AU2012381036B2 - Internetworking for Circuit Switched Fallback-network initiated USSD request/notification procedure mobile-terminated location request procedure provide subscriber information procedure - Google Patents

Internetworking for Circuit Switched Fallback-network initiated USSD request/notification procedure mobile-terminated location request procedure provide subscriber information procedure Download PDF

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AU2012381036B2
AU2012381036B2 AU2012381036A AU2012381036A AU2012381036B2 AU 2012381036 B2 AU2012381036 B2 AU 2012381036B2 AU 2012381036 A AU2012381036 A AU 2012381036A AU 2012381036 A AU2012381036 A AU 2012381036A AU 2012381036 B2 AU2012381036 B2 AU 2012381036B2
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iwf
network node
msc
hlr
map
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AU2012381036A1 (en
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Anish Sharma
Michael Brett Wallis
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Mavenir Systems Inc
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Mavenir Systems Inc
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Priority claimed from PCT/US2012/039641 external-priority patent/WO2012162636A1/en
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Assigned to MITEL MOBILITY INC. reassignment MITEL MOBILITY INC. Amend patent request/document other than specification (104) Assignors: MAVENIR SYSTEMS, INC.
Assigned to MAVENIR SYSTEMS, INC. reassignment MAVENIR SYSTEMS, INC. Alteration of Name(s) of Applicant(s) under S113 Assignors: MITEL MOBILITY INC.
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/0005Control or signalling for completing the hand-off
    • H04W36/0011Control or signalling for completing the hand-off for data sessions of end-to-end connection
    • H04W36/0022Control or signalling for completing the hand-off for data sessions of end-to-end connection for transferring data sessions between adjacent core network technologies
    • H04W36/00224Control or signalling for completing the hand-off for data sessions of end-to-end connection for transferring data sessions between adjacent core network technologies between packet switched [PS] and circuit switched [CS] network technologies, e.g. circuit switched fallback [CSFB]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/12Messaging; Mailboxes; Announcements
    • H04W4/14Short messaging services, e.g. short message services [SMS] or unstructured supplementary service data [USSD]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W68/00User notification, e.g. alerting and paging, for incoming communication, change of service or the like
    • H04W68/02Arrangements for increasing efficiency of notification or paging channel
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W8/00Network data management
    • H04W8/02Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]; Transfer of mobility data, e.g. between HLR, VLR or external networks
    • H04W8/08Mobility data transfer
    • H04W8/10Mobility data transfer between location register and external networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W68/00User notification, e.g. alerting and paging, for incoming communication, change of service or the like

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Databases & Information Systems (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Telephonic Communication Services (AREA)

Abstract

A method for switch user equipment from a Long Term Evolution system to a Circuit Switched system when receiving a voice call is disclosed. The method may comprise: receiving, at an IWF (Internet Working Function) network node, a Mobility Application Part Unstructured Supplementary Service Data (MAP USSD) message identifying a User Equipment (UE) originated from a USSD application, the UE associated with a first Mobile Switching Center (MSC); initiating Circuit Switched Fallback (CSFB) by sending a paging request to the UE; receiving a Cancel Location message associated with the UE from a Home Location Register (HLR) indicative of the UE being associated with a second MSC; forwarding the MAP USSD message to the UE via the HLR and the second MSC; receiving a MAP USSD response message from the UE via the HLR; and forwarding the MAP USSD response message to the USSD application.

Description

PCT/US2012/051001 wo 2013/176692
INTERNETWORKING FOR CIRCUIT SWITCHED FALLBACK -NETWORK INITIATED USSD REQUEST/NOTIFICATION PROCEDURE MOBILE-TERMINATED LOCATION REQUEST PROCEDURE PROVIDE SUBSCRIBER INFORMATION PROCEDURE
FIELD
[0001] The present disclosure relates the field of telecommunications, and more particularly to internetworking for circuit switched fallback.
BACKGROUND 10 [0002] Currently, Long Term Evolution (LTE) systems do not support voice calls, so Circuit Switched Fallback (CSFB) specified by 3GPP standards TS23.272 is executed for these calls. CS fallback function and SMS (short message system) message delivery via the CS core network is realized by reusing Gs interface mechanisms as defined in 3GPP TS 29.018 on the interface between the MME (Mobility Management 15 Entity) in the EPS (Evolved Packet System) and the VLR (Visitor Location Register). This interface is called the SGs interface.
[0003] For example, the network is enhanced to page the mobile over the LTE radio, and when a mobile camped on LTE radio receives a voice call page request over the LTE system, the mobile device falls back to the CS radio to receive voice call. In 20 coimection with CSFB, any active data session is suspended or handed over to 2G/3G PS (packet switched) access. For Mobile Originating (MO) calls, the mobile devices or user equipment (UE) camped on the LTE radio initiate fallback on their own to originate a voice call in the CS domain. Mobiles camped on LTE radio can send and receive SMS messages without falling back. The basic idea is to force the UE to fallback to CS radio 25 for voice calls, which is not VoLTE (Voice Over LTE). In order to execute the CSFB, a o (N δ'
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cn o 00 m (N O (N i·3:'ίic^'lnteΓwov«]\NRPcfftb^\Γ>C‘C\l^L·K\} 456226'L I .doc^-23A)3/2017 -2- new interface, called SGs, is required between MME (Mobility Management Entity) and MSC/VLR (Mobile Switching CenterA7isitor Location Register) to allow the MSC to know when a UE is EPC (Evolved Packet Core) attached. The MSCA'^LR registers with the HLR (Home Location Register) as normal, so that Mobile Terminating (MT) voice calls and SMS 5 messages are routed there. In these cases, MO/MT SMS messages are delivered over LTE access and EPC via the MSC. For MO calls, the UE falls back to CS radio before originating the call so no core network changes are required. For MT calls, the call is delivered to the MSC as normal, and the MSC pages the UE via the new SGs interface between the MME and the MSC. The UE falls back to CS radio and issues either a Location Update or Page 10 Response. The MSC completes the call. If the UE falls back to a MSC different than the one that issued the SGs page, complex "roaming retry" procedures are required to complete the call. That said, this process requires new interfaces and modification of existing nodes in each of the LTE and CS systems. The new SGs interface is required between the MSC in the CS core network and the MME in the EPC. The SGs enables the MSC to learn of EPC 15 attachment, MO/MT SMS during EPC attachment, and MSC to page the subscriber over EPC and LTE access for voice calls. As for the modified nodes, the MSC requires SGs interface and associated state machine. The MME requires an SGs interface and modification of the associated state machine and requires S3 interface to SGSN if ISR (Idle mode Signaling Reduction) is enabled. The MSC/HLR/GMSC all require changes in order to support Roaming 20 Retry, which is made more hkely by CSFB.
