a personal digital assistant (PDA), a smart phone, a multimedia device, or the like, or may be a non-portable device such as a personal computer (PC) or a vehicle-mounted device.
- the UE is a UE capable of communicating in the 3GPP spectrum such as LTE and / or non-3GPP spectrum such as WiFi, public safety spectrum.
- RAN Radio Access Network: a unit including a NodeB, an eNodeB and a Radio Network Controller (RNC) controlling them in a 3GPP network. It exists between the UE and the core network and provides a connection to the core network.
- RNC Radio Network Controller
- Mobility Management Entity A network node of an EPS network that performs mobility management (MM) and session management (SM) functions.
- HLR Home Location Register
- HSS Home Subscriber Server
- Packet Data Network-Gateway (PDN-GW) / PGW A network node of an EPS network that performs UE IP address assignment, packet screening and filtering, charging data collection, and the like.
- SGW Serving Gateway
- PCRF Policy and Charging Rule Function
- -OMA DM Open Mobile Alliance Device Management: A protocol designed to manage mobile devices such as mobile phones, PDAs, portable computers, etc., and device configuration, firmware upgrade, error report, etc. Performs the function of.
- OAM Operation Administration and Maintenance
- Non-Access Stratum Upper stratum of the control plane between the UE and the MME.
- NAS configuration management object A management object (MO) used to configure parameters associated with NAS functionalities to the UE.
- Packet Data Network A network in which a server supporting a specific service (eg, a Multimedia Messaging Service (MMS) server, a Wireless Application Protocol (WAP) server, etc.) is located.
- a server supporting a specific service eg, a Multimedia Messaging Service (MMS) server, a Wireless Application Protocol (WAP) server, etc.
- MMS Multimedia Messaging Service
- WAP Wireless Application Protocol
- PDN connection A logical connection between the UE and the PDN, represented by one IP address (one IPv4 address and / or one IPv6 prefix).
- APN Access Point Name: A string indicating or identifying a PDN.
- PGW goes through the PGW, which is a predefined name (string) within the network to locate the PGW.
- APN may be expressed as internet.mnc012.mcc345.gprs.
- Access-Stratum A layer including a protocol stack between a UE and a radio network or a UE and an access network, and responsible for transmitting data and network control signals.
- PLMN Public Land Mobile Network
- EPC Evolved Packet Core
- EPC Evolved Packet Core
- SAE System Architecture Evolution
- SAE is a research project to determine network structure supporting mobility between various kinds of networks.
- SAE aims to provide an optimized packet-based system, for example, supporting various radio access technologies on an IP basis and providing improved data transfer capability.
- the EPC is a core network of an IP mobile communication system for a 3GPP LTE system and may support packet-based real-time and non-real-time services.
- a conventional mobile communication system i.e., a second generation or third generation mobile communication system
- the core network is divided into two distinct sub-domains of circuit-switched (CS) for voice and packet-switched (PS) for data.
- CS circuit-switched
- PS packet-switched
- the function has been implemented.
- the sub-domains of CS and PS have been unified into one IP domain.
- the EPC may include various components, and in FIG. 1, some of them correspond to a serving gateway (SGW), a packet data network gateway (PDN GW), a mobility management entity (MME), and a serving general packet (SGRS) Radio Service (Supporting Node) and Enhanced Packet Data Gateway (ePDG) are shown.
- SGW serving gateway
- PDN GW packet data network gateway
- MME mobility management entity
- SGRS serving general packet
- Radio Service Upporting Node
- ePDG Enhanced Packet Data Gateway
- the SGW acts as a boundary point between the radio access network (RAN) and the core network, and is an element that functions to maintain a data path between the eNodeB and the PDN GW.
- the SGW serves as a local mobility anchor point. That is, packets may be routed through the SGW for mobility in the E-UTRAN (Universal Mobile Telecommunications System (Evolved-UMTS) Terrestrial Radio Access Network defined in 3GPP Release-8 or later).
- E-UTRAN Universal Mobile Telecommunications System (Evolved-UMTS) Terrestrial Radio Access Network defined in 3GPP Release-8 or later.
- SGW also provides mobility with other 3GPP networks (RANs defined before 3GPP Release-8, such as UTRAN or GERAN (Global System for Mobile Communication (GSM) / Enhanced Data Rates for Global Evolution (EDGE) Radio Access Network). It can also function as an anchor point.
- RANs defined before 3GPP Release-8 such as UTRAN or GERAN (Global System for Mobile Communication (GSM) / Enhanced Data Rates for Global Evolution (EDGE) Radio Access Network). It can also function as an anchor point.
- GSM Global System for Mobile Communication
- EDGE Enhanced Data Rates for Global Evolution
- the PDN GW corresponds to the termination point of the data interface towards the packet data network.
- the PDN GW may support policy enforcement features, packet filtering, charging support, and the like.
- untrusted networks such as 3GPP networks and non-3GPP networks (e.g., Interworking Wireless Local Area Networks (I-WLANs), trusted divisions such as Code Division Multiple Access (CDMA) networks or WiMax). It can serve as an anchor point for mobility management with the network.
- I-WLANs Interworking Wireless Local Area Networks
- CDMA Code Division Multiple Access
- FIG. 1 shows that the SGW and the PDN GW are configured as separate gateways, two gateways may be implemented according to a single gateway configuration option.
- the MME is an element that performs signaling and control functions to support access to the network connection of the UE, allocation of network resources, tracking, paging, roaming and handover, and the like.
- the MME controls the control plane functions related to subscriber and session management.
- the MME manages a number of eNodeBs and performs signaling for the selection of a conventional gateway for handover to other 2G / 3G networks.
- the MME also performs functions such as security procedures, terminal-to-network session handling, and idle terminal location management.
- SGSN handles all packet data, such as user's mobility management and authentication to other 3GPP networks (eg GPRS networks).
- 3GPP networks eg GPRS networks.
- the ePDG acts as a secure node for untrusted non-3GPP networks (eg, I-WLAN, WiFi hotspots, etc.).
- untrusted non-3GPP networks eg, I-WLAN, WiFi hotspots, etc.
- a terminal having IP capability includes an IP service network provided by an operator (ie, an operator) via various elements in the EPC, based on 3GPP access as well as non-3GPP access.
- an operator ie, an operator
- 3GPP access based on 3GPP access as well as non-3GPP access.
- IMS IMS
- FIG. 1 illustrates various reference points (eg, S1-U, S1-MME, etc.).
- a conceptual link defining two functions existing in different functional entities of E-UTRAN and EPC is defined as a reference point.
