Mobile communication method (versions), mobile station and base station |
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IPC classes for russian patent Mobile communication method (versions), mobile station and base station (RU 2544795):
  
 Method and apparatus for reliable remote payments / 2544794
Invention relates to a method, a computer-readable medium and a mobile computing device for conducting remote payment transactions. The method comprises steps of establishing trust relations between a first and a second mobile computing device, wherein the second mobile computing device stores payment information associated with a user of said device, in order to conduct an electronic payment transaction using the second mobile computing device; initiating, using the first mobile computing device, a point-of-sale terminal payment transaction; communicating, using the first mobile computing device, with the second mobile computing device over a network in order to receive payment information from the second mobile computing device; and completing, using the first mobile computing device, the payment transaction using the point-of-sale terminal, using the payment information received from the second mobile computing device.
 Method and device for implementing cognitive network / 2544792
Invention relates to telecommunication. The method includes steps of: determining a type of a received network task; according to the type of the received network task, selecting a cognitive capability identifier corresponding to the type of the network task, where the cognitive capability identifier is configured to identify a cognitive capability of a network device; using network devices with the cognitive capability identifier as alternative network devices; determining an alternative network device that is among the alternative network devices and has a cognitive capability that meets a condition for performing the network task is a target network device; and controlling the target network device to perform the network task. In the method of implementing a cognitive network disclosed in the present invention, the cognitive capability of each network device is identified through cognitive capability identification on network devices to clearly embody a difference between the network devices, it is evaluated, according to the cognitive capability identifiers of different devices, whether the network devices need to perform a network task, and a device that meets the condition for performing the network task is selected, in order to ensure that the network task is smoothly performed. A method and a device for implementing a cognitive network are disclosed.
 Method for setting subbands in multicarrier communication system and radio base station apparatus / 2544781
Group of inventions relates to mobile radio communication. In the apparatus, a modulating unit modulates encoded Dch data to generate Dch data symbols. The modulating unit modulates encoded Lch data to generate Lch data symbols. An assigning unit assigns the Dch and Lch data symbols to subcarriers constituting OFDM symbols and outputs them to a multiplexing unit. At the same time, the assigning section assigns a set of Dch and Lch data symbols to each subcarrier for a respective subband.
 Supporting downlink, dl, triggered cqi feedback on hs-dpcch channel in cell in cell-fach state / 2544758
Disclosed is initiating and operating a high-speed dedicated physical control channel, HS-DPCCH, to report a current channel quality indicator, CQI. User equipment, UE, may receive a high speed-shared control channel, HS-SCCH, command from a Node B triggering a feedback response (i.e. a feedback regarding CQI and/or ACK/NACK on the HS-DPCCH channel). The UE may perform a physical random access channel (PRACH) procedure in response to receiving the command, and may also initiate a collision resolution procedure. The user equipment may transmit a current channel quality indicator (CQI) of the user equipment on a high-speed dedicated physical control channel (HS-DPCCH) prior (before, beforehand) to achieving collision resolution (i.e. a result from the collision resolution procedure).
 Wireless base station device using cooperative harq transmission system, wireless terminal device, wireless communication system and wireless communication method / 2544746
Invention relates to the technology of a cooperative transmission system which uses a distributed antenna. In a transmitting device at the serving eNB side, a first packet transmitting unit carries out an operation for packet transmission of retransmitted data. On the other hand, in a transmitting device at a cooperative eNB side, a second packet transmitting unit carries out an operation of transmitting a new data packet corresponding to information transmitted from the serving eNB by a packet transmitting unit. Control information on transmission by the serving eNB and the cooperative eNB to UE is transmitted only through a PUCCH from the UE to the serving eNB and a PDCCH from the serving eNB to the UE. The serving eNB and the cooperative eNB transmit the new data packet and the communication control information or the like through an X2 interface.
