GB2455818A - Radio link failure recovery - Google Patents

Abstract

In a method of facilitating radio link failure recovery for a mobile communications device in a radio communications network, a connection re-establishment request containing the identity of the mobile communications device is sent from the mobile communications device to a network node device, in which device context information is included within the connection re-establishment request signal.

Description

RADIO LINK FAILURE RECOVERY

The present invention relates to Radio Link Failure (RLF) recovery and in particular to a method of thdilitating RLF recovery for a mobile radio communications device within a mobile radio communications network, and to such a device and related mobile radio communications network node device.

It is currently known that, when handling RLF within a mobile radio communications device User Equipment (UE) while in connected mode, that the UE will attempt to re-establish its Radio Resource Contnl (RRC) connection generally during the second phase of the RLF.

In the scenario in which the cell being accessed during the recovery procedure belongs to a network node device such as an eNB and that does not have the UE context, the UE is requested to transfer to an idle state.

The subsequent attempt to recover the RRC connection is then performed by means of a Non Access Stratum (NAS) Service Request procedure.

Such a procedure generally amounts to an additional second random access procedure to that same cell.

It is of course possible that such a second random access procedure may also fail for reasons of signalling congestion that might have arisen since an earlier random access attempt within the cell.

A more typical scenario however arises in a situation where the UE attempts to connect to a cell having for example an eNB that does not have the UE context It should be appreciated that this can prove quite a common scenario since UE context Iransfer between eNBs is generally considered to be optional and also comprises a complex procedure in a E-UTRAN/Core Network. Also, due to poor eNB implementation, such a feature may not in any case be supported. Also, it is often apparent that the UE may have changed its location in a relatively short space of time, for example when the user is travelling by fast-moving form of transportation. In such situations, the target eNB it unlikely to have received the UE context in time to be usefully employed.

Thus, with currently known RLF recovery procedures disadvantages can arise either generally through the unavailability of the UE context or through fbrcing the UE move into an idle state and its associated effect on service continuity and signalling overhead.

The present invention seeks to provide for a RLF recovery procedure, and related communications and network devices, having advantages over known such procedures and devices.

According to a first aspect of the present invention there is provided a method of facilitating Radio Link Failure recovery for a mobile radio communications device within a mobile radio communications network and in which connection reestablishment signalling is sent from the mobile radio communications device to a mobile radio network node device, and wherein identity infbrmation is delivered to the node device from the mobile radio communications device in the connection reestablishment signalling so as to initiate retrieval of device context infbrmation from the core network.

The inclusion of the identity information with the connection reestablishment request can advantageously allow the network node device to access the device context as required and this serves to enhance the speed with which RLF recovery can be achieved. As a particularly advantage, the invention does not require transfer of the mobile radio communications device into an idle mode.

As will be appreciated from the following discussion, the invention can previde for impmved service continuity subsequent to the RLF and in particular since any ongoing services are not released because the mobile radio communications device does not move into an idle mode.

It should be appreciated that the method finds particular use when facilitating RLF recovery for a mobile radio communications device in connected mode.

Indeed, the network node can comprise an eNB and the connection reestablishment request can comprise a RRC reestablishment request.

As an alternative, the said connection reestablishment signalling can comprise an RRC connection setup complete message. In particular, upon receipt of an RRC connection reestablishment request, the network node device can be arranged to send an RRC connection reestablishment reject signal. From this the mobile radio communications device can infer that it should wait for SRB1 configuration conveyed into the RRC connection setup so that it can send the required identity information, for example the NAS message, within the RRC connection setup complete message. Subsequently, the network node device will then receive the mobile radio communications device context information from the core network.

Preferably, the connection reestablishment request contains at least one of the identity of a mobile radio communications device by a Mobile Management Entity (MME) and a selection of the MME at the network node device while RLF is ongoing.

In particular, the identity of the mobile radio communications device by the MME can comprise a short NAS Message Authentication Code -I message.

Further, the selection by the network node of the MME while RLF is ongoing can be achieved by way of the PLMN identity.

Yet further, a short NAS MAC -I message can be included in initial mobile radio communications device messaging over the Si interface and so as to allow fur the MME to send the device context to the network node device.

According to another aspect of the present invention them is pmvided a mobile radio communications device fur operation within a mobile radio communications network and arranged for RLF recovery by way of a connection reestablishment signalling to be sent to a network node, the mobile radio communications device being arranged to include identity information within the connection reestablishment signalling so as to initiate retrieval of device context information from the core network.

It should be appreciated that the method finds particular use when facilitating RLF recovery for a mobile radio communications device in connected mode.

As noted, the connection reestablishment request can comprise a RRC reestablishment request.