- Table 1 below summarizes the reference points shown in FIG. 1.
- This reference point can be used in PLMN-to-PLMN-to-for example (for PLMN-to-PLMN handover)
- no direct tunnel is formed, user plane tunneling is provided.
- S5 Reference point providing user plane tunneling and tunnel management between the SGW and PDN GW. Used for SGW relocation because of UE mobility and when a connection to the PDN GW where the SGW is not co-located is required for the required PDN connectivity.
- the PDN may be an operator external public or private PDN or, for example, an in-operator PDN for the provision of IMS services. This reference point corresponds to Gi in 3GPP access
- S2a and S2b correspond to non-3GPP interfaces.
- S2a is a reference point that provides the user plane with relevant control and mobility support between trusted non-3GPP access and PDNGW.
- S2b is a reference point that provides the user plane with relevant control and mobility support between the ePDG and PDN GW.
- FIG. 2 is a diagram illustrating a control plane for an interface between a UE, an eNB, and an MME.
- the MME may perform access control for a UE attempting to connect, and the interface and protocol stack used for this purpose are illustrated in FIG. 2.
- the control plane interface between the UE and the eNB is defined as LTE-Uu
- the control plane interface between the eNB and the MME is defined as S1-MME.
- the NAS protocol forms the highest stratum in the control plane between the UE and the MME.
- the NAS protocol may support a mobility management and session management process of the UE to establish and maintain IP connectivity between the UE and the PDN GW.
- the NAS protocol may define rules for mapping parameters in inter-system mobility, and provide NAS security through encryption and integrity protection of NAS signaling messages.
- An EPS Mobility Management (EMM) specific process may include an attach procedure, a detach process, and a tracking area updating (TAU) process.
- the EMM connection management process may include a service request process.
- 3 is a view for explaining the attach process.
- the attach process is used for the UE to attach to the EPC for packet service of the EPS.
- the attach process may be performed by a UE operating in PS mode to attach to an EPS service, a UE operating in CS / PS mode to attach for both EPS and non-EPS services, or an emergency bearer service. Can be used for attaching for
- a UE in an EMM deregistered state may initiate an attach process by sending an attach request message to an MME.
- the UE may include EPS mobility identification in the attach request message. If the attach request is allowed in the network, the MME may send an attach accept message to the UE. In addition, the MME may provide the UE with information for causing the UE to perform an EPS bearer context activation operation. When the UE receives an attach allow message from the MME and is instructed that the EPS bearer context is activated, the UE may send an attach complete message to the MME.
- the MME may transmit an attach reject message to the UE.
- the attach reject message may include a value indicating the reason.
- FIG. 4 is a view for explaining a TAU process.
- the TAU is always initiated by the UE and can be used for the purpose of updating the registration of the actual tracking area of the UE, periodically notifying the network of the availability of the UE, and the like.
- a UE in an EMM registered state may initiate a TAU process by transmitting a TAU request message to an MME.
- the TAU procedure may be initiated when the UE detects that the UE enters a tracking area that is not included in the tracking area list that it previously had.
- the MME may send a TAU grant message to the UE.
- the MME assigns a new Globally Unique Temporary Identifier (GUTI) to the UE, the GUTI may be included in the TAU grant message.
- the UE may transmit a TAU completion message to the MME for corresponding acknowledgment to the received GUTI.
- GUTI Globally Unique Temporary Identifier
- the MME may transmit a TAU reject message to the UE.
- the TAU reject message may include a value indicating the reason.
- FIG. 5 is a diagram illustrating a service request process.
- the service request process may be used to switch the UE in the EMM-IDLE mode to the EMM-CONNECTED mode and establish a radio bearer and an S1 bearer so that uplink user data or signaling can be transmitted.
- the service request process may be used to operate a Mobile Originated (MO) / Mobile Terminated (MT) CS Fallback (CSFB) or the like.
- MO Mobile Originated
- MT Mobile Terminated
- CSFB Mobile Terminated CS Fallback
- the service request process may be performed when the network has downlink signaling to transmit, when the UE has uplink signaling to transmit, when the UE is in EMM-IDLE mode and the UE or the network has user data to transmit. Or the like.
- the UE may initiate a service request process by transmitting a service request message or an extended service request message to the MME.
- the MME receiving the (extended) service request message may perform an authentication process and a security mode control process.
- a UE that receives an indication that a user plane radio bearer has been set up, an indication of a system change, etc. from a lower layer (eg, an AS layer) may process the indication as an indication that the service request process has been successfully completed. Accordingly, the UE may enter the EMM-REGISTERED state.
- the MME may transmit a TAU denial of service message to the UE.
- the denial of service message may include a value indicating the reason.
- a NAS signaling request is generated due to a failure of a lower layer (e.g. AS) or a network failure. It can fail or be rejected. This will be described later in detail.
- a lower layer e.g. AS
- the following abnormal case may be defined on the UE side.
- Access is restricted due to access class barring or denial of establishing a NAS signaling connection by the network.
- the attach process does not start if access is restricted for "signaling".
- the UE can stay in the current serving cell and apply the normal cell reselection procedure.
- the attach process may begin if the current serving cell is allowed access to "signaling” or if the UE has moved to a cell that is allowed access to "signaling".
- the attach process is stopped and the UE may operate as described below.
- T3410 may be started when an attach request message is sent and may be set to, for example, 15 seconds long.
- the UE may abort the attach process and operate as described below.
- the NAS signaling connection is released.
- the attach rejection message contains reason values other than EMM reason values # 3, # 6, # 8, # 11, # 35, # 12, # 13, # 14, # 15, # 22, and # 25. And when the UE considers the abnormal case to be the EMM reason value # 22.
- EMM reason value # 19 "ESM failure"
- the UE may set the attach attempt counter to 5.
- EMM reason values eg, reasons # 95, # 96, # 97, # 99 and # 111
- the UE should set the attach attempt counter to five. The UE may operate as described below.
- EMM reason value # 3 indicates an illegal UE
- # 6 indicates a negative mobile equipment (ME)
- # 7 indicates that EPS service is not allowed
- # 8 indicates EPS service and non- EPS service is not allowed
- # 11 indicates that it is not allowed PLMN
- # 35 indicates that the requested service option is not authorized in that PLMN
- # 12 is not allowed tracking area # 13 indicates that roaming is not allowed in the tracking area
- # 14 indicates that EPS service is not allowed in the PLMN
- # 15 indicates that no appropriate cell exists in the tracking area
- # 22 indicates congestion
- # 25 indicates that the CSG has not been authorized. This corresponds to examples of the EMM reason value when the attach request is not allowed by the network.