SUMMARY OF THE INVENTION
[0003A] According to the present invention there is provided a method comprising; receiving, at an IWF (Internetworking Function) network node, a Mobihty Application 25 Part Unstructured Supplementary Service Data (MAP USSD) message identifying a User Equipment (UE) originated from a USSD application, the UE associated with a first serving Mobile Switching Center (MSC) distinct from the IWF network node, wherein the IWF network node is distinct from a visitor location register (VLR) associated with the first serving MSC; 30 initiating Circuit Switched Fallback (CSFB) by sending, by the IWF network node, a
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Jl·\dcfUillcι·woven\NRPc.)Γtbl\DC:C\L5ΐlR\1456226‘J_l.doc-κ-23/05/20i7 2A· paging request to the UE; receiving, by the IWF network node, a Cancel Location message associated with the UE from a Home Location Register (HLR) indicative of the UE being associated with a second seiwing MSC distinct from the IWF network node; 5 forwarding, by the IWF network node, the MAP USSD message to the UE via the HLR and the second MSC; receiving, by the IWF network node, a MAP USSD response message from the UE via the HLR; and forwarding, by the HLR, the MAP USSD response message to the USSD application, 10 wherein the IWF network node connects to a CS network and an LTE network.
[0003B] The invention also provides a method comprising: receiving, at an IWF (Internetworking Function) network node, a Mobility Application Part Send Routing Information-Location Services (MAP SRI-LCS) message identifying a User Equipment (UE) originated from a Gateway Mobile Location Center (GMLC), the UE 15 associated with a first serving Mobile Switching Center (MSC) distinct from the IWF network node, wherein the IWF network node is distinct from a visitor location register (VLR) associated with the first serving MSC; initiating Circuit Switched Fallback (CSFB) by sending, by the IWF network node, a paging request to the UE; 20 receiving, by the IWF network node, a Cancel Location message associated with the UE from a Home Location Register (HLR) indicative of the UE being associated with a second serving MSC distinct from the IWF network node; forwarding the SRI-LCS message to the UE via the HLR and the second MSC; receiving, by the IWF network node, a SRI-LCS response message from the HLR; 25 sending, by the IWF network node, a MAP Provide Subscriber Location (PSL) message to the second MSC; receiving, by the IWF network node, a MAP PSL response message from the second MSC; and forwarding, by the IWF network node, the MAP PSL response message to the GMLC, 30 wherein the IWF network node connects to a CS network and an LTE network.
[0003C] The invention also provides a method comprising: r- ο (N S'
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Jl·\dcfUillcι·woven\NRPc..ltbl\DC:C\DΐlR\1456226‘Ll.doc^-23/05/20l7
2B receiving, at an IWF (Internetworking Function) network node, a Mobility Application Part Provide Subscriber Information (MAP PSI) message identifying a User Equipment (UE) originated from a Home Location Register (HLR), the UE associated with a first serv'ing Mobile Switching Center (MSC) distinct from the IWF network node, wherein the IWF 5 network node is distinct from a visitor location register (VLR) associated with the first serving MSC; initiating Circuit Switched Fallback (CSFB) by sending, by the IWF network node, a paging request to the UE; receiving, by the IWF network node, a Cancel Location message associated with the 10 UE from the HLR indicative of the UE being associated with a second serving MSC distinct from the IWF network node; sending a MAP Anytime Interrogation (ATI) message to the UE via the HLR and the second MSC; receiving, by the IWF network node, a MAP ATI response message from the HLR; 15 and forwarding, by the IWF network node, information in the MAP ATI response in a MAP PSI response message to the HLR, wherein the IWF network node connects to a CS network and an LTE network.
20 BRIEF DESCRIPTION OF THE DRAWINGS
[0004] FIGURE 1 is a simplified block diagram of an embodiment of a communication system for circuit switched fallback; PCT/US2012/051001 wo 2013/176692 [0005] FIGURES 2A-2I are simplified block diagrams of embodiments of communication systems illustrating signaling during circuit switched fallback; [0006] FIGURES 3A and 3B is call flow diagram illustrating an embodiment of a circuit switched fallback procedure; [0007] FIGURE 4 is a flow chart illustrating example method for executing circuit switched fallback; [0008] FIGURE 5 is a call flow diagram illustrating an embodiment of a new network initiated USSD request procedure; 10 [0009] FIGURE 6 is a simplified block diagram of an exemplary embodiment of a communication system; [0010] FIGURE 7 is a call flow diagram illustrating an embodiment of a new mobile terminating location report procedure (MT-LR); and [0011] FIGURE 8 is a call flow diagram illustrating an embodiment of a new provide subscriber information, fallback to CS procedure.
