method and device to support access control and mobility management

专利摘要:
the present application provides a method and an apparatus to support the general recording of the user's equipment to facilitate preferences by hand only.
公开号:BR112019016197A2
申请号:R112019016197
申请日:2018-02-01
公开日:2020-04-14
发明作者:Zhang Hang；Li Xu
申请人:Huawei Tech Co Ltd；
IPC主号:

专利说明:

METHOD AND APPARATUS TO SUPPORT ACCESS CONTROL AND MOBILITY MANAGEMENT
FIELD [001] The present invention relates to the field of wireless communication networks and, in particular, to a method and apparatus for general registration of user equipment.
BACKGROUND [002] The technical report of the Partnership Project 3 Generation (3GPP) listed as TR 23799, entitled Study on Architecture for Next Generation System, version 14.0.0, December 2016 (hereinafter referred to as TR 23 799), represents a approach to the design of a system architecture for next generation mobile networks, also known as 5th generation networks (5G). Section 6.3 of this document considers potential solutions to the key issue of providing a mobility framework. Within this section there is a description of a Mobile Origin (MO) mode only for User Equipment (UE) 100 (Figure 1) that does not require mobile terminated service (ie, the UE 100 does not have or expect downlink traffic (DL)) or who want to limit their accessibility.
[003] An UE mode, alternatively referred to as the Mobile Initiated Connection Only (MICO) Connection, or the Mobile Initiated Connection Only (MICO) mode, is described in Section 5.4.1.3 of the technical specification Partnership Project third generation (3GPP) TS 23.501, entitled listed Technical Specification Group Services and System Aspects; System Architecture for the 5G System, version 0.3.1, March 2017
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2/69 (referred to herein as TS 23.501). However, the system would benefit from certain improvements related to the MICO mode.
[004] For the purposes of this disclosure, the MO-only mode and the MICO mode can be considered substantially equivalent and used interchangeably. In some cases, the term MO / MICO or MO-only / MICO is used to emphasize this applicability for either mode.
[005] Therefore, there is a need for a method and apparatus that serves mobile wireless communication devices in wireless communication networks, such as proposed 5G networks, to provide the MO-only / MICO mode, which eliminates or mitigates one or more limitations of the prior art.
[006] This background information is provided to reveal information that the applicant believes is of possible relevance to the present invention. No admission is necessarily intentional, nor should it be interpreted, that any prior information constitutes prior art against the present invention.
SUMMARY [007] It is an objective of the present invention to avoid or mitigate at least one disadvantage of the prior art.
[008] According to a first aspect, a method for managing a connection from a UE to a network is disclosed, the method comprising actions on an access node of: receiving a registration request from the UE comprising a mode preference MICO and a suggested duration for the MICO preference; and transmit the registration request to an AMF to determine whether MICO mode is allowed for the UE based on a communication standard, the AMF transmitting the determination and an update timer value
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3/69 periodic registration for the MICO mode for the UE; where the UE performs a record update when the periodic record update timer expires.
[009] In one embodiment, the communication pattern may suggest the absence of communications initiated by the network with the UE, and the determination may be to allow the MICO mode with a large MICO record periodic update timer value [0010] In one modality the communication pattern can suggest scheduled communications initiated by the network with the UE in a future time and the determination can be to allow MICO mode with a periodic record update timer value that expires before the future moment occurs.
[0011] In one embodiment, the communication pattern may suggest uncertainty about a schedule of communications initiated by the network with the UE and the determination may be to not allow the MICO mode.
[0012] In one mode, the UE can reset a periodic record update timer to the value of periodic record update timer when it enters a connected state.
[0013] In one embodiment, the AMF may provide an uninterrupted timer indication along with the determination for the UE and the UE may refrain from resetting the periodic update timer before the registration periodic update timer expires, even if the registration periodic update timer expires. UE enters the connected state, until the uninterrupted timer indication is removed.
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4/69 [0014] In one mode, the MFA can transmit an active timer value to the UE with determination and the UE can define an active timer with the active timer value upon receipt, reset the active timer with the active timer value when you have MO data to send, reset the active timer to the active timer value when it receives MT data and leave the connected state only after the active timer expires.
[0015] In accordance with a second aspect, an access node comprising a radio interface, a network interface, a process or a machine-readable memory is disclosed. The radio interface is for communicating with an UE. The network interface is for communicating with nodes within an (R) AN and a network. Machine-readable memory is for storing instructions that, when executed by the processor, cause the access node to execute the method of the first aspect and / or any modalities thereof.
[0016] According to a third aspect, a way to manage a connection from a UE to a network is disclosed, comprising the actions in the UE of: transition to a state of connection to the network and start a timer having a duration obtained at from an MFA on the network; transmitting MICO data to an access node in communication with it while in the connection state; and remain in the connection state after failing to transmit MICO data until at least
after expiration of timer. [0017] On an modality after the expiration of timer, the HUH can transition to a state in idleness if already do not transmit data MICO. In an
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5/69 modality, the action of transition to a state of idleness may comprise being released from the network by the access node.
[0018] In one modality, the MFA can determine the duration based on a communication pattern derived from user signature data, a communication pattern and / or a mobility pattern. In one embodiment, the communication pattern may indicate that the MICO data will not trigger MT data and the duration may be a default value. In one embodiment, the communication pattern may indicate that MICO data will trigger MT data after a time interval and the duration may exceed the time interval and a round trip delay of a packet.
[0019] According to a fourth aspect, a UE is disclosed comprising a processor and a machine-readable memory. Machine-readable memory is for storing instructions that, when executed by the processor, cause the UE to execute the method of the third aspect and / or any modalities thereof.
[0020] According to a fifth aspect, a method for managing a connection from a UE to a network is disclosed, comprising actions in the UE of: receiving MT data from an access node while in a state of connection to the network in response to MICO data transmission; request a transition from the connection state to an idle state for an MFA; and transition to the idle state when obtaining a release from the network by the AMF.
[0021] In one embodiment, the request action may include sending the request to the access node.
[0022] According to a sixth aspect, a UE is disclosed comprising a processor and a memory readable by
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6/69 machine. Machine-readable memory is for storing instructions that, when executed by the processor, cause the UE to execute the method of the fifth aspect and / or any modalities thereof.
[0023] It should be understood that the modalities of an aspect can be used alone or in conjunction with other modalities. In some cases, the modalities of one aspect can also be applied to other aspects.
BRIEF DESCRIPTION OF THE FIGURES [0024] Other features and advantages of the present invention will become apparent from the following detailed description, taken in combination with the accompanying drawings, in which:
[0025] Figure 1 shows a signaling diagram that illustrates a modality of a procedure for updating a general UE registration procedure.
[0026] Figure 2 presents a signaling diagram that illustrates another modality of a procedure for updating a general UE registration procedure.
[0027] Figure 3A presents a signaling diagram that illustrates a modality of a procedure for updating a general UE registration procedure and a Service Request procedure.
[0028] Figure 3B shows a signaling diagram that illustrates a modality of a procedure for updating a general UE registration procedure and a Service Request procedure.
[0029] Figure 3C shows a signaling diagram that illustrates a modality of a procedure for updating
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7/69 a general EU registration procedure and Service Request procedure.
[0030] Figure 4 shows a signaling diagram that illustrates a modality of a Service Request procedure triggered by UE.
[0031] Figure 5 presents a signaling diagram that illustrates a modality of an AMF-centered state transition procedure.
[0032] Figure 6 shows DL transmission activated by UL when a UE is in MICO mode according to modalities of the present invention.
[0033] Figure 7 shows the operation in relation to a short DL transmission schedule known according to the modalities of the present invention.
[0034] Figure 8 is a block diagram illustrating an apparatus for carrying out methods of the present invention as described herein.
[0035] It will be noted that throughout the accompanying drawings, similar characteristics are identified by similar reference numbers.
DETAILED DESCRIPTION [0036] As used herein, the term User Equipment (EU) 100 is used for the sake of clarity. However, the UE 100 can refer to one of a variety of devices, generally referred to here by the term mobile devices and including mobile stations, terminals or nodes, fixed or stationary devices, stations, terminals, or nodes, type communication devices human type, machine-type communication devices (MTC), Internet of Things (loT) devices, other network nodes
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8/69 wireless end, which communicate with a radio access node via wireless communication. Another term used as a synonym for UE 100 and mobile device is electronic device. A person skilled in the art will appreciate that the term mobile device is used to refer to a device designed to connect to a mobile network. This connection typically makes use of a wireless connection to an access node. Although the mobile network is designed to support mobility, it is not necessary for the mobile device itself to be mobile. Some mobile devices, such as measuring devices (for example, smart meters) may not be capable of mobility, but they still make use of the mobile network.
[0037] As used here, an Access Node (AN) 102 (Figure 1) can be a 3GPP AN, referred to as a RAN, or a non-3GPP AN. The term (R) AN can be used to emphasize that an AN can be a RAN or a non-3GPP AN. In some situations, the term RAN can also refer to the radio access network, but those skilled in the art may differentiate between these uses.
[0038] This application uses a number of acronyms that are based on the current terminology used in 3GPP standards processes. The terms are subject to change as the process progresses, but current terms used by people skilled in the art include:
AF - Application Function
AMF - Mobility and Access Management Role
AN - Access Node
AT - Access Technology
AUSF - Authentication Server Role
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9/69
CM - Connection Management
CN - Main Network
CP - Control Plan
DL - Downlink
DNN - Data Network Name
EIR - Equipment Identity Record
GW - Gateway
HO - Transfer
ID - Identifier Number
IMSI - International Mobile Subscriber Identity
ΙοΤ - Internet of Things
LT - Location Tracking
ME - Mobile Equipment
MICO - Mobile Initiated Connection Only or Mobile
Communication Initiate Only
MM - Mobility Management
MO - Original Furniture
MT - Finished Furniture
MTC - Machine Type Communication
NAS - Non-Accessible Stratum
NEF - Network Exposure Function
NG - Next Generation
NSSAI - Network Slice Selection Assistance Information
PCF - Policy Control Function
PDU - Protocol Data Unit
PEI - Permanent Equipment Identifier
PLMN - Public Terrestrial Mobile Network
QoS - Quality of Service (R) AN - Radio Access Network
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10/69
RRC - Radio Resource Control
SMF - Session Management Role
S-NSSAI - Single Network Slice Selection Assistance Information
SUPI - Permanent Subscriber Identity
UDM - Unified Data Management
EU - User Equipment
UL - Ascending Link
UP - User Plan
UPF - User Plan Role
5G-GUTI - Globally Unique Temporary Identifier 5G [0039] Modalities of the present invention comprise operations provided automatically by one or more nodes and / or functions that are part of an 818 wireless communication network (FIG 8). Each node and / or function can be associated with the activation of components such as an 802 microprocessor (Figure 8), electronic memory 804, 808, (Figure 8), and communication interface or interfaces 806, 810, 812 (Figure 8). The microprocessor 802 can execute program instructions stored in memory 804, 808 in order to implement the desired node and / or function functionality as described here. The microprocessor 802 and the memory 804, 808 can be replaced at least partially with equivalent electronic components such as digital logic components in some embodiments. Nodes and / or functions can be operated on dedicated hardware or can be virtualized, which are made to operate on generic hardware platforms according to a network function virtualization (NFV) framework.