- the MM back set when a predetermined timer eg, NAS level MM congestion control is activated in the attach reject message. This is the case except when the off timers T3346 and T3346 are in operation, the execution of the MM signaling is generally prohibited) and the value is not 0 and is not deactivated.
- the attach process is stopped and immediately restarted. If an attach accept message is received but crosses the tracking area boundary before the attach complete message is sent, the attach process is re-started. If a GUTI is assigned during the attach process, that GUTI is used during the attach process.
- the attach process is stopped and the detach process initiated by the UE is performed.
- the detach process proceeds. And the attach process is aborted, otherwise the attach message is ignored and the attach process proceeds.
- the UE restarts the attach process.
- the UE restarts the attach process. If the current TAI exists in the TAI list, it may be determined according to the implementation of the UE whether to perform the ongoing process again.
- the EMM sublayer may inform the ESM sublayer that the transmission of the ESM message in the ESM message container information element of attach completion has failed.
- the UE initiates the detach process by sending a detach request message to the network. Additional UE behavior may be determined depending on the implementation.
- the UE stops the attach process and enters the EMM-DEREGISTERED.NO-CELL-AVAILABLE state.
- the UE stops the MM backoff timer (eg, T3346) if it is running.
- the MM backoff timer is started according to the value of the "extended wait time" provided by the lower layer and changed to the EMM-DEREGISTERED.ATTEMPTING-TO-ATTACH state.
- the UE stops the attach procedure, resets the attach attempt counter, and performs the normal cell reselection procedure while staying in the current serving cell.
- the UE may operate as described below.
- the UE does not start the attach process unless it needs to attach for the emergency bearer service.
- the UE stays in the current serving cell and performs a general cell reselection process.
- timer T3346 independent of whether timer T3346 is initiated due to an abnormal case or due to an unsuccessful case, it can be considered an abnormal case if the UE needs to initiate an attach process during operation.
- timer T3410 which is started when the attach request message is sent, is still running, it is stopped.
- the attach attempt counter is incremented unless it is already set to five.
- the attach attempt counter is less than 5, the operation is as follows. In cases l) and m) described above, if timer T3346 has expired or has been stopped, the attach process is started if still necessary. In all other cases, the timer T3411 (i.e., attach failure or TAU failure due to lower layer failure, or attach rejection or TAU rejected with an EMM reason value other than an abnormal case, etc.) is initiated. A timer that stops when a TAU request is sent) is started and changed to the EMM-DEREGISTERED.ATTEMPTING-TO-ATTACH state. If timer T3411 expires, the attach process is restarted if still required by the ESM sublayer.
- the timer T3411 i.e., attach failure or TAU failure due to lower layer failure, or attach rejection or TAU rejected with an EMM reason value other than an abnormal case, etc.
- the attach attempt counter is 5
- the UE deletes the GUTI, the TAI list, the last registered TAI visited, the equivalent PLMN list, and the Key Set Identifier (KSI) if present.
- the UE sets the update status to not updated (e.g., EU2) and starts when the value of the attempt counter is 5 in timer T3402 (i.e., attach failure or TAU failure) and attach request or TAU request. Timer to be stopped if it is sent).
- the state may be changed to EMM-DEREGISTERED.ATTEMPTING-TO-ATTACH or to EMM-DEREGISTERED.PLMN-SEARCH to perform PLMN selection with other options.
- the typical attach process fails and attach attempt If the counter is 5, the UE additionally deletes a Routing Area Identity (RAI), Packet Temporary Mobile Subscriber Identity (P-TMSI), P-TSMI Signature, Uniform PLMN List, and GPRS Encryption Key Sequence Number, if present.
- the UE sets the update status to not updated (e.g., GU2), starts when the value of the Attempt Counter is greater than or equal to 5 on timer T3302 (i.e.
- the state may be changed to GMM-DEREGISTERED.ATTEMPTING-TO-ATTACH or to GMM-DEREGISTERED.PLMN-SEARCH to perform PLMN selection with other options.
- the following abnormal cases may be defined on the UE side.
- Access is restricted due to access class barring or denial of establishing a NAS signaling connection by the network.
- the TAU procedure does not start if access is restricted for "signaling".
- the UE can stay in the current serving cell and apply the normal cell reselection procedure.
- the TAU procedure can be started, for example, if access to "signaling" is allowed in the current serving cell or if the UE has moved to a cell to which access to "signaling” is allowed, and if still necessary.
- the TAU procedure is interrupted and the UE may operate as described below.
- T3430 may be started when a request message is sent and may be set to, for example, 15 seconds long.
- the UE may abort the TAU procedure and operate as described below.
- the NAS signaling connection is released.
- TAU reject message is the EMM reason values # 3, # 6, # 7, # 9, # 10, # 11, # 35, # 12, # 13, # 14, # 15, # 22, # 25, # 40 And other reasons, except that the UE considers an abnormal case at EMM reason value # 22.
- the UE Upon receipt of an EMM reason value indicating protocol error (eg, reasons # 95, # 96, # 97, # 99 and # 111), the UE should set the TAU attempt counter to 5.
- the UE may operate as described below.
- the EMM reason value # 3 indicates a illegal UE
- # 6 indicates a negative mobile equipment (ME)
- # 7 indicates that EPS service is not allowed
- # 9 indicates that the UE identification information is determined by the network.
- # 10 indicates that it is implicitly detached
- # 11 indicates that the PLMN is not allowed
- # 35 authorizes the requested service option in that PLMN.
- # 12 indicates that the tracking area is not allowed
- # 13 indicates that roaming is not allowed in that tracking area
- # 14 indicates that EPS service is not allowed in that PLMN
- # 15 indicates that there is no appropriate cell in the tracking area
- # 22 indicates congestion
- # 25 indicates that it is not authorized for the Closed Subscriber Group (CSG)
- # 40 activates Indicate no EPS bearer context The. This corresponds to examples of EMM reason value when a TAU request is not allowed by the network.
- the MM backoff set when a predetermined timer eg, NAS level MM congestion control is activated in the TAU reject message. This is the case except when the timers T3346 and T3346 are in operation, the value of MM signaling is generally prohibited) and the value is not 0 and is not deactivated.
- the TAU procedure is stopped and immediately restarted.
- the UE sets the EPS update status to not updated (eg EU2).
- the "Re-Type" has a EMM reason value other than the EMM reason value # 2 indicating that the attach type indicates "IMSI unknown in HSS". If the attach type indicates "re-attach required" before the TAU process is complete, the TAU process is aborted and the detach process This is going on.