15 DETAILED DESCRIPTION
[0012] FIGURE 1 is an example commimication system 100 for switching User Equipment (UE) from a Long Term Evolution (LTE) system to a Circuit Switched (CS) system when receiving a voice call. For example, when the UE is camped on an LTE system and receives an indication of a mobile terminating voice call from the CS domain, 20 the UE may switch to a CS network (2G or 3G) to accept the call. In general, switching from the LTE network to the CS network for voice calls is referred to as Circuit Switched Fall Back (CSFB). In some implementations, the system 100 may execute CSFB independent or without including an SGs interface on a Mobile Switching Center (MSC). In addition, the system 100 may execute the CSFB independent or without modifying the PCT/US2012/051001 wo 2013/176692 existing MSC. For example, the system 100 may include a CSFB Internetworking Function (IWF) 102 (discussed in more detail below) that connects to a CS network through MAP interfaces and connects to an LTE network through an SGs interface. In doing so, the system 100 may eliminate, reduce or otherwise prevent the following: 5 changes at the MSC (e.g., no SGs interfaces at the MSC, no configuration changes); roaming retry (e.g., saves on complex MSC/HLR functionality, reduces call setup delay); TA to LA mapping (e.g., all TAs may be mapped to a single LA, owned by the CSFB IWF); processing the MT call bearer (e.g., no bearer trunks, reduce cost); and/or others.
[0013] At a high level, the system 100, in some implementations, includes the 10 CSFB IWF 102 communicably coupled to a CS system 104, an LTE system 106, and UE 108 through the networks 104 and 106. The CS system 104 includes a radio access network (RAN) 110 and a cellular core network 112, and the LTE system 106 includes an LTE Radio Access Network 114 such as evolved UTRAN (E-UTRAN 114) and a core network 116 called an Evolved Packet Core (EPC) 116. The cellular core network 112 15 includes the GMSC 118, the HLR 120, the MSC/VLR 122, and the SGSN 124. The EPC 116 includes the MME 126 and the Home Subscriber Server (HSS) 128. As for a high level description, the CSFB IWF 102 registers with the serving MSC/VLR when the UE performs an EMSI attach over EPC 116. After registration, the GMSC 118 may receive an incoming request to terminate a voice call with the UE and transmit a request for routing 20 information to the HLR 120. After determining that the CSFB IWF 102 is presented as the serving MSC to the cellular core network 112, the HLR 120 may transmit a request for the MSRN to the CSFB IWF 102. In connection with storing information identified with the request, the CSFB IWF 102 transmits a request to the UE 108 through the MME 126 of the EPC 116 to fall back to the cellular system 104. The UE 108 may transmit a request PCT/US2012/051001 wo 2013/176692 to the MSC/VLR 122 through the RAN 110 to update its location, which is relayed to the HLR 120. The HLR 120 re-assigns the MSC/VLR 122 as the serving MSC and transmits a Cancel Location request to the CSFB IWF 102. The CSFB IWF 102 sends a new request for routing information to the HLR 120 and transmits the received MSRN in the 5 PRN Ack to the GMSC 118, which uses this MSRN to route the call to the MSC/VLR 122 where it is completed.
[0014] Turning to more detailed description of the system 110, the CSFB fWF 102 can include any software, hardware, and/or firmware operable to transfer a UE 108 from the LTE system 106 to the CS system 104 in connection with receiving a mobile 10 terminating request for a voice call from the cellular core network 112. For example, the CSFB IWF 102 may page the UE 108 to request an update location request with the HLR 120 in the cellular core network 112. By updating the location in the cellular system 104, the CSFB IWF 102 may reply to the PRN request using the MSRN that the cellular system 104 assigns during the location update. In initiating the updated location, the CSFB IWF 15 102 may initiate the UE 108 to fallback to CS radio for voice calls, which is not Voice over LTE (VoLTE). In some implementations, the CSFB fWF 102 can include a new interface (SGs) to MME 126, which may allow the CSFB IWF 102, when operating as the MSC/VLR, to determine when a UE 108 is attached to the EPC 116. The CSFB IWF 102 may include interfaces such as SGs to MME 126, MAP to HLR 120, MAP to SMSC, 20 and/or others. As for the SGs to MME 126, the CSFB IWF 102 may execute standard SGs functionality, and/or the MME 126 may identify the CSFB IWF 102 as a Visitor Location Register (VLR). In other words, the CSFB IWF 102 may support the SGs interface from the MME 126 in the EPC domain. In these instances, the CSFB IWF 102 may appear as a VLR to the MME 126. The CSFB IWF 102 acting as VLR/MSC for the subscribers in PCT/US2012/051001 wo 2013/176692 EPC domain may interact with the HLR 120 over a MAP interface and also with an SMSC in the network 112 for SMS related procedures. The CSFB IWF 102 may contain a “VLR” that maintains the SGs states and state machine defined in 3GPP TS 29.118. As for the MAP to HLR 120, the CSFB IWF 102 may execute location updating procedures 5 and/or call routing procedures using this interface. The MAP interface between the CSFB IWF 102 and HLR 1020 may be used for location management, subscriber management and/or call handling procedures. As for the MAP to SMSC, the CSFB IWF 102 may execute MO/MT SMS procedures using MAP MO Forward Short Message and/or MAP MT Forward Short Message. For example, the MAP interface between CSFB IWF 102 10 and an SMSC may be used for mobile originated and/or mobile terminated SMS. In some implementations, the CSFB IWF 102 may operate independent or without bearer facilities (e.g., TDM trunks). The CSFB IWF 102 may execute one or more of the following: receive the MT call signaling from the HLR 120, as it appears as the serving MSC/VLR; sends SGs Paging Request to trigger CSFB; initiate MT call signaling to redirect the call 15 to the new (and real) serving MSC/VLR; and/or other functions. In connection with these processes, the UE 108 may fall back to the CS domain and may perform a Location Update MSC/VLR 122. In addition, the UE 108 may accept the call once the CSFB IWF 102 redirects it. As previously mentioned, the CSFB IWF 102 may, in some implementations, emulate or otherwise represent itself as an element of core network 112. 20 For example, the CSFB IWF 102 may emulate or otherwise represent itself as an MSC, a VLR, or other element of the cellular core network 112. In the case that communication node 108 emulates an MSC, the CSFB IWF 102 may be queried by the HLR 120 in the cellular core network 112 like any other MSC. PCT/US2012/051001 wo 2013/176692 [0015] Turning to a detailed description of other elements in the system 100, the LTE system 106 can includes the EPC 116 and the E-UTRAN 114. The EPC 116 provides connectivity to an external network such as the cellular core network 112. The EUTRAN 114 includes one or more base stations such as eNode-B (eNB) base stations that provide 5 wireless service(s) to UE 108. An EPC-based core network can include a Serving Gateway (SGW), the MME 126, and a Packet Gateway (PGW). An SGW can route traffic within the EPC 116. The MME 155 is responsible for core-network mobility control, attachment of the UE 108 to the core network and for maintaining contact with idle mode UEs. The PGW is responsible for enabling the ingress/egress of traffic from/to the Internet. The 10 PGW can allocate IP addresses to the UEs 108.
