WO2006011865A1 - Station mobile wwan/wlan multimode et procede permettant d'enregistrer ladite station mobile dans un wwan par le biais d'un wlan - Google Patents

Station mobile wwan/wlan multimode et procede permettant d'enregistrer ladite station mobile dans un wwan par le biais d'un wlan Download PDF

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Publication number
WO2006011865A1
WO2006011865A1 PCT/US2004/020259 US2004020259W WO2006011865A1 WO 2006011865 A1 WO2006011865 A1 WO 2006011865A1 US 2004020259 W US2004020259 W US 2004020259W WO 2006011865 A1 WO2006011865 A1 WO 2006011865A1
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WIPO (PCT)
Prior art keywords
mobile station
wlan
mode
communication
protocol
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PCT/US2004/020259
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English (en)
Inventor
Bryce A. Jones
Jason R. Delker
John M. Everson
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Sprint Spectrum L.P.
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Application filed by Sprint Spectrum L.P. filed Critical Sprint Spectrum L.P.
Priority to PCT/US2004/020259 priority Critical patent/WO2006011865A1/fr
Publication of WO2006011865A1 publication Critical patent/WO2006011865A1/fr

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Classifications

    • 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
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W80/00Wireless network protocols or protocol adaptations to wireless operation
    • H04W80/08Upper layer protocols
    • H04W80/10Upper layer protocols adapted for application session management, e.g. SIP [Session Initiation Protocol]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/06Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals

