WO2011003445A1 - Contrôle d'accès à un réseau - Google Patents

Contrôle d'accès à un réseau Download PDF

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Publication number
WO2011003445A1
WO2011003445A1 PCT/EP2009/058673 EP2009058673W WO2011003445A1 WO 2011003445 A1 WO2011003445 A1 WO 2011003445A1 EP 2009058673 W EP2009058673 W EP 2009058673W WO 2011003445 A1 WO2011003445 A1 WO 2011003445A1
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WO
WIPO (PCT)
Prior art keywords
network connection
network
confidence value
mobile communication
communication device
Prior art date
Application number
PCT/EP2009/058673
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English (en)
Inventor
Jari Pekka Mustajarvi
Original Assignee
Nokia Siemens Networks Oy
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nokia Siemens Networks Oy filed Critical Nokia Siemens Networks Oy
Priority to PCT/EP2009/058673 priority Critical patent/WO2011003445A1/fr
Publication of WO2011003445A1 publication Critical patent/WO2011003445A1/fr

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/16Discovering, processing access restriction or access information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/18Selecting a network or a communication service
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/06Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals

Definitions

  • the invention relates to network access control; for example the control of access to a mobile communication network.
  • mobile communication devices are able to make use of more than one communication access technology.
  • some mobile communication devices are able to make use of both the 3GPP standard and WLAN (wireless local area network) .
  • WLAN wireless local area network
  • Providing a mobile communication device with alternative communication technologies has a number of potential advantages.
  • the mobile communication device may be able to function in areas where only one of a number of access technologies is available.
  • the mobile communication device may be able to function in areas where only one of a number of access technologies is available.
  • the cheapest of a number of available connection options can be chosen.
  • a connection with a high available bandwidth can be chosen. It is known to provide mobile communication devices with information regarding access technologies that are available.
  • FIG. 1 is a block diagram of a system, indicated generally by the reference numeral 1, comprising a mobile communication device 2, an ANDSF server 4, a first mobile network 6 and a second mobile network 8. 200802983
  • the ANDSF server 4 provides information to the mobile communication device 2 regarding the priority in which the access networks available to the mobile device (such as the networks 6 and 8) should be accessed.
  • the mobile communication device requests this priority information from the ANDSF server 4, and the ANDSF server returns the requested data to the mobile communication device.
  • the mobile communication device 2 may choose the network to be used with ANDSF communication according to existing network selection information or by any other means available to the mobile device.
  • Figure 2 is a flow chart showing an algorithm, indicated gen- erally by the reference number 100, showing an exemplary use of the system 1.
  • the algorithm 100 starts at step 102, where ANDSF information is obtained.
  • the ANDSF information may, for example, be pro- vided (by the ANDSF server 4) on request from the mobile communication device 2 (in a "pull” mode) or may be provided in a manner determined and initiated by the ANDSF server (in a "push” mode) .
  • the ANDSF server 4 provides a number of policies for connecting the mobile communication device 2 to networks (such as the first mobile network 6 or the second mobile network 8) . Priorities are assigned to the various policies and, at step 104 of the algorithm 100, the highest priority valid policy is applied. A policy is considered to be "valid" if it meets a number of validity conditions. Such conditions may, for example, relate to location or the time of day.
  • the policy selected at step 104 will have a number of access network options associated with it.
  • the access network options will be prioritized within the policy.
  • the highest priority access network option of the selected policy is selected. 200802983
  • the algorithm 100 moves to step 106 where it is determined whether or not the highest priority access network option of the selected policy has resulted in a successful connection to an available network. If a network connection has been made, then the algorithm 100 terminates at step 112. If a connection has not been made then the algorithm 100 moves to step 108, where it is determined whether or not the selected policy has any more (lower priority) access network options available.
  • ANDSF information does not define when a network connection is considered to be good enough. Even if a mobile communication device is able to connect to a network, the network quality may still be low. It is left to the mobile communication device to decide whether a given network fulfills its own requirements for the connection. If the network quality is too low, then the mobile communication device can choose the next preferred network in the policy.
  • the algorithm 100 continues until either a successful connection is made or all access network options of the selected policy have been tried.
  • a successful connection is made or all access network options of the selected policy have been tried.
  • the highest priority valid policy does not result in a connection being made, then no further efforts are made to make a connection.
  • the highest priority valid policy does not result in a connection be- 200802983