 Method and apparatus for reporting measurement data / 2544236
Invention relates to communication systems. Disclosed is a method of reporting measurement data, which includes initiating a plurality of measurements by user equipment to provide measurement data; initiating transmission, from the user equipment to a network element, a message indicating presence of measurement data; and in response to a message coming from said network element and requesting said measurement data, initiating a response transmitted from said user equipment to said network element and containing only part of said measurement data, as well as information indicating presence of additional measurement data.
 Method and device for data processing in communication network / 2544235
Invention relates to a wireless communication system which employs a discontinuous reception (DRX) function and is intended for efficient use of the DRX function.
 Home evolved node b (henb) blind detection for hierarchy configuration / 2544234
Invention relates to communication engineering and can be used for blind detection performed by a home base station (eNodeB). An apparatus for determining a synchronisation level comprises deciding means configured to decide whether or not a predefined condition is met; receiving means configured to receive a first signal at predefined mute time intervals; control means configured to control time synchronisation based on a first signal; inhibiting means configured to inhibit sending a second signal at said predefined mute time intervals, if the deciding means decides that the predefined condition is met, wherein the second signal corresponds to the first signal; monitoring means configured to monitor, if the first signal is received at the defined mute time intervals, if the deciding means decides that the predefined condition is met, and determining means configured to determine a first mute time interval based on the monitoring results obtained by the monitoring means, and a predefined rule, wherein the first mute time interval is one of the predefined mute time intervals, wherein the monitoring means detects reception of the first signal, wherein, according to said predefined rule, a first synchronisation level is determined, which corresponds to the mute time interval of the received first signal, and a second synchronisation level associated with the apparatus is defined as the next synchronisation level below the first synchronisation level.
 Audibility improvement for reference signals / 2544003
Invention relates to wireless communication engineering and can be used to improve audibility of transmitted reference signals. The method of improving audibility of reference signals in a wireless network includes a wireless communication device selecting one or more subframes as one or more positioning subframes for blanking data transmission; and said wireless communication device indicating one or more of said one or more positioning subframes as one or more multicast/broadcast single frequency network (MBSFN) subframes to additionally blank cell-specific reference signal (CRS) transmission over the one or more MBSFN subframes in a user plane.
 System and method for traffic to pilot power determination in uplink multiple input multiple output transmission / 2544000
Invention relates to wireless communication. Methods and apparatus are provided for uplink MIMO transmissions in a wireless communication system. In particular, scheduled uplink transmission power is allocated between a primary stream including an E-DPDCH and a secondary stream including an S-E-DPDCH. Specifically, a ratio between the power of the E-DPDCH and a primary pilot channel DPCCH, as well as a ratio between the power of the S-E-DPCCH and an unamplified power of the S-DPCCH, each corresponds to a first traffic to pilot power ratio. Further, the transport block size for a primary transport block provided on the E-DPDCH is determined based on the first traffic to pilot power ratio, while the transport block size for a secondary transport block provided on the S-E-DPDCH is determined based on a second traffic to pilot power ratio.
 Method and device for diverting transmission in multiple access wireless communication system / 2343646
Description is given of a method and device for switching wireless terminal channels. For this, several communication channels with different physical characteristics are supported in the cell of the base station. Each wireless terminal controls several channels and evaluates several channels at the same time, such that, there can be fast switching between channels. Information on the quality of the channel is sent from each wireless terminal to the base station. The wireless terminal or base station selects the channel, based on the evaluated quality of the channel. By supporting several channels and through periodical changes in channels in different implementation alternatives, the time taken before the wireless terminal finds good or suitable channel conditions is minimised, even if the wireless terminal changes position. Several antennae are used at the base station for simultaneous support of several channels, for example, through control of the directional pattern of the antennae.
 Method of generating repeating audio signals for call return and device to this end / 2343647
During different set conditions providing source of sound for company service information as substitutive audio signal for call return, receiver can determine whether source of sound for service information for subscriber or set time interval is provided for. Present invention provides for a method and device for obtaining substitutive repeating audio signal for call return based on choice or successively in accordance with a preset condition.
