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CN101772968B - Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices and the remote monitoring of the mobile communication devices thereof - Google Patents

Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices and the remote monitoring of the mobile communication devices thereof Download PDF

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Publication number
CN101772968B
CN101772968B CN2008801018433A CN200880101843A CN101772968B CN 101772968 B CN101772968 B CN 101772968B CN 2008801018433 A CN2008801018433 A CN 2008801018433A CN 200880101843 A CN200880101843 A CN 200880101843A CN 101772968 B CN101772968 B CN 101772968B
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incoming call
message
calling
mobile communication
communication equipment
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CN101772968A (en
Inventor
梅尤兰·维贾亚拿单
努沙德·纳克维
英格·W·韦格尔
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Maliki Innovation Co ltd
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Research in Motion Ltd
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Priority claimed from US11/760,120 external-priority patent/US7933581B2/en
Priority claimed from EP07109922.0A external-priority patent/EP2001253B1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/50Connection management for emergency connections
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72418User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality for supporting emergency services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/12Messaging; Mailboxes; Announcements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/90Services for handling of emergency or hazardous situations, e.g. earthquake and tsunami warning systems [ETWS]
    • 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
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/20Services signaling; Auxiliary data signalling, i.e. transmitting data via a non-traffic channel

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Health & Medical Sciences (AREA)
  • Environmental & Geological Engineering (AREA)
  • Public Health (AREA)
  • Human Computer Interaction (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Telephonic Communication Services (AREA)
  • Telephone Function (AREA)

Abstract

Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices, as well as the remote monitoring of such mobile communication devices, are disclosed. In one illustrative example, an emergency call with a public safety answering point entity is established by a mobile communication device via a wireless communication network. If the emergency call is disconnected, the mobile device monitors to receive an incoming call message for a continued emergency call from the public safety answering point entity. In response to receiving such incoming call message, the mobile device refrains from producing an audible alert and automatically answers the continued emergency call from the public safety answering point entity without detecting any manual answer signal via its user interface. In one specific approach, the mobile device answers the call automatically if the incoming call message is received within a time period following the disconnection and a data indication of the incoming call message indicates that the message is for the continued emergency call or automatic answering. Otherwise, if the incoming call message is received outside of the time period following the disconnection, or if the data indication fails to indicate that the incoming call message is for the continued emergency call or the automatic answering, the mobile device refrains from automatically answering the call associated with the incoming call message.