- the corresponding detach type indicates "re-attach not required” with EMM reason value # 2 indicating "IMSI unknown in HSS", or If the corresponding detach type indicates "IMSI detach" before the TAU process is completed, the detach request message is ignored and the TAU process is performed.
- the lower layer notifies the failure of the transmission of the TAU request message.
- the TAU process is stopped and immediately restarted.
- the UE sets the EPS update status to not updated (eg EU2).
- the TAU procedure is aborted and immediately restarted.
- the UE sets the EPS update status to not updated (eg EU2). If the current TAI is part of the TAI list, it may be determined depending on the implementation of the UE whether to perform the ongoing process again.
- the lower layer notifies the failure of the transmission of the TAU completion message without changing the TAI.
- Whether to perform the ongoing process again may be determined according to the implementation of the UE.
- the UE stops the MM backoff timer (eg, T3346) if it is running.
- the MM backoff timer is started according to the value of "extended wait time” provided by the lower layer, the EPS update status is set to not updated (e.g. EU2), and EMM-REGISTERED.ATTEMPTING-TO-UPDATE It changes to state.
- the UE stops the TAU procedure, resets the TAU attempt counter, and performs the normal cell reselection procedure while staying in the current serving cell.
- the UE may operate as described below.
- MM backoff timer T3346 is running.
- the UE does not start the TAU procedure except when establishing a PDN connection for the emergency bearer service, or having a PDN connection for the emergency bearer service, or operating in the EMM-CONNECTED mode.
- the UE stays in the current serving cell and performs a general cell reselection process.
- timer T3346 independent of whether timer T3346 is initiated due to an abnormal case or due to an unsuccessful case, it can be considered an abnormal case if the UE needs to initiate a TAU procedure during operation.
- the UE stops the ongoing user data transmission.
- the UE operates as follows.
- the TAU attempt counter is incremented, except when it is already set to five.
- the TAU Attempt Counter is less than 5, the TAI of the current serving cell is included in the TAI list, the EPS update status is updated (for example, EU1), and the Temporary Identity used in Next update (TIN) is "P-TMSI". If not indicated, the operation is as follows.
- the UE keeps the EPS update state to EU1 and enters the EMM-REGISTERED.NORMAL-SERVICE state.
- the UE is initiated with a timer T3411 (i.e. in case of attach failure or TAU failure due to lower layer failure, or in case of attach rejection or TAU rejection with an EMM reason value other than an abnormal case, and an attach request or TAU request is sent). Timer, which stops when it stops). If the TAU request indicates a "periodic update", the timer T3411 may be stopped when the UE enters the EMM-CONNECTED mode. If timer T3411 expires, the TAU procedure is triggered again.
- the operation is as follows. In case k) and l) described above, if timer T3346 has expired or has been stopped, the TAU procedure is still started if necessary. In all other cases, the UE starts timer T3411 and sets the EPS update status to not updated (eg EU2) and sets the status to EMM-REGISTERED.ATTEMPTING-TO-UPDATE. When the timer T3411 expires, the TAU procedure is triggered again.
- a / Gb mode or Iu mode is supported by the UE, abnormal when the normal or periodic RAU procedure fails, the RAU attempt counter is less than 5, and the GPRS update status is updated (eg GU1).
- the UE initiates a timer T3311 (ie, a timer that is started in case of RAU rejection and stopped when the RA is changed or when the RAU process is initiated, etc.) and the GPRS update status is not updated (eg GU2 ), And change to GMM-REGISTERED.ATTEMPTING-TO-UPDATE state.
- TAU attempt counter is 5
- the UE starts a timer T3402 (that is, a timer that starts when the value of the attempt counter on attach failure or TAU failure is 5 and stops when an attach request or TAU request is sent) and does not update the EPS update status.
- EMM-REGISTERED.PLMN-SEARCH to set to none (for example, EU2), delete the even PLMN list, change to the EMM-REGISTERED.ATTEMPTING-TO-UPDATE state, or perform PLMN selection with other options. You can change to a state.
- a / Gb mode or Iu mode is supported by the UE, if a typical or periodic RAU procedure fails and the RAU attempt counter is 5 or more, the UE will attempt to set the value of the attempt counter on timer T3302 (ie GPRS attach failure or RAU failure). Is a timer that starts when it is 5 or greater and stops when a GPRS attach request or RAU request is sent), deletes the even PLMN list, and sets the GPRS update status to not updated (for example, GU2). And change the status to GMM-REGISTERED.ATTEMPTING-TO-UPDATE, or to GMM-REGISTERED.PLMN-SEARCH to perform PLMN selection with other options.
- the following abnormal cases may be defined on the UE side.
- Access is restricted due to access class barring or denial of establishing a NAS signaling connection by the network.
- the access class restriction does not apply.
- the service request process does not start.
- the UE stays in the current serving cell and performs a general cell reselection process. If access is allowed for a terminating call or a service request is still required due to cell change, the service request process may be started.
- the service request process does not start.
- the UE stays in the current serving cell and performs a general cell reselection process. If access for the MO CSFB is allowed or if a service request is still required due to cell change, the service request process may be started.
- the UE selects GERAN or UTRAN Radio Access Technology (RAT). do.
- the UE performs an appropriate MM and CC (Call Control) specific process.
- the EMM sublayer does not inform the MM sublayer about the interruption of the service request process.
- the service request process does not start.
- the UE stays in the current serving cell and performs a general cell reselection process. If access to the outgoing call is allowed or still requires a service request due to cell change, the service request process may be initiated.
- the UE selects cdma2000® 1x radio access technology (RAT). The UE then performs the appropriate cdma2000® 1x CS procedure.
- RAT radio access technology
- the UE selects GERAN or UTRAN as Radio Access Technology (RAT). And the UE performs the appropriate MM and CC specific process.
- the EMM sublayer does not inform the MM sublayer about the interruption of the service request process.
- the UE may select cdma2000® 1x radio access technology (RAT) and perform the appropriate cdma2000® 1x CS procedure or perform cell selection.
- RAT radio access technology
- the UE enters the EMM-REGISTERED state.
- the UE stops the service request process, stops the timers T3417 and T3417ext (ie, a timer that is started when an (extended) service request is sent and stops when a bearer is established or a denial of service is received) and the service request process. If there are resources allocated for them, release them.
- the UE enters the EMM-REGISTERED state.
- the EMM sublayer stops the process and releases the resource allocated for the service request process.
- the EMM sublayer stops the process and considers that the 1xCSFB process has failed.
- the UE maintains the EMM-CONNECTED mode.