[0016] An LTE-based wireless communication system has network interfaces defined between system elements. The network interfaces include the Uu interface defined between a UE and an eNB, the SlU user-plane interface defined between an eNB and an SGW, the SIC control-plane interface defined between an eNB and an MME (also known 15 as Sl-MME), and the S5/S8 interface defined between an SGW and a PGW. Note that the combination of SlU and SIC is often simplified to “SI.” [0017] MME 126 is a control-node for the LTE access network. The MME 126 is responsible for UE 108 tracking and paging procedures including retransmissions. MME 126 handles the bearer activation/deactivation process and is also responsible for choosing 20 the SGW for a UE 108 at the initial attach and at the time of an intra-LTE handover. The MME 126 also authenticates the user by interacting with the HSS 124. The MME 126 also generates and allocates temporary identities to UEs and terminates Non-Access Stratum (NAS) signaling. The MME 126 checks the authorization of the UE 108 to camp on the service provider's Public Land Mobile Network (PLMN) and enforces UE roaming PCT/US2012/051001 wo 2013/176692 restrictions. The MME 126 is the termination point in the network for ciphering/integrity protection for NAS signaling and handles the security key management. Lawful interception of signaling is also supported by the MME 126. The MME also provides the control plane function for mobility between LTE and 2G/3G access networks with the S3 5 interface terminating at the MME 126 from the SGSN 130. The MME 126 also terminates the S6a interface towards the home HSS 128 for roaming UEs.
[0018] The SGW routes and forwards user data packets, while also acting as the mobility anchor for the user plane during inter-eNB handovers and as the anchor for mobility between LTE and other 3GPP technologies (terminating S4 interface and relaying 10 the traffic between 2G/3G systems and PDN GW). For idle state UEs, the SGW terminates the down link data path and triggers paging when down link data arrives for the UE 108. The SGW manages and stores UE contexts, e.g., parameters of the IP bearer service and network internal routing information. The SGW also performs replication of the user traffic in case of lawful interception. The PGW provides connectivity to the UE 15 108 to external packet data networks by being the point of exit and entry of traffic for the UE 108. A UE 108 may have simultaneous connectivity with more than one PGW for accessing multiple packet data networks. The P-GW performs policy enforcement, packet filtering for each user, charging support, lawful interception, and packet screening. The PGW also provides an anchor for mobility between 3GPP and non-3GPP technologies 20 such as WiMAX and 3GPP2 (CDMA IX and EvDO). The SGW or the PGW depending on the embodiment, can be used to provide deep packet inspection and provide advertising to the user on a per subscriber basis as described above on a chassis implementing a SGW or a PGW. PCT/US2012/051001 wo 2013/176692 [0019] The cellular core system 104 typically includes various switching elements, gateways and service control fimctions for providing cellular services. The cellular core system 104 often provides these services via a number of cellular access networks (e.g., RAN) and also interfaces the cellular system with other communication 5 systems such as EPC 116. In accordance with the cellular standards, the cellular core system 104 may include a circuit switched (or voice switching) portion for processing voice calls and a packet switched (or data switching) portion for supporting data transfers such as, for example, e-mail messages and web browsing. The circuit switched portion includes MSC/VLR 122 that switches or connects telephone calls between cellular access 10 system 106 and PSTN 104 or another network, between cellular core networks or others. The MSC/VLR 122 may support only a single media stream (e.g., single TDM channel for the standard A-interface, single RTP stream for AoDP) towards the RAN 110. This single media stream may be used for supplementary services which involve multiple calls to/from the mobile such as call waiting. In other words, multiple calls to/from a GSM 15 mobile share a single media connection on the MSC's access interface.
[0020] The cellular core system 104a may also include the HLR 120 for maintaining "permanent" subscriber data and a VLR (and/or an SGSN) for "temporarily" maintaining subscriber data retrieved from the HLR 120 and up-to-date information on the location of those UE 108 using a wireless communications method. In addition, the 20 cellular core system 104 may include Authentication, Authorization, and Accounting (AAA) that performs the role of authenticating, authorizing, and accounting for UE 108 operable to access cellular core system 104. While the description of the core system 104 is described with respect to GSM networks, the core system 104 may include other cellular PCT/US2012/051001 wo 2013/176692 radio technologies such as UMTS, CDMA, and others without departing from the scope of this disclosure.
[0021] RAN 110 provides a radio interface between mobile device 102a and the cellular core system 104a which may provide real-time voice, data, and multimedia 5 services (e.g., a call) to UE 108. In general, RAN 110 communicates air frames via radio frequency (RF) links. In particular, RAN 110 converts between air frames to physical link based messages for transmission through the cellular core system 104a. RAN 110 may implement, for example, one of the following wireless interface standards during transmission: GSM access, UMTS access. Code Division Multiple Access (CDMA), Time 10 Division Multiple Access (TDMA), General Packet Radio Service (GPRS), Enhanced Data Rates for Global Evolution (EDGE), or proprietary radio interfaces. Users may subscribe to RAN 110, for example, to receive cellular telephone service. Global Positioning System (GPS) service, XM radio service, etc.