Description

Disconnect urgent call communicate by letter with other method and apparatus that uses in processing and the remote monitoring of described mobile communication equipment to what relate to mobile communication equipment
Technical field
Disclosure relate generally to is communicated by letter with other to the disconnection urgent call of the mobile communication equipment that operates in cordless communication network and is processed, and also relates to the remote monitoring of described mobile communication equipment.
Background technology
For mobile communication equipment, wireless service provider is being developed expection and is being improved the technology that ability is sought in location in the enhancement mode 911 (E-911) under the requirement of Federal Communications Committee (FCC), in order to the exact position of the mobile device that relates in the urgent call is positioned.
FCC is carrying out E-911 stage by stage.Stage 0 is basic 911 processes, in these basic 911 processes wireless emergency call is sent to suitable public safety answering point (PSAP).Even the caller is not the subscriber of wireless service provider, wireless service provider also must mail to PSAP with calling.In the stage 1, FCC requires to show the telephone number of the mobile device relevant with each wireless emergency call, and this allows PSAP operator's callback in situation about disconnecting.In stage 2 (terminal stage), FCC requires mobile device to have the GPS function, in order to transmit more specifically latitude and longitude information during wireless emergency call.Locating information must be accurately in 50-300 rice.
Need to mobile communication equipment disconnect the method and apparatus that urgent call is communicated by letter and processed with other, and the remote monitoring of described equipment is so that these and other enhancing in the cordless communication network.
Summary of the invention
This paper describes mobile device disconnected urgent call communicate by letter with other method and apparatus that uses in processing and the remote monitoring of described mobile communication equipment.In an illustrative embodiment, mobile communication equipment is via the urgent call of cordless communication network foundation with public safety answering point entity.If this urgent call disconnects, then mobile device monitors to receive the incoming call message from the continuation urgent call of this public safety answering point entity.In response to receiving this incoming call message, mobile device stops and produces audible alarm and automatic-answering back device and do not detect any manual answering signal via user interface from the continuation urgent call of public safety answering point entity.In a concrete grammar, if this message of data indication indication of receiving incoming calling message and this incoming call message is for continuing urgent call or automatic-answering back device in the time period after disconnecting, then mobile device automatic-answering back device should calling.Otherwise, if receive this incoming call message beyond this time period after disconnecting, if perhaps described data indication fails to indicate this incoming call message for continuing urgent call or automatic-answering back device, then the mobile device prevention is carried out automatic-answering back device to the calling that is associated with this incoming call message.
Description of drawings
Fig. 1 is the block diagram of communication system, and this communication system comprises for the mobile communication equipment that communicates via cordless communication network;
Fig. 2 is the more detailed example of the mobile communication equipment that uses in the wireless network of Fig. 1;
Fig. 3 be by mobile communication equipment (such as, the mobile communication equipment of describing with reference to Fig. 1-2) use to communicate by letter with other flow chart of the method processed of urgent call;
Fig. 4 is the flow chart of the method processed of the urgency communication to mobile communication equipment (such as, the mobile communication equipment of describing among Fig. 1-2) that uses in cordless communication network (such as, the cordless communication network of Fig. 1);
Fig. 5 is that the illustrative of incoming call message is described, and described incoming call message has the data indication in one or more data segments, and described data indication indication incoming call message is for continuation urgent call or the automatic-answering back device undertaken by mobile communication equipment;
Fig. 6 is that the illustrative of the memory of mobile communication equipment is described, can in described memory, store the programmable data indication, the indication of described programmable data is used for for can listening answer-mode or silent answer pattern to the incoming call setting of this mobile communication equipment, and/or for the incoming call to this mobile communication equipment manual answer mode or autoanswer mode is set;
Fig. 7 is the functional block diagram of mobile communication equipment, Fig. 7 has illustrated the function that is associated with hand-held set call mode and the speaker-phone call mode of mobile communication equipment, can indicate to control this function based on the data in the one or more data segments in the incoming call message;
Fig. 8 a and 8b are the end views of one type the mobile communication equipment that can use in technology of the present disclosure, and such mobile communication equipment has open position, and (Fig. 8 a) and make position (Fig. 8 b); And
Fig. 9 is the call flow diagram that operable at once connection features in the urgent call for the GSM/GPRS network of the present disclosure is processed has been described.
Embodiment
This paper describes and disconnect communicate by letter with other method and apparatus that uses in processing and to the remote monitoring of described mobile communication equipment of urgent call to what relate to mobile communication equipment.In an illustrated examples, mobile communication equipment is via the urgent call of cordless communication network foundation with public safety answering point entity.If this urgent call disconnects, then mobile device monitors to receive the incoming call message for the continuation urgent call from public safety answering point entity.In response to receiving this incoming call message, mobile device stops and produces audible alarm and automatic-answering back device and do not detect any manual answering signal via its user interface from the continuation urgent call of public safety answering point entity.In a concrete grammar, if this message of data indication indication that receives this incoming call message and this incoming call message in the time period after disconnecting is for continuing urgent call or automatic-answering back device, then mobile device automatic-answering back device should be called out.Otherwise, if receive this incoming call message outside this time period after disconnecting, if perhaps the data indication fails to indicate this incoming call message for continuing urgent call or automatic-answering back device, then the mobile device prevention is carried out automatic-answering back device to the calling that is associated with this incoming call message.
For operable basic network framework is described, Fig. 1 shows the block diagram of communication system 100, and communication system 100 comprises the mobile radio station (MS) 102 (example of mobile communication equipment) that communicates via cordless communication network 104.Mobile radio station 102 preferably includes visual display unit 112, keyboard 114 and possible one or more auxiliary user interfaces (UI) 116, they each be coupled to controller 106.Controller 106 also is coupled to radio frequency (RF) transceiver circuit 108 and antenna 110.Typically, controller 106 is presented as CPU (CPU), the operating system in described CPU (CPU) the run memory assembly (not shown).Controller 106 will usually be controlled the integrated operation of mobile radio station 102, and the signal processing operations relevant with communication function carried out in RF transceiver circuit 108 typically.Controller 106 and device display 112 interfaces be connected to show the information that receives, institute's canned data, user's input, etc.Provide keyboard 114 with usually input be used in mobile radio station 102 storages data, be used for the information to wireless network 104 transmission, the telephone number of calling calling, the order that will carry out at mobile radio station 102 and possible other or different user input, wherein said keyboard 114 can be telephong type keypad or full word alphameric keyboard.
Mobile radio station 102 sends signals of communication and receives signal of communication from wireless network 104 to wireless network 104 on Radio Link via antenna 110.RF transceiver circuit 108 is carried out the function similar with the base station controller 128 (describing after a while) of wireless network 104, comprises for example modulating/demodulating and possible coding/decoding and encrypt/decrypt.It will be apparent for a person skilled in the art that RF transceiver circuit 108 will be suitable for the ad hoc wireless networks that mobile radio station 102 will operate therein.When mobile radio station 102 is complete operation, typically only when network sends, just opening the RF transmitter of this RF transceiver circuit 108 when the RF of RF transceiver circuit 108 transmitter, otherwise the RF transmitter of cutting out this RF transceiver circuit 108 is to preserve resource.Similarly, typically periodically close the RF receiver of RF transceiver circuit 108 to preserve electric power, until need (if necessary) during the time cycle of appointment, to receive signal or information.
Mobile radio station 102 comprises be used to the battery interface 122 that holds one or more rechargeable batteries 124.Battery 124 provides electric power to the circuit in the mobile radio station 102, and battery interface 122 provides machinery for battery 124 and is electrically connected.Battery interface 122 is coupled to adjuster 126, and 126 pairs of electric power to equipment of this adjuster are regulated.Mobile radio station 102 also use memory module 120 (as, subscriber identity module (SIM) or removable user identity module (R-UIM)) operate, this memory module 120 is connected to or inserts mobile radio station 102 at interface 118 places.In the present embodiment, memory module 120 is SIM.SIM 120 is used for the end user (perhaps subscriber) of sign mobile radio station 102 and makes device personality.In the situation that does not have SIM 120, mobile radio station terminal incomplete operation is used for the communication by wireless network 104.By inserting SIM120 to mobile radio station 102, the end user can access arbitrary or all services that he/her orders.SIM 120 generally includes processor and is used for the memory of storage information.Because SIM 120 is coupled to SIM interface 118, so SIM 120 is coupled to controller 106 by order wire 144.In order to identify the subscriber, SIM 120 comprises some customer parameters, as, international mobile subscriber sign (IMSI).The advantage of using SIM120 is that the end user needn't be by any single one physical mobile radio station binding.SIM 120 can also store the additional user information for mobile radio station, comprises agenda (perhaps calendar) information and nearest call information.Alternative as to SIM or R-UIM, mobile radio station 102 can operate based on configuration data, and described configuration data is to be programmed in the nonvolatile memory of mobile radio station 102 by the service provider.
Mobile radio station 102 can be by single cell formation, as, data communications equipment, cell phone, have data and voice communication capability multi-functional communications equipment, have the personal digital assistant (PDA) of radio communication function or incorporated the computer of internal modem into.Preferably, mobile radio station 102 is little portable handset unit, and this portable handset unit has the shell (for example little plastic casing) that holds or carry circuit described herein and assembly.Alternatively, mobile radio station 102 can be the multimode unit that comprises a plurality of independent assemblies, includes but not limited to be coupled to computer or the miscellaneous equipment of radio modem.Particularly, for example in the mobile radio station block diagram of Fig. 1, RF transceiver circuit 108 and antenna 110 can be embodied as the radio modem unit in the port that can insert on the laptop computer.In this case, this laptop computer can comprise display 112, keyboard 114 and one or more auxiliary UI116.Controller 106 can be presented as the CPU of computer or the independent CPU in the modulator-demod.Also anticipate, generally can not carry out the computer of radio communication or miscellaneous equipment and go for being connected to and effectively control single unit RF transceiver circuit 108 and the antenna 110 of (such as, in above-described those single units one).Notice that such as what describe after a while about the mobile radio station 202 of Fig. 2, mobile radio station 102 can have more specifically to be realized.
Mobile radio station 102 communicates in wireless network 104 and by wireless network 104, and this wireless network 104 can be cellular telecommunication network for example.In the embodiment in figure 1, come configuring wireless network 104 according to GPRS (GPRS) and global system for mobile communications (GSM) technology.Coming according to the GSM/GPRS technology in the situation of configuring wireless network 104, network and terminal can also be moved according to enhancing data rate (EDGE) or the enhancing GPRS (EGPRS) for GSM evolution.Yet, can use the network architecture and the communication protocol of any adequate types.For example, can come configuring wireless network 104 according to code division multiple access (CDMA) technology.As another example, this network can strengthen network (Integrated Dispatch Enhanced Network) (iDEN) based on integrated dispatch, and this integrated dispatch strengthens high power capacity digital main line (trunked) radio system that network provides integrated voice and data, services.
In this GSM/GPRS environment, wireless network 104 comprises base station controller (BSC) 128, mobile switching centre (MSC) 130, signal transduction system 7 (SS7) network 140, attaching position register (HLR) 138, IP network 134, remote user authentication dial-up service (RADIUS) server 136, service universal packet wireless business affair (GPRS) support node (SGSN) 131 and the Gateway GPRS Support Node (GGSN) 132 with a plurality of tower station (figure 1 illustrates one of them) that are associated.MSC 130 is coupled to BSC 128 and is coupled to landline (landline) network 142 (such as, PSTN (PSTN)).SGSN 131 is coupled to BSC 128 and is coupled to GGSN 132, and GGSN 132 is coupled to public or private data network 144 (such as, internet).HLR 138 is coupled to MSC 130, SGSN 131 and GGSN 132.SS7 network 140 is communicatively coupled to landline network 142, landline network 142 can with mobile radio station 102 and other calling party (as, calling party 150 (for example, landline telephone or other mobile radio station) or EC 152) link to each other.On the other hand, IP network 134 is communicatively coupled to internet 144.Radius server 136 is responsible for carrying out and the authentication of packet data service, the function that authorization and accounting (AAA) is relevant, and can be called aaa server.