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11/69 [0040] Section 8.3 of TR 23.799, mentioned above, provides an agreement for EU accessibility and support for a MO-only / MICO mode. In particular, according to the contract, based on the preferences indicated by the UE, EU subscription data and network policies, or any combination of them, the Next Generation Main Network (CN) 818 (NG) can determine whether the mode MO-can only be applied for UE 100. An indication of the result of this determination is sent to UE 100 during registration signaling. The UE 100 and the main network 818 can then restart (or exit) the MO-only mode with subsequent registration signaling.
[0041] In addition, an UE 100 in MO-only / MICO mode is characterized by the UE 100 performing a registration after the expiration of a registration timer (with potentially a very long periodic registration timer and / or update timer value. periodic registration (which terms can be used interchangeably)), but not necessarily listening to (or responding to) pagination between records. In case the UE 100 is in MO-only / MICO mode, the CN 818 can inform the (R) AN 102 that the UE 100 will not be listening to the paging (for example, an (R) AN 102 may decide never to keep an inactive MO-only mode UE 100 in a radio resource control (RRC) inactive state. When transmitting an indication to the (R) AN 102, the CN 818 node is able to allow the (R) AN 102 to reduce the signaling associated with a node in the MO-only / MICO mode.
[0042] Finally, the agreement establishes that, for a UE 100 in MO-only / MICO mode, CN 818 determines the frequency of the periodic registration.
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12/69 [0043] This application provides a method and apparatus for updating a general EU registration procedure to meet the requirements of the above agreement.
[0044] For any modality, any programmed communication time can be restricted to a UE 100, by a UE parameter for DL, UL, or bidirectional.
[0045] Figure 1 provides a signaling diagram summarizing the steps of a method for general registration of the UE 100 on a communications network.
[0046] In step 120, UE 100 communicates an (R) AN registration request to (R) AN 102. The registration request message can include (R) AN parameters together with a registration request. The registration request may include the following details: Type of registration, Permanent Subscriber Identifier (SUPI) or Global Temporary Unique Identifier 5G (5G-GUTI), Security parameters, network slice selection assistance information (NSSAI), EU 5G CN capacity, protocol data unit (PDU) session state, and the MO-only / MICO mode preference indicator. The MO-only / MICO preference indicator can indicate whether the MO-only / MICO mode is preferred by the UE 100, and if you prefer, it can also indicate a suggested duration.
[0047] In the case of 5G- (R) AN, the (R) AN parameters can include, for example, a SUPI or 5G-GUTI, and / or the selected NSSAI.
[0048] The record type field can indicate whether the UE 100 wants to perform an initial registration (that is, when the UE 100 is in the unregistered state), a mobility record or a mobility record update (this
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13/69 is when the UE 100 is in a registered state and initiates a new or updated registration (ie a registration procedure) due to mobility) or a periodic registration or periodic registration update (ie when the UE 100 is in a registered state and starts a new or updated registration (ie, a registration procedure) due to the expiration of a periodic update timer). See, for example, Section 4.2.2.2.1 of TS 23.501. If included in the registration request, the 5G-GUTI can be used to indicate the latest service access and mobility management (MFA) function 104, 106 (Figure 1). In some embodiments, if the UE 100 is already registered through non-3GPP access on a public land mobile network (PLMN) other than the PLMN for 3GPP access, the UE 100 is configured to refrain from providing the temporary UE ID assigned by AMF 104, 106 during the registration procedure on non-3GPP access. The security parameters transmitted in this message can be used for authentication and integrity protection. NSSAI indicates the Network Slice Selection Assistance Information (as defined in TS 23.501 (for example, Section 5.15). The PDU session state indicates the PDU sessions available (for example, previously established) on the UE 100. In the following figures, dashed lines were used to indicate steps that can be performed as optional steps or conditional steps.
[0049] Step 122 can be performed when a SUPI is included or when the 5G-GUTI does not indicate a valid AMF 104, 106. In this optional step 122, the (R) AN 102, based on Access Technology (AT) ( or, more specifically, a Radio AT (RAT)) and NSSAI, if available, selects an AMF
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104, 106. AN 102 can use any of several different techniques to select an AMF 104, 106, such as those described in TS 23.501.
[0050] In some modalities, if (R) AN 102 is unable to select an AMF 104, 106, it forwards the Registration Request to a standard AMF 104, 106. Standard AMF 104, 106 is responsible for selecting an appropriate AMF 104, 106 for the UE. The relocation between the standard AMF 104, 106 and selected AMF 104, 106 is described in Section 4.2.2.2.3 of TS 23.502, where the initial AMF 104, 106 refers to the standard AMF 104, 106, and the destination AMF 104 , 106 refers to the selected AMF 104, 106.
[0051] In step 124 (R) AN 102 transmits a registration request message to AMF 104. In some modalities, this registration request takes the form of an N2 message. The N2 message may include N2 parameters and a registration request (which may include the type of registration and / or permanent user ID (for example, a SUPI) or 5G-GUTI, security parameters and / or NSSAI)). When using 5G- (R) AN, N2 parameters can include Location Information, Cell Identity and / or the type of RAT related to the cell in which the UE 100 is camping. In some embodiments, if the type of Record indicated by the UE 100 corresponds to the case of periodic update of the record, subsequent steps up to and including the context setting of UE 152 and / or 154 may be omitted.
[0052] Optionally, in step 126, the new AMF 104 can transmit a request for information to an old AMF 106 (such as one indicated in (or determined according to)
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15/69 registration application 120) to complete the Registration Application. For example, if the UE's 5G-GUTI was included in the Registration Request and the AMF serving 104, 106 has changed since the last registration, the new AMF 104 may send the Information Request to the old AMF 106 including the Registration Request complete to request the SUPI and MM context of the UE.
[0053] If step 126 is carried out, in step 128, the old AMF 106 transmits an Information Response (including, for example, the EU SUPI, the MM Context and / or the SMF information) to the new AMF 104. If the old AMF 106 contains information about active PDU Sessions, the old AMF 104 may include, in the SMF information response 110, information including SMF identities and / or PDU session identities.
[0054] Optionally, in step 130, the new AMF 104 transmits an Identity Request to the UE 100. In particular, when the SUPI is not provided by the UE 100 nor is it retrieved from the old AMF 106, the Identity Request procedure can be initiated by the new AMF 104 by sending an Identity Request message to the UE 100.
[0055] If step 130 is performed, then in step 132, UE 100 transmits an Identity Response to the new AMF 104. UE 100 responds to the identity request sent in step 130 with an identity reply message including the SUPI.
[0056] In step 134, the new AMF 104 may decide to invoke an authentication server (AUSF) role 112. In that case, the new AMF 104, may select a
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16/69 authentication server (AUSF) 112. This selection can be made according to the SUPI, as described in TS 23.501.
[0057] In step 138, AUSF 112 selected in step 134 initiates UE 100 authentication and non-access layer security (NAS) functions. Authentication and security can be performed using any number of different techniques. The particularities of the implementation of the authentication and security processes can be based on generally accepted processes, such as those described in other 3GPP documents, including TS 23.501. Note that, the selection of AMF 104, 106 can be performed after this step 138, for example, due to requirements imposed based on the implementation of network slicing. Therefore, the methods used may vary and may be similar to those provided in TS 23.502.
[0058] In step 140, if AMF 104, 106 changed the new AMF 104 confirms the transfer of the MM context from UE 100 to the old AMF 106. If the authentication / security procedure fails, the Registry may be rejected and the new one AMF 104 may send a rejection indication to the former AMF 106. If this occurs, then the former AMF 106 may continue as AMF 104, 106 associated with UE 100 as if the Request for Information had never been received.
[0059] If the permanent equipment identifier (PEI) was not provided by the UE 100 nor retrieved from the old AMF 106, then, in step 142, an Identity Request procedure can be initiated by the AMF 104 by sending an Identity Request message to UE 100 to recover the PEI.
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17/69 [0060] In optional step 146, AMF 104 initiates a Mobile Equipment (ME) identity verification with the Equipment Identity Record (EIR) 136. The PEI verification can be performed as described in clause 4.7 of the TS 23.502.
[0061] If step 148 is to be performed, then, in step 146, AMF 104 first selects a SUPI-based Unified Data Management (UDM) 114, for example, as described in TS 23.501.
[0062] In step 148, if AMF 104 has changed since the last record, or if there is no valid subscription context for UE 100 in AMF 104, or if UE 100 provides a SUPI that does not refer to a context valid on AMF 104, AMF 104 starts the update location procedure. The update location procedure in step 148 includes the UDM initiating a Cancellation Location for the old AMF 106, if any. The old AMF 106 can remove the MM context and can notify all possibly associated session management functions (SMF (s)) 110, and the new AMF 104 creates an MM context for the UE 100 after obtaining the related subscription data with AMF from UDM 114. AMF-related subscription data may include a DL communications schedule, if any, from UE 100. AMF-related subscription data may include UE 100 communication standard parameters, which may include a periodic communication indicator, scheduled communication time (s), an indication of whether mobile communication is initiated or initiated by the network, an indication of whether MT data communication expects to be triggered by
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18/69 MO data communication, and / or an expected time interval between TM data and MO data communication events, etc.
[0063] In a modality in step 148, the AMF 104 can obtain a DL or network communication activity program started from UDM 114, if it exists, to determine whether to apply the MO-only mode to the UE 100 and the timer periodic record update.
[0064] If no communication activity initiated by DL or network is expected, the UE 100 can be assigned to MO-only mode and the timer can be set to a large value. However, if communication activity initiated by DL or network is expected to occur, the UE 100 can be assigned with the non-MO-only mode.
[0065] If communication activity initiated by DL or network is expected, but does not occur soon, the UE 100 can be assigned to the MO-only mode and the timer can be set to a value such that the UE 100 performs its registration before the expected communication activity takes place. This allows the UE 100 to be in MO-only mode but exit the mode before the expected DL transmissions. If the DL communication activity is uncertain, the UE 100 can be assigned to non-MO-only mode.
[0066] If the communication pattern parameters include an indication that the TM data communication is expected to be triggered by the MO data communication, and / or an expected time interval between MT data and communication events from MO data, when AMF 104 detects that the UE 100 has entered the CM_CONNECTED state for transmitting MO data in the UL direction (as an example
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19/69 non-limitative, when the UE 100 makes a Service Request instead of a registration, the AMF 104 can conclude that the UE 100 wants to transmit MO data in the UL direction), the AMF 104 can trigger the UE 100 to perform a registry update in order to renegotiate the MICO mode so that the UE 100 can exit the MICO mode and receive MT data in the DL direction which is activated by the MO data in the UL direction. In some instances, in such a scenario, the AMF 104 can directly inform the UE 100 to exit / disable the MICO mode, by way of a non-limiting example, through an UE configuration update procedure. If the communication pattern information includes an indication that MT data communication is expected to be triggered by the MO data communication, and / or an expected time interval between MT data and MO data communication events , AMF 104 may not allow and / or disable the MICO mode for the UE 100 and report that this occurred to the UE 100, by way of non-limiting example, during registration and / or a registration update.