 Access channel with limited reception time / 2343648
Method consists of the following stages: reception of request for channel access from user terminal. Reception of the user terminal can be one of several active user terminals. The transmission cycle duration is determined as a result of reception of a request for channel access. The arrival time of data to the cycle is determined for the user terminal. The arrival time of data to the user terminal is set, so as to designate the channel for the user terminal, starting from the time of arrival of data.
 System and method of band subchannel control with adaptive modulation and coding (amc) in communication system of multiple access with orthogonal-frequency division / 2344548
Method for assignment of band channel with adaptive modulation and coding (AMC) to subscriber stations (SS) is realised in wireless communication system, which separates full range of frequencies into multiple subcarrier bands, every of which represents set from previously specified quantity of subranges, every of which represents set of previously specified quantity of adjacent subcarriers. Method comprises the following stages: necessity in use of band channel with AMC is detected; quality of reception is measured in frequency bands; list of frequency bands with high quality of reception is formed; request is sent for assignment of band channel with AMC as well as foresaid list to base station (BS); response is received to mentioned request from BS; in compliance with response, changeover is done in SS in condition of use of band channel with AMC.
 Method and device of communication for transfer and reception of messages about services to service center or back / 2344568
Service center (SZ) for transmission of information content should not know or define number of person who initiates loading, and sole connection (TKV) of communication from communication device (TKG) to service center (SZ) does not require making another communication contact, at that information content is requested in the first communication session (SI1) with the first notice (SN1) about service from service center (SZ), and is delivered from service center (SZ) in the second communication session (SI2) with at least one notice (SN2) about service.
 System of home register of location for servicing of user of several types of networks / 2344569
System comprises subsystem of all-channel signaling processing, data base subsystem, services processing subsystem and operational maintenance subsystem, at that all subsystems are connected to communication network and accordingly realise information exchange; at that all-channel signaling processing subsystem performs function of OKC-7 processing; data base subsystem is used for storage of user data; services processing subsystem comprises one or more modules for processing of home location register services; operational maintenance subsystem comprises operational maintenance server, services acceptance terminal and close-range terminal of operational maintenance.
 Grouping of pilot-signals and control of sets in communication systems with multiple carriers / 2344570
In one version of realisation access network may assign group identifier (group ID) to every of pilot-signals associated with sector, for instance, on the basis of pilot-signals coverage areas, and transmit pilot-signals with appropriate group ID. PN shift may be used as group ID. Access terminal may group accepted pilot-signals in one or more pilot-signals group according to their group ID, and select representative pilot-signals from every group of pilot-signals for transmission of message about pilot-signal level. Access terminal may also use grouping of pilot-signals for efficient control of sets.
 Method and device for switching between common and individual channels for provisioning of broadcasting content services transmission in wireless telephone network / 2344571
Wireless communication network comprises different base stations and subscriber stations. Every base station provides services of broadcasting content transfer to subscriber stations via communication channels of one of the following types: 1) common channel used by multiple subscriber stations, 2) individual channels, every of which is separated for use by separate subscriber station. In response to one or several preset changes of condition, i.e. change of number of subscriber stations that request the program, change of transmission power level used by base station, or in case of other change of network condition, communication channel type used for provisioning of broadcasting content to one or several subscriber stations is switched over.
 Power control in external circuit for wireless communication systems / 2344572
One version of realisation comprises base station, which controls channel of speed indicator, decodes speed indicator channel with application of likelihood maximum decoder and determines availability of packet in speed indicator channel by comparison of probability to threshold, and analyses frame validity in packet-oriented channel on the basis of availability and content of packets accepted in speed indicator channel.
 Method and device for provisioning of multimedia service of broadcasting/multicasting in system of mobile communication / 2344573
Method and device are provided for provisioning of one or more communication services of point-point set type, such as multimedia service of broadcasting/multicasting (MBMS), to one or more mobile terminals, or subscriber devices (AA). When one or more mobile terminals are moved to new zone of mobile communication system controlled by other network component, after connection to service, information is transmitted between network elements by method.