Definitions

  • the present invention relates to telecommunications and, more particularly, to a multi- mode mobile station and method of using it for wireless communication.
  • a user of telecommunication services may regularly use a number of different telephony devices, associated with different telephone numbers, to send and receive calls.
  • a user may use a landline telephone associated with the user's home telephone number.
  • the user may use another landline telephone associated with the user's work telephone number.
  • the user may also use a mobile station, which may be a wireless telephone, a wirelessly-equipped personal digital assistant (PDA), or other wireless communication device, associated with a mobile telephone number such as a mobile directory number (MDN).
  • PDA personal digital assistant
  • MDN mobile directory number
  • the mobile station is typically able to communicate with a wireless wide area network (WWAN) to send and receive calls in many different locations, e.g., any area served by the WWAN, using the mobile telephone number.
  • WWAN wireless wide area network
  • a typical user may want to be able to use certain telephone numbers to send and receive calls while in certain locations (e.g., a home number while at home and/or a work number while at work) and to be able to use his or her mobile telephone number in as many locations as possible, including, for example, home and work locations.
  • certain locations e.g., a home number while at home and/or a work number while at work
  • his or her mobile telephone number in as many locations as possible, including, for example, home and work locations.
  • an exemplary embodiment of the present invention provides a multi-mode mobile station.
  • the multi-mode mobile station comprises a first communication module for a first wireless communication mode in which the mobile station is identified by a first directory number, a second communication module for a second wireless communication mode in which the mobile station is also identified by the first directory number, and a third communication module for a third wireless communication mode in which the mobile station is identified by a second directory number.
  • an exemplary embodiment of the present invention provides a method of communication involving a mobile station and a wireless local area network (WLAN).
  • the mobile station is able to communicate with a wireless wide area network (WWAN) using a first directory number.
  • the WLAN is communicatively coupled to a packet- switched network, hi accordance with the method, the mobile station associates with the WLAN and transmits a first registration message.
  • the first directory number is registered as being accessible via the WLAN.
  • the mobile station transmits a second registration message.
  • the mobile station is associated with a second directory number accessible via the WLAN.
  • Figure 1 is a simplified block diagram of a multi-mode mobile station, in accordance with an exemplary embodiment of the present invention
  • FIG 2 is a simplified block diagram of a wireless telecommunications system that includes a wireless wide area network (WWAN) and a wireless local area network (WLAN) that are able to communicate with the multi-mode mobile station of Figure 1, in accordance with an exemplary embodiment of the present invention
  • Figure 3 is a flow chart illustrating an exemplary method of communication between the multi-mode mobile station of Figure 1 and the WLAN of Figure 2, in accordance with an exemplary embodiment of the present invention.
  • WWAN wireless wide area network
  • WLAN wireless local area network
  • the present invention provides a multi-mode mobile station that is able to communicate in a plurality of wireless communication modes and that can be identified by different telephone numbers in different wireless communication modes.
  • the different wireless communication modes may involve the use of different frequency bands, modulation types, and/or communication protocols.
  • the multi-mode mobile station may use its wireless communication modes to send and receive voice, data, graphics, video, and/or other media, hi some cases, the multi-mode mobile station may be able to communicate in more than one wireless communication mode at a time.
  • the multi-mode mobile station may use different wireless communication modes to communicate with different wireless communication systems.
  • Such wireless communication systems may include a wireless wide area network (WWAN).
  • WWAN wireless wide area network
  • a WWAN typically provides wireless coverage in a relatively large geographic area, such as an entire city, often by using a plurality of contiguous wireless coverage areas, such as cells or sectors, hi addition, WWANs typically use licensed frequency bands.
  • the wireless communication in a WWAN may occur in an analog format, such as the Advanced Mobile Phone Service (AMPS), or in a digital format, such as code division multiple access (CDMA), time division multiple access (TDMA), or Global System for Mobile communication (GSM).
  • a WWAN may include switching systems, such as mobile switching centers (MSCs), to carry traffic in a circuit-switched format, and may use signaling protocols, such as SS7 and IS-41, to route calls through the WWAN and through the public switched telephone network (PSTN).
  • a WWAN may carry some or all of its traffic in a packet-switched format, such as a voice over packet (VoP) format.
  • VoIP voice over packet
  • the multi-mode wireless station may also be able to communicate with a wireless local area network (WLAN).
  • WLAN typically provides wireless coverage in a relatively limited area, such as in a building or part of a building, hi addition, WLANs typically use unlicensed frequency bands.