[0067] The update location procedure can be performed as described in TS 23.502. During the update 148 localization procedure, PEI is provided for UDM 114.
[0068] Optionally, in step 150, AMF 104, based on SUPI, selects a Policy Control Function (PCF) 108. AMF 104 can select a PCF 108 using any of several different procedures, such as those described in the TS 23,501.
[0069] If PCF 108 is selected (and in some modalities when AMF 104, 106 was unable to obtain or
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20/69 has not yet obtained an AMF-related operator policy, and / or if the local AMF policy is not considered appropriate and / or valid), then in step 152, AMF 104 transmits an EU Context Establishment Request to PCF 108, requesting PCF 108, for example, to apply operator policies for UE 100. In some embodiments, this Context Establishment Request may be related to SUPI. The UE context request can optionally include a UE identifier, such as a SUPI. In various modalities, if AMF 104 has not yet obtained AMF-related operator policies for the UE 100 and / or if the operator policies on AMF 104 are no longer valid, AMF 104 requests that PCF 108 apply operator policies for the UE 100.
[0070] In some embodiments, PCF 108 may determine that the UE 100 must be in the MO-only mode, and in others, it may determine the parameters of the MO-only mode for the UE 100. In such cases, the PCF 108 may transmit an indication of the decision and / or the parameters to AMF 104. This indication can be included in the confirmation message from step 154. In some embodiments, PCF 108 can provide AMF-related operator policies to the UE 100 for to AMF 104. When the confirmation message includes this indication, PCF 108 may need to interact with UDM 114 to obtain a DL or a communication activity schedule initiated by the network in order to make that decision. In such modality, it is PCF 108, and not AMF 104, which obtains the programming of communications initiated by DL or network from UDM 114 and determines the selection of the MO-only mode.
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21/69 itself, in contrast to the modalities discussed above. It should be understood that other variations discussed above in relation to the method can also be implemented in this modality.
[0071] In step 154, PCF 108 communicates with AMF 104 to respond and / or confirm the EU Context Establishment Request message. In some embodiments, the reply message may include the operator policy, such as the AMF-related operator policy, for example, for the UE 100 for the AMF 104.
[0072] In some modalities, AMF 104 at this point determines or updates the expected behavior of the UE or the Mobility Standard for the UE 100, as described in Section 5.3.4.2 of TS 23.501. According to the expected behavior of the UE or mobility standard, the AMF 104 determines whether to apply the MICO mode to the UE 100 and the periodic record update timer value for the UE 100, as described in Section 5.4.1.3 in TS 23,501.
[0073] If AMF 104, 106 is changed, then, in step 156, the new AMF 104 communicates with each SMF 110 to notify each SMF 110 of the new AMF 104 serving the UE 100. AMF 104 checks the status of the session of PDU from UE 100 with SMF 110 information available. In this case the AMF 104, 106 has changed, the available SMF 110 information has been received from the old AMF 106. AMF 104 requests that SMF 110 release any network resources related to PDU sessions that are not active on the UE 100.
[0074] If step 156 is performed then, in step 158, SMF 110 communicates a response to AMF 104. SMF 110 may decide to trigger this step, for example, in the case of
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22/69 relocation of user plan function (UP) 400 (Figure 4) as described in TS 23.502. If the record type indicated by the UE 100 is a periodic record update, subsequent steps 160 and 162 can be omitted.
[0075] If the former AMF 106 previously requested that an UE context be established in PCF 108, then, in step 160, the former AMF 106 can complete the UE context in PCF 108. In step 162, PCF 108 transmits an EU Context Completion Confirmation for former AMF 10 6. In some modalities, if MO-only / MICO mode is selected for UE 100, AMF 104, 106 indicates this for (R) AN 102.
[0076] In step 164, AMF 104 informs (R) AN 102 if MO-only / MICO mode is selected for UE 100, and in step 166, notification of MO-only mode is confirmed by (R) AN 102 for the new AMF 104. In some modalities, step 164 is optional if the decision to select the MO mode only has not changed to the UE 100.
[0077] In step 168, AMF 104 sends a registration acceptance message to UE 100, indicating that the registration was accepted. The registration acceptance message can include 5G-GUTI, registration area. Mobility restrictions, PDU session status, NSSAI, MO-only / MICO mode indicator, and / or periodic record update timer. A 5G-GUTI is included if AMF 104 allocates a new 5G-GUTI. Mobility restrictions can be included if mobility restrictions apply to the UE 100. AMF 104 can indicate the PDU session status for the UE 100. The UE 100 can remove any internal resources related to PDU sessions that are not marked as active in the state of
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23/69 PDU session received. If the PDU session state information is in the registration request, AMF 104 may indicate the PDU session state for the UE 100. The NSSAI includes accepted Single NSSAIs (S-NSSAIs).
[0078] Optionally, in step 170, UE 100 sends a Registration Completion message to AMF 104 to confirm that a new 5G-GUTI has been assigned.
[0079] Figure 2 provides a signaling diagram summarizing the steps of a method for general registration of a UE 100 on a communications network. As shown in Figure 2, steps 120 - 154 are similar to steps 120 - 154 of the procedure summarized in Figure 1.
[0080] In step 152, if AMF 104 has not yet obtained the AMF related operator policies for the UE 100 or if the operator policies on AMF 104 are no longer valid, AMF 104 transmits a context establishment request to PCF 108 to apply operator policies for UE 100. The request may include an identifier for the UE, such as the SUPI. In step 154, PCF 108 transmits a context establishment response to AMF 104. For example, PCF 108 confirms the UE Context Establishment Request message and transmits the related operator policies for UE 100 to AMF 104.
[0081] In optional step 255, AMF 104 determines whether to assign the MO-only mode to the UE 100 and the periodic record update timer value for the UE 100 according to the subscription data, operator policies and the preference of the UE. In a modality, where the subscription data does not indicate DL communication activity
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24/69 for the UE 100, the MO-mode can only be selected for the UE 100 and the periodic register update timer can be set to a large value. In another mode, where the subscription data indicates that the DL communication activity is about to happen, the MO-only mode may not be selected for the UE 100. Alternatively, if the subscription data indicates that the communication activity DL will not occur anytime soon, MO-mode can only be selected for UE 100 and the periodic record update timer can be set to a value for the timer to expire before DL activity occurs. Finally, if the subscription data indicates uncertainty about the DL communication activity and / or its programming, the MO-only mode may not be selected for the UE 100.
[0082] If AMF 104 is changed, then, in step 256, the new AMF 104 communicates with each SMF 110 to notify each SMF 110 of the new AMF 104 serving the UE 100. AMF 104 checks the status of the PDU session from UE 100 with SMF 110 information available. In the event that AMF 104 has changed, the available SMF information has been received from the old AMF 106. The new AMF 104 requests that SMF 110 release any network resources related to PDU sessions that are not active on the UE 100.
[0083] If step 256 is performed, then in step 258, SMF 110 communicates a response to the new AMF 104. SMF 110 may decide to trigger this step, for example, in the case of relocating the UPF 400 as described in TS 23,502.
[0084] If the former AMF 106 previously requested that an EU context be established in PCF 108, then in
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25/69 step 260, the former AMF 106 may terminate the UE context in PCF 108. In step 162 PCF 108 transmits an EU Context Completion Confirmation to the former AMF 106.
[0085] In the event that the registration is the initial registration of the UE 100 or if the configuration of the MO-only mode of the UE 100 changes, the new AMF 104 notifies the (R) AN 102 if the MO mode is only selected for the UE 100. The notification can include the MO-only mode indicator. If there is no MO-only mode indicator in the notification, then in some embodiments it may be considered an implicit indication that the MO-only mode is not selected for the UE 100. The notification may also include the periodic record update timer in case the MO mode is only selected for the UE 100.
[0086] In step 266, the selection notification in MO-only mode is confirmed by (R) AN 102 in the new AMF 104.
[0087] In step 268, the new AMF 104 sends a Registration Acceptance Message to UE 100, indicating that the registration has been accepted. The Registration Acceptance message may include 5G-GUTI, registration area, mobility restrictions, PDU session status, NSSAI, MO-only mode indicator and / or periodic registration update timer. A 5G-GUTI is included if the new AMF 104 allocates a new 5G-GUTI. Mobility restrictions can be included if mobility restrictions apply to the UE 100. The new AMF 104 can indicate the PDU session status for the UE 100. The UE 100 can remove any internal resources related to PDU sessions that are not checked as active in the received PDU session state. If the PDU session state information is in the Request for
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Registration, the new AMF 104 may indicate the PDU session status for UE 100. NSSAI includes accepted S-NSSAIs.
[0088] Optionally, in step 270, UE 100 sends a Registration Completion message to the new AMF 104 to confirm that a new 5G-GUTI has been assigned.
[0089] The modalities of this disclosure refer to a variation and update in relation to the general registration procedure and the Service Request procedure described in TS 23.501. In particular, the update reflects the description of the MICO mode, as described in Section 5.4.1.3. More details are provided below.
[0090] Figures 3A, 3B and 3C illustrate registration procedures and Service Request procedures provided in accordance with the modalities of the present invention. More specifically, Figures 3A, 3B and 3C provide signaling diagrams that summarize the steps of general recording methods of an UE 100 on a communications network. It should be noted that the procedures in Figure 1 and Figures 3A, 3B and 3C have several similarities. As such, for the sake of clarity, only additional details particularly relevant to Figures 3A, 3B and 3C are provided in the description below. Other steps and details can be readily understood by reference to the above description in relation to Figure 1.
[0091] In more detail, Figure 3A also includes a step of selecting the MICO 355 mode following the steps of establishing context of UE 152, 154 and before messages Nil 156, 158. AMF 104, based on the local configuration and the expected behavior of the UE or the mobility pattern, determines whether the MICO mode is allowed for the UE.
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27/69 [0092] In step 168, AMF 104 indicates, using ο MO-only / MICO mode indicator, if MICO mode is allowed for UE 100, for (R) AN 102 and / or UE 100 AMF 104 provides the periodic record update timer value determined by it using the periodic record update timer parameter.
[0093] In more detail, while Figure 1 includes notification of MO-only 164 mode and confirmation of notification of MO-only 166 mode, these operations are omitted in Figure 3B.
[0094] In relation to Figure 3B, in step 124 of the registration request, a preference indicator of the MICO mode is provided in the registration request. The MICO mode preference indicator indicates whether MICO mode is preferred or not. An UE 100 can indicate a preference for the MICO mode during initial registration or a registration update. You can also indicate a preferred duration of the MICO mode. The registration request may include a communication duration value requested by the UE 100.
