FR2902959A1 - Cell searching method for e.g. universal terrestrial radio access network, involves transmitting message to search cell in enhanced universal terrestrial radio access network following transfer in universal terrestrial radio access network - Google Patents

Abstract

The method involves transmitting a message (9) with a specific signal to a multi-mode mobile communication terminal (2) by an enhanced universal terrestrial radio access network (eUTRAN) (4), to systematically search a cell in the eUTRAN following an intersystem transfer in an universal terrestrial radio access network (UTRAN) (8). The UTRAN sends the signal, to the terminal, for suspending a radio resource control (RRC) connection that is established between the terminal and the eUTRAN. The terminal stops the connection and the search of the cell in the eUTRAN according to the message. An independent claim is also included for a multimode mobile terminal roaming in a coverage area.

Description

CELL SEARCH METHOD WITH MOBILE TERMINAL DOMAIN DESCRIPTION

  TECHNIQUE The invention is in the field of telecommunications and relates more specifically to a cell search method by a mobile terminal after an inter-system transfer between a first and a second network in which a packet-switched radio access technology is deployed. .

  The invention also relates to a multimode mobile communication terminal comprising means for implementing the method. STATE OF THE PRIOR ART When a user of a mobile terminal moves in geographical areas covered by several telecommunication networks (PLMNs, for Public Land Mobile Network) in which is deployed a radio access technology (RAT, for Radio Access Technologies), at each loss of coverage on the current network, the mobile terminal searches for a new network offering the best conditions of communication. This new network can be chosen according to the automatic or manual mode. In automatic mode, a search order is given to the terminal periodically or punctually each time the terminal loses the network coverage. The terminal then searches the networks present in its environment. Then, through the SIM (for Subscriber Identity Module), the operator

  gives the selection priority to one of the networks found. For a roaming user in an area covered by several different operator networks, when the mobile terminal leaves its home network HPLMN (for Home PLMN), the continuity of certain services is ensured through intersystem transfer agreements between these operators. Thus third generation (3G) telecommunications network operators have agreements with second generation (2G) telecommunications network operators to enable the terminal to operate in areas not yet covered by 3G networks. Similarly, operators of future LTE (Long Term Evolution) networks will be able to make it possible, thanks to such agreements, for terminals to be able to communicate areas covered by 3G networks and not yet covered by the new LTE networks. However, when the terminal makes an inter-system transfer between an LTE network and a 3G network, at the end of a communication in the 3G network, the next cell search is performed in this 3G network although the communication in this network is complete. .

  Therefore, if the user makes a new call, the connection will take place in the 3G network even if the coverage of the new LTE network is ensured. This results, on the one hand, in a loss of income for the operator of the LTE network, and, on the other hand, a limitation of the services provided to the user insofar as the technology implemented in the

  new LTE networks provides access to services that are not available in today's 3G networks. Another problem arises from the fact that in the case where there is no roaming agreement between the operator of the LTE network and the operator of the 3G network, the terminal will carry out a Routing Area Updating (RAU) procedure of update of localization areas that will be refused. The subsequent return to the LTE network will require a TAU (Tracking Area Update) procedure in this domain that requires a Restore Packet Data Protocol (PDP) context. Recall that in the 3G network, as well as in an LTE network, the establishment of a call is to activate a PDP context (for Packet Data Protocol) which aims to establish an RRC connection (for Radio Resource Control ) between the access network and the terminal to allow the terminal to operate in packet mode. The RAU and TAU procedures, as well as the subsequent PDP context recovery procedure, overload the network. The object of the invention is to overcome the disadvantages of the prior art described above. DISCLOSURE OF THE INVENTION The invention recommends a cell search method by a mobile terminal after an inter-system transfer between a first network and a second packet-switched network. According to the invention, the first network transmits to the terminal a signaling to give the priority to the terminal to systematically search for a