- the UE enters the EMM-REGISTERED state.
- the EMM sublayer stops the process, informs the MM sublayer that the CSFB process has failed, and releases any resources allocated for the service request process. .
- the EMM sublayer stops the process and informs the MM sublayer that the CSFB process has failed.
- the UE maintains the EMM-CONNECTED mode.
- the denial of service message is the EMM reason values # 3, # 6, # 7, # 9, # 10, # 11, # 35, # 12, # 13, # 15, # 18, # 22, # 25, # 39. , Including other reason values except # 40, and when the UE considers an abnormal case at the EMM reason value # 22.
- the UE stops the service request process and enters the EMM-REGISTERED state.
- the UE selects GERAN or UTRAN as Radio Access Technology (RAT). And the UE performs the appropriate MM and CC specific process.
- the EMM sublayer does not inform the MM sublayer about the interruption of the service request process.
- the UE selects cdma2000® 1x radio access technology (RAT). The UE then performs the appropriate cdma2000® 1x CS procedure.
- RAT radio access technology
- the UE performs a TAU procedure when entering the EMM-IDLE mode.
- the EMM reason value # 3 indicates a illegal UE
- # 6 indicates a negative mobile equipment (ME)
- # 7 indicates that EPS service is not allowed
- # 9 indicates that the UE identification information is determined by the network.
- # 10 indicates that it is implicitly detached
- # 11 indicates that the PLMN is not allowed
- # 35 authorizes the requested service option in that PLMN.
- # 12 indicates that the tracking area is not allowed
- # 13 indicates that roaming is not allowed in the tracking area
- # 15 indicates that there is no appropriate cell in the tracking area
- # 18 indicates that the CS domain is not available
- # 22 indicates congestion
- # 25 indicates that it is not authorized for the Closed Subscriber Group (CSG)
- # 39 indicates that the CS service Is not temporarily available
- # 40 indicates that there is no active EPS bearer context. This corresponds to examples of the EMM reason value when the service request is not allowed by the network.
- the MM backoff set when a predetermined timer eg, NAS level MM congestion control is activated in the TAU reject message. This is the case except when the timers T3346 and T3346 are in operation, the value of MM signaling is generally prohibited) and the value is not 0 and is not deactivated.
- the UE stops the service request process, stops the timer T3417 or T3417ext if it is running, and performs the TAU process.
- the "active" flag is set in the TAU request message.
- the detach process is performed.
- the EMM reason value other than the EMM reason value # 2 indicating that the attach type indicates "IMSI unknown in HSS. If the "re-attach is not required” indicating that, or if the corresponding detach type indicates "re-attach is required”, the detach process is proceeded and the service request process is stopped.
- the EMM sublayer when a service request is initiated for CSFB or 1xCSFB, the EMM sublayer notifies the MM sublayer or the cdma2000® upper layer that the CSFB or 1xCSFB procedure has failed.
- attach type information element in the attach request message indicates "re-attach required"
- the attach process is performed.
- the EMM reason value other than the EMM reason value # 2 indicating that the attach type indicates "IMSI unknown in HSS".
- the UE performs both the service request process and the detach process.
- the lower layer notifies the failure of the transmission of the service request message or the extended service request message.
- the service request process is stopped and the TAU process is performed.
- the "activate" flag is set in the TAU request message.
- the UE resumes the service request process.
- the lower layer notifies the failure of the transmission of the service request message or the extended service request message without changing the TAI.
- the UE resumes the service request process.
- the UE deactivates the EPS bearer.
- the UE stops the service request process, enters the EMM-REGISTERED state, and stops the timer T3417 or T3417ext if it is running.
- the UE starts timer T3346 according to the value of "extended wait time" provided by the lower layer.
- a service request is initiated for CSFB and timer T3246 (ie, MM backoff timer for CS domain) is not running, the UE selects GERAN or UTRAN as Radio Access Technology (RAT). And, the UE performs the appropriate MM and CC specific process. The EMM sublayer does not inform the MM sublayer about the interruption of the service request process.
- timer T3246 ie, MM backoff timer for CS domain
- the UE may select cdma2000® 1x radio access technology (RAT) and perform the appropriate cdma2000® 1x CS procedure or perform cell selection.
- RAT radio access technology
- the UE does not perform the service request process except for the following cases.
- the UE performs the service request process in operation T3346 when the UE has a PDN connection established for the emergency bearer service or is establishing a PDN connection for the emergency bearer service, or an emergency call by an upper layer Is required for CSFB.
- the UE stays in the current serving cell and performs a general cell reselection process. If timer T3346 has expired or stopped, the service request process is still started if necessary.
- the UE selects GERAN or UTRAN as the radio access technology (RAT). And the UE performs the appropriate MM and CC specific process.
- the EMM sublayer does not inform the MM sublayer about the interruption of the service request process.
- the UE may select GERAN or UTRAN as the Radio Access Technology (RAT). And, the UE performs the appropriate MM and CC specific process.
- the EMM sublayer does not inform the MM sublayer about the interruption of the service request process.
- cdma2000® 1x Radio Access Technology is selected.
- the UE then performs the appropriate cdma2000® 1x CS call procedure.
- a radio link failure may occur between a base station (eg, (e) NB or H (e) NB) and a terminal (eg, UE or MS).
- the radio link failure refers to a state in which signal transmission and reception are difficult because the quality of the radio link between the base station and the terminal is degraded.
- An operation related to the detection of the RLF is performed at the RRC layer. When the RLF is detected, a process of searching for a new radio link is performed.
- a Radio Resource Control (RRC) state between a base station and a terminal may be defined as an RRC_CONNECTED state and an RRC_IDLE state.
- the RRC_CONNECTED state means a state in which an RRC connection is established between the base station and the terminal, and the terminal may transmit and receive data with the base station.
- the RRC_IDLE state means a state in which an RRC connection between the base station and the terminal is released.
- Radio link failure (RLF) related operations may be described as (1) detection of physical layer problems in the RRC_CONNECTED state, (2) recovery of physical layer problems, and (3) RLF detection.
- N310 When the terminal receives consecutive "out-of-sync" indications from a lower layer (eg, PHY layer or MAC layer) by a predetermined value defined by N310, the terminal is defined as T310. Run the timer.
- the "out-of-sync" indication indicates that the upper layer (i.e., RRC) is not available when demodulation of the physical downlink control channel (PDCCH) received by the lower layer (physical layer) is not possible or the signal-to-interference plus noise ratio (SINR) is low. Layer above the layer).
- RRC physical downlink control channel
- SINR signal-to-interference plus noise ratio
- N311 may be given a predefined value as a higher layer parameter.