  • a WLAN may be used in a private residence, hi the residential case, a WLAN may be connected to analog telephones or other telephony devices, personal computers, and/or other devices, hi some cases, devices may be connected to the WLAN via a media terminal adapter (MTA) or an integrated access device (IAD).
  • MTA media terminal adapter
  • IAD integrated access device
  • a WLAN may also be used in an enterprise network, either for private communication or to provide wireless access to customers (such as in a cafe).
  • a WLAN When used in an enterprise network, a WLAN may be connected to a private branch exchange (PBX), which, in turn, may be connected to analog telephony devices, digital telephony devices, and/or other systems.
  • PBX private branch exchange
  • a WLAN may also be used as an adjunct to a WWAN, for example, to provide "hot spot" wireless coverage in areas such as airports.
  • the wireless communication in a WLAN may, for example, conform to or make use of IEEE 802.1 Ix standards, Bluetooth specifications, HomeRF specifications, HiperLAN standards, or Multichannel Multipoint Distribution Service (MMDS) techniques.
  • the WLAN may also be connected to a packet-switched network (typically, a wide area packet-switched network) and may use packet-based signaling protocols, such as SIP, to set up communication sessions through the wide area packet-switched network.
  • packet-switched network typically, a wide area packet-switched network
  • SIP packet-based signaling protocols
  • a multi-mode mobile station has three wireless communication modes. hi the first wireless communication mode, the mobile station communicates with a WWAN and is identified by a first directory number, hi the second wireless communication mode, the mobile station communicates with a WLAN and is also identified by the first directory number, hi the third wireless communication mode, the mobile station communicates with a WLAN and is identified by a second directory number.
  • the first directory number may be mobile directory number (MDN) associated with the mobile station itself.
  • the second directory number may be a "local" directory number (LDN) that is associated with a user agent in a particular WLAN. For example, if the WLAN is located at the user's residence, the LDN may be the user's home telephone number.
  • the LDN may be the user's work telephone number.
  • the multi-mode mobile station may become identified with the second, local directory number when it successfully registers with the user agent of the WLAN. If telephony devices, such as analog telephones, are connected to the WLAN, the multi- mode mobile station may act as an extension, sharing the LDN with those telephony devices. In this way, when the multi-mode mobile station is in a location covered by an appropriate WLAN, such as a home or work location, the mobile station may act as an extension with a local telephone number associated with that particular location, e.g., a home or work telephone number.
  • Multi-mode mobile station 10 includes a plurality of communication modules that allow multi-mode mobile station 10 to operate in a plurality of wireless communication modes. Each communication module may include hardware, software, and/or firmware.
  • multi-mode mobile station 10 includes communication modules 12, 14, and 16.
  • Module 12 allows multi-mode mobile station 10 to operate in a first wireless communication mode in which mobile station is identified by its MDN.
  • the first wireless communication mode may make use of a WWAN protocol for wireless communication with a WWAN.
  • the WWAN protocol uses a digital format, such as CDMA, TDMA, or GSM.
  • the WWAN protocol may be a CDMA protocol, e.g., conforming to IS- 95 or cdma2000 specifications.
  • Module 14 allows multi-mode mobile station 10 to operate in a second wireless communication mode in which mobile station is also identified by its MDN.
  • the second wireless communication mode may make use of a WLAN protocol for wireless communication with a WLAN.
  • the WLAN protocol may, for example, conform to or make use of IEEE 802.11a, IEEE 802.11b, IEEE 802.1 Ie, IEEE 802.1 Ig, or IEEE 802. Hh standards (referred to generally herein as "802. Hx"). These 802. Hx standards are incorporated herein by reference.
  • the WLAN protocol could conform to or make use of Bluetooth specifications, HomeRF specifications, HiperLAN standards, MMDS techniques, or some other protocol.
  • module 14 may make use of a protocol stack that includes a WLAN protocol, such as 802.1 Ix.
  • the WLAN protocol may comprise the lowest layers of the protocol stack of module 14.
  • the WLAN protocol may correspond to the physical and data link layers in the Open Standards Institute (OS! model.
  • Module 14 may also make use of higher-level protocols.
  • module 14 may use a network layer protocol, such as the Internet Protocol (IP) and a transport layer protocol, such as the User Datagram Protocol (UDP) and/or the Transmission Control Protocol (TCP).
  • Module 14 may also include a protocol, such as the Real-Time Transport Protocol (RTP), for sending and receiving packetized media, such as VoP, in real-time media sessions.
  • IP Internet Protocol
  • UDP User Datagram Protocol
  • TCP Transmission Control Protocol
  • RTP Real-Time Transport Protocol
  • Module 14 may also include an application layer protocol, such as the Session Initiation Protocol (SIP) or H.323, for managing communication sessions. Relevant aspects of SIP are described in Rosenberg, et al., “SIP: Session Initiation Protocol,” Request for Comments 3261 (June 2002), which is incorporated herein by reference.
  • SIP Session Initiation Protocol