BSC 128 and tower station thereof can be called (fixing) transceiver apparatus.This transceiver apparatus covers for the particular coverage that generally is called " residential quarter " provides wireless network.Transceiver apparatus sends signal of communication via the mobile radio station of tower station in its residential quarter and receives signal of communication from the mobile radio station in its residential quarter.Transceiver apparatus is generally carried out functions such as modulation and possible coding and/or encryption according to specific (normally predetermined) communication protocol and parameter to the signal that will transfer to mobile radio station under the control of its controller.Similarly, transceiver apparatus any signal of communication that the mobile radio station 102 in its residential quarter is received carries out demodulation and possible decoding and deciphering (if necessary).Communication protocol and parameter can be because of network different.For example, network can adopt the modulation scheme different from other network and at the frequency enterprising line operate different with other network.
Radio Link shown in the communication system 100 of Fig. 1 is illustrated in one or more channels (typically, different radio frequency (RF) channel) and the related protocol that uses between wireless network 104 and the mobile radio station 102.Typically because overall bandwidth limits and the limited battery electric quantity of mobile radio station 102, the RF channel is the restricted resource that must preserve.It will be understood by those skilled in the art that wireless network can comprise up to a hundred residential quarters according to required universe network coverage in actual applications, each residential quarter provides service by tower station (that is, perhaps (station sector) distinguished at the station).All associated components can be connected with the router (not shown) by a plurality of switches, and are controlled by a plurality of network controllers.
For all mobile radio stations 102 of registering with Virtual network operator, in HLR 138, store permanent data (such as, mobile radio station 102 users' profile) and ephemeral data (such as, the current location of mobile radio station 102).Carrying out in the situation of audio call to mobile radio station 102, inquiry HLR138 is to determine the current location of mobile radio station 102.The data that the visitor location register of MSC 130 (VLR) is responsible for one group of band of position and is stored current those mobile radio stations in the zone that this VLR was responsible for.This comprises from HLR 138 and transfers to VLR for the part of the permanent moving station number certificate of fast access more.Yet the VLR of MSC 130 can also assign and store local data, as, temporary mark.Alternatively, VLR that can enhanced MSC 130, to coordinate more efficiently GPRS and non-GPRS service and function (for example, to the paging of the circuit-switched call that can carry out more efficiently via SGSN131, and the GPRS of combination and the renewal of non-GPRS position).
The independent position that Serving GPRS Support Node (SGSN) 131 and MSC 130 are in identical classification levels and keep tracking mobile station.SGSN 131 also carries out safety function and access control.Gateway GPRS Support Node (GGSN) 132 provide with the interworking of external packet-switched and via IP-based GPRS backbone network and SGSN (as, SGSN 131) link to each other.SGSN 131 carries out authentication and password setting up procedure based on algorithm, key and the standard identical with existing GSM.In routine operation, can spontaneously carry out the residential quarter selection or carry out the residential quarter selection by transceiver apparatus indication mobile radio station 102 by mobile radio station 102, to select specific cell.When another residential quarter of mobile radio station 102 reselection procedure or cell set when (being called Routing Area (routingarea)), mobile radio station 102 notice wireless networks 104.
In order to access the GPRS service, mobile radio station 102 at first " adheres to " by the so-called GPRS of execution makes wireless network 104 know the existence of this mobile radio station 102.This operation has been set up the logical links between mobile radio station 102 and the SGSN 131 and has been made mobile radio station 102 can be used for receiving for example via the paging of SGSN, the notice of incoming call GPRS data or the SMS message on the GPRS.For sending and receiving GPRS data, mobile radio station 102 is assisted to activate it and is wanted the packet data address used.This operation makes GGSN 132 know mobile radio station 102; After this can begin interconnected with outer data network.For example can use encapsulation and tunnel effect transmitting user data pellucidly between mobile radio station 102 and outer data network.Packet is equipped with the GPRS customizing messages, transmits described packet between mobile radio station 102 and GGSN 132.
Wireless network 104 comprises the position trace component for the position of tracking mobile station.Obtain the positional information of mobile radio station based on the gps satellite of the conventional gps system 154 of global positioning system (GPS) utilization.In Typical Disposition, gps system 154 comprises per ten two (12) hours earths 24 (24) individual gps satellites once.In the disclosure, mobile radio station 102 obtains GPS information based on the signal that receives from gps system 154, and measures and obtain its position with the location server 190 in the wireless network 104.Location server 190 links to each other with MSC130 and/or IP network 134, and can comprise so-called position determination entity (PDE).PDE is coupled to gps receiver 192, and this gps receiver 192 is used for receiving signal and the information of gps system 154 transmission is decoded.Notice that mobile radio station 102 can use the identical RF transceiver 108 (perhaps by sharing its at least a portion) for typical voice communications versus data communications to receive GPS information from gps system 154 and location server 190.Thereby, in mobile radio station 102, do not need to use independent gps receiver reception from the GPS information of gps system 154.Alternatively, in mobile radio station 102, can use independent gps receiver reception from the GPS information of gps system 154.
In the location technology for enhancement mode 911 (E911) of current employing, assistant GPS (A-GPS) is one of solution.This GPS technology has been described in the standard criterion document such as TIA/EIA/IS-801-1.A location technology will be described.During the audio call that relates to mobile radio station 102, can obtain the real time GPS positional information and send it to receiving entity.In order to obtain the GPS positional information, gps system 154 and location server 190 operations of mobile radio station 102 in wireless network 104.Routinely, mobile radio station 102 obtains GPS collection auxiliary data and uses this data to carry out " GPS fixes ".Concerning GPS was fixing, mobile radio station 102 was tuned to its gps receiver the gps signal frequency of gps system 154.During GPS was fixing, mobile radio station 102 was carried out GPS pseudorange (pseudorange) based on the gps signal that receives from gps system 154 and is measured.In certain moment during audio call, mobile radio station 102 sends the GPS pseudo range data to location server 190, and location server 190 obtains the position of mobile radio station 102 based on this pseudo range data.Location server/PDE 190 can be sent to this positional information receiving entity (for example, public safety answering point or PSAP) and/or mobile radio station 102.If received by mobile radio station, then mobile radio station 102 can be sent to receiving entity (for example, PSAP) with this positional information.
Fig. 2 is the detailed diagram of preferred mobile communication equipment or mobile radio station (MS) 202.Mobile radio station 202 preferably has at least bi-directional communication device of voice and high-level data communication capacity (comprising the ability that communicates with other computer system).Function according to mobile radio station 202 provides can be called mobile radio station 202 data-message transmission equipment, bidirection pager, the cell phone with data-message transmission capacity, wireless the Internet appliance or data communications equipment (having or do not have telephone capability).Mobile radio station 202 can with its geographical coverage area in a plurality of base transceiver systems 200 in any one communicate.As below describing in detail by Fig. 3 and 4, mobile radio station 202 is selected or helps to select this mobile radio station 202 to communicate with which base transceiver systems 200.
Usually mobile radio station 202 will be incorporated communication subsystem 211 into, communication subsystem 211 comprises receiver 212, transmitter 214 and the assembly that is associated, as, one or more (preferably embedded or built-in) antenna element 216 and 218, local oscillator (LO) 213 and the processing module such as digital signal processor (DSP) 220.Communication subsystem 211 is similar with RF transceiver circuit 108 and antenna 110 shown in Figure 1.For the technical field of communication personnel apparently, the specific design of communication subsystem 211 depends on the communication network that mobile radio station 202 will use.
Mobile radio station 202 can be after finishing required network registry or activation on network the sending and receiving signal of communication.Antenna 216 is inputed to receiver 212 by the signal that network receives, and receiver 212 can be carried out general receiver function, as, the simulation in signal amplification, down-conversion, filtering, channel selection etc. and the example shown in Figure 2 is to numeral (A/D) conversion.The A/D conversion that receives signal allows more complicated communication function, as, demodulation and the decoding in DSP 220, carried out.In a similar fashion, the signal that transmit is processed, comprised the modulation and the coding that are for example undertaken by DSP 220.The signal that these DSP are processed input to transmitter 214 with carry out numeral to simulate (D/A) conversion, up-conversion, filtering, amplification and via antenna 218 in transmitted over communications networks.DSP 220 is process communication signals not only, and the control of receiver and transmitter also is provided.For example, can utilize the automatic gaining controling algorithm of in DSP 220, realizing to control adaptively the gain that the signal of communication in receiver 212 and the transmitter 214 is used.
Network insertion is relevant with subscriber or the user of mobile radio station 202, therefore mobile radio station 202 need memory module 262 (as, subscriber identity module or " SIM " card or removable user identity module (R-UIM)) insert or be connected to the interface 264 of mobile radio station 202, in order in network, operate.Alternatively, the service provider can utilize configuration data that the part of nonvolatile memory or flash memories 224 is programmed, so that mobile radio station 202 can operate in network.Because mobile radio station 202 is portable hand-held battery supply sets, so mobile radio station 202 also comprises be used to the battery interface 254 that holds one or more rechargeable batteries 256.This battery 256 in the mobile radio station 202 great majority or all circuit electric power is provided, battery interface 254 is connected with electronics for battery provides machinery.Battery interface 254 coupling most all circuit provides the adjuster (not shown among Fig. 2) of electric power.
Mobile radio station 202 comprises the microprocessor 238 (being a realization of the controller 106 of Fig. 1) of control mobile radio station 202 integrated operations.This control comprises calling of the present disclosure or communication feature.Carry out by communication subsystem 211 and to comprise at least communication function of data and voice communication.Microprocessor 238 also carries out alternately with the optional equipment subsystem, as, display 222, flash memories 224, random access memory (RAM) 226, auxiliary I/O (I/O) subsystem 228, serial port 230, keyboard 232, loud speaker 234, microphone 236, short-range communication subsystem 240 and general any miscellaneous equipment subsystem in the appointment of 242 places.Some subsystem executive communication correlation functions in the subsystem shown in Figure 2, and its subsystem can provide function on " resident " or the equipment.Especially, for example some subsystems (as, keyboard 232 and display 222) both can be used for communication-related functions (such as, input of text messages with in transmitted over communications networks) can be used for again device-resident functions (as, calculator or task list).Preferably permanent storage (as, flash memories 224) operating system software that storage is used by microprocessor 238 in, this permanent storage is read-only memory (ROM) or similar memory element (not shown) alternatively.It will be understood by those skilled in the art that operating system, specific device applications or its part can be loaded on provisionally volatile storage (as, RAM 226) in.
Except the operation system function of microprocessor 238, microprocessor 238 also preferably enables to carry out the software application on the mobile radio station 202.Usually can during the manufacturing of mobile radio station 202, at mobile radio station 202 the set of applications control basic device operations, predetermined be installed, comprise at least data and voice communications applications (as, network re-establishes scheme).The advantageous applications that can be loaded on the mobile radio station 202 can be that personal information manager (PIM) is used, this application has the ability of organization and management and user-dependent data item, and described and user-dependent data item is such as but not limited to Email, calendar event, voice mail, appointment and task items.Naturally, one or more memory stores are available at mobile radio station 202 and SIM 256, so that the storage of pim data item and out of Memory.
PIM uses preferably has an ability that transmits and receive data via wireless network.In a preferred embodiment, utilize mobile radio station user corresponding data item that host computer system is stored and/or that be associated with mainframe computer system, via wireless network the pim data item is carried out seamless integration, synchronous and renewal, thereby on mobile radio station 202, create mirrored host computer about this.This is that mobile radio station user's the situation of office computer systems is advantageous particularly for host computer system.Can also additional application be loaded on mobile radio station 202 by network, auxiliary I/O subsystem 228, serial port 230, short-range communication subsystem 240 or any subsystem 242 that other is fit to, and by the user with described additional application be installed in RAM 226 or preferably in the Nonvolatile memory devices (not shown) to be carried out by microprocessor 238.Thisly improved the functional of mobile radio station 202 and can provide function on the equipment of enhancing, communication-related functions or the two all can using flexibility aspect the installation.For example, secure communication applications can make it possible to carry out e-business capability and other such financial transaction with mobile radio station 202.
In data communication mode, the reception signal such as text message, email message, page download will be processed by communication subsystem 211, and be input to microprocessor 238.Microprocessor 238 will preferably further be processed this signal to export display 222 to or alternatively to export auxiliary I/O equipment 228 to.The user of mobile radio station 202 can also write data item such as email message in conjunction with display 222 and possible auxiliary I/O equipment 228 with keyboard 232 for example.Keyboard 232 is complete alphanumeric keyboard and/or the numeric keypad of phone type preferably.Can be by communication subsystem 211 item that these are write in transmitted over communications networks.