- the UE determines that the RLF is detected when the T310 timer expires, and initiates a connection re-establishment procedure.
- the expiration of the T310 timer means that the T310 timer reaches a predetermined time T310 without stopping in the middle of driving.
- the connection reestablishment process is a process in which the UE sends an 'RRC connection reestablishment request' message to the base station, receives an 'RRC connection reestablishment' message from the base station, and sends a 'RRC connection reestablishment complete' message to the base station.
- RLF related operation refer to 5.3.11 of 3GPP standard document TS36.331.
- a network node e.g., an MME
- a NAS signaling request e.g., an attach request, a TAU / RAU request, a service request, etc.
- the UE may operate according to the reason value of the failure / rejection of the NAS signaling request.
- the UE may retry the NAS signaling request.
- the upper bound of the retry in the case of the attach request or the TAU request may be set to 5, for example. That is, the value of the attach attempt counter or the TAU attempt counter may increase every failure and the maximum value may be limited to five.
- the service request there is no upper limit of the number of attempts, and the service request is defined in a manner of retrying the service request after the waiting timer.
- a lower layer failure eg, AS failure
- network failure eg, radio link failure (RLF) detection, network abnormality occurrence, or core network itself in a 3GPP LTE / UMTS-based mobile communication system
- NAS signaling request may fail or be rejected.
- the lower layer failure associated with NAS signaling request failure / rejection means failure at the AS level.
- RLF may occur due to the deteriorated state of the radio access network between the UE / MS and (e) NB / H (e) NB
- a network abnormal problem ( e) may occur due to the failure of the NAS signaling connection between the NB / H (e) NB and the MME / SGSN.
- the present invention proposes a method for improving inefficiency of a previously defined operation when a failure / rejection of a NAS signaling request occurs in a situation where a lower layer failure and / or a network failure occurs.
- the NAS signaling request from the UE is received by the base station ((e) NB or H (e) NB. ) And / or MME may not be reached.
- the NAS signaling request initiated by the UE may fail or may be rejected by the network.
- the NAS signaling request initiated by the UE may fail or may be rejected by the network.
- the UE / MS in case of failure / rejection for NAS signaling request, retries the NAS signaling request process for the same radio access technology (RAT) and / or the same PLMN (e.g., , An attach request or a TAU request) or a wait timer (eg, in the case of a service request process). That is, the UE / MS stays in the same RAT and / or the same PLMN (ie, fails to change to another RAT or select another PLMN) to perform retry of the NAS signaling request or apply a standby timer. In this case, if the corresponding network failure cannot be recovered within a short time, the service to the user may be greatly delayed.
- RAT radio access technology
- PLMN e.g., An attach request or a TAU request
- a wait timer e.g, in the case of a service request process. That is, the UE / MS stays in the same RAT and / or the same PLMN (i
- the attach attempt counter or the TAU attempt counter is less than 5
- the counter value is increased and attach retry / TAU retry is performed.
- the service request is retried after waiting for a wait timer (for example, T3417 or T3417ext).
- a case may fail for some even though the NAS signaling request is allowed by the network.
- the NAS signaling request process may succeed for EPS, but the MSC may be temporarily unreachable, a network failure may occur due to a PLMN failure, or the CS domain may not be available (e.g. , EMM reason value # 16, # 17 or # 18 to indicate EPS-only success.
- the UE / MS will retry the NAS signaling request up to the upper limit of the attempt counter.
- the reason values # 13, # 14, and # 35 of the rejection message for the NAS signaling request are not about network failure / lower layer failure, but roaming protocol and subscriber
- PLMN reselection and RAT change are performed immediately without retry counting.
- the service since this is not due to a network failure / lower layer failure but only a problem related to subscriber information, the service may not be available due to retrying or waiting for a service request process in the case of network failure / lower layer failure to be dealt with in the present invention. It should be distinguished from the solution to the delayed problem.
- the UE / MS performs an operation of immediately changing the RAT or reselecting the PLMN without retrying or waiting for the NAS signaling request. Definition is required. Accordingly, in case of NAS signaling request failure / rejection due to network failure / lower layer failure, the operation of always retrying is prevented and the RAT change / PLMN reselection is performed immediately, thereby preventing unnecessary consumption of network resources. Problems such as delaying service provision to the user can be solved.
- a NAS signaling request (eg, attach, TAU / RAU, service request, etc.) fails or is rejected by the network due to a lower layer failure or network failure
- the UE / MS immediately performs a RAT change or re-enters the PLMN. You can perform the selection, or you can perform a RAT change and a PLMN reselection together.
- the network failure includes one of a CS failure or a PS failure or a case in which both CS and PS have failed.
- the cause of the network failure may also be one or more of an RLF, a network abnormal case, or a problem with the core network itself. This embodiment can be specifically expressed as follows.
- the present invention proposes to apply the upper limit of the attempt counter even in the case of the service request process.
- a trial counter having a predetermined upper limit may be applied, or a period in which the service request process is performed may be set.
- the UE / MS may perform the PLMN reselection and / or RAT change after performing the service request process up to the upper limit of the attempt counter.
- the UE / MS proposes to update (or set) the value of the attempt counter to the upper limit without performing retry. That is, it is possible to omit the retry until the upper limit of the attempt counter, and to perform an operation (that is, change the RAT and / or reselect the PLMN) when the attempt counter is the upper limit.
- the UE / MS does not perform retry or wait in an attach process, a TAU / RAU process, or a service request process (i.e., For the attach process or the TAU / RAU process, the attempt counter may be set to an upper limit value (for example, 5), and for the service request process, without applying the wait timer, the RAT change and / or the PLMN selection may be performed.
- an upper limit value for example, 5
- the above-described operation may be additionally performed as an operation when the value of the attempt counter is set to an upper limit value in the present invention. That is, the UE sets the EPS update status to not updated (e.g. EU2), deletes all of the GUTI, last visited registered TAI, eKSI, and equivalent PLMN lists, if any, and then EMM-. It changes to DEREGISTERED.PLMN-SEARCH state and can perform PLMN selection.
- EU2 not updated
- the UE supports A / Gb mode or Iu mode, set the GPRS update status to not updated (e.g., GU2), RAI, P-TMSI, P-TSMI signature and GPRS encryption key sequence. If the number exists, you can delete it.
- an operation of the UE / MS performing RAT change and / or PLMN selection may be performed.
- a different RAT is selected from the same PLMN as the PLMN of the cell where the network failure occurs, or a PLMN equal to the PLMN of the cell where the network failure occurs.