  • H.323 H.323
  • module 14 may include a user agent, such as a SIP user agent, that is able to establish communication sessions, in which mobile station 10 is identified by its MDN, and to send and receive media in such sessions.
  • module 14 will be described below as including a SIP protocol layer; however, other protocols could be used.
  • Module 16 allows multi-mode mobile station 10 to operate in a third wireless communication mode in which mobile station 10 communicates with a WLAN and is identified by a local directory number (LDN) associated with a user agent of the WLAN.
  • the third wireless communication mode may make use of a WLAN protocol, such as 802. Hx.
  • module 16 may make use of a protocol stack similar to that of module 14.
  • the protocol stack of module 16 may include a different application layer protocol, for example, an "extension" protocol that allows mobile station 10 to operate as an extension of an LDN associated with a user agent of the WLAN.
  • the extension protocol could be, for example, H.323, SIP, Digital European Cordless Telecommunication (DECT), Cisco's Skinny Client Control Protocol, or Nortel's Unistem protocol.
  • module 16 will be described below as including an H.323 layer; however, other protocols could be used.
  • H.323 protocol is described in International Telecommunication Union, Recommendation H.323, "Packet-based Multimedia System” (November 2000), which is incorporated herein by reference.
  • Multi-mode mobile station 10 also includes one or more RF transceivers and one or more antennas for wireless communication.
  • mobile station 10 includes RF transceivers 18 and 20 with respective antennas 22 and 24.
  • Figure 1 shows two RF transceivers, mobile station 10 may, in general, include a greater or fewer number.
  • each of RF transceivers 18 and 20 connected to a respective antenna alternatively, RF transceivers 18 and 20 may share the same antenna.
  • RF transceiver 18 is coupled to communication module 12 for wireless communication in the first wireless communication mode.
  • RF transceiver 20 is coupled to communication modules 14 and 16 for wireless communication in the second and third wireless communication modes.
  • RF transceiver 18 may send and receive wireless signals in one or more licensed PCS bands (e.g., frequency bands in the 1.9 GHz range) used by a WWAN, and RF transceiver 20 may send and receive wireless signals in an unlicensed 2.4 GHz frequency band used by a WLAN.
  • licensed PCS bands e.g., frequency bands in the 1.9 GHz range
  • RF transceiver 20 may send and receive wireless signals in an unlicensed 2.4 GHz frequency band used by a WLAN.
  • Multi-mode mobile station 10 may include an audio system 26 to convey audio, such as voice, to and from a user.
  • Audio system 26 may include one or more microphones and speakers, which may be either internal or external.
  • Audio system 26 may be coupled to modules 12, 14, and 16, via a codec 28.
  • Codec 28 may convert audio signals between an analog format used by audio, system 26 and one or more digital formats used by one or more of modules 12, 14, and 16.
  • the digital formats may include Enhanced Variable Rate Vocoder (EVRC), Selectable Mode Vocoder (SMV), G.711, G.721, G.726, G.729, and/or other formats.
  • Codec 28 may convert audio signals in different ways, e.g., using different compressed digital formats, for different ones of modules 12, 14, and 16.
  • Multi-mode mobile station 10 may be controlled by a controller 30. Controller 30 may, in turn, include a processor 32 and data storage 34. Data storage 34 may include volatile memory, such as RAM, and/or non-volatile memory, such as Flash ROM. Data storage 34 may store a plurality of machine language instructions that are executed by processor 32 to control many of the functions of multi-mode mobile station 10, such as, for example, the functions of modules 12, 14, and 16. In this regard, some or all of modules 12, 14, and 16 may be provided as software stored in data storage 34.
  • Multi-mode mobile station 10 may also include a user interface 36 coupled to controller 30.
  • User interface 36 may include one or more input devices, such as keys, buttons, switches, touch screens, and/or other components with which a user may provide input to mobile station 10.
  • User interface 36 may also include one or more output devices, such as lights, display screens, ringers, buzzers, vibration mechanisms, and/or other components that provide a user- discernible output.
  • controller 30 may coordinate the operations of user interface 36 and audio system 26, for example, for multi-media applications.
  • FIG. 2 is a simplified block diagram of an exemplary wireless telecommunications system 100 that can communicate with multi-mode mobile station 10.
  • Wireless telecommunications system 100 includes network elements that function together as a wireless wide area network (WWAN) 102.
  • WWAN 102 may include a base transceiver station (BTS) 104 that provides a wireless coverage area within which BTS 104 may communicate with one or more mobile stations, such as multi-mode mobile station 10, over an air interface 106.
  • BTS base transceiver station
  • WWAN 102 may include a plurality of BTSs that may provide a plurality of wireless coverage areas.
  • BTS 104 may occur in a digital format, such as CDMA, TDMA, GSM, or they may occur in an analog format, such as AMPS.
  • a preferred wireless communications format is "CDMA 2000," such as described in EIA/TIA/IS-2000 Series, Rev. A (published March 2000), which is incorporated herein by reference.
  • BTS 104 may be controlled by a base station controller (BSC) 107, which, in turn, may be controlled by a mobile switching center (MSC) 108.