For voice communication, the overall operation of mobile radio station 202 is in fact similar, and difference is to export the reception signal to loud speaker 234 and generated for the signal that transmits by microphone 236.Can also realize alternative voice or audio frequency I/O subsystem at mobile radio station 202, as, the speech message recording subsystem.Although preferably mainly finish voice or audio signal output by loud speaker 234, yet as some examples, can also provide the sign to calling party, the duration of audio call or the indication of other voice call related with display 222.
Serial port 230 among Fig. 2 generally realizes in personal digital assistant (PDA) type communication equipment, for this communication equipment and user's desktop computer synchronously for serial port 230 are optional but desirable assemblies.Serial port 230 makes the user preference is set and by provide information or software to download rather than expand by cordless communication network the ability of mobile radio station 202 to mobile radio station 202 by external equipment or software application.Thereby can use alternative download path for example by direct reliable and believable connection encryption key to be loaded on the mobile radio station 202, thereby safety means communication is provided.
The short-range communication subsystem 240 of Fig. 2 is to provide the additional optional components of communicating by letter between mobile radio station 202 and different system or equipment, and described different system or equipment is similar equipment not necessarily.For example, subsystem 240 can comprise infrared equipment and the circuit that is associated and assembly or comprise Bluetooth TMCommunication module is to provide and the communicating by letter of the system of enabling similarly and equipment.Bluetooth TMIt is the registered trade mark of Bluetooth SIG.
Get back to Fig. 1, mobile radio station 102 can operate the GPS positional information for the position that is provided for identifying mobile radio station 102 to an entity of sending out request (for example, end call side 150 or urgent center 152).For this reason, can in wireless network 104, use a kind of in several different technologies.For a kind of technology, mobile radio station 102 during its idle mode of operation or during the audio call so that ask regularly or periodically, receive and storage GPS navigation categorical data in memory.The GPS navigation categorical data can be " original " navigation data or the data that alternatively obtain from original navigation data, can comprise GPS ephemeris (ephemeris) supplemental characteristic and/or GPS year calendar (almanac) supplemental characteristic (" therefore, term " navigation type " data).Can be by wireless network from location server 190 or alternatively directly from gps system 154 or with this dual mode reception GPS navigation categorical data.Notice location server/PDE 190 usefulness triangulation/trilateration process obtain the rough position of mobile radio station 102, gather supplementary with the GPS that obtains mobile radio station 102.Alternatively, can use the longitude of available this base station from the broadcast of base station that service is provided and latitude as the rough position of location server/PDE 190, gather supplementary with the GPS that obtains mobile radio station 102.
Subsequently, mobile radio station 102 is carried out the GPS process to obtain the GPS positional information.Particularly, the mobile radio station 102 GPS navigation categorical data that receives based on the last time and store in memory obtains GPS and gathers auxiliary data and/or sensitivity auxiliary data.GPS gather auxiliary data can comprise to suitably around gps satellite, Doppler frequency and the time delay window information data of labelling.The sensitivity auxiliary data comprises and will will carry out the fixing moment of GPS and be modulated to the prediction bit contents of the GPS navigation data on the gps signal.Next, mobile radio station 102 is so that utilize gps system 154 to carry out GPS to fix.During GPS is fixing, the GPS/ wireless receiver of mobile radio station 102 is tuned to the GPS frequency, to receive the gps signal from gps system 154.Mobile radio station 102 obtains the gps measurement data that is associated with mobile radio station 102 based on the gps signal that receives from gps system 154.Gps measurement data can be or comprise the GPS pseudo range data.
For example, during audio call, keep the Traffic Channel between mobile radio station 102 and the wireless network 104, so that can between the end user of mobile radio station 102 and end call side 150, carry out mobile communication.End call side 150 is associated with the telephone number that the end user of mobile radio station 102 has selected.End call side 150 can be any ordinary call side (for example, end user's family, friend or colleague) or the EC that alternatively is associated with " 911 " or other emergency number (such as, public safety answering point (or PSAP)).In certain moment during audio call, mobile radio station 102 is so that measure according to the base station signal of wireless network 104.Obtain these measurement results and be not for the rough position of mobile radio station 102 is provided, but for the use that combines with pseudorange, when only available GPS pseudorange is not enough to accurately determine the position, to improve positional precision.
Next, mobile radio station 102 is so that send measurement data and for the request of location positioning to location server or PDE 190.Can in response to from location server 190 or other request entity or by mobile radio station 102 spontaneously make (for example, by the telephone number of dialing (as, emergency numbers " 911 ") trigger) request, carry out the transmission of gps measurement data.Next, these data of location server/PDE 190 usefulness are calculated the position of mobile radio station 102 based on triangulation/trilateration.The positional information of mobile radio station 102 can be or comprise latitude, longitude and altitude information.Location server 190 can be in the situation that request is arranged or not have to ask directly be sent to end call side 150 with the positional information of the mobile radio station 102 that obtains.Alternatively, location server 190 can be sent to this positional information mobile radio station 102, and mobile radio station 102 can be sent to this positional information end call side 190.In alternative approach, be suitable for using in the situation of the own calculating location information of MS-only method at mobile radio station 102, do not need to come as mentioned above use location server/PDE 190.
Fig. 3 shows the flow chart of the illustrative method of being used by mobile communication equipment in processing urgency communication.The method can use one or more processors, memory, user interface and wireless transceiver thereof (for example, referring to Fig. 1-2) to carry out in conjunction with above-mentioned related system assembly by mobile device.The method can also be implemented in the computer program, described computer program comprises that computer-readable medium (for example, memory or computer disk), store the computer instruction that to be carried out by the one or more processors (for example, microprocessor) of mobile device in the described computer-readable medium.
Usually, as mentioned above, the method for Fig. 3 relate to mobile device via wireless network that set up with urgent call public safety answering point (PSAP) entity.If urgent call disconnects, then mobile device monitors to receive the incoming call message from the continuation urgent call of public safety answering point entity.In response to receiving this incoming call message, mobile device stop produce audible alarm and in the situation that does not detect any manual answering signal via its user interface automatic-answering back device from the continuation urgent call of public safety answering point entity.Therefore in continuing urgent call, obtained unavailable adequate information from initial urgent call.This information can comprise the geographical position that for example identifies mobile device, based on the positional information of GPS.In a concrete grammar, if this message of data indication indication that receives this incoming call message and this incoming call message in the time period after disconnecting is for continuing urgent call or automatic-answering back device, then mobile device automatic-answering back device should be called out.Receive this incoming call message outside this time period after disconnecting else if, if perhaps described data indication fails to indicate this incoming call message for continuing urgent call or automatic-answering back device, then the mobile device prevention is carried out automatic-answering back device to the calling that is associated with this incoming call message.
In begin block 300 beginning of Fig. 3, because the end user of mobile device may attempt carrying out audio call via cordless communication network, so mobile device is monitored its user interface to find user input signal (step 302 of Fig. 3).If processor detects call request (step 304 of Fig. 3) for audio call via user interface, then processor is identified this call request whether for (step 306 of Fig. 3) of urgent call.In order to identify this call request whether for urgent call, processor can be provided by the predetermined codes that the user inputted or selected (for example, 911 or similarly) of this calling, the predesignated subscriber input selection corresponding with urgent call (for example user selection mobile device provide " emergency call " button or icon) or the sensor output signal that is associated with mobile device (for example from mobile device " people falls down (man down) " signal).If this call request is for non-emergency call in step 306, then processor is carried out normal or conventional call establishment and the processing (step 308 of Fig. 3) for non-emergency call.
If as this call request of sign is for urgent call in step 306, then processor is so that initiate urgent call (step 318 of Fig. 3) via wireless transceiver to the PSAP entity.In the moment of call setup, ANI (ANI) or the caller-marking (calling part ID) that will be associated with mobile device are sent to PSAP entity (step 320 of Fig. 3).Ani information can be or comprise the number corresponding with the mobile logo symbol that identifies uniquely this mobile device.The PSAP entity receives ani information and incoming call is made reply, so that set up and keep between mobile device and the PSAP entity urgent call (step 322 of Fig. 3) via wireless network.During calling out, mobile device monitors to receive any location information request (for example, GPS position) (step 324 of Fig. 3) from the PSAP entity.If such as the location information request that receives in step 324 sign, then processor is so that send for the positional information corresponding with geographical position mobile device the PSAP entity.Can carry out at least in part this step by the technology of describing with Fig. 1.Alternatively, can spontaneously be carried out by mobile radio station 102 transmission (that is, after step 322, in step 324, not receiving in the situation of any request execution in step 326) of information.Therefore the PSAP entity can obtain the geographical position of mobile device.
If conditions permit suitably transmits all necessary information during the urgent call between mobile device and the PSAP entity, so that can suitably process this emergency.The example of adequate information comprise the end user of address, mobile device of geographical position (based on the geographical position of GPS), the position of mobile equipment of telephone number (ANI or calling part ID), the mobile radio station of mobile device and other relevant personnel name, help the end user to process information of this emergency etc.Yet this urgent call may hastily disconnect (step 328 of Fig. 3), so that suitably do not transmit all relevant informations.This urgent call may disconnect with multitude of different ways.For example, mobile device may be under the covering that is in wireless network during the urgent call, but mobile device may be reproduced and put (repositioned) or reorientation (relocated) subsequently, so that mobile device outside the coverage of wireless network, disconnects thereby cause calling out.As another example, urgent call may by the end user or the third party be casual or intentionally termination.
As described herein, use technology of the present disclosure, the PSAP entity can be to continue the form callback mobile device of urgent call.From this continuation urgent call of PSAP entity audio call that can be noiseless and/or automatic-answering back device.
If detect the disconnection of urgent call at step 328 processor of Fig. 3, then processor can arrange and running timer (step 330 of Fig. 3).Mobile device can use this timer that arranges in step 330 to limit from disconnecting the time period of beginning, and the PSAP entity can the callback mobile device in this time period.This time period is any position between 2-10 minute for example; Yet section can be suitable At All Other Times.
Then processor will return with the user input signal (step 302) of supervisory user interface and via wireless transceiver monitoring incoming call message (step 310).In optimization technique, about step 302, processor is forbidden any calling that the end user attempts from mobile device via wireless network (any follow-up urgent call of being undertaken by the end user may except) within the time period that timer limits.After timer expired, processing will allow the end user to carry out the calling of attempting from this mobile device.
After disconnecting, during via the wireless transceiver monitoring message, can receive the incoming call message for audio call (step 312 of Fig. 3) that mails to mobile device in step 310.This incoming call message can for after disconnecting from the continuation urgent call of PSAP entity.ANI or calling part ID that the utilization of PSAP entity is associated with mobile device are carried out this continuation urgent call.If do not receive incoming call message in step 312, then processor continues supervisory user input signal and radio message in step 302 and 310.
Yet if receive the incoming call message that mails to mobile device in step 312, whether processor identifies this incoming call message for needing mobile device to make (step 314 of Fig. 3) of the calling of noiseless and/or automatic-answering back device.In the first embodiment that is associated with step 314, if receive the incoming call message from the calling of PSAP entity in the time period that the timer that arranges limits in step 330, then processor so that in the situation that does not detect any manual answering signal via the user interface of mobile device this incoming call of automatic-answering back device (step 332 of Fig. 3).In addition, processor stops generation to be used for any audible alarm that this calling is reported to the police.Yet if receive this incoming call message outside the time period that timer limits, processor is so that carry out normal or standard call process (step 316 of Fig. 3) for this incoming call.For the standard call process, processor is typically so that produce audible alarm with this incoming call of reporting to the police to the end user at the mobile device place, and need processor (for example to detect the manual answering signal via user interface, detect braking, the rotation of mobile device shell or the slip of key or button) so that this calling is replied.