[0022] RAN 110 may include Base Stations (BS) connected to Base Station 15 Controllers (BSC) 132. BS receives and transmits air frames within a geographic region of RAN 110 (i.e., transmitted by UE 108) and communicates with other UE connected to the cellular core system 104. Each BSC 132 is associated with one or more BS 114 and controls the associated BS 114. For example, BSC 132 may provide functions such as handover, cell configuration data, control of RF power levels or any other suitable 20 functions for managing radio resource and routing signals to and from BS. MSC/VLR 122 may be connected to BSC 132 through a standard interface such as the A-interface. While the elements of RAN 110 are describe with respect to GSM networks, the RAN 110 may include other cellular technologies such as UMTS, CDMA, and/or others. In the case of UMTS, the RAN 110 may include Node B and Radio Network Controllers (RNC). 10 PCT/US2012/051001 wo 2013/176692 [0023] Turning to a more detailed description of the elements, the UE 108 comprises an electronic device operable to receive and transmit wireless communication with system 100. As used in this disclosure, the UE 108 is intended to encompass cellular phones, data phones, pagers, portable computers, SIP phones, smart phones, personal data 5 assistants (PDAs), one or more processors within these or other devices, or any other suitable processing devices capable of communicating information using cellular radio technology. In the illustrated implementation, the UE 108 is able to transmit in one or more cellular band. In these cases, messages transmitted and/or received by the UE 108 may be based on a cellular radio technology. There may be any number of the UEs 108 10 communicably coupled to cellular access network 110. Generally, the UE 108 may transmit voice, video, multimedia, text, web content or any other user/client-specific content. In short, the UE 108 generates requests, responses or otherwise communicates with mobile core system 104a through RAN 110 or the EPC 116 through the E-UTRAN 114. 15 [0024] In some aspects of operation, the system 100 may execute one or more of
the following: receiving a Provide Roaming Number (PRN) request from a Home Location Register (HLR) in the CS network for a Mobile Station Roaming Number (MSRN) in connection with mobile terminating call request; transmit a request to the UE through the Mobility Management Entity (MME) in the LTE system to fall back to the CS 20 system; receive a Cancel Location (CL) request from the HLR in connection with the location of the UE being reassigned to a different MSC; in response to at least the CL request, transmit a Send Routing Information (SRI) request to the HLR; receive the MSRN from the MSC through the HLR; using the received MSRN, transmit a PRN 11 PCT/US2012/051001 wo 2013/176692
Acknowledgement (PRN Ack) to the HLR such that the call terminates with the UE using the MSRN; and/or others.
[0025] FIGURES 2A-2I are systems 200-280 illustrating signaling for executing CSFB in accordance with some implementations of the present disclosure. Referring to 5 FIGURE 2A, the GMSC 118 receives the signal 202 indicating a request to terminate a voice call with the UE 108. Referring to FIGURE 2B, the system 210 illustrates the signal 212 requesting the MSRN for the UE 108. In particular, the GMSC 118 transmits a Provide Roaming Number (PRN) request to the HLR 120, and the HLR 120 transmits the PRN request to CSFB IWF 102 as the MSC/VLR for the UE 108. Referring to FIGURE 10 2C, the system 220 illustrates a signal 222 illustrating a page requesting the UE 108 to update its location with the HLR 120. In particular, the CSFB IWF 102 transmits the page to the MME 126, which, in turn, transmits the page to the UE 108 through the EUTRAN 114. Referring to FIGURE 2D, the system 230 illustrates the UE 108 retuning communication form the E-UTRAN 114 to the RAN 110. Referring to FIGURE 2E, the 15 system 240 illustrates the signal 242 requesting a location update from the cellular core network 112. In particular, the UE 108 transmits an update request to the HLR 120 through the BSC 132 and the MSC/VLR 122. Referring to FIGURE 2F, the system 250 illustrates a signal 252 indicating that the UE 108 is registered with a different MSC. In particular, the HLR 120 updates registration of the UE 108 with the MSC/VLR 122 and 20 transmits a Cancel Location (CL) request to the CSFB IWF 102. Referring to FIGURE 2G, the system 260 illustrates the signal 262 requesting the current MSRN from the HLR 20. In particular, the CSFB IWF 102 transmits a SRI request to the HLR 120 using the MS ISDN identified in the previously PRN request received from the GMSC 118 via the HLR 120. Referring to FIGURE 2H, the system 270 illustrates the signal 272 for 12 PCT/US2012/051001 wo 2013/176692 retrieving MSRN and transmitting the MSRN to the CSFB IWF 102. In particular, the HLR 120 identifies the MSC/VLR 122 as the VMSC and retrieves the current MSRN from the MSC/VLR 122. Referring to FIGURE 21, the system 280 illustrates signal 282 transmitting the current MSRN to the GMSC 118 via HLR 120 to complete the mobile 5 terminating call with the UE 108.