The mobile radio conununications device can be arranged such that the connection reestablishment request can contain at least one of the identity of a mobile radio communications device by a Mobile Management Entity (MME), and a selection of the MME at the network node device while RLF is ongoing.

As above, the identity of the mobile radio communications device by the MME can comprise a short NAS Message Authentication Code -I message.

The mobile radio communications device can further be arranged such that a further, short, NAS MAC -I message can be included in initial mobile radio communications device messaging over the Si interface and so as to allow ibr the MME to send the device context to the network node device.

According to yet a further aspect of the present invention there is provided a mobile radio communications network node device for communication with a mobile radio communications device and associated network and arranged to receive identity infbrmation in combination with a connection reestablishment signalling fur facilitating RLF recovery, the node device further being arranged to retrieve mobile radio communications device context data from the core network and to forward the same to the said associated network for subsequent retrieval and use in the RLF recovery.

Preferably, the said network node device comprises a eNB.

Yet further, the network node device is arranged to forward mobile radio communications device context data to a NME within the network.

From the above, and as will be illustrated further below, the invention can provide fur an advantageous decrease in signalling load whilst also offering improved levels of service and, in particular, service continuity.

The invention is described further hereinafter, by way of example only, with reference to the accompanying drawings in which: Fig. 1 comprises a signalling diagram between a network UE, eNB and NME according to the current art; Fig. 2 comprises a similar signalling diagram in relation to an RLF recovery procedure according to an embodiment of the present invention; and Fig. 3 comprises another signalling diagram relating to an RLF recovery procedure according to another embodiment of the present invention.

As will be appreciated, the present invention relates to the proposal that the mobile radio communications device UE can provide its relevant information, i.e. the UE context, to the network, [br example to a node device such as a eNB, and along with the RRC connection reestablishment request. The UE context can include at least one of the PLMN identity, the UE temporary identity, such as the Temporary Mobile Subscriber Identity or indeed NAS NAC. This advantageously allows the eNB to then lètch the UE context as required and communicate this with the core network so as to facilitate RLF recovery and thereby achieve faster RRC connection resumption than can currently be achieved, and without requiring the UB to transfbr to an idle mode.

As will be appreciated from the Ibilowing, the present invention possesses the novelty of for example, including a short NAS MAC -I message within the RRC connection reestablishment request in order for the NME to identify the UE. Also, PLMN identity can be included within the RRC connection reestablishment request to allow the eNB to select the relevant MME while the RLF procedure is ongoing and, lkrther, a short NAS MAC -I message can be employed in the initial UE message over the SI intethce so as to allow the MME to send the UE context to the eNB as required.

Such aspects of the present invention are illustrated and discussed further in relation to the accompanying drawings.

Turning first to Fig. 1, there is provided a signalling diagram according to a known RF recovery procedure and in scenario in which the eNB does not have the UE context.

The network signalling illustrated arises between a UE 10 such as a cell phone handset, a network node device comprising a eNB 12 and also a Mobile Management Entity (MME) 14 within the network.

With the UB 10 within its RRC connected state, and subsequent to RLF, a random access preamble 16 and is sent from the UE 10 to the eNB 12 and which initiates a response l8fromtheeNB 12 to the UE 10.

In order to initiate the recovery procedure, a RRC connection reestablishment request is then sent from the UE 10 to the eNB 12 and such a reestablishment request signal can include the original UE identity and also integrity-check information.

However, in view of the RLF, the RRC connection reestablishment request signal 20 is rejected and this is confirmed in a rejection signal 22 which forces the liE 10 into its RRC_ idle mode as indicated.

A random access preamble 24, and related response 26 is then delivered to, and received from, the eNB 12 and beibre transmission of a RRC connection request 28 while in the idle mode and which includes the original, liE identity and also the PLMN identity.

A RRC connection reconfiguration signal 30 can then be returned from the eNB 12 to the UE 10 and which can comprise Signalling Radio Bearer configuration information.

With the UE 10 then returned to its RRC_ connected state as indicated, an uplink transfer signal 32 can be delivered to the eNB 12 and includes a NAS service request and, in response, the eNB 12 can deliver its initial UB message 34 to the MME 14 which, in turn, replies with the Si initial context setup signal 36 received at eNB 12 and which then initiates a RRC connection reconfiguration signal 38 allowing for radio bearer configuration to be delivered to the UE 10 so as to complete the RLF recovery procedure.

Turning now however to Fig. 2, the advantageous operation of the present invention having regard to service continuity and decrease signalling overhead can be readily appreciated.

Again, in the illustrated embodiment of the present invention, signalling ansing between a UE 10 eNB 12 and MME 14 is illustrated. Also, the illustration relates to a scenario in which the eNB 12 does not have RRC context for the UE 10.