- a UE / MS that selects another RAT may return to the cell where the original network failure occurred according to an AS reselection process (eg, RAT change) in the 2G / 3G system.
- the network problem in which the failure occurred initially is a serious problem that is not solved in a short time, even if the UE / MS returns to the original RAT / PLMN, the network failure that has already occurred is still resolved.
- the NAS signaling request of the UE / MS may again fail / reject.
- the UE / MS may perform the RAT / PLMN selection immediately as suggested in Embodiment 1 and receive service from another RAT / PLMN again, but again, the process of returning to the RAT / PLMN which has not been solved again is repeated.
- This problem may be referred to as a ping-pong problem due to network failure.
- This embodiment proposes a solution to this ping-pong problem.
- a predetermined timer i.e., when the UE / MS selects another RAT in the same PLMN or another RAT in an equivalent (or different) PLMN in case of NAS signaling request failure or rejection due to lower layer failure or network failure.
- RAT / PLMN selection related timer can be started. That is, the RAT / PLMN selection-related timer may be used for different RATs and / or other PLMNs (i.e., different RATs of other PLMNs, same RATs of different PLMNs, or of the same PLMN), except for the current RAT and PLMN combination in which network failure occurred. It can be defined as a timer related to selecting a different RAT).
- the RAT / PLMN selection related timer may be understood to prevent the UE / MS from selecting the current RAT + PLMN where the network failure occurs while the timer is in operation. Even if the network failure is a serious one that cannot be cured in a short time, it is necessary to consider the possibility that the network failure will be resolved later, so that the value of the RAT / PLMN selection related timer can be appropriately set. That is, the value of the timer may be given as a value that is expected to resolve the network failure.
- the UE may disable LTE capability and re-enable it when the RAT / PLMN selection related timer expires.
- the UE may select another RAT and / or another PLMN and disable LTE capability, but 1) If a predetermined condition is met instead of the RAT / PLMN selection-related timer proposed in, the same original RAT and the same PLMN can be selected and the LTE capability can be re-activated.
- the predetermined condition may include power off / on of the UE, change of a network operation mode, etc. for the purpose of PLMN selection.
- the lower layer ie AS
- the lower layer is considered to be in an LTE cell state that is barred for a certain time period (e.g., allowed for CSG cells). Similar to the operation when not).
- the AS may reselect another RAT or cell based on its ranking algorithm.
- the UE / MS sets an upper limit value (e.g., 5) in the attempt counter in all cases of attach request, TAU / RAU and service request. It may be set to, and start the timer related to the RAT / PLMN selection. While the RAT / PLMN selection-related timer is in operation, the UE / MS performs the RAT and / or the RAT and / or PLMN among the candidates of the remaining RAT and / or PLMN except for the combination of the RAT and PLMN (ie, the current RAT and PLMN) in which NAS signaling request failure / rejection occurred. Or you can choose PLMN.
- an upper limit value e.g. 5, 5
- PLMN selection-related timer is in operation
- the UE / MS performs the RAT and / or the RAT and / or PLMN among the candidates of the remaining RAT and / or PLMN except for the combination of the RAT and PLMN (ie, the current
- FIG. 6 is a flowchart illustrating a method of performing a NAS signaling process according to an example of the present invention.
- the UE may transmit a request message (eg, attach request, TAU request, RAU request, service request message) to a network node (eg, MME) of the first network.
- a request message eg, attach request, TAU request, RAU request, service request message
- MME network node
- step S620 the UE receives, from the network node of the first network, a message including information indicating network failure in the first network (eg, attach rejection, TAU rejection, RAU rejection, denial of service message). can do.
- a denial message indicating a network failure is received.
- the UE may receive a NAS signaling request failure message indicating a lower layer failure.
- step S630 the UE starts a network selection related timer, and selects a second network in step S640 during the network timer operation.
- the network selection related timer may correspond to the RAT / PLMN selection related timer described in the second embodiment. That is, during the network selection timer operation, the UE may select a new RAT and / or a new PKMN from the remaining network candidates except for the combination of the current RAT and PLMN where the network failure has occurred.
- FIG. 7 is a diagram illustrating a configuration of a preferred embodiment of a terminal device according to an example of the present invention.
- the terminal device 1000 may include a transmission / reception module 1010, a processor 1020, and a memory 1030.
- the transmission / reception module 1010 transmits various signals, data, and information to an external device (for example, a network node, another terminal, a server, a base station device, etc.), and an external device (for example, a network node, another terminal, a server).
- Base station apparatus, etc. may be configured to receive various signals, data, and information.
- the processor 1020 may control operations of the entire terminal device 1000, and may be configured to perform a function of the terminal device 1000 to process and process information to be transmitted and received with an external device.
- the memory 1030 may store the processed information for a predetermined time and may be replaced with a component such as a buffer (not shown).
- the terminal device 1000 may be configured to perform a NAS signaling process.
- the processor 1020 may be configured to receive, using the transmission / reception module 1010, a first message including information indicating network failure from a network node of a first network.
- the processor 1020 may be configured to start a network selection related timer and perform a selection of a second network among network candidates except the first network during the network selection related timer operation.
- the specific configuration of the terminal device 1000 as described above may be implemented so that the above-described matters described in various embodiments of the present invention may be independently applied or two or more embodiments may be applied at the same time. Omit.
- Embodiments of the present invention described above may be implemented through various means.
- embodiments of the present invention may be implemented by hardware, firmware, software, or a combination thereof.
- a method according to embodiments of the present invention may include one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), and Programmable Logic Devices (PLDs). It may be implemented by field programmable gate arrays (FPGAs), processors, controllers, microcontrollers, microprocessors, and the like.
- ASICs Application Specific Integrated Circuits
- DSPs Digital Signal Processors
- DSPDs Digital Signal Processing Devices
- PLDs Programmable Logic Devices
- FPGAs field programmable gate arrays
- processors controllers, microcontrollers, microprocessors, and the like.
- the method according to the embodiments of the present invention may be implemented in the form of a module, a procedure, or a function that performs the functions or operations described above.
- the software code may be stored in a memory unit and driven by a processor.
- the memory unit may be located inside or outside the processor, and may exchange data with the processor by various known means.
- Embodiments of the present invention as described above may be applied to various mobile communication systems.