[0095] Furthermore, in relation to Figure 3C, this modality is similar to that described above in relation to Figure 3B. However, the modality illustrated in Figure 3C further includes two optional steps 363 and 365 after EU Context Completion steps 160, 162 and before Registration steps 168, 170. Step 363 defines an indication of pending data which is transmitted from AMF 104 to (R) AN 102. The (R) AN 102 can take this information into account when determining user inactivity. AMF 104 can determine the pending data indication message, as described in clause 5.4.1.3, TS 23.501. In the step
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365 (R) AN 102 can optionally send an acknowledgment of receipt of the pending data indication to AMF 104.
[0096] Figures 3A, 3B and 3C can be understood with reference to Figure 1, with terms such as MO-only replaced by MICO.
[0097] The operations that support a Service Request triggered by the UE in the connection management status (CM) _IDLE will now be described. These operations can include aspects that support network slicing operations.
[0098] The Service Request procedure can be used by a UE 100 in the CM_IDLE state to request the establishment of a secure connection to an AMF 104. The UE 100 in the CM_IDLE state initiates the Service Request procedure to send signaling messages. uplink, user data and / or response to a network paging request. After receiving the Service Request message, AMF 104 can perform authentication, and AMF 104 can (for example, if required for standards compliance) perform the security procedure. After establishing a secure signaling connection to an AMF 104, the UE 100 or network 818 can send signaling messages, for example, establishing a PDU session from the UE 100 to network 818. Alternatively, SMF 110, through of AMF 104, you can start the establishment of user plan resources for the PDU sessions requested by the 818 network and / or indicated in the Service Request message.
[0099] For any Service Request, AMF 104 may respond with a Service Response message to
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29/69 synchronize the state of the PDU session between the UE 100 and the 818 network. The AMF 104 can also respond with a service rejection message to the UE 100, if the Service Request cannot be accepted by the 818 network.
[00100] For a Service Request initiated due to the presence of user data, the 818 network can take other actions if the establishment of user plan resources is not successful.
[00101] Note that the procedure described here is not necessarily applicable to an access network 818 (since the UE 100 is registered in the 818 network) where the UE 100 is always considered to be in the CM_CONNECTED state and in which the resource user plan is always considered established for an active PDU session.
[00102] Figure 4 illustrates a Service Request procedure triggered by UE provided in accordance with an embodiment of the present invention, which is described below.
[00103] In step 421, the UE 100 transmits an MM NAS Service Request to (R) AN 102. The NAS Service request can indicate the session ID (s), the security parameters and / or the PDU session state. The UE 100 sends the NAS Message Service Request to the AMF 104 encapsulated in an RRC message to the (R) AN 102. The RRC messages that can be used to transport the 5G-GUTI and this NAS message are described in 3GPP TS 38,331 and 3GPP TS 36,331.
[00104] If the Service Request is triggered for user data, the UE 100 includes the PDU session ID (s) in the NAS Service Request message to indicate
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30/69 the PDU session (s) that the UE 100 should use. If the Service Request is triggered for signaling only, the UE 100 does not necessarily include any PDU session ID. When this procedure is triggered for paging response, if the UE 100 needs to use some PDU sessions, the UE 100 includes the PDU session ID (s) in the MM NAS Service Request message to indicate the ) PDU session (s) that the UE 100 needs to use. Otherwise, the UE 100 does not necessarily include any PDU session ID.
[00105] Note that the status of the PDU session indicates the PDU sessions available on the UE 100.
[00106] In step 422, the (R) AN 102 transmits an N2 message to AMF 104. The N2 message includes a Service Request from the MM NAS, 5G-GUTI, Location Information, RAT type and / or cause of establishment RRC. The details of this step are described in 3GPP TS 38.413. If AMF 104 cannot handle the Service Request, it will be rejected. The 5G-GUTI is obtained in the RRC procedure in 3GPP TS 38.331. The (R) AN 102 selects AMF 104 according to 5GGUTI. The Location Information and the type of RAT refer to the cell in which the UE 100 is camping. Based on the PDU session state, the AMF 104 can initiate the PDU session release procedure if the PDU session is not available on the UE 104.
[00107] In step 423, if the Service Request was not sent with integrity protected or integrity protection is indicated as failing, AMF 104 initiates the NAS authentication / security procedure as defined in clause 4.6 of TS23.502. If the UE 100 triggered the Service Request to establish only one connection
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31/69 of signaling, after the security exchange, the UE 100 and network 818 can send signaling and the remaining steps illustrated in Figure 4 are ignored.
[00108] In step 424a, which is a conditional step, AMF 104 sends a Nil message to SMF 110. The message can include PDU session ID (s). If the MM NAS Service Request message includes PDU session IDs, or this procedure is triggered by SMF 110, but the UE 100 PDU session IDs correlate with other SMFs 110 other than the one that triggers the procedure, AMF 104 sends a Nil message to the SMF (s) 110 associated with the PDU session ID (s).
[00109] In step 424b, which is a conditional step, SMF 110 sends a Nil Message to AMF 104. The message can include N2 SM information, such as quality of service (QoS) profile, and / or tunnel information CN N3)). After receiving the Nil message in step 424b, each SMF 110 sends a Nil message to AMF 104 to establish the user plan (s) for the PDU sessions. The N2 SM information contains information that AMF 104 must provide to (R) AN 102.
[00110] In step 425, AMF 104 sends an N2 Request to AN 102. The N2 request indicates some or all of: an MT data indicator, SM N2 information received from SMF 110, security context, ID AMF Signaling Connection, a Transfer Restriction List and / or an MM NAS Service Acceptance message. The MT data indicator indicates that the MT data will be triggered by MO data, and / or indicate that there are pending MT data or signaling on the 818 network, as described in Section 5.4.1.3 in TS 23.501. In some modalities, the performance data indicator
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MT includes an indication of an expected state transition timer or inactivity period.
[00111] In some modalities, the state transition timer or the expected inactivity period are configured in such a way that they are substantially infinite in time. This state transition timer setting or the expected inactivity period can provide a means to inhibit AN 102 from triggering an RRC release or N2 release.
[00112] (R) AN 102 stores the Security Context, AMF Signaling Connection ID, QoS Information for the QoS Streams of the PDU Sessions that are enabled, and / or N3 Tunnel IDs in the UE context (R) AN. The Transfer Restriction List is described in TS 23.501, clause 5.3.4.1 Mobility Restrictions.
[00113] The MM NAS Service Acceptance includes the PDU session status on the AMF 104. The AMF 104 may need to include at least one N2 SM information from the SMF 110, if the procedure is triggered for the configuration of the plan PDU session user. AMF 104 can send additional N2 SM information from SMFs 110 in separate N2 messages (for example, N2 tunnel configuration request), if any. Alternatively, if multiple SMFs 110 are involved, AMF 104 can send a Request N2 message to (R) AN 102 after all Nil messages from SMFs 110 are received. In that case, the N2 Request message includes the N2 SM information received in each of the Nil messages and information to allow AMF 104 to match responses to the relevant SMF 110.
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33/69 [00114] In step 426, the (R) AN 102 and the UE 100 interact to perform an RRC Connection Reconfiguration operation involving the UE 100. This operation depends on the QoS information of all the QoS flows of the sessions activated PDUs and Data Radio Carriers. User plan security is established in this step, which is described in detail in 3GPP TS 38.331 and 3GPP TS 36.331. The (R) AN 102 forwards the MM NAS Service Acceptance message to the UE 100. The UE 100 locally eliminates the context of the PDU sessions that are not available on the 5G CN.
[00115] In step 427, after the radio resources of the user plan have been configured, the uplink data from the UE 100 can now be forwarded to the (R) AN 102. The 5G (R) AN sends the data from uplink to the UPF address and tunnel ID provided in step 424.
[00116] In conditional step 428, (R) AN 102 sends an N2 Request Confirmation message to AMF 104. This message includes N2 SM information (for example, AN (R) Tunnel Information, QoS Flow List accepted for activated PDU Sessions, rejected QoS Flow List for activated PDU Sessions).
[00117] The message in step 428 can include N2 SM information (s), for example (Tunnel information (R) AN. The (R) AN 102 can respond to N2 SM information with a separate N2 message (for example, reply tunnel configuration N2) if the AMF 104 sends a separate N2 message in step 425. If multiple N2 SM information is included in the N2 Request message in step 425, the N2 Request Confirmation in step 428 can include multiple messages and
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34/69 N2 SM information to allow AMF 104 to match responses to relevant SMFs 110.
[00118] In conditional step 429, AMF 104 sends a Nil message to SMF 110, per accepted PDU session for SMF 110. This message can include N2 SM information (tunnel information (R) AN) and RAT type . If the AMF 104 receives N2 SM information (one or multiple) in step 428, then the AMF 104 can be configured to forward the N2 SM information to the relevant SMF 110. If the UE Time Zone has changed compared to the last Zone Informed UE Time, AMF 104 may include the UE IE Time Zone in this message.
[00119] In optional step 430, SMF 110 interacts with PCF 108 as follows. If dynamic PCC is implemented, SMF 110 can initiate IP-CAN Session Modification and provide new location information to PCF 108.
[00120] In conditional step 431a, SMF 110 sends an N4 session update request (indicating tunnel (R) AN information) to UPF 400. If a user plan must be configured or modified, SMF 110 initiates a N4 session modification procedure and provides AN (R) tunnel information.
[00121] In conditional step 431b, the UPF 400 sends an N4 session update response to SMF 110.
[00122] In conditional step 432, SMF 110 sends a Nil Message Confirmation to AMF 104.
[00123] The modalities of this disclosure refer to UE mobility, for example with regard to UE registration and connection management. An expected behavior of the UE or mobility pattern is used to
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35/69 to characterize and optimize the mobility of the UE. Aspects of the expected behavior of the UE or mobility pattern that can be used according to various modalities of the present disclosure are described below.
[00124] In some embodiments, the selection of the MICO mode can be determined according to the expected behavior of the UE or the Mobility Standard of the UE 100, as the expected behavior of the UE or Mobility Standard is described here.
[00125] The expected behavior of the UE or Mobility Standard is a concept that can be used, for example, by a 5G CN system or comparable system, to characterize and optimize the mobility of the UE. Describes the historical and / or expected mobility and network access activities of the UE 10 0. The CN can determine the expected behavior of the UE or Mobility Standard of the UE 100 based on the subscription information for the UE 100, mobility statistics UE, local network policy, assisted information from (R) AN, assisted information from UE, or a combination thereof. In some modalities, a non-3GPP (R) AN (102) can provide information that aids in the expected behavior of the UE or in determining the Mobility Standard.