In the second embodiment that is associated with step 314, if it is to continue urgent call (namely that incoming call message comprises this calling of indication, for noiseless and/or automatic-answering back device) data indications, then at step 332 processor so that in the situation that does not detect any manual answering signal via the user interface of mobile device this incoming call of automatic-answering back device.In addition, processor stops generation to be used for any audible alarm that alarm is carried out in this calling.Referring to following discussion about Fig. 5.Yet, if this data indication fails to indicate this calling for continuing urgent call or noiseless automatic-answering back device, at step 316 processor to the normal or standard call process of this incoming call execution.Equally, in the standard call process, processor is typically so that produce audible alarm to end user's this incoming call of reporting to the police at the mobile device place, and needs processor to detect the manual answering signal so that this calling is replied via user interface.
In the 3rd embodiment that is associated with step 314, if receive the incoming call message from the calling of PSAP entity in the time period that the timer that arranges limits in step 330, and this incoming call message comprises that this calling of indication is to continue urgent call (namely, be used for noiseless and/or automatic-answering back device) the data indication, then in step 332 processor so that in the situation that does not detect any manual answering signal via the user interface of mobile device this incoming call of automatic-answering back device.In addition, processor stops generation to be used for any audible alarm that alarm is carried out in calling.Yet; if outside the time period that timer limits, receive this incoming call message; perhaps the data indication fails to indicate this calling for continuing urgent call or noiseless automatic-answering back device, then normal the or standard call process at step 316 processor to the incoming call execution.Thereby in the 3rd embodiment, the equipment of initiating automatic/silent answer not only depends on the time period but also depend on the data indicator variable.
In the 4th embodiment that is associated with step 314, if receive the incoming call message from the calling of PSAP entity within the time period that the timer that arranges limits in step 330, perhaps incoming call message comprises that this calling of indication is to continue urgent call (namely, for noiseless and/or automatic-answering back device) data indications, then at step 332 processor so that in the situation that does not detect any manual answering signal via the user interface of mobile device this incoming call of automatic-answering back device.In addition, processor stops generation to be used for any audible alarm that alarm is carried out in this calling.Yet; if outside the time period that timer limits, receive this incoming call message; and the data indication fails to indicate this calling for continuing urgent call or noiseless automatic-answering back device, then at step 316 processor so that for the normal or standard call process of this incoming call execution.Thereby in the 4th embodiment, time period and data indicator variable are independently, and have advantageously provided the specific installation that is used for initiating automatic/silent answer.After step 332, should continue in mobile device automatic-answering back device in the situation of urgent call, mobile device will as step 322 indicated keep this continuation urgent call.Provide such as flow chart, can come as required these steps of repetition.Continue urgent call and guarantee during the urgent call between mobile device and the PSAP entity, can suitably transmit the information that is necessary, so that can suitably deal with an urgent situation.
In a particular embodiment, the disconnection of urgent call is to be caused by the mobile device that situation outside the wireless network coverage occurs in step 328.After the situation, processor can identify the situation in the wireless network coverage that obtained outside the wireless network coverage that causes urgent call to disconnect.As response, processor is to wireless network transmissions message.It is again available to identify this mobile device that wireless network receives this message, and this message or corresponding message can be transferred into the PSAP entity to indicate mobile device again available.After this, as the response to this message, the PSAP entity is so that continue urgent call to mobile device.
Fig. 5 shows the illustrative of incoming call message 502 and describes, this incoming call message 502 can have data indication 506, described data indication 506 is in one or more data segments, whether indication incoming call message 502 is for the continuation urgent call (that is, noiseless/automatic-answering back device) of mobile device.In this embodiment, incoming call message 502 is radio or air-interface information of broadcasting by control or paging channel on wireless network.According to environment or content, incoming call message 502 can be or be called beep-page message, call control message or call setup message.If data indication 506 is bit indications, for example can to indicate incoming call be to continue urgent call (namely to bit " 1 ", calling for noiseless and/or automatic-answering back device), and bit " 0 " can to indicate incoming call be not to continue urgent call (that is, not for the calling of noiseless and/or automatic-answering back device).Incoming call message 506 also comprises other relevant information, as, identify uniquely the mobile logo symbol 504 of the mobile device that this incoming call will mail to.When message that monitoring is broadcasted, the processor of mobile device operates that the mobile logo symbol of mobile logo symbol 504 with himself storage compared, if coupling, then processor is carried out the action of describing about the step 314 of Fig. 3.
Notice, can also order mobile device voicelessly to reply this incoming call and do not produce the report to the police audible alarm of this calling to the end user for the identical data of automatic-answering back device indication 506.In alternative, usage data indication 506 indicates this incoming call to come automatic-answering back device by mobile device, but with indicating 506 different independent data to indicate to indicate whether voicelessly to reply this incoming call from data in the incoming call message.
Referring to Fig. 9, show the relevant portion of call flow diagram 900, so that the at once connection features that can use to be described in the call treatment of the present disclosure for the GSM/GPRS network.As describing in the GSM specification document, the GSM call control layer of call flow diagram 900 movement-based equipment is processed.Notice that MNCC is the acronym that the mobile network calls out control, MMCC is the acronym that control is called out in mobile management.This processing can be undertaken by the step 312,314,316 and 320 of Fig. 3.Begin in step 904 (U9 MT CALL CONFIRMED), mobile device receives common non-emergency call in step 904, mobile device proceeds to step 906 (DR (ALERT)) after MNCC_ALERT_REQ, then carry out step 908 (U7 CALL RECEIVED), then after MNCC_SETUP_RESP, carry out step 910 (DR (CONN)), then carry out step 912 (U8 CONNECTREQUEST).Yet, for continuing urgent call (perhaps noiseless/automatic call), then the step 902 (DR (CONN)) of handling process after step 904 (MTCALL CONFIRMED) proceeds directly to MNCC_SETUP_RESP carry out step 912 (U8 CONNECT REQUEST).Obviously, mobile device stops the step 906,908 and 910 of carrying out for continuing urgent call (that is, noiseless/automatic call), but carries out MNCC_SETUP_RESP and step 902.This is through with about the discussion of Fig. 9.
Preferably, the calling of this mobile device is carried out automatically and/or silent answer, and with that can provide for mobile device and irrelevant by other programmable data indication of mobile device use.In order to illustrate, Fig. 6 is that the illustrative of the memory 602 of mobile device is described, and can store programmable data indication 604 and 606 in this memory 602.Programmable data indication 604 is used for for the incoming call to mobile device audible alarm answer-mode or silent answer pattern being set, and programmable data indication 606 is used for for the incoming call to mobile device manual answer mode or autoanswer mode being set.The part able to programme of programmable data indication 604 and 606 is that the end user can change these patterns when needed.The pattern of mobile device can control and/or select based on the user input signal that receives via the user input device of user interface to processor.User input device can be or comprise for example one or more buttons or the key of mobile device.In response to end user's locking key or key, processor can provide for example selection between the pattern or switching.Preferably, processor is so that the graphic user interface (GUI) that provides in visual display unit or present, and described graphic user interface comprises GUI button or the menu list of selecting for the end user between different mode.
Equally, the indication of the programmable data of Fig. 6 is used for for the incoming call of mobile device audible alarm answer-mode or silent answer pattern being set.If the programmable data indication is the bit indication, then for example bit " 0 " can be indicated and will be used audible alarm answer-mode and bit " 1 " to use the silent answer pattern to incoming call by pointer for incoming call.Notice, can be used as the opposite bit definitions of alternative use or other bit configuration.For example, bit " 0 " can be indicated the equipment setting that will use for incoming call, and bit " 1 " can be indicated and will be used long-range silent answer control for incoming call.Typically, when the incoming call message of normal calling voice being called out when processor received and enables to mobile device and audible alarm answer-mode, processor was so that produce audible alarm with to this incoming call of end user's alarm via user interface.On the other hand, when the incoming call message of normal calling voice being called out when processor receives and enables to mobile device and silent answer pattern, processor stop via user interface produce be used for to this incoming call of end user's alarm any audible alarm.Yet, if programmable data indication 606 is set to enable the audible alarm answer-mode, but the incoming call message that calling voice is called out has the data indications (for example referring to Fig. 5) of replying for noiseless (automatically), and then processor still stops via the user interface generation for any audible alarm to this incoming call of end user's alarm.For an example truth table logic of this function, referring to following table 1.
Indicated by the programmable data that the end user arranges Data indication from radio message Consequent pattern
Audible alarm Without long-range silent answer control Audible alarm
Audible alarm Enable long-range silent answer Silent answer
Silent alarm Without long-range silent answer control Silent answer
Silent alarm Enable long-range silent answer Silent answer
Table 1 is for the truth table logic of the warning mode of mobile device
On the other hand, the programmable data of Fig. 6 indication 604 is used for arranging manual answer mode or the autoanswer mode of mobile device.If the programmable data indication is the bit indication, then for example bit " 0 " can be indicated and will be used manual answer mode and bit " 1 " can indicate and will use autoanswer mode for incoming call for incoming call.Notice, can be used as the opposite bit definitions of alternative use or other bit configuration.For example, bit " 0 " can indicate equipment setting and the bit " 1 " that will use for incoming call can indicate and will use remote auto to reply control for incoming call.Typically, when the incoming call message of normal calling voice being called out when processor receives and enables to mobile device and manual answer mode, processor only when the manual answering signal that detects via user interface by end user's input just so that reply this calling voice calling.On the other hand, when the incoming call message of normal calling voice being called out when processor received and enables to mobile device and autoanswer mode, processor was so that this calling voice of automatic-answering back device is called out and do not detect any manual answering signal by end user's input via user interface.Yet, when programmable data indication 604 is set to enable manual answer mode, but when being used for incoming call message that calling voice calls out and having the data indication of replying for automatically (noiseless) (for example referring to Fig. 5), processor is still so that any manual answering signal of end user's input is called out and do not detected via user interface to this calling voice of automatic-answering back device.For an example truth table logic of this function, referring to following table 2.
Indicated by the programmable data that the end user arranges Data indication from radio message Consequent pattern
Manual answering Reply control without remote auto Manual answering
Manual answering Enabling remote auto replys Automatic-answering back device
Automatic-answering back device Reply control without remote auto Automatic-answering back device
Automatic-answering back device Enabling remote auto replys Automatic-answering back device
Table 2 is for the truth table logic of the answer-mode of mobile device
In another scene, the programmable data of Fig. 6 indication 606 is used for for the incoming call of mobile device audible alarm answer-mode or silent answer pattern being set equally.Yet, when programmable data indication 606 is set to enable the audible alarm answer-mode, when but the incoming call message that calling voice is called out has for the data indication of noiseless and automatic-answering back device (for example, referring to Fig. 5), processor stops via the user interface generation for any audible alarm to this incoming call of end user's alarm, and so that automatic-answering back device should be called out (that is, equipment arranges capped).Yet as long as the incoming call message that calling voice is called out has for the data indication that arranges without automatic/silent answer, the equipment setting just is used and is not covered by the indication of the data in the radio message.For an example truth table logic of this function, referring to following table 3.
Indicated by the programmable data that the end user arranges Data indication from radio message Consequent pattern
Audible alarm Without remote auto/silent answer control Such as the set manual answering with audible alarm of end user
Audible alarm Enable remote auto/silent answer Automatically/silent answer
Silent alarm Without remote auto/silent answer control Such as the set manual answering with silent alarm of end user
Silent alarm Enable remote auto/silent answer Automatically/silent answer
Table 3 is for the truth table logic of the answer-mode of mobile device
Referring now to Fig. 4,, show the flow chart for the conventional method that the urgency communication of mobile communication equipment is processed that in cordless communication network, uses, this mobile communication equipment can be according to operating about the described method of Fig. 3.Can use one or more network processing units, memory and transceiver (for example referring to Fig. 1) in cordless communication network, to combine to carry out the method with described related system assembly.Can in the computer program that comprises computer-readable medium (for example memory or computer disk), embody at least a portion of the method, storage can be by the computer instruction of one or more processors (for example, microprocessor) execution in described computer-readable medium.