[0026] FIGURES 3A and 3B illustrate a call flow 300 for executing a CSFB in accordance with some implementations of the present disclosure. In the call flow 300, the UE 108 initiates the Location Area Update or a Combined RA/LA Update procedure if the LA of the new cell is different from the one stored in the UE 108. The CSFB IWFs are 10 assigned an LAI which is mutually exclusive from the ones used in 2G/3G space which forces the UE 108 to always initiate a Location Area Update. In idle mode, the MME 126 sends Paging request to the eNodeB 114 which in turn sends the request to the UE 108. The MME 126 sends the Service Request to the CSFB IWF 102 after receiving the Extended Service Request from the UE 108. In active mode, the MME 126 sends CS 15 Paging request directly to the UE 108 as it has an established SI coimection. The MME 126 sends the Service Request to the CSFB IWF 102 immediately after sending the Paging Request to the UE 108. In some implementations, the CSFB IWF 02 may set the Service Indicator to “CS Call Indicator” in the SGAP-PAGING-REQUEST message. The CSFB IWF 102 may identify this on receiving MAP PRN message from HLR 120. The CSFB 20 IWF 102 may not include the following attributes in the SGAP-PAGINGREQUEST as these may not be available (e.g., LCS Client Identity, LCS Indicator). The MSC/VLR 122 may not receive a Service Request message from the CSFB IWF 102. 3GPP TS 23.272 says that Service Request message may be used as a trigger to inform the calling party that the call is progressing and to start the CFNRy timer. The CSFB IWF 102 may follow the 13 PCT/US2012/051001 wo 2013/176692
Standard procedures to inform the call progress. Call progress may be triggered per normal procedures once the UE falls back to GERAN/U-TRAN and the call is setup there. Once the CSFB IWF 102 has received a SGsAP-SERVICEREQUEST from the MME 122, it may send subsequent page retries. The 2G/3G BSC/MSC may not receive a Paging 5 Response from the UE 108 as it always performs a Location Area Update after moving from E-UTRAN 114. The HER 120 sends the MAP CANCEL LOCATION to the old MSC (CSFB IWF 102 in this case) in parallel to handling the MAP UPDATE LOCATION from new MSC/VLR 122. The CSFB IWF 102 may not wait for the MAP UPDATE LOCATION procedures (which includes one or more MAP INSERT 10 SUBSCRIBER DATA messages) to complete before sending MAP CANCEL LOCATION. The MAP UPDATE LOCATION procedures from the new MSC/VLR 122 at the HLR 120 and the MAP SRI procedures from CSFB IWF 102 may happen in parallel or at least in connection. The CSFB IWF 102 may not be aware of when the new UPDATE LOCATION is completed and may not wait to send MAP SRI to the HLR 120. 15 The trigger for CSFB IWF 102 to send the MAP SRI may be reception of MAP CANCEL LOCATION. The HLR 120 may wait until the MAP UPDATE LOCATION from new MSC/VLR 122 is completed before handling the MAP SRI message from the CSFB IWF 102. Basically the CSFB IWF 102 may wait for the MAP UPDATE LOCATION procedures to complete before sending MAP PRN message to the new MSC/VLR 122. 20 The CSMT flag may not be supported by the 2G/3G MSC/VLR and therefore it may ignore the parameter if received from the UE 108 in the LOCATION UPDATE message. Because of this, the MSC/VLR 122 may release the SCCP connection towards the user after completion of location area update procedures. The HLR may send both IMS I and MS ISDN in MAP PRN message towards CSFB IWF 102. The CSFB IWF 102 on 14 PCT/US2012/051001 wo 2013/176692 receiving an error response for MAP SRI Request may relay the same in the PRN response to the HLR 120 for the initial call. The CSFB IWF 102 may include the Suppress T-CSI parameter in the MAP SRI request sent towards HLR 120. The CSFB IWF 102 may ignore substantially all service indications from the HLR 120 in the MAP SRI response. If 5 inter-RAT handover from E-UTRAN 114 to UMTS/GSM may be supported (i.e., handover of an active packet session), the MME 126 may interact directly with the SGSN as specified in 3GPP TS 23.401. The CSFB IWF 102 may not be involved in these procedures. The CSFB architecture may introduce additional post dial delay compared to a standard CSFB call attempt by invoking a Location Area Update procedure every time 10 the subscriber is moved from E-UTRAN 14 to UTRAN/GERAN. LI for MT calls may be handled at the 2G/3G MSCWLR 122. In the instances, roaming retry procedures may not be required in this CSFB IWF architecture.
[0027] In some implementations, the MME 126 may send SGsAP-PAGING-REJECT message to the CSFB IWF 102 and the corresponding action at CSFB IWF. If 15 the UE 108 is known and is considered to be IMSI attached for EPS services and "SMS only", the MME 126 may return an SGsAP-PAGING-REJECT message indicating in the SGs cause information element "Mobile terminating CS fallback call rejected by the user". The CSFB IWF 102 may send the MAP PRN RESPONSE to HLR 120 with User Error set to “Facility Not Supported”. If the UE 108 is known and is marked as IMSI detached for 20 EPS services or IMSI (implicitly or explicitly) detached for non-EPS services, i.e., the state of the SGs association is SGs-NULL, the MME 126 may return an SGsAPPAGING-REJECT message indicating in the SGs cause information element the detach circumstance ("IMSI detached for EPS services", "IMSI detached for non-EPS services" or "IMSI implicitly detached for non-EPS services"). The CSFB IWF 102 may send the 15 PCT/US2012/051001 wo 2013/176692 MAP PRN RESPONSE to HER 120 with User Error set to “Unidentified Subscriber”. If the UE 108 is unknown and “MME Reset” is set to “false”, the MME 126 may return an SGsAP-PAGING-REJECT message indicating in the SGs cause information element "IMSI unknown. The CSFB IWF 102 may send the MAP PRN RESPONSE to HER 120 5 with User Error set to “Unknown Subscriber”. If the UE 108 is unknown and “MME Reset” is set to “true” and is considered to be IMSI attached for EPS services and "SMS only", the MME 126 may return an SGsAP-PAGING-REJECT message indicating in the SGs cause information element "Mobile terminating CS fallback call rejected by the user". The CSFB IWF 102 may send the MAP PRN RESPONSE to HER 20 with User Error set 10 to “Facility Not Supported”. The MME 126 may return an SGsAP-UEUNREACHABEE message indicating in the SGs cause information element "UE unreachable" if the UE 108 is marked as unreachable, as indicated by Paging Proceed Flag set to “false”. The CSFB IWF 102 on receiving SGsAP-UE-UNREACHABEE message from MME 126, The CSFB IWF 102 may send the MAP PRN RESPONSE message with User Error set to “no 15 subscriber reply”. The CSFB IWF 102 may transition to the appropriate SGs state based on the reject cause in the Paging Reject message. If the UE 108 fails to find the GERAN/UTRAN radio upon the CS fallback attempt, the call attempt may fail. In this scenario, the HER 120 may time out waiting for the PRN response from CSFB IWF 102.