Again, with the UE 10 in the RRC connected mode as illustrated an initial random access preamble 40 is sent to the eNB 12 and initiates a random access response 42 returned to the UE 10.

Subsequent to the receipt of that response 42, the UE 10 then provides its RRC connection reestablishment request 44 to the eNB 12 which, in accolTiance with the invention, includes its UE context which, in addition to the original UE identity and integrity check information includes, in the illustrated embodiment, NAS MAC -I data and also the PLMN identity.

The provision of the UE context within the connection reestablishment request 44 can itself initiate the initial UE message 46 from the eNB 12 to the MME 14 and, as noted, without requiring the UE 12 to enter into its RRC_ idle mode.

The initial UE message 14 can contain a short, NAS message fbr the MME 14 and allowing it to identify the UE 10. Generally, the initial UE message 46 can include a short NAS MAC-I message.

Subsequent to its transmission of its initial UE message 46, the eNB 12 is arranged to return a RRC connection reestablishment signal 48 to the UE 10 and which comprises signalling radio bearer configuration data.

Armed with the short NAS message serving to identify the UE 10, the MME 14 is able to signal to the eNB 12 at the appropriate initial context setup, i.e. the UE context, data such that the eNB 12 can then deliver its RRC connection reconfiguration signal 52 containing the radio bearer configuration data to the liE 10 so as to achieve the required RLF recovery.

As will therefore be appreciated the RRC Connection Restablishnient Request shall contain NAS MAC-I (short NAS message for the MME to identify the UE) and the PLMN identity so that the eNB can select the MME.

It should be noted that if there is a limited size for the RRC Connection Reestablishment Request, the NAS MAC -I and/or PLMN identity can be subsequently sent to the eNB in an UL Direct Transfer message. On NAS MAC-I message reception, MME shall infer a Radio Link Failure has occurred on the E-EUTRA interface and perform an Si context setup to send the UE context to the eNB.

On RRC Connection Reestablishment confirm reception, the UE shall supersede the current RRC context.

Turning now to Fig. 3 there is illustrated a signalling diagram according to a thrther embodiment of the present invention.

Again, signalling arising between a UE 10, eNB 12 and MME 14 is illustrated and with the LIE 10 in an RRC connected state.

As will be appreciated from the discussion below, this illustrated embodiment is based upon an alternative mrnier of sending the NAS NAC-I information to the MME 14, and this time by way of connection re-establishment signalling comprising a RRC connection setup complete message.

Advantageously, such a message inherently allows for the delivery of a NAS message and so this aspect of the invention can be implemented with only minima! amendments to the current RRC connection re-establishment procedure. As will further be appreciated, upon reception of the RRC connection re-establishment request, the eNB 12 serves to send an RRC connection re-establishment reject message -perhaps identii,'ing "unknown UE context" as its cause of rejection. The UE 10 can then confirm that it has sufficient time to wait fur the SRB 1 configuration to be conveyed into the RRC connection setup so that it can send the NAS message in the RRC connection setup complete message. Subsequently, the eNB 12 will then reirieve and receive the IJE context from the MME 14 for use in the same manner as discussed in relation to the previous embodiment.

Turning themibre to Fig. 3 in greater detail, there is illustrated the random access signalling comprising the preamble 54 and response 56 and the subsequent RRC connection reestablishment request 58.

The RRC connection re-establishment reject signal 16 noted above is then delivered from the eNB 12 to the UE 10 such that the UE then inrs that the eNB 12 does not have the UB context. The liE 10 however does not interrupt its reestablishment outcome timer but rather waits for the SRB 1 configuration to send the NAS message.

The RRC connection setup signal 62 comprising the SRB1 configuration, then fbllows and this allows the UE 10 to supersede its current SRB1 con:figuration.

The RRC connection setup complete message 64 is then delivered from the UE 10 to the eNB 12 containing the identity information in the form of, for example, PLMN identity, or NAS MAC-I.

This then initiates the UE message 66 within the eNB 12 and which contains a NAS message for the MME 14 to identi& the UE.

An intial context setup message 68 can then be delivered from the MME 14 to eNB 12 which leads to a RRC connection reconfiguration message 70 and delivered to the UE 10.

As will be appreciated, the above represents a further embodiment of the present invention permitting a faster RRC connection resumption without requiring the UE 10 to move into an "idle" state.

The invention therefore proves advantageous insofar as, upon radio failure, and impmve speed of RRC connection assumption for service continuity can be achieved whilst also incurring reduced signalling loads over the E-TRAN interlkce and reduce signalling overhead over the Si interface.