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Abstract
Description
레퍼런스 포인트 | 설명 |
S1-MME | E-UTRAN와 MME 간의 제어 평면 프로토콜에 대한 레퍼런스 포인트 |
S1-U | 핸드오버 동안 eNodeB 간 경로 스위칭 및 베어러 당 사용자 평면 터널링에 대한 E-UTRAN와 SGW 간의 레퍼런스 포인트 |
S3 | 유휴(idle) 및/또는 활성화 상태에서 3GPP 액세스 네트워크 간 이동성에 대한 사용자 및 베어러 정보 교환을 제공하는 MME와 SGSN 간의 레퍼런스 포인트. 이 레퍼런스 포인트는 PLMN-내 또는 PLMN-간(예를 들어, PLMN-간 핸드오버의 경우)에 사용될 수 있음) |
S4 | GPRS 코어와 SGW의 3GPP 앵커 기능 간의 관련 제어 및 이동성 지원을 제공하는 SGW와 SGSN 간의 레퍼런스 포인트. 또한, 직접 터널이 형성되지 않으면, 사용자 평면 터널링을 제공함 |
S5 | SGW와 PDN GW 간의 사용자 평면 터널링 및 터널 관리를 제공하는 레퍼런스 포인트. UE 이동성으로 인해, 그리고 요구되는 PDN 연결성을 위해서 SGW가 함께 위치하지 않은 PDN GW로의 연결이 필요한 경우, SGW 재배치를 위해서 사용됨 |
S11 | MME와 SGW 간의 레퍼런스 포인트 |
SGi | PDN GW와 PDN 간의 레퍼런스 포인트. PDN은, 오퍼레이터 외부 공용 또는 사설 PDN이거나 예를 들어, IMS 서비스의 제공을 위한 오퍼레이터-내 PDN일 수 있음. 이 레퍼런스 포인트는 3GPP 액세스의 Gi에 해당함 |
Claims (15)
- 무선 통신 시스템에서 단말이 NAS(Non-Access Stratum) 시그널링 과정을 수행하는 방법에 있어서,제 1 네트워크의 네트워크 노드로부터 네트워크 실패를 지시하는 정보를 포함하는 제 1 메시지를 수신하는 단계;네트워크 선택 관련 타이머를 시작하는 단계; 및상기 네트워크 선택 관련 타이머 동작 중에, 상기 제 1 네트워크를 제외한 네트워크 후보들 중에서 제 2 네트워크의 선택을 수행하는 단계를 포함하는, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 제 1 네트워크는 상기 네트워크 실패를 지시하는 정보를 제공한 PLMN(Public Land Mobile Network)인, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 제 2 네트워크의 선택은, 상기 네트워크 실패를 지시하는 정보를 제공한 PLMN 및 RAT(Radio Access Technology)의 조합을 제외한 후보들 중에서, RAT 또는 PLMN 중의 하나 이상을 선택하도록 수행되는, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 제 1 네트워크의 네트워크 노드로 상기 NAS 시그널링 과정의 요청에 대한 제 2 메시지를 전송하는 단계를 더 포함하는, NAS 시그널링 과정 수행 방법.
- 제 4 항에 있어서,상기 제 1 메시지는 상기 제 2 메시지에서 요청한 상기 NAS 시그널링 과정이 네트워크에 의해서 허용되지 않음을 나타내는 거절 메시지인, NAS 시그널링 과정 수행 방법.
- 제 4 항에 있어서,상기 제 2 메시지는, 어태치 요청 메시지, TAU(Tracking Area Update) 요청 메시지, RAU(Routing Area Update) 요청 메시지, 또는 서비스 요청 메시지 중의 하나인, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 제 1 메시지는, 어태치 거절 메시지, TAU 거절 메시지, RAU 거절 메시지, 또는 서비스 거절 메시지 중의 하나인, NAS 시그널링 과정 수행 방법.
- 제 7 항에 있어서,상기 제 1 메시지가 상기 어태치 거절 메시지, 상기 TAU 거절 메시지, 또는 상기 RAU 거절 메시지 중의 하나인 경우, 시도 카운터의 값을 상한 값으로 설정하는 단계를 더 포함하는, NAS 시그널링 과정 수행 방법.
- 제 8 항에 있어서,상기 상한 값은 5인, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 단말의 업데이트 상태가 업데이트되지 않음으로 설정되는, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,GUTI(Globally Unique Temporary Identifier), 마지막으로 방문한 등록된 TAI(Tracking Area Identity), KSI(Key Set Identifier) 정보, 또는 균등한(equivalent) PLMN 리스트 중의 하나 이상이 삭제되는, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 단말이 EMM-DEREGISTERED.PLMN-SEARCH 상태로 설정되는, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 단말에 의해서 A/Gb 모드 또는 Iu 모드가 지원되는 경우, P-TMSI(Packet Temporary Mobile Subscriber Identity), P-TMSI 시그너처(signature), RAI(Routing Area Identity), 또는 GPRS(General Packet Radio Service) 암호화 키 시퀀스 번호 중의 하나 이상이 삭제되는, NAS 시그널링 과정 수행 방법.
- 제 1 항에 있어서,상기 네트워크 노드는 MME(Mobility Management Entity)인, NAS 시그널링 과정 수행 방법.
- 무선 통신 시스템에서 NAS(Non-Access Stratum) 시그널링 과정을 수행하는 단말 장치에 있어서,송수신 모듈; 및프로세서를 포함하며,상기 프로세서는, 제 1 네트워크의 네트워크 노드로부터 네트워크 실패를 지시하는 정보를 포함하는 제 1 메시지를 상기 송수신 모듈을 이용하여 수신하고; 네트워크 선택 관련 타이머를 시작하고; 상기 네트워크 선택 관련 타이머 동작 중에, 상기 제 1 네트워크를 제외한 네트워크 후보들 중에서 제 2 네트워크의 선택을 수행하도록 설정되는, NAS 시그널링 과정 수행 단말 장치.
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EP13761193.5A EP2827645A4 (en) | 2012-03-16 | 2013-03-18 | METHOD AND DEVICE FOR PROCESSING NAS SIGNALING IN A WIRELESS COMMUNICATION SYSTEM |
JP2014545841A JP5998228B2 (ja) | 2012-03-16 | 2013-03-18 | 無線通信システムにおいてnasシグナリング要請処理方法及び装置 |
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US15/589,843 US10512013B2 (en) | 2012-03-16 | 2017-05-08 | Method and apparatus for processing NAS signaling request in wireless communication system |
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CN104081826B (zh) | 2018-04-13 |
EP2827645A4 (en) | 2015-12-23 |
KR101542414B1 (ko) | 2015-08-07 |
EP2827645A1 (en) | 2015-01-21 |
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US20150140998A1 (en) | 2015-05-21 |
CN104081826A (zh) | 2014-10-01 |
JP2015505187A (ja) | 2015-02-16 |
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