[00126] UE mobility statistics can include a historical or expected trajectory of UE 100 movement. Statistics and / or trajectory can be provided from the application function (AF) for AMF 104 through PCF 108 or through PCF 108 and the network exposure function (NEF). The (R) AN 102 provides information about UE 100 service access nodes as assisted information (R) AN
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36/69 for AMF 104. The UE 100 provides the UE type, UE location, stationary indication or not, MO mode-only preference as UE assisted information for AMF 104. Signature data in UDM 114 includes communication pattern parameters. These may include, for example, whether periodic communication is carried out or not, an indication of the scheduled communication time (s), whether MICO is being employed or not, whether MT data is triggered by data or not. MO, an expected time interval between MO data and MT data, and an indication of programmed mobility location information. AMF 104 can update the expected behavior of the UE or the Mobility Standard if the assisted information of (R) AN, the assisted information of the UE and / or the subscription data in UDM 114 changes.
[00127] In various modalities, the expected behavior of the UE or mobility pattern can be used by the CN system (for example, 5G) as an input to optimize the mobility support provided to the UE 100. The mobility support can include some or all of the following: registration area list allocation; paging area management including paging limits for a sub-area of the registration area; UE connection state management; MICO mode and periodic record update timer management; UPF selection; and Transfer (HO) and path switching management.
[00128] The modalities of this disclosure provide a method and system for determining (for example, by AMF) whether the MICO mode is allowed for an UE 100. AMF 104 determines
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37/69 whether the MICO mode is allowed for the UE 100 according to the expected behavior of the UE or the Mobility Standard, which describes the expected communication behavior / activity of the UE 100. If the expected behavior of the UE or the Standard of Mobility indicates that there is no communication initiated by the network for the UE 100, the MICO mode can be selected for the UE 100 and the periodic record update timer can be configured to have a large value. If the expected behavior of the UE or Mobility Standard indicates a programmed network-initiated communication time, the MICO mode can be selected for the UE 100 and the periodic record update timer can be configured to have such a value that the timer will expire before communication initiated by the network occurs. If the expected behavior of the UE or the Mobility Standard indicates uncertainty about the communication initiated by the network and / or to the UE 100, the MICO mode can be prevented from being selected for the UE 100.
[00129] As used herein, the expected behavior of the UE or the pattern of mobility potentially reflects one or more among several factors, including but not limited to the mobility of geographic devices. The expected behavior of the UE or mobility pattern may incorporate, for example, patterns of temporal communication, patterns of temporal and geospatial communication, relevant operator policy, preferences of the UE 100, data volumes or a combination thereof. The expected behavior of the UE or mobility pattern can indicate the times and / or locations in which the UE is active. The expected behavior of the UE or mobility pattern may reflect future behavior
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38/69 expected and / or passed from UE 100. In some embodiments, certain selected parts of an expected global behavior of the UE or mobility pattern (eg UE communication pattern) can be used to determine or anticipate the values of timer of periodic update of registration and selection of MICO mode of the UE.
[00130] When a UE MICO 100 is in the CM_CONNECTED state after sending MO data, the UE 100 is kept in the CM_CONNECTED state until a state transition timer expires. In addition, the network infrastructure can be configured to move the UE 100 to the CM_IDLE state slowly enough for MT data to be delivered. If the expected behavior of the UE or communication standard or Mobility Standard of an UE MICO 100 indicates that the MT data should be triggered by MO data, or that there is data or signaling pending on the network, the AMF 104 can indicate this for o (R) AN 102, for example, during a Service Request procedure. According to the indication, the (R) AN 102 determines if and when it triggers the release of RRC or release of N2 when the lack of data activity is observed for the UE 100. In some modalities, the UE 100 can notify the MFA 104 of the end of communication operations via a NAS message when it is in the CM_CONNECTED state, after the communication has ended.
[00131] In some modalities, through, for example, as a result of a notification of the end of communication of the UE 100, the AMF 104 triggers the N2 release to move the UE 100 to the CM_IDLE state. The state transition timer is determined by AMF 104 and indicated for (R) AN 102
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39/69 during message 425 of the Service Request procedure. 0 (R) AN 102 does not initiate RRC release after the UE 100 has sent MO data until the state transition timer expires.
[00132] According to various modalities, the operation in relation to the MICO mode, for example, as previously described in TS 23.501 (Section 5.4.1.3) is described as follows.
[00133] An UE 100 can indicate preference for the MICO mode during the initial registration or during a registration update. AMF 104, based on local confirmation and expected behavior of the UE or Mobility Standard, determines whether MICO mode is allowed for the UE 100 and indicates it for the UE 100, along with the periodic record update timer value determined during the registration procedure.
[00134] If the expected behavior of the UE or the Mobility Standard, as described in the subscription information, indicates that there is no non-MICO mode or no communication initiated by the network for the UE 100, the MICO mode can be selected for the UE 100 and the periodic record update time can be configured to have a large value. If the expected behavior of the UE or Mobility Standard, as described in the subscription information, indicates scheduled non-MICO activity and / or communication time initiated by the network, the MICO mode can be selected for the UE 100 and the periodic update timer logging can be defined as having such a value that the timer will expire before communication initiated by the network occurs. If the expected behavior of the UE or Standard
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40/69 Mobility, as described in the subscription information, indicates uncertainty about non-MICO activities and / or communication initiated by the network and / or its programming for the UE 100, the MICO mode can be prevented from being selected for the UE 100 .
[00135] The UE 100 and CN can restart or exit the MICO mode in the subsequent registration signal. If the MICO mode is not explicitly indicated in Registration, then the UE 100 and AMF 104 can be configured to not use the MICO mode. AMF 104 can provide an uninterrupted timer indication to an UE 100 in MICO mode, by supplying the periodic record update timer value to the UE 100. For example, the periodic record update timer value and the indication of uninterrupted timer can be sent to UE 100 as part of the Registration Acceptance 120 message in the Registration procedure. If the uninterrupted timer indication is provided, the UE 100 keeps its periodic record update timer running while in the CM_CONNECTED state and performs a periodic record update when the timer expires, to renegotiate the MICO mode
and the timer value in update periodic in record [00136] So when the HUH 100 receives the recommendation in uninterrupted timer, O EU 100 no readjust O
registration periodic update timer. Instead, upon receipt, it sets the periodic record update timer to the value of the periodic record update timer and keeps the periodic record update timer running until the
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41/69 indication of uninterrupted timer being removed. Thus, if the UE 100 enters the CM_CONNECTED state, as a non-limiting example, to send data in the UL direction, the UE 100 will not restart the periodic update register timer due to the indication of uninterrupted timer. When the periodic registration update timer expires, the UE 100 performs a registration update. In the context of such a record update, the MICO mode and the negotiation of the periodic record update timer value can be repeated.
[00137] In some examples, as an alternative to the uninterrupted timer solution, the AMF 104 can update the periodic record update timer value provided to the UE 100 through an UE configuration update procedure, as described in 3GPP TS 23.502, clause 4.2. 4.2, when the UE is in the CM_CONNECTED state. During the update procedure, the AMF 104 sends the updated timer value to the UE 100 as one of the parameters related to mobility management. When the UE 100 enters the CM_IDLE state, the UE 100 sets the periodic update register timer using that updated timer value and performs a periodic register update when the timer expires.
[00138] AMF 104 may assign a registration area to the UE 100 during the registration procedure. When AMF 104 indicates MICO mode for a UE 100, the registration area is not restricted by the size of the paging area. The network, based on local policy and subscription information, may decide to provide an indication of the registration area
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42/69 all PLMN for UE 100. In this case, the new registration for the same PLMN due to mobility does not apply.
[00139] In one embodiment, AMF 104 provides a registration area for the UE 100 in MICO mode. The size of the registration area may be linked to Mobility restrictions (that is, the registration can be obtained by the permitted area) and requirements to perform tracking for the UE 100.
[00140] When the AMF 104 indicates the MICO mode for a UE 100, the AMF 104 considers the UE 100 as always inaccessible while in the CM_IDLE state. The CN rejects requests for downlink data delivery to a UE MICO 100 in the CM_IDLE state. The CN also postpones downlink transport by the NAS for SMS, location services, etc. The UE 100 in MICO mode is accessible for mobile terminated data or signaling when the UE 100 is in the CM_CONNECTED state for the PDU sessions that are resumed.
[00141] If the expected behavior of the UE or communication pattern or mobility pattern of an UE MICO 100 indicates that the MT data should be triggered by MO data, the AMF 104 can indicate this to the (R) AN 102 using a MT data indicator during procedures, such as the Service Request procedure that moves the UE 100 from the CM_IDLE state to the CM_CONNECTED state. According to the MT data indicator, the (R) AN 102 decides whether and when to trigger the RRC release or N2 release when the lack of data activity is observed for the UE 100.
[00142] Note that the MT data indicator may include a state transition timer or an expected inactivity period indicating that (R) AN 102 should not trigger RRC release or N2 release until the
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43/69 timer expires or the expected inactivity period ends. The MT data indicator can potentially include such a state transition timer or an expected period of inactivity and the AMF 104 can determine the state transition timer value or the expected period of inactivity.
[00143] In some examples, AMF 104 may determine the state transition timer value and / or the expected downtime based on the expected behavior of the UE, communication standard and / or Mobility Standard of the UE MICO 100. As a non-limiting example, the timer value can be calculated as a function of the time interval between the sending of MO data and the reception of MT data triggered by such MO data (which can be part of the pattern parameters of communication) and / or delay of maximum MO or MT data transport, which can be obtained from a third party, including, without limitation, an application server and / or application function. In some embodiments, the maximum delayed MO or MT data transport delay is included in the time interval between sending MO data and receiving MT data triggered by MO data.
[00144] When AMF 104 indicates MICO mode for a UE 100, AMF 104 can assign and provide an active timer value to the UE 100. The active timer value can be determined by AMF 104 according to the expected behavior of the UE, communication standard and / or Mobility Standard of MICO UE 100, in a way that is similar and / or identical to the way AMF 104 determines the state transition timer described above.
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44/69 [00145] In some instances, AMF 104 may provide the active (updated) timer value for the UE 100 when it enters the CM-CONNECTED state, by way of a non-limiting example, during a Service Request procedure powered by UE 100.
[00146] In the present description, the concepts of UL and MO communications are used interchangeably as are the concepts of DL and MT communications.
[00147] In some examples, the information on the communication pattern, the expected information on the behavior of the UE and / or the information on the Mobility Pattern may be provided by third parties, by way of non-limiting example, by an AF.
[00148] The value of the active timer may, in some examples, be equal to the value of the state transition timer. In some examples, the active timer value is a function of the state transition timer value. In some examples, the state transition timer value is a function of the active timer value.
[00149] UE 100 can request an active timer value from AMF 104, by way of non-limiting example, when UE 100 indicates a MICO mode preference for AMF 104. If an active timer value is requested by UE 100, AMF 104 can take into account the requested active timer value when determining the active timer value actually assigned to the UE 100. AMF 104 can also take into account the requested active timer value when determining a value for the timer state transition. In some examples, when an active timer value is requested by the UE 100, it indicates
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45/69 implicitly that the MICO mode is preferred by the UE 100, in which case the MICO preference indication of the UE 100 can be omitted.