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FIELD: radio engineering, communication. SUBSTANCE: invention relates to a mobile station, a base station and a mobile communication method. A mobile station receives a control message containing an indicator of the presence of a first access network operating according to a first protocol and can interact with a second access network operating according to a second protocol, different from the first protocol. In response to receiving the indicator, the mobile station performs a procedure for establishing customisation of the mobile station, which determines the configuration thereof, to allow the mobile station to use functions of the first access network which enable to interact with the second access network. EFFECT: enabling a mobile station to use functions of a first access network which enable interaction with a second access network. 23 cl, 4 dwg
Background of the invention Have been proposed or implemented various wireless technologies to allow mobile stations to communicate with other mobile stations or wired stations connected to a wired network. Examples of these technologies include wireless access technology GSM (global system for mobile communications) and UMTS (universal mobile telecommunications system), certain Project third generation partnership (3GPP), and technology multiple access code division multiplexing (CDMA 2000) defined Protocol 3GPP2. CDMA 2000 defines one type of wireless access networks with packet switching, called HRPD (Protocol of the packet data at a high speed) through the network of wireless access. Another modern standard, which provides wireless access networks with packet switching, is the standard long-term development (LTE) of the 3GPP project, which seeks to improve the UMTS technology. The LTE standard is also referred to as standard EUTRA (evolved universal terrestrial radio access). Technology EUTRA, thought to be a fourth generation technology (4G), which pass the operators of wireless networks to improve customer service. Brief description of the invention In General, according to some �the reamers embodiment, the method includes receiving mobile terminal control message containing an indicator of the presence of a first access network that operates according to the first Protocol and which can communicate with the second access network that operates according to the second, a great Protocol. In response to receiving the indicator, the mobile station performs the process for establishing the personalization of the mobile station, which determines its configuration to allow the mobile station to use the functions of the first access network, providing its interaction with the second access network. Other or alternative features will become apparent from the following description with reference to the accompanying drawings and from the points of patenting. Brief description of the drawings Some example embodiments are described with the following drawings: Figure 1 is a block diagram of an exemplary arrangement that includes various types of wireless networks, which can be connected in some example embodiments; Figure 2 - flowchart of the process performed by the mobile station according to some examples of embodiments; Figure 3 - flowchart of the process performed by a base station in wireless access networks according to some examples of embodiments; and Figure 4 - block diagram of the wireless communication terminal according to�ACLs, some examples of implementation. Detailed description The wireless network operators are gradually moving towards fourth generation (4G) wireless networks. One such type of wireless network 4G is a long-term development of the wireless network (LTE), as defined by the project third generation partnership (3GPP). The LTE standard is also referred to as standard EUTRA (evolved universal terrestrial radio access). The transition from CDMA technology (multiple access code division multiplexing 2000), in particular, HRPD (transmission of data packets with high speed), 3GPP2 specific to EUTRA technologies, encompasses a variety of new tasks. A technique which provides a gradual transition from HRPD to EUTRA, includes the use of technologies developed HRPD (eHRPD,). The network of wireless access eHRPD, can communicate with the wireless access network EUTRA. A mobile station which supports eHRPD, that can move between a network access ehrpd, and network access (EUTRA. Additionally, a mobile station that supports eHRPD, can perform the cell reselection in the access networks on EUTRA or eHRPD,. Different wireless protocols may use different types of modulation for wireless communications, such as OFDM (orthogonal multiplexing, frequency division multiplexing), GMSK (manipulation with minimal phase shift, 8PSK (8-fold phase shift keying) �whether CDMA (manipulation code division multiplexing). The mobile communication system supported by the wireless network provider may not be used in all networks the ability to support eHRPD, in HRPD. In other words, certain access network in the HRPD HRPD coverage area defined by the support eHRPD, (these access networks are referred to as access network eHRPD,), while the other access network in the HRPD HRPD coverage area do not support eHRPD, (these access networks are referred to as the HRPD access network). For example, it is possible that only those cells HRPD, which are included in the coverage area of EUTRA or are adjacent to the coverage area of EUTRA, use the