Begin block 400 places at Fig. 4 begin, and wireless network is suitable for aiding between the mobile communication equipment that runs in the wireless network and public safety answering point (PSAP) entity sets up urgent call (step 402 of Fig. 4).During urgent call, wireless network can be identified calling termination messages or the failure condition (for example, the outer situation of coverage) (step 404 of Fig. 4) that causes urgent call to disconnect.In certain moment after disconnecting, wireless network receives the message (step 406 of Fig. 4) by the continuation urgent call that initiate and mobile device of PSAP entity.PSAP comes to initiate to continue urgent call to mobile device with the ANI that receives in initial urgent call before or calling part ID information.In response to receiving this message, wireless network produces and mails to the incoming call message of mobile device to transmit via wireless network.When producing this incoming call message, wireless network arranges data indications (step 408 of Fig. 4) in the one or more data segments of this incoming call message.This data indication is used for the automatic-answering back device in the situation that does not detect the manual answering signal via its user interface of order mobile device and should calls out.This data indication (perhaps another is indicated) can also be used for the prevention of order mobile device and produce the audible alarm that carries out alarm for to continuing urgent call.Afterwards, wireless network is so that broadcast incoming call message for this continuation urgent call via wireless network, to be received (step 410 of Fig. 4) by mobile device.Mobile device is replied this continuation urgent call in automatic and/or noiseless mode.
About other correlation technique of the present disclosure, notice, can disconnect urgent call as described herein in response to (no matter making by the end user or by the third party) the intentional or involuntary behavior at mobile device place.When this disconnects generation, unless use special technique, otherwise can not or be difficult to communicate between PSAP entity and mobile device in any continuation urgent call.For example, possible mobile device drops, is removed or can't be touched by the user.As another example, the configuration of mobile device can not allow this continuation communication easily.
In order to further specify rear a kind of problem, Fig. 8 a and 8b show the end view of a configuration of mobile device, and this shell 802 of this mobile device provides open position, and (Fig. 8 a) and make position (Fig. 8 b).In the embodiment of Fig. 8 a-8b, shell 802 has first (top) housing parts 804 and second (bottom) housing parts 806, and they link to each other so that the open and close position to be provided by articulated mounting 808.For example, articulated mounting 808 can alternatively be used for providing carriage or the pivoting point device of open and close position.In the embodiment of Fig. 8 a and 8b, the first housing parts 804 carrying display 112 and loud speakers 234, second housing part 806 carrying keyboard 114 and microphones 236.The open position of Fig. 8 a exposes for use display 112, keyboard 114, loud speaker 234 and microphone 236, and the make position of Fig. 8 b covers display 112, keyboard 114, loud speaker 234 and microphone 236 and/or presents inactive display 112, keyboard 114, loud speaker 234 and microphone 236.In Fig. 8 b, apparently, if mobile device is in the close position after the disconnection of urgent call, unless then use special technique, otherwise can not or be difficult in any continuation urgent call, continue communicate by letter.
In order to address this problem, one type the mobile device that can use in these technology is configured to optionally provide hand-held set call mode and the speaker-phone call mode for audio call.Except conventional handset speaker and microphone, also provide speaker-phone transducer (for example speaker-phone transducer 810 of Fig. 8 a and 8b).Such as example among Fig. 8 and the 8b, can provide this speaker-phone transducer 810 at outside or the offside of the shell that handset speaker 234 and microphone 236 are provided.
In order to further specify, Fig. 7 shows the block diagram of the function that is associated with the call mode of the audio call of mobile device.The call mode of mobile device comprises hand-held set call mode 702 and speaker-phone or " hands-free " call mode 704.Commutation circuit 706 can be coupled to and be controlled by the processor of mobile device, to switch between hand-held set call mode 702 and speaker-phone call mode 704.
For hand-held set call mode 702, handset speaker and microphone (comprising the circuit that it is associated) that processor is enabled mobile device via commutation circuit carry out listening and speaking to be respectively applied to the end user during audio call.When being activated, handset speaker/microphone and the circuit that is associated provide limited privately owned geographic range for the transmission of the audio signal of audio call.In order during audio call, to communicate efficiently for 702 times at the hand-held set call mode, the end user holds portable terminal (for example portable handset equipment) and places it in end user's head next door so that handset speaker and end user's ear is adjacent and the hand-held set microphone near end user's mouth.Otherwise the undercapacity of audio signal is so that audio signal is sent to the opposing party of end user and calling.
For speaker-phone call mode 704, processor is enabled the alternative transducer (loud speaker/microphone) (comprising the circuit that it is associated) of mobile device via commutation circuit 706, carries out listening and speaking for the end user during audio call.Notice and speaker-phone call mode 704 can be called or alternatively be called " hands-free " call mode.When being activated, speaker-phone transducer and the circuit that is associated provide wider broadcasting geo scope to transmit the audio signal of audio call.In order during audio call, to communicate for 704 times at the speaker-phone call mode, the end user is placed on suitable distance (for example within 0.5-1.5 rice or between them) with mobile device, is handed or is placed on the suitable surface by the end user.In speaker-phone call mode 704, the audio signal of audio call has the opposing party that enough intensity fully is sent to end user and calling, and and the range-independence between mobile device and the end user.
Processor can be based on the call mode of controlling and/or select mobile device from the input 710 of the user input device of user interface.This user input device can be or comprise for example one or more buttons or the key of mobile device.In response to end user's locking key or key, processor can be in the selection or the switching that are provided at during the audio call between hand-held set call mode 702 and the speaker-phone call mode 704.Thereby processor can detect from the manual speaker-phone activation signal end user, that be used for activating speaker-phone call mode 704 via user interface.Preferably, processor is so that provide or present graphic user interface (GUI) at visual display unit, and this graphic user interface comprises that GUI button or menu list select between hand-held set call mode 702 and speaker-phone call mode 704 for the end user.
In addition or alternatively, the call mode (referring to for example Fig. 5) that processor can be controlled mobile device based on input 712, described input 712 with indicate corresponding from the data in the one or more data segments of the incoming call message of PSAP entity.If the data indication is the bit indication, then for example, bit " 0 " can be indicated and will be used hand-held set call mode 702, and bit " 1 " can be indicated and will be used speaker-phone call mode 704.Notice and can be used as the opposite bit definitions of alternative use or other bit configuration.For example, bit " 0 " can be indicated the equipment setting that will use for preference pattern 702 or 704, and bit " 1 " can be indicated and will be used the speaker-phone call mode 704 (that is, equipment arranges capped) of enabling for the remote speaker phone.Except the indication of this data is provided for incoming call message or alternative as it, can during calling out, any appropriate message that is sent to mobile device from the PSAP entity, provide this data indication (namely, in calling is carried out, be received in the data indication of setting up in the message that sends after the Traffic Channel).
If use simultaneously input 710 (that is, user's input selection) and input the call mode that 712 (that is, the data indication in the radio message) all are used for selecting mobile device, then can provide logic 708.Can in mobile device, provide logic 708 with the hardware of control processor or the form of software.Shown in the example of Fig. 7, logic 708 can be OR-gate or its function equivalent.Preferably, logic 708 can be suitable for operating according to the truth table that provides in the following table 4:
User input signal from user input device Data indication from radio message Consequent call mode
Hand-held set Control without the remote speaker phone Hand-held set
Hand-held set Enable the remote speaker phone Speaker-phone
Speaker-phone Control without the remote speaker phone Speaker-phone
Speaker-phone Enable the remote speaker phone Speaker-phone
Table 4 is for the truth table logic of call mode
Although example is provided, yet can select with the logic of any adequate types the call mode of mobile device.
Thereby, although mobile device may drop during urgent call, be removed or can't be touched by the user, yet by using the control of speaker-phone call mode, continuation communication between PSAP entity and mobile device effectively (for example can still be, the PSAP entity can be heard the end user at least, perhaps instructs at least the end user or communicates by letter with the end user).When the mobile device configuration did not allow to continue communication, continuing communication still was possible (for example referring to the discussion relevant with 8b with Fig. 8 a).
In alternative, can initiate the automatic-answering back device of the data indication in using radio message and Long-distance Control and the selection at the mobile device place under the call mode by PSAP or other third party entity, and any urgent call of carrying out with the end user maybe any disconnection of this calling have nothing to do.The calling that this entity carries out mobile device can only be noiseless or secret stealth call (as mentioned above, enabling or do not enabling in the situation of speaker-phone call mode), this stealth call is need to not carry out in response to the mobile initiation urgent call of any disconnection.For example, relate to illegally (unlawful) or illegal (illicit) behavior in response to the end user who identifies mobile device, can carry out noiseless or stealth call to this mobile device from entity.Do not disconnect owing to do not have in this embodiment the mobile calling of initiating or call out, therefore in this alternative, do not use the timer for the time period after disconnecting in the mobile device.Otherwise employed technology can be identical or similar with above-mentioned those technology.Alternatively, receive signal or the message (urgent or non-emergent) of initiating from mobile device in response to entity, can carry out from entity to mobile device this noiseless or secret calling (as mentioned above, enabling or do not enabling in the situation of speaker-phone call mode).Preferably, this message is emergency message, this emergency message can be end user's short-text message (for example, Short Message Service or SMS message) or Email (e-mail) message of receiving via the user interface of mobile device and sending via wireless network for example.Employing can be urgent or non-emergent message with this message detection about the step 306 of Fig. 3 and the technology of describing is identical or similar techniques (that is, detecting predetermined codes or predesignated subscriber's input selection).In this certain candidate embodiment, can adopt the mode identical or similar with the time period after urgent call disconnects, come in mobile device, to use the timer for the time period after initial movable is initiated signal or message.
Thereby, use at mobile communication equipment, to the alternative approach of processing via the incoming call of cordless communication network in, the step of method comprises: monitor to receive the incoming call message for incoming call via cordless communication network; Receive the data indication in the one or more data segments of this incoming call message; If this this incoming call message of data indication indication is for noiseless automatic-answering back device, then: stop in the generation of mobile communication equipment place for the audible alarm that incoming call is carried out alarm; And so that in the situation that does not detect the manual answering signal via the user interface of mobile communication equipment, automatically reply this incoming call by mobile communication equipment; Otherwise, if data indications fails to indicate this incoming call message for noiseless automatic-answering back device, then: stop so that in the situation that does not detect the manual answering signal by this incoming call of mobile communication equipment automatic-answering back device; And in response to detect the manual answering signal via user interface, so that this incoming call is replied.
According to main religious doctrine of the present disclosure, described and disconnect the method and apparatus that urgent call is communicated by letter and processed with other to what relate to mobile communication equipment.In an illustrative embodiment, mobile communication equipment is via the urgent call of cordless communication network foundation with public safety answering point entity.If urgent call disconnects, then mobile device monitors to receive the incoming call message for the continuation urgent call from public safety answering point entity.In response to receiving this incoming call message, mobile device stops and produces audible alarm and automatically reply continuation urgent call from public safety answering point entity in the situation that does not detect any manual answering signal via its user interface.In a concrete grammar, if this message of data indication indication that receives this incoming call message and this incoming call message in the time period after disconnecting is for continuing urgent call or automatic-answering back device, then mobile device automatic-answering back device should be called out.Otherwise, if receive this incoming call message outside this time period after disconnecting, if perhaps the data indication fails to indicate this incoming call message for continuing urgent call or automatic-answering back device, then the mobile device prevention is carried out automatic-answering back device to the calling that is associated with incoming call message.
Another illustrative method of being used by the mobile communication equipment that is applicable to communicate via cordless communication network comprises: the message that receives the data indication that has in one or more data segments at cordless communication network; If the data indication indication from this message will be used the speaker-phone call mode, then enable the speaker-phone call mode of mobile communication equipment to carry out audio call; Otherwise, if will enable the hand-held set call mode from the data indication indication of this message, then enable the hand-held set call mode of mobile communication equipment to carry out audio call.The method can also be included in not in the situation that user interface via mobile communication equipment detects the manual answering signal so that mobile communication equipment automatic-answering back device from the audio call of third party entity.
Although have illustrated and described the preferred embodiments of the present invention, be not limited to this yet should understand the present invention.Do not breaking away under the prerequisite of the spirit and scope of the present invention as defined by the appended claims, those skilled in the art can make many modifications, change, modification, replace and be equal to.