[00150] Prior to the transitions from the UE 100 to the CM_IDLE state, the UE 100 can define an active timer using the active timer value and only enter the CM_IDLE state only after the expiration of the active timer. During the period before the expiration of the active timer, the UE 100 remains in the CM_CONNECTED state, and the UE 100 can stop and / or reset the active timer if it has MO data to send and / or receive MT data.
[00151] In some examples, (R) AN 102 can determine a data inactivity timer value and define a data inactivity timer using that value. The data inactivity timer is used to detect data inactivity in the UE 100. If no data activity is detected before the expiration of the data inactivity timer, the (R) AN 102 may consider that the UE 100 has no activity and then starts setting the state transition timer. After the expiration of the state transition timer, the (R) AN 102 can trigger the release of RRC and / or the release of N2. The (R) AN 102 can stop the data inactivity timer and the state transition timer at any time if it detects data activity for the UE 100.
[00152] The (R) AN 102 can notify the UE 100 of the data inactivity timer value, including, without limitation, during RRC procedures. The UE 100 can use the data inactivity timer value
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46/69 to define a local data inactivity timer to determine data inactivity in a similar and / or identical way as (R) AN 102 determines the data inactivity of UE 100 described above. After the data inactivity timer expires, the UE 100 may decide to transition to the CM_IDLE state. Before entering the CM_IDLE state, the UE 100 can use the active timer value received from AMF 104 to set the active timer.
[00153] A UE 100 in MICO mode can notify AMF 104 to indicate the end of the communication via the NAS message when it is in the CM_CONNECTED state, after terminating the communication. At the end of the communication notification from the UE 100, the AMF triggers the N2 release to move the UE to the CM_IDLE state.
[00154] In several modalities, a UE 100 in MICO mode performs a periodic registration upon expiration of the periodic update update timer.
[00155] In several modalities, a UE 100 in MICO mode does not need to hear the pagination while in the CM_IDLE state. An UE 100 in MICO mode can stop any access layer procedure in the CM_IDLE state, until the UE 100 initiates state transition procedures CM_IDLE to CM_CONNECTED due to one or more of the following triggers: a change in the UE 100 (for example, configuration change) requires updating your registry on the network; a periodic record update timer expires; MO data is pending; and / or MO signaling is pending (for example, an SM procedure is started).
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47/69 [00156] In several modalities, if a registration area that is not the registration area for all PLMNs is allocated to a UE 100 in MICO mode, then the UE 100 determines whether it is within the registration area or not when has MO data or MO signaling.
[00157] In some modalities, AMF 104 indicates to (R) AN 102 that the UE 100 is in MICO mode.
[00158] In one mode, to indicate the state transition timer or the expected inactivity period for the (R) AN 102, the AMF 104 can inform the (R) AN 102 of the state transition timer or the period of expected inactivity during a registration procedure, for example while indicating the UE's MICO mode for (R) AN 102, or through a separate step. Subsequently, during the Service Request procedure, AMF 104 updates the (R) AN 102 with the timer value or the inactivity period value (for example, only) when the timer value or inactivity period value changes , for example, due to the change in the communication pattern of the UE.
[00159] Continuing with the above modality, AMF 104 determines the state transition timer or the period of inactivity expected for a UE MICO 100 according to the communication pattern indicated by the user's signature data or the mobility pattern or expected behavior of EU from EU. If the communication pattern indicates that the MO data does not trigger the MT data, the timer or period can be assigned a pre-configured default value. If the communication pattern indicates that the MO data will trigger the MT data and the expected time interval between the MT data
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48/69 and the MO data, the timer or the period can be set to have a value not less than the sum of that time interval and the estimated round-trip delay of a packet. The estimated round-trip delay can be configured on the AMF 104 or retrieved by the AMF 104 from an external data store. If information for that time range is not available, a configured default value will be applied when determining the timer or period value.
[00160] Continuing with the above modality, if AMF 104 does not inform the (R) AN 102 of the state transition timer or the expected period of inactivity, the (R) AN 102 may not start or can be configured to avoid the release of RRC and / or avoid requesting the release of N2. As such, the state transition timer can be applied even if (R) AN 102 is not aware of this. The (R) AN 102 can notify or can, however, be configured to notify AMF 104 regarding the end of the MO data activity, so that AMF 104 can determine when to trigger the release of N2 (thus moving the UE from the CM_CONNECTED state to the CM_IDLE state).
[00161] Figure 5 describes the AMF-centered state transition procedure, according to an embodiment of the present invention.
[00162] In step 501, the UE 100 performs the registration with the network. During the registration procedure, the UE 100 is notified of its MICO mode assignment and periodic registration update timer, as described in section 4.2.2.2.2 in TS23.502. In this step, the (R) AN 102 can also be notified of the UE's MICO mode assignment.
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In this step, a PDU session can be activated and, after completing this step, the UE 100 can enter the CM_CONNECTED state.
[00163] In some modalities, in step 502, when the UE 100 has MO data in the CM_IDLE state, it starts the service request procedure to enter the CM_CONNECTED state, as described in clause 4.2.3.2 in TS23.502. A PDU session can be activated at this stage. It should be understood that step 502 can be optional, since this transition from UE 100 to the CM_CONNECTED state can occur automatically after the completion of step 501, as noted above.
[00164] In step 503, the UE 100 asks to establish a PDU session for the MO data, as described in clause 4.3.2.2 in TS23.502, if no PDU session is activated in step 501 or in step 502.
[00165] In step 504, the (R) AN 102 notifies AMF 104 that the MO activity has finished using message N2. If the MT activity also ends, (R) AN 102 notifies AMF 104 at the same time.
[00166] In step 505, AMF 104 determines whether to move and / or when to move the UE 100 to the CM_IDLE state and configure the
timer in transition of state or the period in expected downtime, as described in clause 5.4.1.3 in TS23.501. [00167] At stage 506, o (R) AN 102 notifies the MFA 104
about the end of MT activity using message N2.
[00168] In step 507, when AMF 104 is notified of the end of the MT activity (step 505) or when the state transition timer expires or when the
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50/69 expected inactivity period ends, AMF 104 initiates the N2 release procedure to move the UE 100 to the CM_IDLE state and, at the same time, disables the PDU sessions.
[00169] An UE MICO 100 in the CM_CONNECTED state can request a transition to the CM_IDLE state, for example, after the UE 100 finishes receiving MT data. To support the same, the UE 10 0 can send a NAS message to the AMF 104 to indicate the intention to be inactive, which triggers the release of N2. The UE 100 can also interact with the (R) AN 102 to release RRC, which will result in the (R) AN 102 requesting the AMF 104 to execute the N2 release and thus move the UE 100 from the CM_CONNECTED state to the CM_IDLE state. When N2 is released, UE 100 enters the CM_IDLE state.
[00170] Figure 6 illustrates the transmission of downlink activated by uplink to a UE 100 in MICO mode, according to another embodiment of the present disclosure. Tracking the location of a device (UE) can be performed for a short or limited period of time after the device sends uplink (UL) data so that DL packets can be delivered to the UE 100.
The packages DL can be triggered through the streaming From UL packages. This can be called in tracking in location on demand (LT). [00171 ] With reference to Figure 6 , the activation of an
CN state transition from a CM_IDLE state (where LT is not performed for UE 100) to a CM_CONNECTED state (where LT is performed for UE 100) can be based on the occurrence of UL data being transmitted by a UE 100 and / or an associated NAS service request. The activation of the
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51/69 transition from CN state from CM_CONNECTED state to CM_IDLE state can be triggered by device or triggered by network. A device-triggered transition can be based on an occurrence of number of DL packets or DL application messages (preconfigured or configured online for device) or based on a time window (preconfigured or configured online for device ). The trigger can be pre-configured for the device or configured through an online configuration operation involving the device. The time window can reflect the duration (for example, expected) of the DL activity, for example. The duration of this time window can be referred to as the window opening width. A network-driven transition can be a NAS-driven transition (for example, in which the AMF 104 pre-sets the device's window opening width) or a triggered transition
by (R) AN (by example, in which (R) AN 102 gets the pre- configuration the width opening from window of device).[00172] THE pre-configuration can refer to The configuration of EU by a function of management or configuration of EU during the manufacture, for example . THE configuration on- line can refer to programming by air, configuration in information registration configuration per
management signaling, receiving configuration information from AMF 104, etc.
[00173] Adjustment of parameters (R) AN assisted by CN helps (R) AN 102 to minimize the state transitions of the UE and obtain the ideal network behavior. NC assistance information can be obtained from AMF 104, per EU 100
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52/69 on AMF 104, based on a collection of UE behavior statistics, UE assistance information (as described below) or other information available on the expected UE communication pattern or behavior (such as a network name enrolled data (DNN)), international mobile subscriber identity (IMSI) ranges, or other subscription information). If the communication standard parameters of the UE 100 are available, the AMF 104 can use this information when selecting the values of the (R) AN parameters assisted by CN. If the AMF 104 is able to derive the communication pattern or expected behavior of the UE or Mobility Standard of the UE 100 (as described in clause 5.3.4.2 of TS 23.501), the AMF 104 can take into account the communication standard or the expected behavior of the UE or the Mobility Standard when selecting the parameter values (R) AN assisted by CN.
[00174] The communication pattern parameters and the expected behavior of the UE or the information of the Mobility Pattern can be used by AMF 104 as an input to derive the values of the parameter (R) AN assisted by CN. In the case of collecting CN assistance information based on statistics, this can be enabled based on a local configuration (for example, subscribed DNNs, IMSI intervals or other subscription information). The CN assistance information provides (R) AN 102 with a way to understand the behavior of the UE for Expected Behavior of UE activity and for Expected HO Behavior. The expected behavior of UE activity can include the expected pattern of UE changes between CM_CONNECTED and CM_IDLE states. This can be derived, for
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53/69 example, of the UE 100 communication standard parameters. The (R) AN 102 may use this information, together with other information, as an AMF 104 Pending Data Indication, to determine user inactivity. Expected HO behavior, may include the expected destination (R) AN nodes 102 within a given time window, and the expected interval between inter (R) AN transfers. This can be derived, for example, from the communication pattern or expected behavior of the UE or from the Mobility Pattern information of the UE 100. The (R) AN 102 can use this information to perform a pre-break during a screening procedure. delivery, which allows the UE 100 to be connected to the originating (R) AN node and the destination (R) AN node to it and reaches zero transfer delay.
[00175] AMF 104 determines when to send this information to (R) AN 102 as expected behavior of the UE carried in N2 signaling through the N2 interface. The information is sent to (R) AN 102 during the Service Request or Registration procedures. It should be noted that the calculation of the NC assistance information (ie the algorithms used and the related criteria) and the decision when it is considered adequate and stable to send the information to the (R) AN 102, can be specific to the Implementation. Untrusted information should not be provided to (R) AN 102 as it may cause undesirable effects on the system.