[0028] FIGURE 4 is a flow diagram 400 illustrating an example method for 20 executing a CSFB in accordance with some implementations of the present disclosure.
[0029] Method 400 begins at step 402 where a PRN request is received from the HER. For example, the CSFB IWF 102 in FIGURE 1 may receive a PRN request identifying an MSISDN of the UE 108 from the HER 120. At step 404, the IMSI and the MSIDN identified by the PRN request are stored. In the example, the CSFB IWF 102 16 PCT/US2012/051001 wo 2013/176692 may store the IMS I and the MSIDN identified by the PRN request. Next, at step 406, the UE is paged through the MME in an LTE system to update the location through the CS network. As for the example, the CSFB IWF 102 may transmit a page to the MME 126 for the UE 108. In connection with the location update, a cancel location (CL) request is 5 received from the HLR based on assigning a new MSC to the UE at step 408. Again in the example, the HLR 120 may transmit CL request to the CSFB IWF 102 based on the HLR 120 assigning the MSC/VLR 122 to the UE 108. At step 410, the stored MSISDN is retrieved from memory. Turning to the example, the CSFB IWF 102 may retrieve the MSISDN from memory that was identified in the PRN request. Next, at step 412, a MAP 10 SRI request is transmitted to the HLR including the previously-received MSISDN. In the example, the CSFB IWF 102 transmits, to the HLR 120, a MAP SRI request including the MSISDN identified in the PRN request. A MAP SRI Ack identifying the current MSRN of the UE is received at step 414. Next, at step 416, a PRN Ack identifying the current MSRN is transmitted to the HLR. Yet again returning to the example, the CSFB IWF 102 15 may transmit a PRN Ack including the current MSRN of the UE 108 to the HLR 120 to terminate the call with the UE 108.
[0030] FIGURE 5 is a call flow diagram illustrating an embodiment of a new network initiated mobile terminating USSD request/notification procedure. USSD is a protocol used by GSM cellular phones to communicate with the service provider’s USSD 20 server. In this scenario, the MSC/VLR that is executing the fallback is different than the one when the UE first falls back to CS. In other words, the MSC changes upon fallback during the MT USSD (Unstructured Supplementary Service Data) request/notification procedure. The IWF initiates the fallback as in the case of an MT call and then acts as the USSD server and delivers the USSD request/notification to the UE through the HLR and 17 PCT/US2012/051001 wo 2013/176692 the new MSC. The call flow shown in FIGURE 5 is also applicable to network initiated MT USSD notification as well.
[0031] Focusing on the call flow portion inside the box, the IWF acts as the USSD server and sends a MAP (Mobile Applications Part) USSD request to the HLR. In 5 response, the HLR sends the USSD request to the new MSCA^LR. The new MSC/VLR forwards the USSD request to the UE as per standard CS procedures and sends the response received from the UE to the HLR. An USSD Ack is sent to the HLR by the MSC/VLR in response to receiving the UE’s response. The HLR relays the response to the IWF, which further relays the USSD response to the HLR. The HLR then sends a 10 USSD response to the USSD server or USSD application as the case may be.
[0032] FIGURE 6 is a simplified block diagram of an exemplary embodiment of a communication system for a new mobile terminating location report (MT-LR) procedure shown in FIGURE 7 and described below. FIGURE 6 is similar to FIGURE I described in detail above. As further shown in FIGURE 6, GMLC 119 is in communication with the 15 IWF 102 via a 3GPP specified MAP-based Lg interface.
[0033] FIGURE 7 is a call flow diagram illustrating an embodiment of a new mobile terminating location report (MT-LR) procedure. As before, in this scenario the MSC/VLR that is executing the fallback is different than the one when the UE first falls back to CS. In other words, the MSC changes upon fallback during the MT-LR 20 procedure. The IWF initiates the fallback to CS as in the case of an MT call. Once the fallback completes, the IWF acts as GMLC and routes the location query to the new MSC by obtaining the new MSC address from the HLR.
[0034] Focusing on the call flow portion inside the box, the IWF sends a MAP SRI-LCS (Send Routing Information-Location Services) request to the HLR. The request 18 PCT/US2012/051001 wo 2013/176692 may identify the subscriber using either IMSI (International Mobile Subscriber Identity) or MSISDN (Mobile Station International Subscriber Directory Number) depending on which one is received in the MAP Provide Subscriber Location (PSL) request form the GMLC (Gateway Mobile Location Center). In response, the HLR sends a response 5 including the network node number (identifying the new MSC) to the IWF. The IWF relays the MAP PSL received from GMLC to the NW node number returned by the HLR. The UE location procedure as specified in 3GPP TS 23.271 is carried out. The MSC/VLR returns a MAP PSL response to the IWF. The IWF then relays the PSL response to the GMLC. 10 [0035] FIGURE 8 is a call flow diagram illustrating an embodiment of a new provide subscriber information, fallback to CS procedure. The MAP Provide Subscriber Information (PS I) is a commonly used procedure in the CS network where the VLR is queried to provide subscriber location. As before, in this scenario the MSCWLR that is executing the fallback is different than the one when the UE first falls back to CS.
15 [0036] Focusing on the call flow portion inside the box, the IWF initiates the CS fallback as in the case of an MT call and then upon receiving Cancel Location from the HLR, assumes the role of gsmSCF (GSM Service Control Function) and sends an MAP AnyTime Interrogation (ATI) message to the HLR requesting the same set of information that was mentioned in the MAP PSI request message. The information within the 20 response of the MAP AnyTime Interrogation message is then copied into the response of the MAP PSI request message and sent to the HLR thereby completing the procedure.