  • BSC 107 base station controller
  • MSC 108 is connected to the public switched telephone network (PSTN) 110 and may use an out-of-band signaling system, such as Signaling System 7 (SS7) to route calls through PSTN 110.
  • PSTN public switched telephone network
  • SS7 Signaling System 7
  • the SS7 or other signaling may be carried in a signaling network that includes a plurality of signal transfer points (STPs), such as STP 112 and STP 113.
  • STPs signal transfer points
  • MSC 108 may be able to signal to a home location register (HLR) 114 and to a service control point (SCP) 116 via one or more STPs, such as STP 112.
  • HLR home location register
  • SCP service control point
  • the signaling between MSC 108 and HLR 114 may conform to IS-41 specifications. A recent revision of the IS-41 specifications, ANSI/TIA/EIA-41-D-97, published in December 1997, is incorporated herein by reference.
  • the signaling between MSC 108 and SCP 116 may conform to the specification "Wireless Intelligent Network," TIA/EIA/IS-771, published in July 1999, which is incorporated herein by reference. Other signaling protocols could be used, however.
  • WWAN 102 may connect incoming calls from PSTN 110, which calls may originate from calling parties using landline telephones, mobile stations, or other communication devices, to mobile station 10. Similarly, WWAN 102 may connect calls originating from mobile station 10 to their destinations, via PSTN 110. hi such calls, multi-mode mobile station 10 is identified by its mobile directory number (MDN), and module 12 is used for wireless communication. Thus, calls placed to this MDN are routed to mobile station 10, and calls placed by mobile station 10 are identified as originating from this MDN.
  • Wireless telecommunication system 100 also includes a wireless local area network
  • WLAN 120 is communicatively coupled to a packet-switched network 122, which may include one or more local area networks (LANs) and/or one or more wide area network (WANs), such as the Internet.
  • Packet-switched network 122 may route packets using a network protocol, such as the Internet Protocol (IP) in combination with the User Datagram Protocol (UDP) or Transmission Control Protocol (TCP).
  • IP Internet Protocol
  • UDP User Datagram Protocol
  • TCP Transmission Control Protocol
  • the IP packets may be carried over lower level protocols, such as asynchronous transfer mode (ATM) protocols.
  • Protocols, such as RTP may be used to carry voice or other media through packet-switched network 122 in a real- time format.
  • Packet-switched network 122 may be communicatively coupled to PSTN 110 via a media gateway 124.
  • Media gateway 124 may convert between media formats used in PSTN 110 and packet-switched network 122.
  • PSTN 110 may carry media in a pulse code modulated (PCM) format
  • packet-switched network 122 may carry media in an RTP format.
  • Media gateway 124 may be controlled by a media gateway controller 125, which, in turn, may be connected to an STP, such as STP 113, and to packet-switched network 122.
  • Media gateway controller 125 may convert between the signaling used to route calls in PSTN 110, e.g., SS7 signaling carried by STPs, and the signaling used in packet-switched network 122.
  • WWAN 102 may also be connected to packet-switched network 122.
  • WWAN 102 may include an interworking function (IWF) connected between MSC 108 and packet-switched network 122 for "2G" capability.
  • WWAN 102 may include a packet data serving node (PDSN) connected between BSC 107 and packet- switched network 122 for "3 G" capability.
  • IWF interworking function
  • PDSN packet data serving node
  • Call management server 126 may use SIP and/or other protocols to control such communication sessions.
  • call management server 126 may include a SIP registrar and may be accessible via one or more SIP proxy servers.
  • Call management server 126 may also be able to communicate with HLR 114, for example, via STPs 112 and 113. Such communication may occur, for example, to manage the mobility of mobile stations, such as multi-mode mobile station 10. Examples of such communication are described in U.S. Patent Application No. 10/115,341, filed on April 3, 2002, which is incorporated herein by reference.
  • WLAN 120 includes a wireless access point 130 that provides a wireless coverage area within which wireless access point 130 is able to communicate with multi-mode mobile station 10 over an air interface 132.
  • Multi-mode mobile station 10 may use modules 14 and/or 16 for wireless communication with WLAN 120.
  • the wireless communication between wireless access point 130 may conform to 802.1 Ix or to some other protocol.
  • the wireless coverage areas provided by BTS 102 and wireless access point 130 may be overlapping, so that multi-mode mobile station 10 may be able to communicate over both air interfaces 106 and 132.
  • Figure 2 shows WLAN 120 with just one wireless access point 130, WLAN 120 may include a plurality of wireless access points that provide a plurality of wireless coverage areas.
  • WLAN 120 may include a network access device 134 for connection to packet-switched network 122.
  • Network access device 134 is preferably a broadband device, such as a cable modem or DSL modem.
  • a router 136 may interconnect wireless access point 130, network access device 134, and other components in WLAN 120.
  • WLAN 120 may include a media terminal adapter 138 connected to router 136.
  • Media terminal adapter 138 may, in turn, be connected to one or more media terminals, such as telephony devices, that use WLAN 120 to send and receive voice and/or other media.
  • media terminal adapter 138 may be connected to analog telephones 140 and 142, as shown in Figure 2.