HRPD access network. When the mobile station moves from the access network to the HRPD access network eHRPD,, standard mechanisms do not have an effective method of initiating procedures for exchange of data to personalize eHRPD,. For example, the mobile station may enter a conventional HRPD access network and then go to the network access eHRPD,. Personalization eHRPD, includes a configuration that allows a mobile station to use the features of the HRPD access network that enable communication with the EUTRA network. Personalization includes types of protocols (used for personalization Protocol type) and attribute values (the values of the predefined attributes that are important for communication) used for data transmission between the mobile station and the access network. Personalization eHRPD, includes determining ti�and protocols and attribute values, technology eHRPD, that allows a mobile station to use functions eHRPD,. Without the personalization eHRPD, the mobile station will not be able to use the functions eHRPD,. In accordance with one example embodiment, are provided with mechanisms or techniques that allow a mobile station, eHRPD, to effectively determine when the mobile station is located in the access network eHRPD,. This can be accomplished by sending a control message to the mobile station, wherein the control message contains an indicator (or indicators) of one or more access networks, which have eHRPD,. The control message may be sent to eHRPD, the access network, which is connected with the mobile station. In this case, the indicator in the control message is an indication that the access network eHRPD, to which the moved mobile station is operating eHRPD,. Alternatively, the mobile station may be provided with information indicating which of the neighbors of the zone access network in which the mobile station is currently located, have eHRPD,. In this latter case, the control message will contain a number of indicators of neighbors access network in which the mobile station is currently supported eHRPD,. After determining that the mobile station is in the CE�and access, which supports eHRPD,, the mobile station can communicate with personalization eHRPD, to set specific personalization eHRPD, to the mobile station. Although reference is made to HRPD, ehrpd, and EUTRA, note that in a broader sense, the mobile station can receive control message containing an indicator of the presence of the first access network, which can communicate with the second access network, wherein the first access network operates according to the first Protocol and the second network access works on the second, a great Protocol. In response to receiving the indicator, the mobile station performs the process for establishing the personalization of the mobile station, which determines its configuration and allows the mobile station to use the functions of the first access network that enable communication with the second access network. Note that the methods according to some examples of embodiments can be applied to other types of access networks, including, for example, WiMAX (telecommunications technology was developed with the aim of providing a universal wireless communication over large distances for a wide range of devices (as defined by the IEEE 802.16)), WiFi (device for wireless networks based on IEEE 802.11 standard), and other types of access networks. Figure 1 presents an exemplary diagram of pri�tion, which includes various types of access networks, including EUTRA access network 102, the HRPD access network 104 and access network eHRPD, 106. Although figure 1 shows only one EUTRA access network 102, one HRPD access network 104, and one network access eHRPD, 106, note that typically the scheme includes many access networks EUTRA, a lot of HRPD access networks and multiple access networks eHRPD,. As used here, the term "access network" or "wireless network access" refers to the equipment used by the mobile station on the basis of wireless technologies to connect to the access network to access the services provided in the target network, such as network packet data 116. In accordance with the technology EUTRA, the EUTRA access network 102 includes enhanced node B (eNode B), which is a base station. The HRPD access network 104 includes an HRPD base station, and network access eHRPD, 106 includes a base station eHRPD,. The base station can perform one of the following tasks: a radio resource, mobility management to control the movement of mobile stations, direction, graphics, etc. Generally, the term "base station" refers to a base station of the cellular network or an access point used in any type of wireless network or any type of wireless transceiver associated with the mobile stations. The term "base hundred�tion" may also include associated control unit, such as the control unit of the base station or the control unit of the radio network. Provides that the term "base station" also refers to Femto base station or access point, a micro base station or access point or a Pico base station or access point. "Mobile station" may consist of a cellular telephone, portable computer, personal digital Secretary (PDA) or an embedded device, such as a medical monitor, alarm, etc. As shown in figure 1, in EUTRA network 100, the mobile station 108 with wirelessly connected to the access network EUTRA 102. The EUTRA access network 102, in turn, is connected with various components, including the service gateway 110 and object mobility