[0037] The features of the present invention which are believed to be novel are set forth below with particularity in the appended claims. However, modifications, variations, and changes to the exemplary embodiments described above will be apparent to those 19
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m o 00 m (N O (N 10 ii'4Jer\Jnteiv,ovfii\NRP(s1bniK:C\liER\}450226'LI ,dfiC^-2:V05/2017 -20- skilled in the art, and the drain assembly described herein thus encompass such modifications, variations, and changes and are not limited to the specific embodiments described herein.
[0038] The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.
[0039] Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.
[0040] The reference numerals in the following claims do not in any way limit the scope of the respective claims. 15

Claims (20)

  1. THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS:
    1. A method comprising: receiving, at an IWF (Internetworking Function) network node, a Mobility Application Part Unstructured Supplementary Service Data (MAP USSD) message identifying a User Equipment (UE) originated from a USSD application, the UE associated with a first serving Mobile Switching Center (MSC) distinct from the IWF network node, wherein the IWF network node is distinct from a visitor location register (VLR) associated with the first serving MSC; initiating Circuit Switched Fallback (CSFB) by sending, by the IWF network node, a paging request to the UE; receiving, by the IWF network node, a Cancel Location message associated with the UE from a Home Location Register (HLR) indicative of the UE being associated with a second serving MSC distinct from the IWF network node; forwarding, by the IWF network node, the MAP USSD message to the UE via the HLR and the second. MSC; receiving, by the IWF network node, a MAP USSD response message from the UE via the HLR; and forwarding, by the HLR, the MAP USSD response message to the USSD application, wherein the IWF network node connects to a CS network and an LTE network.
  2. 2. A method comprising: receiving, at an IWF (Internetworking Function) network node, a Mobility Application Part Send Routing Information-Location Services (MAP SRI-LCS) message identifying a User Equipment (UE) originated from a Gateway Mobile Location Center (GMLC), the UE associated with a first serving Mobile Switching Center (MSC) distinct from the IWF network node, wherein the IWF network node is distinct from a visitor location register (VLR) associated with the first serving MSC; initiating Circuit Switched Fallback (CSFB) by sending, by the IWF network node, a paging request to the UE; receiving, by the IWF network node, a Cancel Location message associated with the UE from a Home Location Register (HLR) indicative of the UE being associated with a second serving MSC distinct from the IWF network node; forwarding the SRI-LCS message to the UE via the HLR and the second MSC; receiving, by the IWF network node, a SRI-LCS response message from the HLR; sending, by the IWF network node, a MAP Provide Subscriber Location (PSL) message to the second MSC; receiving, by the IWF network node, a MAP PSL response message from the second MSC; and forwarding, by the IWF network node, the MAP PSL response message to the GMLC, wherein the IWF network node connects to a CS network and an LTE network.
  3. 3. A method comprising: receiving, at an IWF (Internetworking Function) network node, a Mobility Application Part Provide Subscriber Information (MAP PSI) message identifying a User Equipment (UE) originated from a Home Location Register (HLR), the UE associated with a first serving Mobile Switching Center (MSC) distinct from the IWF network node, wherein the IWF network node is distinct from a visitor location register (VLR) associated with the first serving MSC; initiating Circuit Switched Fallback (CSFB) by sending, by the IWF network node, a paging request to the UE; receiving, by the IWF network node, a Cancel Location message associated with the UE from the HLR indicative of the UE being associated with a second serving MSC distinct from the IWF network node; sending a MAP Anytime Interrogation (ATI) message to the UE via the HLR and the second MSC; receiving, by the IWF network node, a MAP ATI response message from the HLR; and forwarding, by the IWF network node, information in the MAP ATI response in a MAP PSI response message to the HLR, wherein the IWF network node connects to a CS network and an LTE network.
  4. 4. The method of claim 1, 2 or 3, further comprising a step of storing information identifying a subscriber.
  5. 5. The method of claim 4, wherein the information identifying the subscriber is stored on the IWF node.
  6. 6. The method of claim 4, wherein the information identifying the subscriber comprises an IMSI (International Mobile Subscriber Identity).
  7. 7. The method of claim 4, wherein the information identifying the subscriber comprises an MSISDN (Mobile Station International Subscriber Directory Number).
  8. 8. The method of claim 4, wherein the information identifying the subscriber comprises an IMSI and a MSISDN.
  9. 9. The method of claim 8, wherein the information identifying the subscriber is stored on the IWF node.
  10. 10. The method of claim 2, wherein the method comprises a mobile terminating location report procedure.
  11. 11. The method of claim 10, wherein the MSC changes upon CSFB.
  12. 12. The method of claim 2, 10 or 11, wherein once the CSFB is complete, the IWF network node acts as another GMLC.
  13. 13. The method of claim 2, further comprising a step of storing information identifying a subscriber.
  14. 14. The method of claim 13, wherein the information identifying the subscriber is stored on the IWF node.
  15. 15. The method of claim 13, wherein the information identifying the subscriber comprises an IMSI (International Mobile Subscriber Identity).
  16. 16. The method of claim 13, wherein the information identifying the subscriber comprises an MSISDN (Mobile Station International Subscriber Directory Number).
  17. 17. The method of claim 13, wherein the information identifying the subscriber comprises an IMSI and a MSISDN.
  18. 18. The method of claim 3, further comprising a step of storing information identifying a subscriber.
  19. 19. The method of claim 18, wherein the information identifying the subscriber is stored on the IWF node.
  20. 20. The method of claim 18, wherein the information identifying the subscriber comprises an IMSI (International Mobile Subscriber Identity).
AU2012381036A 2012-05-25 2012-08-15 Internetworking for Circuit Switched Fallback-network initiated USSD request/notification procedure mobile-terminated location request procedure provide subscriber information procedure Ceased AU2012381036B2 (en)

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