Claims (20)

  1. One kind that used by mobile communication equipment, the calling voice via cordless communication network is called out the method for processing, described method comprises following action:
    Monitor to receive via described cordless communication network and be used for setting up the incoming call message that calling voice is called out with calling entity;
    Be received in the data indication in the one or more data segments in the described incoming call message;
    If described data indication indication is used for setting up incoming call message that calling voice calls out for noiseless automatic-answering back device, then with calling entity:
    Prevention produces at described mobile communication equipment place and is used for described calling voice is called out the audible alarm that carries out alarm;
    In the situation that does not detect the manual answering signal via the user interface of described mobile communication equipment, called out by the described calling voice of described mobile communication equipment automatic-answering back device;
    Otherwise, if described data indications fails to indicate for setting up incoming call message that calling voice calls out for noiseless automatic-answering back device, then with calling entity:
    Prevention is automatically replied described calling voice by described mobile communication equipment and is called out in the situation that does not detect the manual answering signal; And
    In response to detecting the manual answering signal via described user interface, described calling voice calling is replied.
  2. 2. method according to claim 1, wherein, if the described incoming call message of described data indication indication is for noiseless automatic-answering back device, then described calling voice is called out and is comprised that emergency voice calls and described calling entity comprise public safety answering point entity.
  3. 3. method according to claim 1, wherein, described user interface comprises a plurality of keys, loud speaker and microphone, and the action of being called out by the described calling voice of described mobile communication equipment automatic-answering back device also comprises enables described microphone with the action of the earcon that receives described mobile communication equipment place.
  4. 4. method according to claim 1, wherein, described mobile communication equipment comprises memory, described memory is included in the one or more data segments, be used for for call out the programmable data indication that one of manual answer mode and autoanswer mode are set to the calling voice of described mobile communication equipment, and wherein, being used for setting up incoming call message that calling voice calls out with calling entity in described data indication indication is in the situation for noiseless automatic-answering back device, even if when manual answer mode has been enabled in described programmable data indication indication, also carry out the action of in the situation that does not detect the manual answering signal, being called out by the described calling voice of described mobile communication equipment automatic-answering back device.
  5. 5. method according to claim 1, wherein, described mobile communication equipment comprises memory, described memory is included in the one or more data segments, be used for for call out the programmable data indication that one of audible alarm answer-mode and silent answer pattern are set to the calling voice of described mobile communication equipment, and wherein, being used for setting up incoming call message that calling voice calls out with calling entity in described data indication indication is in the situation for noiseless automatic-answering back device, even when the audible alarm answer-mode has been enabled in described programmable data indication indication, also carry out prevention and produce the action that is used for described calling voice is called out the audible alarm that carries out alarm at described mobile communication equipment place.
  6. 6. method according to claim 1 also comprises:
    Voicelessly and automatically replying after described calling voice calls out, the positional information of described mobile communication equipment is being sent to receiving entity.
  7. 7. method according to claim 1 also comprises:
    Via the message request of described user interface reception for message;
    Send described message via described cordless communication network;
    Running timer, described timer limits the time period that begins from sending described message;
    Be received in the data indication in the one or more data segments in the described incoming call message;
    If within the described time period, receive the described incoming call message of described incoming call message and described data indication indication for noiseless automatic-answering back device, then in the situation that does not detect the manual answering signal, called out by the described calling voice of described mobile communication equipment automatic-answering back device; And
    If outside the described time period, receive described incoming call message, if perhaps described data indication fails to indicate described incoming call message for noiseless automatic-answering back device, then stop and in the situation that does not detect the manual answering signal, automatically reply described calling.
  8. 8. method according to claim 1 also comprises:
    Via the request of described user interface receipt message;
    If described message request for non-emergent message, then sends described non-emergent message via described cordless communication network;
    If described message request is for emergency message, then:
    Running timer, the time period that described timer definition begins from sending described emergency message;
    Be received in the data indication in the one or more data segments in the described incoming call message;
    If within the described time period, receive described incoming call message, and the described incoming call message of described data indication indication is then called out by the described calling voice of described mobile communication equipment automatic-answering back device in the situation that does not detect the manual answering signal for noiseless automatic-answering back device; And
    If outside the described time period, receive described incoming call message, if perhaps described data indication fails to indicate described incoming call message for noiseless automatic-answering back device, then stop the described calling voice calling of automatic-answering back device in the situation that does not detect the manual answering signal.
  9. 9. method according to claim 1, wherein, described mobile communication equipment has hand-held set call mode and speaker-phone call mode, and described method also comprises following action:
    If the described incoming call message of described data indication indication is then enabled the speaker-phone call mode of described mobile communication equipment for noiseless automatic-answering back device in the situation that does not detect manual speaker-phone activation signal via described user interface.
  10. 10. method according to claim 1, the method embodies with computer program, described computer program comprises computer-readable medium and the computer instruction of storing in described computer-readable medium, wherein, the one or more processors of described mobile communication equipment can be carried out described computer instruction to carry out described method.
  11. 11. used by mobile communication equipment, the device to processing via the calling voice calling of cordless communication network, described device comprises:
    Be used for monitoring to receive the unit that is used for setting up with calling entity the incoming call message of calling voice calling via described cordless communication network;
    Unit for the indication of the data in the one or more data segments that are received in described incoming call message;
    Be used for setting up incoming call message that calling voice calls out for noiseless automatic-answering back device with calling entity if be used for described data indication indication, then stop to produce at described mobile communication equipment place to be used for described calling voice called out the audible alarm that carries out alarm and the unit by the described calling voice calling of described mobile communication equipment automatic-answering back device in the situation that does not detect the manual answering signal via the user interface of described mobile communication equipment;
    Fail to indicate for setting up incoming call message that calling voice calls out for noiseless automatic-answering back device with calling entity if be used for described data indication, then stop in the situation that does not detect the manual answering signal and to be replied automatically by described mobile communication equipment that described calling voice is called out and described calling voice is called out the unit of replying in response to detect the manual answering signal via described user interface.
  12. 12. device according to claim 11, wherein, if the described incoming call message of described data indication indication is for noiseless automatic-answering back device, then described calling voice is called out and is comprised that emergency voice calls and described calling entity comprise public safety answering point entity.
  13. 13. device according to claim 11, wherein, described user interface comprises a plurality of keys, loud speaker and microphone, and the unit of calling out by the described calling voice of described mobile communication equipment automatic-answering back device also comprises be used to enabling the unit of described microphone with the earcon that receives described mobile communication equipment place.
  14. 14. device according to claim 11, wherein,
    Described mobile communication equipment comprises memory, and described memory is included in programmable data indication in the one or more data segments, that be used for arranging for the calling voice calling to described mobile communication equipment one of manual answer mode and autoanswer mode; And
    Described device comprises that also for be used for setting up incoming call message that calling voice calls out with calling entity in described data indication indication be in the situation for noiseless automatic-answering back device, even if when manual answer mode has been enabled in described programmable data indication indication, the unit of also in the situation that does not detect the manual answering signal, calling out by the described calling voice of described mobile communication equipment automatic-answering back device.
  15. 15. device according to claim 11, wherein,
    Described mobile communication equipment comprises memory, and described memory is included in programmable data indication in the one or more data segments, that be used for arranging for the calling voice calling to described mobile communication equipment one of audible alarm answer-mode and silent answer pattern; And
    Described device comprises that also for be used for setting up incoming call message that calling voice calls out with calling entity in described data indication indication be in the situation for noiseless automatic-answering back device, even when the audible alarm answer-mode has been enabled in described programmable data indication indication, also stop at described mobile communication equipment place to produce for the unit of described calling voice being called out the audible alarm that carries out alarm.
  16. 16. device according to claim 11 also comprises:
    Be used for after voicelessly and automatically replying described calling voice calling, the positional information of described mobile communication equipment being sent to the unit of receiving entity.
  17. 17. device according to claim 11 also comprises:
    Be used for via the unit of described user interface reception for the message request of message;
    Be used for sending via described cordless communication network the unit of described message;
    The unit that is used for running timer, described timer limits the time period that begins from sending described message;
    Unit for the indication of the data in the one or more data segments that are received in described incoming call message;
    If be used within the described time period, receiving described incoming call message and the described incoming call message of described data indication indication for noiseless automatic-answering back device, the unit of then in the situation that does not detect the manual answering signal, being called out by the described calling voice of described mobile communication equipment automatic-answering back device; And
    If be used for outside the described time period, receiving described incoming call message, if perhaps described data indication fails to indicate described incoming call message for noiseless automatic-answering back device, then stop the unit of in the situation that does not detect the manual answering signal, automatically replying described calling.
  18. 18. device according to claim 11 also comprises:
    Be used for the unit via the request of described user interface receipt message;
    If be used for described message request for non-emergent message, then send the unit of described non-emergent message via described cordless communication network;
    If be used for described message request for emergency message, then carry out the unit of following operation:
    Running timer, the time period that described timer definition begins from sending described emergency message;
    Be received in the data indication in the one or more data segments in the described incoming call message;
    If within the described time period, receive described incoming call message, and the described incoming call message of described data indication indication is then called out by the described calling voice of described mobile communication equipment automatic-answering back device in the situation that does not detect the manual answering signal for noiseless automatic-answering back device; And
    If outside the described time period, receive described incoming call message, if perhaps described data indication fails to indicate described incoming call message for noiseless automatic-answering back device, then stop the described calling voice calling of automatic-answering back device in the situation that does not detect the manual answering signal.
  19. 19. device according to claim 11, wherein, described mobile communication equipment has hand-held set call mode and speaker-phone call mode, and described device also comprises:
    If be used for the described incoming call message of described data indication indication for noiseless automatic-answering back device, then in the situation that does not detect manual speaker-phone activation signal via described user interface, enable the unit of the speaker-phone call mode of described mobile communication equipment.
  20. 20. a wireless communication system comprises:
    Cordless communication network;
    The a plurality of mobile communication equipments that in described cordless communication network, move; And
    Each mobile communication equipment is suitable for according to claim 11 that any one described device operates in 19.
CN2008801018433A 2007-06-08 2008-06-06 Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices and the remote monitoring of the mobile communication devices thereof Active CN101772968B (en)