Claims (28)

1. CLAiMS: 1. A method of facilitating Radio Link Failure recovery for a mobile radio communications device within a mobile radio communications network and in which connection reestablishment signally is sent from the mobile radio communications device to a mobile radio network node device, and identity information is delivered to the node device from the mobile radio communications device in the connection reestablishment signalling so as to initiate retrieval of device context information from the core network.
2. 2. A method as claimed in Claim 1 and for facilitating RLF recovery for a mobile radio communications device in connected mode.
3. 3. A method as claimed in Claim 1 or 2 and wherein the network node comprises aneNB.
4. 4. A method as claimed in Claim 1,2 or 3 and wherein the said connection reestablishment signalling comprises an RRC connection reestablishment request.
5. 5. A method as claimed in Claim 1,2 or 3, wherein the said connection reestablishment signalling comprises an RRC connection setup complete message.
6. 6. A method as claimed in Claim 5 and including the step of sending an RRC connection reestablishment reject signal from the network node device in response to receipt of an RRC connection reestablishment request.
7. 7. A method as claimed in any one or more of the preceding claims wherein the connection reestablishment signalling contains at least one of the identity of a mobile radio communications device by a Mobile Management Entity (MME) and a selection of the MME at the network node device while RLF is ongoing.
8. 8. A method as claimed in any one or more of Claims 1 to 7 and employing an NAS message.
9. 9. A method as claimed in Claim 8 wherein the identity of the mobile radio communications device by the MME comprises a short NAS Message Authentication Code -I message.
10. 10. A method as claimed in Claim 7,8 or 9, wherein the selection of the MME while RLF is ongoing is achieved by way of the PLMN identity.
11. 11. A method as claimed in Claim 9 and 10 wherein one of the NAS MAC -I and the PLMN identity is sent subsequent to the other.
12. 12. A method as claimed in any one or more of Claims I to II wherein a farther short NAS MAC -I message is included in initial mobile radio communications device messaging over a SI interface and so as to allow for the MME to send the device context to the network node device.
13. 13. A mobile radio communications device for operation within a mobile radio communications network and arranged far RLF recovery by way of a connection ieestablishment signalling to be sent to a network node, the mobile radio communications device being arranged to include identity information within the connection reestablishment signalling lOso as to initiate retrieval of device context infbnnation from the core network.
14. 14. A device as claimed in Claim 13 and arranged for RLF recovery while in connected mode.
15. 15. A device as claimed in Claim 13 or 14 wherein the connection reestablishment request comprises a RRC reestablishment request.
16. 16. A mobile radio communications device as claimed in Claim 13 or 14, and arranged such that the said connection reestablishment signalling comprises an RRC connection setup complete message.
17. 17. A mobile radio communications device as claimed in Claim! 6 and arranged to send an RRC connection reestablishment request signal for initiating an RRC connection reestablishment reject signal at the network node device.
18. 18. A device as claimed in Claim 13, 14 or 15 and arranged such that the connection reestablishment signalling contains at least one of the identity of a mobile radio communications device by a Mobile Management Entity (MME) and a selection of the MME at the network node device while RLF is ongoing.
19. 19. A device as claimed in Claim 18, and arranged such that the identity of the mobile radio communications device by the MME comprises a short NAS Message Authentication Code -I message.
20. 20. A device as claimed in Claim 18 or 19 and arranged such that the selection of the MME at the network node is achieved by way of PLMN identity.
21. 21. A device as claimed in any one of Claims 18, 19 or 20 and arranged such that a thither short NAS MAC -I message is included in initial mobile radio communications device messaging over a Sl interface and so as to allow for the MME to send the device context to the network node device.
22. 22. A mobile radio communications network node device for communication with a mobile radio communications device and associated network and arranged to receive identity information in combination with a connection reestablishment signalling for facilitating RLF recovery, the node device further being arranged to retrieve mobile radio communications device context data from the core network and to forward the same to the said associated network for subsequent retrieval and use in the RLF recovery.
23. 23. A network node device as claimed in Claim 22 and comprising an eNB.
24. 24. A network node device as claimed in Claim 23 and arranged to forward mobile radio communications device context data to a MMB within the network.
25. 25. A mobile radio communications network node device as claimed in Claim 22, 23 or 24, and arranged to send an RRC connection reestablishment reject signal in response to an RRC connection reestablishment request signal from the mobile radio communications device.
26. 26. A method of facilitating RLF recovery and substantially as hereinbeibre described with refbrence to, and as illustrated in Fig. 2 of the accompanying drawings.
27. 27. A mobile radio communications device for operation in a mobile radio communications network and arranged!br RRF recovery and substantially as hereinbefore described with reference to the accompanying drawings.
28. 28. A mobile radio communications network node device fbr communication with a mobile radio communications device and associated network and substantially as hereinbefore described with reference to the accompanying drawings.