[00176] An EU-assisted connection management can complement the CN-assisted (R) AN parameter setting approach. AMF 104 can use EU assistance information when selecting parameter values (R) AN
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54/69 assisted by CN, especially when UE communication standard parameters are not available (for example, when they are not provided as part of the subscription information). For example, UE 100 can provide a communication duration value, which indicates the expected duration of UE communication activity for AMF 104. AMF 104 determines the expected behavior of UE activity accordingly and reports the relevant values of parameter (R) AN assisted by CN for (R) AN 102. If the communication duration has been overestimated by the UE 100, the UE 100 can send an End of Communication notification to AMF 104 for correction after the UE 100 ends the your activity. AMF 104 takes this information into account when determining a network-triggered UE context release, that is, to transition the UE 100 from the CM_CONNECTED state to the CM_IDLE state.
[00177] UE-assisted connection management helps the CN to minimize UE state transitions and obtain the best network behavior. An UE 100 can request a communication duration value during the Service Request or Registration procedures. The UE request communication duration value can be included in the Registration Request message 120 or in the Service Request message 421 (or NAS message 422). The value requested by the UE indicates the expected duration of the communication activity from the perspective of the UE. AMF 104 determines the communication duration value that is assigned to the UE 100.
[00178] When determining the communication duration value that is allocated for the UE 100, the AMF 104 can receive as
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55/69 input the UE requested communication duration value and a collection of UE behavior statistics, or other information available about the UE communication pattern or expected behavior (such as subscribed DNN, IMSI intervals, communication pattern parameters or other subscription information). If AMF 104 determines to assign a communication duration value to the UE 100, AMF 104 can provide the communication duration value to the UE 100 through registration signaling (for example, as part of the Registration Acceptance 168 message), Service Request flagging (for example, as part of a Service Acceptance Request 425 or 426 message), or UE Configuration Update flagging (for example, as part of the UE configuration to be updated). An UE 100 can change the communication duration value to a new value, for example, when conditions are changed in the UE 100, requesting the new value in the Service Request or Registration procedures (through the Registration Request message 120 or Service Request 421 message (or NAS 422 message), respectively). If a communication duration value is assigned to the UE 100, the AMF 104 can take the communication duration value into account when determining the expected behavior of the UE activity as values of the parameter (R) AN assisted by CN (as described above) ), and UE 100 can start a communication activity timer with the communication duration value when transitioning from the CM_IDLE state to the CM_CONNECTED state. If the communication activity timer has not expired when the UE 100 completes its communication activity, the
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UE 100 can send an End of Communication notification to AMF 104. AMF 104 can take this information as input when determining a network triggered UE context release on (R) AN 102, that is, to transition from UE 100 from state CM_CONNECTED to state CM_IDLE. The UE 100 can stop the communication activity timer, if it is running, when a transition to the CM_IDLE state is made.
[00179] Figure 7 illustrates the operation in relation to a known short DL transmission schedule, according to another embodiment of the present invention. This can make it easier to track the location of a device that is running before the DL transmission schedule and that lasts until the completion of the short DL data transmission.
[00180] According to modalities and with reference to Figure 7, it is assumed that a device is changed to the Non-MICO mode and in the CM_CONNECTED state for receiving DL data. After receiving data, the device returns to the MICO CM_IDLE state.
[00181] To provide a MICO to Non-MICO transition, the device is triggered by sending a NAS location update message at a time that is pre-configured according to a time schedule. The time schedule can be set offline or online. The device can be triggered by sending the de-MICO mode record (for example, via NAS).
[00182] To provide a non-MICO transition to MICO and / or to provide a CM_CONNECTED to CM_IDLE state transition for a MICO mode device (see, for example, Figure 7), for device activation, the device
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57/69 can be triggered by the occurrence of a predetermined number of DL application packages. The number can be pre-configured or configured by an online interaction with the device. Alternatively, the device can be triggered according to a pre-configured time window or configured by an online interaction with the device.
[00183] To provide a non-MICO to MICO transition, for network drive, powered by NAS or (R) AN drive can be used. The drive of the NAS can be pre-configured, for example, using operations involving the AMF 104. For the drive of (R) AN 102, the (R) AN 012 can obtain pre-configuration information indicative of the device's window opening width . As noted earlier, the window opening width can refer to the duration of a time window during which the device can receive DL packets, for example, following an UL transmission. This can be the duration that the device remains in non-MICO mode after a UL transmission, for example.
[00184] According to modalities, the transition between the MICO mode and the non-MICO mode is based on the fact that there are pending network-initiated communication operations for the UE 100. The transition can be based on the scheduling of operations of communication initiated by the network, for example, it is desired that the UE 100 enters the non-MICO mode before a communication activity initiated by the network occurs, since the data will not be delivered to the UE 100 if it is in the MICO mode, since the UE 100 is not tracked when in MICO mode. According to modalities, after the completion of the communication initiated by the network, the UE 100 returns to
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MICO again. As such, according to modalities, two types of windows are provided, namely a first window where no communication initiated by the network is expected and a second window where communication initiated by the network is expected. It will be understood that the size of the first and second window may vary over time, for example, the size of the window may be based on the communication schedule or the update of the schedule or other aspect.
[00185] Those skilled in the art will appreciate that sometimes the nodes or functions are described as communicating with each other. It should be understood that this term can comprise uni and bidirectional communication. As such, it should be understood that the communication includes at least one among transmitting and receiving messages or communications from another node. It should also be understood that in the description above, reference was made to individual steps. In an alternative explanation, each step can be understood as transmitting or receiving a message, or carrying out an internal process. Thus, for example, when reference is made, for example, to step 120, it can alternately be understood as UE 100 by transmitting a registration request 120 to (R) AN 102.
[0018 6] Figure 8 is a block diagram of a computing system 800 that can be used to implement the devices and methods disclosed here. Specific devices can use all the components shown or only a subset of the components, and the levels of integration can vary from device to device. In addition, a device can contain multiple instances of a component, such as multiple processing units,
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59/69 processors, memories, transmitters, receivers, etc. The computing system 800 typically includes a processor, such as a central processing unit (CPU) 802, a bus and a memory 808, and can optionally also include a mass storage device 804, a video adapter 810 and an interface I / O 812 (shown in broken lines).
[00187] The 802 processor can comprise any type of electronic data processor. Memory 808 can comprise any type of non-transitory system memory, such as static random access memory (SRAM), dynamic random access memory (DRAM), synchronous DRAM (SDRAM), read-only memory (ROM) or a combination of themselves. In one embodiment, memory 808 can include ROM for use at startup, and DRAM for storing program and data for use during program execution. The bus can be of one or more types of various bus architectures, including a memory bus or memory controller, a peripheral bus, or a video bus.
[00188] Mass storage 804 can comprise any type of non-transitory storage device configured to store data, programs and other information and to make data, programs and other information accessible via the bus. Mass storage 804 can comprise, for example, one or more of a solid state drive, hard disk drive, a magnetic disk drive or an optical disk drive. In some embodiments, mass storage 804 can be external to the 800 computing system and
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60/69 accessed through the I / O interface 812 or the network interface 806.
[00189] The video adapter 810 and the I / O interface 812 provide optional interfaces for coupling external input and output devices to the 800 computing system. Examples of input and output devices include a screen 814 coupled to the video adapter 810 and an I / O device 816, such as a touch screen attached to the I / O interface 812. Other devices can be attached to the computing system 800, and more or less interfaces can be used. For example, a serial interface such as Universal Serial Bus (USB) (not shown) can be used to provide an interface for an external device.
[00190] The computing system 800 may also include one or more network interfaces 80 6, which may comprise wired connections, such as an Ethernet cable, and / or wireless connections to access one or more 818 networks. network 806 allow computing system 800 to communicate with remote entities over 818 networks. For example, network interfaces 806 can provide wireless communication through one or more transmitters / transmit antennas and one or more receivers / antennas from reception. In one embodiment, the computing system 800 is coupled to a local area network or a wide area network for data processing and communications with remote devices, such as other processing units, the Internet or remote storage facilities. In another modality, the computing system 800 is housed in a data center and the network interface 806 can be used
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61/69 to communicate over an external high-speed bus with other data center functions, including storage functions.
[00191] When incorporated as a node within a data center, the computing system 800 can be a virtual entity created using resources within the data center. In this case, the elements described above can be virtualized entities created to represent a physical analog to the virtualized computing system.
[00192] When discussed in the context of a data center, it should also be understood that optional elements such as a video adapter 810 and I / O interface 812 may not be present (thus being indicated as optional). Within a data center, it is common for servers to be installed in a configuration called headless, where they do not have standard 812 I / O interfaces or the ability to connect a screen directly to an 810 video adapter. the operation and configuration of the computing system is usually done through a remote access functionality routed through the 806 network interface.
[00193] Modalities of the present invention can be implemented using computing, communication and / or memory devices. Computing devices used to implement method operations may include a processor operationally coupled to memory, the memory providing instructions for execution by the processor to execute the method as described here. The modalities of the present invention can be implemented, at least in part, using computing devices, such as circuits
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62/69 integrated application specific microcontrollers and digital logic circuits. The modalities of the present invention can be addressed to improve the internal operations of the communications network.
[00194] Through the descriptions of the previous modalities, the present invention can be implemented using only hardware or using software and a necessary universal hardware platform. Based on these understandings, the technical solution of the present invention can be incorporated in the form of a software product. The software product can be stored on a non-volatile or non-transitory storage medium, which can be a CD-ROM, USB drive or a removable hard disk. The software product includes a number of instructions that allow a computer device (personal computer, server or network device) to perform the methods provided in the modalities of the present invention. For example, such an execution may correspond to a simulation of logical operations as described here. The software product may additionally or alternatively include the number of instructions that allow a computer device to perform operations to configure or program a digital logic apparatus in accordance with modalities of the present invention.
[00195] More details of solutions that support mobile devices using a communication mode initiated by mobile devices are included as Appendices A to N, which are incorporated herein by reference in their entirety.
[00196] According to a first aspect, a method for connecting a UE to a network is disclosed, comprising the
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63/69 method comprising receiving, in an AN, from a UE, a registration request comprising a preference for MO mode and transmitting, from the AN, the registration request to a primary MFA.
[00197] In one mode, the MO mode preference can be preferred for MO-only. In one embodiment, the registration request may additionally comprise a suggested duration for the MO-only preference.
[00198] According to a second aspect, an AN is disclosed which comprises a radio access interface, a network interface, a processor and a memory. The radio access interface is for communication with a UE. The network interface is for communicating with nodes within an (R) AN and a CN. The memory is for storing instructions that, when executed by the processor, cause the AN to execute the method (s) of the first aspect.
[00199] In accordance with a third aspect, a method for connecting a UE to a network is disclosed, the method comprising receiving, in an AMF, from an NA, a request to register a UE, the request including a preference of MO mode and transmitting a registration acceptance indication to the UE.
[00200] In one mode, the MO mode preference can be MO-only preferred. In one embodiment, the registration request may additionally comprise a suggested duration for the MO-only preference. In one embodiment, the UE may be previously served by another AMF and the method may additionally comprise the request for information from the previous AMF and the receipt of the information requested to complete the registration request.