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US11/760,120 US7933581B2 (en) 2007-06-08 2007-06-08 Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices and the remote monitoring thereof
EP07109922.0 2007-06-08
US11/760,120 2007-06-08
EP07109922.0A EP2001253B1 (en) 2007-06-08 2007-06-08 Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices and the remote monitoring thereof
PCT/CA2008/001090 WO2008148213A1 (en) 2007-06-08 2008-06-06 Methods and apparatus for use in processing disconnected emergency calls and other communications involving mobile communication devices and the remote monitoring thereof

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Families Citing this family (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2548387A1 (en) 2010-03-19 2013-01-23 Nokia Corp. Method and apparatus for emergency call handling
JP5418394B2 (en) 2010-04-28 2014-02-19 ブラザー工業株式会社 Wireless communication device
US8594614B2 (en) * 2011-01-04 2013-11-26 Blackberry Limited Handling emergency calls on an electronic device
EP2472839B1 (en) * 2011-01-04 2015-12-23 BlackBerry Limited Handling emergency calls on an electronic device
EP3043540A1 (en) 2015-01-12 2016-07-13 Alcatel Lucent Control of user equipment functionality
US20180324300A1 (en) * 2017-05-08 2018-11-08 Qualcomm Incorporated Emergency call detection system
CN111836246B (en) * 2019-08-12 2023-03-14 维沃移动通信有限公司 Service optimization method, communication device, and storage medium
US11995978B1 (en) 2021-07-28 2024-05-28 T-Mobile Usa, Inc. Emergency alert systems and methods for differently abled persons

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1422507A (en) * 2000-04-10 2003-06-04 诺基亚有限公司 Telephony services in a mobile IP network
US20040257274A1 (en) * 2003-06-23 2004-12-23 Lucent Technologies Inc. Network support for access to location information of a mobile device
US20060003775A1 (en) * 1999-01-08 2006-01-05 Bull Jeffrey F Advanced triggers for location-based service applications in a wireless location system
CN1748439A (en) * 2003-02-07 2006-03-15 摩托罗拉公司 Priority e911 call back during access class restrictions
CN1878401A (en) * 2006-01-24 2006-12-13 华为技术有限公司 Mobile terminal urgent call call-back method and system

Family Cites Families (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3083752B2 (en) * 1996-03-01 2000-09-04 三菱電機株式会社 Emergency call control method
US6990349B1 (en) * 1998-11-20 2006-01-24 Nortel Networks Limited System and method for reconnecting a mobile station to an emergency operator
JP3600463B2 (en) * 1998-12-24 2004-12-15 株式会社東芝 Mobile radio terminal
CA2360130C (en) * 1999-01-08 2006-10-03 Trueposition, Inc. Bandwidth synthesis for wireless location system
DE60001443T2 (en) * 2000-01-31 2003-11-20 Lucent Technologies Inc., Murray Hill Method and device for automatic call recovery in a communication system
JP3613115B2 (en) * 2000-02-09 2005-01-26 株式会社デンソー Emergency call device
JP2003209885A (en) * 2002-01-16 2003-07-25 Toshiba Corp Communication terminal
US7231232B2 (en) * 2002-02-13 2007-06-12 Osann Jr Robert Courtesy answering solution for wireless communication devices
US7676215B2 (en) * 2002-10-16 2010-03-09 Alcatel Lucent Usa Inc. Emergency call back method

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060003775A1 (en) * 1999-01-08 2006-01-05 Bull Jeffrey F Advanced triggers for location-based service applications in a wireless location system
CN1422507A (en) * 2000-04-10 2003-06-04 诺基亚有限公司 Telephony services in a mobile IP network
CN1748439A (en) * 2003-02-07 2006-03-15 摩托罗拉公司 Priority e911 call back during access class restrictions
US20040257274A1 (en) * 2003-06-23 2004-12-23 Lucent Technologies Inc. Network support for access to location information of a mobile device
CN1878401A (en) * 2006-01-24 2006-12-13 华为技术有限公司 Mobile terminal urgent call call-back method and system

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