  cell in this first network following said intersystem transfer in the second network. In a first embodiment of the invention, the first network is an LTE network and the second network is a UMTS or GPRS network. The invention also relates to a multi-mode cellular communication terminal roaming in an area covered by at least a first packet-switched network and a second packet-switched network. According to the invention, this terminal is configurable by the first network via specific signaling to systematically search for a cell in the first network after an intersystem transfer from the first network to the second network. BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will emerge from the description which follows, taken by way of non-limiting example, with reference to the appended FIG. 1 schematically illustrating an example of implementation of the method according to the invention. 'invention. DETAILED DESCRIPTION OF PARTICULAR EMBODIMENTS The invention will be described in an application to a mobile terminal 2 registered on an LTE network and roaming in an area covered by the LTE network and a UMTS network. The LTE network is illustrated schematically in Figure 1 by its access network eUTRAN 4 (for

  Enhanced Universal Terrestrial Radio Access Network) and its CN 6 core network (for Core Network). The UMTS network is schematically illustrated by its UTRAN 8 access network (Universal Terrestrial Radio Access Network). With reference to FIG. 1, the mobile terminal 2 receives from the core network CN 6 a message 9 comprising specific signaling enabling the terminal to be configured to systematically search for a cell in the LTE network after an inter-system transfer. In normal operation, when the terminal user initiates a session via the LTE network, the core network 6 sends the terminal 2 a paging radio resource control (RRC) message (arrow 10) to alert it of an incoming message. or changing the system information broadcast in the current cell. In step 12, an RRC connection is established between the terminal and the eUTRAN network 4. The RRC connection is a signaling connection between the mobile 2 and the eUTRAN 4 which is established to support the signaling connections between the mobile terminal. 2 and the two core packet PS PS service domains 6, the LTE-specific PS packet-switched domain and the UMTS-specific PS packet-switched domain. The establishment of the RRC connection is always done on the request of the mobile terminal 2 when no RRC connection is already established and its RRC entity receives a request to send messages to the core network 6 or a paging message from of the core network 6. In step 14, the terminal 2 sends the network 6 an INIT message MSG to establish a connection via the LTE network. In step 16, the core network 6 establishes the connection. In step 18, a multimedia session is initialized via the LTE network.

  If the LTE network coverage is interrupted during this session, the terminal triggers, in step 20, a cross-system transfer procedure to the available UMTS network in the roaming area following this loss of LTE network coverage and indicates (step 22) to the UTRAN 8 radio access network that the inter-system transfer is completed. In step 24, the terminal establishes a connection in the UMTS network and continues the session initiated via the LTE network. At the end of this session, the terminal informs (step 26) the core network 6 that the session via the UMTS network is complete. In step 28, the UTRAN transmits to the terminal 2 signaling to interrupt the RRC connection. In step 30, the terminal interrupts the RRC connection and searches for a cell in the LTE network according to the signaling received in step 9. If a cell of the LTE network is found (step 32), steps 10 to 16 are executed to allow the terminal to camp on an LTE cell.

Claims (4)

  A method of searching for a cell by a mobile terminal (2) after an inter-system transfer between a first packet-switched network (4) and a second packet-switched network (8), characterized in that the first network (4) 4) transmits to the terminal (2) a signaling (9) to systematically search for a cell in the first network (4) following said inter-system transfer in the second network (8).   2. Method according to claim 1, characterized in that the first network (4) is an LTE network and the second network (8) is a UMTS or GPRS network.   A multi-mode mobile terminal (2) roaming in an area covered by at least one first packet-switched network (4) and a second packet-switched network (8) characterized in that it is configurable by the first network (4) via a specific signaling (9) to systematically search for a cell in the first network (4) after an intersystem transfer from this first network (4) to the second network (8) and after a communication made in said second network (4) network (8).   4. Terminal according to claim 3, characterized in that it comprises means for communicating in an LTE network in a UMTS network and GSM / GPRS. •