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64/69 [00201] According to a fourth aspect, an apparatus is disclosed which comprises a network interface, a processor and a memory. The network interface is for communication with nodes within an (R) AN and a CN. The memory is for storing instructions that, when executed by the processor, cause the device to execute the method (s) of the third aspect.
[00202] According to a fifth aspect, a method for connecting a UE to a network is disclosed, the method comprising transmitting, from the UE, a registration request to an NA available on the network, the registration request comprising a preference and receiving MO mode, from an AN in the UE, an acceptance of registration from a main AMF indicating an MO mode.
[00203] In one embodiment, the MO mode preference may be preferred. In one embodiment, the registration request may additionally include a suggested duration for the preference. In one embodiment, the registration request may additionally comprise a suggested duration for the preference. In one embodiment, the method can be repeated after the suggested duration has expired.
[00204] In accordance with a sixth aspect, an electronic device is disclosed which comprises an (R) AN interface, a processor and a memory. The (R) AN interface is for wireless communication with an AP. The memory is for storing instructions that, when executed by the processor, cause the electronic device to execute the method (s) of the fifth aspect.
[00205] In one embodiment, the electronic device can be a UE.
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65/69 [00206] According to a seventh aspect, a processor and machine-readable memory are disclosed. Machine-readable memory is for storing machine-executable instructions that, when executed by the processor, configure the UE to transmit MO data, move to a connected state of CN and remain in the connected state of CN until a predetermined condition is met, wherein the UE is able to receive MT data while in the connected state of CN.
[00207] In accordance with an eighth broad aspect, an AN is disclosed comprising a processor and a machine-readable memory. Machine-readable memory is for storing machine executable instructions that, when executed by the processor, configure the AN to receive MO data from a UE and before a predetermined expiration condition is met, start tracking the UE and transmit MT data for the UE based on information derived from the tracking.
[00208] According to a broad ninth aspect, a UE is disclosed comprising a processor and a machine-readable memory. Machine-readable memory stores executable instructions from the machine which, when executed by the processor, configure the UE to perform a network registration operation in response to a trigger, and receive instructions to switch between a MICO mode and a nonMICO mode after the registration is complete network.
[00209] In one mode, the activation can be indicative of the expiration of a periodic registration timer. In one mode, the trigger can be indicative of an MT data communication initiated by the expected network
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6/69 for the UE. In one mode, the trigger can be updated dynamically.
[00210] In accordance with a tenth aspect, a method for connecting a UE to a network is disclosed, the method comprising receiving, in an NA, from a UE, a registration request comprising a preference of MO-only mode and transmit, from the NA, the registration request to a primary MFA.
[00211] In one embodiment, the registration request may additionally comprise a suggested duration for the preference of the MO-only mode.
[00212] In accordance with an eleventh aspect, an AN is disclosed comprising a radio access interface, a network interface, a processor and a memory. The radio access interface is for communication with a UE. The network interface is for communicating with nodes within an (R) AN and a CN. The memory is for storing instructions that, when executed by the processor, cause the AN to execute the method (s) of the tenth aspect.
[00213] According to a twelfth aspect, a method for connecting a UE to a network is disclosed, the method comprising receiving, in an MFA, from an AN, a request to register a UE, the request including a preference so MO-only; and transmit a registration acceptance indication to the UE.
[00214] In one embodiment, the registration request may additionally comprise a suggested duration for the preference of the MO-only mode. In one modality, the UE can be previously served by another MFA and the method can additionally comprise the request for information from the
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Previous AMF, and receive the information requested to complete the registration request.
[00215] According to a thirteenth aspect, an apparatus is disclosed which comprises a network interface, a processor and a memory. The network interface is for communication with nodes within an (R) AN and a CN. The memory can be for storage instructions that, when executed by the processor, cause the device to perform the twelfth aspect method (s).
[00216] According to a fourteenth aspect, a method for connecting a UE to a network is disclosed, the method comprising transmitting, from the UE, a registration request to an NA available on the network, the registration request comprising a preference in MO-only mode; and receiving from an AN in the UE, a registration acceptance from a primary AMF indicating an MO-only mode.
[00217] In one mode, the registration request may additionally comprise a suggested duration for the preference of the MO-only mode. In one embodiment, the method can be repeated after the suggested duration has expired.
[00218] In accordance with a fifteenth aspect, an electronic device comprising an (R) AN interface, a processor and a memory is disclosed. The (R) AN interface is for wireless communication with an AP. The memory is for storing instructions that, when executed by the processor, cause the electronic device to execute the methods (s) of the fourteenth aspect.
[00219] In one embodiment, the electronic device can be a UE.
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68/69 [00220] According to a sixteenth aspect, a method is disclosed comprising sending an indicator to a UE in a MICO mode, the indicator for disabling a trigger of a periodic registration timer reset by at least one of UL traffic transmission and a transition from UE to a CM-CONNECTED state.
[00221] In one embodiment, the method can also comprise the assignment of a communication duration value to the UE and send the communication duration value to the UE. In one embodiment, the communication duration value can be based on a communication duration value requested by the UE.
[00222] In accordance with a seventeenth aspect, a method is disclosed comprising receiving an indicator from an MFA while in a MICO mode, the indicator for disabling a trigger of a periodic registration timer reset by at least one traffic transmission UL; and a transition from UE to a CMCONNECTED state, running the periodic registration timer while in the CM-CONNECTED state; and perform periodic registration updates when the timer expires.
[00223] According to an eighteenth aspect, a method is disclosed comprising receiving a communication duration value from an MFA; start a communication activity timer with the communication duration value when making the transition to the CM-CONNECTED state; and stop the timer when making the transition to the CM-IDLE state.
[00224] In one embodiment, the method may also include sending an end of communication notification
Petition 870190094556, of 9/20/2019, p. 75/86
9/69 to the MFA when the communication activity is completed and the timer has not expired.
[00225] Although the present invention has been described with reference to specific characteristics and modalities thereof, it is evident that various modifications and combinations can be made without departing from the invention. The Description Report and the Drawings are, therefore, considered simply as an illustration of the invention as defined by the appended claims, and are contemplated to cover any and all modifications, variations, combinations or equivalents that fall within the scope of the present invention.

权利要求:
Claims (16)
[1]
AMENDED CLAIMS
1. Method for managing a connection from user equipment (UE) to a network, the method characterized by the fact that it comprises actions in a mobility and access management (AMF) function of the network of:
receive a registration request from the UE comprising a preference for Mobile Device Initiated Connection (MICO) mode only; and transmit a response to the UE, the response including a determination indicating that the MICO mode is allowed for the UE, a value of a periodic record update timer, and an indication to disable the reset of the UE of the periodic record update timer before the periodic record update timer expires.
[2]
2. Method, according to claim 1, characterized by the fact that it also comprises: when a communication activity schedule suggests the absence of a downlink or communication initiated by the network with the UE, determine that the MICO is allowed.
[3]
3. Method, according to claim 2, characterized by the fact that it also comprises: obtaining the programming of the communication activity from a unified data management function (UDM).
[4]
4. Method, according to claim 1, characterized by the fact that it further comprises: when a communication activity suggests a programmed downlink or communication initiated by the network with the UE at a future time, determine that the MICO mode is allowed and the value of the periodic record update timer
Petition 870190094555, of 20/09/2019, p. 12/8
2/5 is such that the periodic record update timer will expire before the future moment occurs.
[5]
5. Mobility and access management (AMF) function, characterized by the fact that it comprises:
a processor; and a machine-readable memory for storing instructions that, when executed by the processor, make the AMF:
receive a registration request from the UE comprising a preference for Mobile Device Initiated Connection (MICO) mode only; and transmit a response to the UE, the response including a determination indicating that the MICO mode is allowed for the UE, a value of a periodic record update timer, and an indication to disable the reset of the UE of the periodic record update timer before the periodic record update timer expires.
[6]
6. AMF, according to claim 5, characterized by the fact that the instructions still make the AMF: when a communication activity program suggests the absence of a downlink or communication initiated by the network with the UE, determine that the mode MICO is allowed.
[7]
7. AMF node, according to claim 6, characterized by the fact that the instructions make the AMF: obtain the communication activity schedule from a unified data management function (UDM).
[8]
8. AMF, according to claim 5, characterized by the fact that the instructions still make the AMF: when a communication activity suggests a downlink
Petition 870190094555, of 20/09/2019, p. 9/12
3/5 programmed or communication initiated by the network with the UE at a future time, determines that the MICO mode is allowed and the value of the periodic registration update the value of the timer is such that the periodic registration update timer will expire before it occurs the future moment.
[9]
9. Method for managing a connection from user equipment (UE) to a network, the method characterized by the fact that it comprises actions in the UE of:
transmit a registration request comprising a preference for Mobile Device Initiated Connection (MICO) mode only for a mobility and access management (AMF) function on the network;
receiving a response from the AMF, the response including a determination indicating that MICO mode is allowed, a value from a periodic record update timer, and an indication to disable the restart of the periodic record update timer before the timer periodic record update expires;
start the periodic record update timer after receiving the response, where the duration of the periodic record update timer is equal to the value received; and keep the periodic record update timer running independently of a transition from an inactive state to a network connection state until the periodic record update timer expires as indicated.
[10]
10. Method according to claim 9,
Petition 870190094555, of 20/09/2019, p. 12/10
4/5 characterized by the fact that, after the periodic record update timer expires, perform a periodic record update.
[11]
11. Method, according to claim 9 or 10, characterized by the fact that it also comprises: entering the MICO mode after receiving the answer.
[12]
12. Device, characterized by the fact that it comprises:
a processor; and a machine-readable memory to store instructions that, when executed by the processor, make the device:
transmit a registration request comprising a preference for Mobile Device Initiated Connection (MICO) mode only for a mobility and access management (AMF) function on the network;
start the periodic record update timer after receiving the response, where the duration of the periodic record update timer is equal to the value received; and keep the periodic record update timer running independently of a transition from an inactive state to a network connection state until the periodic record update timer expires as indicated.
[13]
13. Device, according to claim 12, characterized by the fact that it also includes instructions to make the device perform actions of: after the expiration of the periodic record update timer, perform a periodic record update.
Petition 870190094555, of 20/09/2019, p. 12/11
5/5
[14]
14. Apparatus, according to claim 12, characterized by the fact that it also includes instructions to make the apparatus perform actions of: entering MICO mode after receiving the answer.
[15]
15. Apparatus according to any one of claims 12 to 14, characterized by the fact that the apparatus is user equipment (UE).
[16]
16. System, characterized by the fact that it comprises a function of mobility and access management (AMF), as defined in gualguer one of claims 5 to 8, and a device, as defined in gualguer one of claims 12 to 14, the device being a user equipment (UE).

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法律状态:
2021-10-19| B350| Update of information on the portal [chapter 15.35 patent gazette]|

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