  • media terminal adapter 138 may include RJ-I l ports for connecting analog telephones 140 and 142 and may include an RJ-45 port for connecting to router 136, for example, via a 10/lOOBase-T cable.
  • Media terminal adapter 138 converts media, such as voice, between the analog format used by analog telephones 140 and 142 and the packet format used by router 136 and other components in WLAN 120.
  • An example of a commercially available device that could be used as media terminal adapter 138 is the Cisco ATA- 186 Analog
  • Media terminal adapter 138 may also include a user agent 144 that can use protocols such as SIP and/or H.323 for establishing communication sessions through packet-switched network
  • user agent 144 may have access to one or more local directory numbers (LDNs), which in turn, user agent 144 may associate with one or more of analog telephones 140 and 142. As a result of this association, user agent 144 may send and receive calls under the LDNs.
  • LDNs local directory numbers
  • the LDNs available to user agent 144 may be directory numbers associated with media gateway 124, i.e., PSTN 110 may route calls placed to such directory numbers to media gateway 124.
  • User agent 144 may obtain its one or more LDNs as a result of signaling with other network elements, such as media gateway 124 and/or call management server 126.
  • user agent 144 may be configured to use one or more LDNs.
  • User agent 144 may associate telephones 140 and 142 with either the same LDN or with different LDNs. If telephones 140 and 142 are associated with the same LDN, they may act like landline extensions connected to the same telephone line. In that case, a call to the LDN will ring both of telephones 140 and telephone 142, either of telephones 140 and 142 may be used to place calls under that LDN, and both of telephones 140 and 142 may participate in calls involving that LDN.
  • the LDNs may be routable through packet-switched network 122 (as controlled by call management server 126) and through PSTN 110, via media gateway 124.
  • PSTN 110 routes the call to media gateway 124
  • media gateway 124 routes the call through packet-switched network 122 to user agent 144 (e.g., using SIP signaling with call management server 126), and then user agent 144 causes media terminal adapter 138 to ring telephone 140. If telephones 140 and 142 are associated with the same LDN, then both may ring.
  • telephone 140 is used to dial digits to place a call
  • user agent 144 responsively routes the call through packet-switched network 122 to media gateway 124, and media gateway 124 routes the call to its destination through PSTN 110.
  • the originator of the call may be identified by the LDN associated with telephone 140.
  • multi-mode mobile station 10 may use modules 14 and 16 to communicate with WLAN 120 in different ways.
  • mobile station 10 may use WLAN 120 primarily for wireless access to packet-switched network 122.
  • module 14 may include a SIP user agent that allows mobile station 10 to establish communication sessions through packet- switched network 122 without assistance from user agent 144.
  • module 16 may communicate with user agent 144, using a protocol such as H.323, to become associated with an LDN.
  • user agent 144 may associate mobile station 10 with an LDN in response to mobile station 10 successfully registering with user agent 144, e.g., using H.323.
  • the LDN that user agent 144 associates with mobile station 10 may be one that has already been associated with telephone 140 and/or telephone 142, or it may be one that has not been associated with any telephony device connected to WLAN 120.
  • a user of mobile station 10 may dial digits (e.g., through user interface 36) to originate a call to a directory number corresponding to the dialed digits.
  • mobile station 10 may use module 16 to transmit a request (e.g., using the H.323 protocol) to user agent 144 to originate a call to the dialed directory number, hi response, user agent 144 may engage in signaling (e.g., SIP signaling with media gateway controller 125 and/or call management server 126) to establish a communication session with media gateway 124 via packet-switched network 122.
  • signaling e.g., SIP signaling with media gateway controller 125 and/or call management server 1266
  • PSTN 110 may, in turn, route the call from media gateway 124 to the dialed directory number.
  • the signaling in packet- switched network 122 and in PSTN 110 may use the LDN that user agent 144 associated with mobile station 10 to identify the originator of the call.
  • user agent 144 may responsively alert mobile station 10 (e.g., using the H.323 protocol) of the incoming call.
  • WLAN 120 may include other components, such as one or more computers 146 connected to router 136.
  • some or all of the components of WLAN 120 may be integrated together (e.g., wireless access point 130 and router 136 may be part of the same device) and/or arranged in different ways (e.g., user agent 144 may be located in router 136 or computer 146).
  • some or all of the components of WLAN 120 are located on a customer's premises, such as a residential or business location. 3. Exemplary Operation
  • the flow chart of Figure 3 illustrates an exemplary method of using multi-mode mobile station 10 with WLAN 120.
  • the process may begin when mobile station 10 detects radio frequency (RF) emissions from WLAN 120, as indicated in block 200.
  • mobile station 10 may be, but need not be, in an area served by WWAN 102, such as the wireless coverage area of BTS 104.