management (MME) 112. The MME 112 is a control node of the access network EUTRA 102. For example, the MME 112 is responsible for tracking and alerting the mobile station. The MME 112 is also responsible for the selection of a service gateway for a mobile station during the initial connection and during transmission. The MME 112 is also responsible for authenticating the user of the mobile station. Service gateway 110 sends the media data packet. Service gateway 110 also acts as a mobility binding for the user plane during the transfer of data between different access networks. Service gateway 110 also soedinyaet� to the gateway 114 of the packet data network (PDN) which provides communication between the mobile station 108 and the packet data 116 (for example, Internet, network, services, etc.). In HRPD network 101 mobile station (MS) 118 with wirelessly connected to the HRPD access network 104. The HRPD access network 104, in turn, is connected to the service node packet data (PDSN) 120, which, in turn, is connected to the packet data 116. In addition, to ensure interoperability between the HRPD network 101 and the EUTRA network 100, the network access eHRPD, 106 for wireless connection with the mobile station 122. Access network eHRPD, 106, in turn, is connected with the service gateway HRPD (HSGW) 124. HSGW 124 is an object that completes the communication access network eHRPD, from the access network eHRPD, 106. HSGW 124 directs the flow of a data packet generated by the mobile station or terminated by the mobile station. HSGW 124 provides the interaction of the mobile station with the EUTRA network 100. Interaction functions include support for mobility, policy management and charging, authentication, access, roaming and other activities. HSGW supports 124 a smooth interconnection transmission of a mobile station between the EUTRA network 100 and the network access eHRPD, 106. Reference to standards EUTRA, HRPD and eHRPD, means referring to current standards, as well as standards that will be developed in BL�next time. It is expected that future standards developed on the basis of EUTRA, HRPD or eHRPD, may have other names. It is understood that the reference to "EUTRA", "HRPD or eHRPD," in the future will also cover the newly developed standards. In addition, as noted above described methods or mechanisms applicable to systems using other types of wireless protocols. Figure 2 - flowchart of the process performed by the mobile station. The mobile station receives (202) a control message containing an indicator of support for ehrpd, the instructions on a specific access network, such as network access with support for eHRPD,. The control message received by the mobile station, may be the service message that is broadcast by the access network on the control channel. One type of service message is a QuickConfig message HRPD (quick configuration HRPD). Another service message, for example, is a SectorParameters message (parameters). The QuickConfig message is used to indicate a change in the content of the service message. The SectorParameters message is used to convey specific information about the mobile stations. In other implementations can use other types of control messages in order to inform the mobile station that a particular access network supports eHRPD,. Except �wow, note that instead of broadcast messages of the control message containing an indicator of support eHRPD, may be a message transmitted from the mobile station. Note that the control message may simply indicate that the network is available, the mobile station currently connected and that the network is an access network supporting eHRPD,. Alternatively, the control message may indicate a number of access networks, including neighboring access networks, which are sets with support for eHRPD,. In this latter scenario, the control message can have many indicators that point to network multiple access with support for eHRPD,. Thus, when the mobile station switches to a new access network eHRPD, 106, the mobile station knows that the new access network eHRPD, 106 is a network with support for eHRPD,. In response to the indicator eHRPD, and after the mobile station will be connected to the access network with support for eHRPD,, the mobile station on the stage 204 executes the procedure personalization eHRPD, to the mobile station. In some examples, the procedure of personalization eHRPD, may be the procedure for configuring a communication session. Once the mobile station is performed ehrpd, personalization, mobile stations can use the access network with support for eHRPD, (for example, the network access eHRPD, 106) that includes the ot�modestie with the EUTRA network 100. Figure 3 - flowchart of the process performed by the access network according to some examples of embodiments. For example, the procedure of Figure 3 may be performed by the access network eHRPD, 106 of figure 1. Access network at stage 302 sends a control message containing an indicator of support eHRPD, for example, indicating that the access network is able to support eHRPD,. Alternatively, the control message may contain multiple indicators support eHRPD, to determine the appropriate access network, able to support eHRPD,. In response to the procedure initiated by the mobile station, an access network communicates with a mobile station to set on stage 304 specialization eHRPD, to the mobile station. Figure 4 - block diagram of the wireless communication terminal 400, which can be either a mobile station (for example, the mobile station 108, 118, or 122 figure 1) or base station (e.g. eNodeB, base station or HRPD base station eHRPD, figure 1). The wireless station 400 includes a processor (or multiple processors) 402, which is connected with the medium for storing information 404. Machine-readable commands 406 are program executed on the processor 402 to implement the relevant tasks associated with the wireless station 400, for example, depicted in figure 2 or 3. The wireless station 400 also�includes interface 408 for communication over a wireless channel, such as radio frequency (RF) channel. Machine-readable commands 406 are loaded for execution on a processor (or processors) 402. The processor may include a microprocessor, microcontroller, processor module or subsystem, programmable integrated circuit, programmable matrix of logic elements or other control or computing device. Data and commands are stored in respective storage devices, which are implemented as one or more computer-readable media. The storage media include different forms of memory including semiconductor memory, such as dynamic RAM or static RAM (DRAM or SRAM), memory Erasure of the information and programmable ROM (EPROM), electrical memory erasing information, a programmable ROM (EEPROM) and flash memories; magnetic disks such as hard, floppy and removable disks; other magnetic media including tape; optical media such as compact disks (CD) or digital video discs (DVD); or other types of storage devices. Note that discussed above commands can be recorded on one machine-readable or computer-readable media or, alternatively, can be recorded to multiple readable media, distributed in a large system with many nodes. This �Casinocity media or the media think part of the product (or the product manufacturer). The product can refer to any produced by a single component or multiple components. In the above description are numerous details to ensure an understanding of the disclosed here of the subject invention. However, the practical implementation may be practiced without some or all of these details. Other implementations may include modifications and changes in details discussed above. It is assumed that the appended claims cover all such modifications and changes. 1. A mobile communication method, comprising: 2. A method according to claim 1, further comprising: 3. A method according to claim 1, wherein the control message further comprises an indication of the presence of other first access networks, interacting with the second access network. 4. A method according to claim 1, wherein receiving the control message comprises receiving a broadcast service message. 5. A method according to claim 4, wherein the broadcast service message is one of the QuickConfig message and SectorParameters. 6. A method according to claim 1, wherein the first access network is an access network eHRPD, (including transmission of the packet data at a high speed). 7. A method according to claim 6, wherein the second access network is an access network EUTRA (evolved universal terrestrial radio access). 8. A method according to claim 1, wherein the personalization defines the types of protocols and their associated attribute values that are used for data transmission between the mobile station and the first network access. 9. A mobile communication method, comprising: 10. A method according to claim 9, in which a particular access network is the first network access. 11. A method according to claim 10, further comprising a first access network that communicate with a mobile station for establishing personalization. 12. A method according to claim 9, in which a particular access network different from the first access network. 13. A method according to claim 9, in which the sending control message includes a broadcast service message. 14. A method according to claim 9, in which the first Protocol is a Protocol eHRPD, (including transmission of the packet data at a high speed). 15. A method according to claim 9, in which the second Protocol is a Protocol EUTRA (of the evolved universal terrestrial radio access). 16. A method according to claim 9, in which personalization defines the types of protocols and their associated attribute values that are used for data transmission between the mobile station and the network access. 17. The mobile station containing: 18. The mobile station according to claim 17, in which the receipt of the message management implementation after the mobile station has moved from the third access network to the first access network, and in which the third access network operates according to a third Protocol that does not support interaction with the second access network. 19. The mobile station according to claim 17, in which the first access network is an access network eHRPD, (including transmission of the packet data at a high speed). 20. The mobile station according to claim 17, in which the second access network is an access network EUTRA (of the evolved universal terrestrial radio access). 21. Base station, comprising: 22. The base station according to claim 21, in which the base station is part of a specific access network. 23. The base station according to claim 21, in which a specific access network is an access network eHRPD, (including transmission of the packet data at a high speed), and the second access network is a network EUTRA (of the evolved universal terrestrial radio access).
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