  • Mobile station 10 may use a number of different methods to determine when to try to detect RF that may emanate from a WLAN. For example, mobile station 10 may periodically check for RF emissions in frequency bands that may be used by WLANs, e.g., frequency bands in the 2.4 GHz range. Alternatively, mobile station 10 may use information about its current location to determine when to check for RF from WLANs. Examples of such approaches are described in a U.S.
  • mobile station 10 may attempt to associate with WLAN 120, as indicated in block 202.
  • the signaling involved in attempting to associate with WLAN 120 may depend on the particular WLAN protocol that is used. However, the signaling may involve procedures to authenticate mobile station 10 for access to WLAN 120. For example, WLAN 120 may require mobile station 10 to transmit a valid username, password, PIN number, digital certificate, MAC address, or other code or identifier before granting access. How the exemplary method proceeds may depend on whether the attempt by mobile station 10 to associate with WLAN 120 was successful, as indicated by block 204. If the association attempt was not successful, then mobile station 10 may use WWAN 102 for communication, if available, as indicated by block 206. However, mobile station 10 may again attempt to associate with WLAN 120 at a later time.
  • mobile station 10 may perform various registration procedures to establish its availability to send and receive calls via WLAN 120. For example, mobile station 10 may attempt to register its MDN as being accessible via WLAN 120, as indicated by block 208. This registration step may, for example, involve module 14 of mobile station 10 engaging in SIP signaling with call management server 126. As a result of this signaling, call management server 126 may store an indication that calls to the MDN should be routed to user agent 144 of WLAN 120. Call management server 126 may also signal to HLR 114 that call management server 126 knows the location of mobile station 10, i.e., the mobile station with that MDN.
  • HLR 114 when HLR 114 receives a query (e.g., an IS-41 LOCREQ query) from an MSC seeking the location of mobile station 10, identified by its MDN, HLR 114 can, in turn, query call management server 126 to determine how the call should be routed in order to reach mobile station 10.
  • a query e.g., an IS-41 LOCREQ query
  • How calls involving this MDN are routed may depend on whether this registration attempt was successful, as indicated by block 210. If registration was successful, then WLAN 120 is used for calls involving this MDN, as indicated by block 212. In that case, calls originating from mobile station 10 under that MDN are carried by WLAN 120, and routed through packet-switched network 122, media gateway 124, and PSTN 110, as may be required. In addition, calls placed to that MDN could be initially routed to WWAN 102 because, for example, the MDN may be a directory number allocated to an MSC in WWAN 102. However, WWAN 102 may, e.g., based on information contained in HLR 114, then route the call to WLAN 120, via media gateway 124 and packet-switched network 122.
  • WWAN 102 is used for calls involving that MDN, as indicated by block 214, provided that mobile station 10 is in an area served by WWAN 102. In that case, calls originating from mobile station 10 under that MDN are carried by WWAN 102 and routed through PSTN 110, as may be required. Similarly, calls placed to that MDN are routed to WWAN 102.
  • mobile station 10 may also attempt to register with user agent 144, as indicated by step 216.
  • user agent 144 may function as an H.323 gatekeeper, with module 16 of mobile station 10 attempting to register as a terminal in the zone served by user agent 144.
  • Whether mobile station 10 becomes associated with an LDN may depend on whether the attempt to register with user agent 144 is successful, as indicated by block 218. If registration with user agent 144 was successful, then user agent 144 associates mobile station 10 with an
  • LDN as indicated by block 220.
  • This LDN may be, but need not be, the same as a local directory number associated with telephone 140 and/or telephone 142.
  • mobile station 10 can originate and receive calls under this LDN, with user agent 144 acting on behalf of mobile station 10.
  • the user of mobile station 10 may be able to indicate (e.g., through user interface 36), whether to use the MDN or the LDN when originating a given call.
  • mobile station 10 may indicate to the user (e.g., via user interface 36), whether the call is to the MDN or to the
  • Mobile station 10 may also have calls to the MDN forwarded to the LDN.
  • the user of mobile station 10 may request this call forwarding feature (e.g., via user interface 36), either as an option that the user selects in advance or as an option that the user selects once mobile station 10 has been associated with the LDN.
  • mobile station 10 may request this call forwarding feature automatically after it becomes associated with the LDN.
  • the requested call forwarding may be conditional (e.g., a call is forwarded to the LDN only if the call placed to the MDN encounters a busy or no-answer condition), or the requested call forwarding may be unconditional.
  • mobile station 10 may transmit a feature request to WWAN 102 requesting that calls to the MDN be forwarded to the LDN, either conditionally or unconditionally.
  • HLR 114 may receive the call forwarding request and implement it by placing an appropriate indication in a service profile associated with the MDN.
  • this call forwarding feature could be implemented in other ways. If, however, the attempt to register with user agent 144 was unsuccessful, then the LDNs of user agent 144 in WLAN 120 may not be available to mobile station 10. Nonetheless, mobile station 10 may still be able to use WLAN 120 for calls involving its MDN, provided the registration attempt of block 208 was successful.

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

Abstract

L'invention porte sur une station mobile qui comprend de multiples modules de communication permettant de multiples modes de communication sans fil (p.ex. SIP, H323 et cellulaire). Dans un premier mode de communication sans fil (à savoir le mode cellulaire), la station mobile communique avec un réseau étendu sans fil ('wireless wide area network' ou WWAN) et elle est identifiée par un premier numéro de répertoire mobile (p.ex. son numéro de téléphone mobile, l'IMSI, etc.). Dans un deuxième mode de communication mobile sans fil (à savoir le mode SIP), la sation mobile communique avec un réseau local sans fil ('wireless local area network' ou WLAN) et elle est toujours identifiée par le premier numéro de répertoire mobile. Dans un troisième mode de communication (à savoir le mode H323), la station mobile communique avec le réseau local sans fil mais elle est identifiée par un second numéro de répertoire local. L'invention porte aussi sur un procédé qui permet d'enregistrer une station mobile multimode dans un WWAN lorsque la station mobile est associée à un WLAN (c'est-à-dire que la station mobile est enregistrée dans le WWAN par le biais du WLAN).
PCT/US2004/020259 2004-06-24 2004-06-24 Station mobile wwan/wlan multimode et procede permettant d'enregistrer ladite station mobile dans un wwan par le biais d'un wlan WO2006011865A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/US2004/020259 WO2006011865A1 (fr) 2004-06-24 2004-06-24 Station mobile wwan/wlan multimode et procede permettant d'enregistrer ladite station mobile dans un wwan par le biais d'un wlan

Applications Claiming Priority (1)

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PCT/US2004/020259 WO2006011865A1 (fr) 2004-06-24 2004-06-24 Station mobile wwan/wlan multimode et procede permettant d'enregistrer ladite station mobile dans un wwan par le biais d'un wlan

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EP1701476A1 (fr) * 2005-03-08 2006-09-13 Vodafone Holding GmbH Passerelle d'adaption pour transmission de flux audio-vidéo dans les réseaux de communication 2G et 3G
US7952512B1 (en) * 2008-10-14 2011-05-31 Sprint Communications Company L.P. Mobile device enabled radar tags
CN101150870B (zh) * 2007-10-18 2012-06-20 中兴通讯股份有限公司 多模终端的呼叫处理方法

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WO2000028752A1 (fr) * 1998-11-09 2000-05-18 Cisco Systems, Inc. Procede et appareil pour communications integrees sans fil dans des environnements public et prive
WO2002054820A2 (fr) * 2000-12-28 2002-07-11 Symbol Technologies, Inc. Itinerance verticale automatique sans coupure entre reseaux locaux sans fil et reseaux longue portee sans fil
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US20040087307A1 (en) * 2002-10-18 2004-05-06 Ibe Oliver C. Method of seamless roaming between wireless local area networks and cellular carrier networks
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WO2000028752A1 (fr) * 1998-11-09 2000-05-18 Cisco Systems, Inc. Procede et appareil pour communications integrees sans fil dans des environnements public et prive
WO2002054820A2 (fr) * 2000-12-28 2002-07-11 Symbol Technologies, Inc. Itinerance verticale automatique sans coupure entre reseaux locaux sans fil et reseaux longue portee sans fil
US20030053434A1 (en) * 2001-08-03 2003-03-20 At&T Corp. Method and apparatus for delivering IPP2T (IP-push-to-talk) wireless LAN mobile radio service
WO2003061177A2 (fr) * 2002-01-02 2003-07-24 Winphoria Networks, Inc. Procede, systeme et appareil de fourniture de services de reseau longue portee sans fil a une station mobile servie par un reseau local sans fil
WO2003085847A2 (fr) * 2002-04-01 2003-10-16 Flarion Technologies, Inc. Procedes et appareil de support de messagerie d'enregistrement de session
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US20040105434A1 (en) * 2002-08-19 2004-06-03 Allan Baw EtherCell
US20040057408A1 (en) * 2002-09-19 2004-03-25 Gray William H. Method and system of providing bandwidth on demand to WAN user from WLAN access point
US20040087307A1 (en) * 2002-10-18 2004-05-06 Ibe Oliver C. Method of seamless roaming between wireless local area networks and cellular carrier networks

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1701476A1 (fr) * 2005-03-08 2006-09-13 Vodafone Holding GmbH Passerelle d'adaption pour transmission de flux audio-vidéo dans les réseaux de communication 2G et 3G
CN101150870B (zh) * 2007-10-18 2012-06-20 中兴通讯股份有限公司 多模终端的呼叫处理方法
US7952512B1 (en) * 2008-10-14 2011-05-31 Sprint Communications Company L.P. Mobile device enabled radar tags

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