  • ANDSF allows mobile operators to provide access network discovery information (ANDI) to assist user equipment (UE) in detecting access networks specified in the ANDSF policy rules.
  • ANDI access network discovery information
  • UE user equipment
  • Policies are used to list preferred access networks in any given loca- tion or time.
  • Discovery information consists of radio technology specific information like frequencies and channels. This is particularly important, for example, for WiMAX where blind scanning of the whole frequency domain can take a considerable period of time (perhaps as much as 15 minutes or more) and can use considerable battery resources.
  • Both policies and discovery information can have validity area, expressed for example using 3GPP Cell Identifier or tracking area data.
  • an ANDSF server runs in an operator network and delivers the policies and discovery information to a user device either on request from the user device (pull mode) or at the operator's preference (push mode) .
  • ANDSF can be used to provide a mobile communication device with information regarding connection options, it is not currently always clear how that information should be used by mobile communication devices.
  • the lower prior- ity network is a 3GPP network.
  • the mobile communication device is aware that the WLAN network is the preferred network, so that, applying the algorithm 100, it is clear that the WLAN network should be selected at step 105.
  • the mobile communication device does not have the information required (such as the frequency to use) in order to find the relevant channel. Accordingly, the application of the WLAN network at step 105 is not trivial.
  • there is no direct mapping between a policy and relevant access network discovery information Both can be defined for example for specific locations, but there is no requirement to do so. Even though a mobile communication has some policy, the mobile communication device cannot know whether it has all relevant discovery information for the policy.
  • an alternative solution might only search for networks that are fully defined (e.g. where a frequency or channel is specified) .
  • the present invention seeks to address at least some of the problems outlined above.
  • the present invention provides a method (such as a method of network selection) comprising: retrieving a preferred network connection policy for connecting a mobile communication device to a network, wherein the policy includes one or more prioritised network connection options; retrieving network connection data (such as discovery data, for example access network discovery information) , wherein the network connec- tion data provides information for connecting the mobile communication device to network connection options; retrieving a confidence value that is indicative of the completeness or accuracy of the network connection data within a given area; and determining whether or not to attempt to connect to a particular network connection option on the basis of the network connection data (this may, for example, include considering the confidence value) .
  • a method comprising: retrieving a preferred network connection policy for connecting a mobile communication device to a network, wherein the policy includes one or more prioritised network connection options; retrieving network connection data (such as discovery data, for example access network discovery information) , wherein the network connec- tion data provides information for connecting the mobile communication device to network connection options;
  • the present invention also provides an apparatus (such as a user device) comprising: a first input for receiving network connection data (such as discovery data) for a highest priority network connection option, wherein the network connection data provides information for connecting the mobile communication device to network connection options; a second input for receiving a confidence value that is indicative of the completeness or accuracy of the network connection data within a given area; a controller for determining whether or not to attempt to connect to the highest priority network connection option on the basis of the nature of network connection data and on the confidence value.
  • the first and sec- ond inputs may be the same physical input.
  • the confidence data may form part of the network connection data, such that the confidence data is received at the first input as part of the network connection data.
  • the apparatus may further com- 200802983
  • the controller may be arranged such that, in the event that an access point to the highest priority network connection option is not available within the given area, then the action taken is dependent on the confidence value.
  • the present invention also provides an apparatus (such as a server, e.g.
  • an ANDSF server comprising a memory module (or multiple memory modules) adapted to store: a preferred network connection policy for connecting a mobile communication device to a network, wherein the policy includes one or more prioritised network connection options; network connection data (such as discovery data) , wherein the network connection data provides information for connecting the mobile communication device to network connection options; and a confidence value that is indicative of the completeness or accuracy of the network connection data within a given area.
  • the preferred network connection policy, the network connection data and confidence value may be stored on different memory modules.
  • the network connection policy is stored at a first memory module and the network connection data and confidence data are stored at a second memory module.
  • the present invention also provides a system comprises a user device as described above and a server as described above.
  • the preferred network connection policy may be one of several available policies. For example, the highest priority valid policy may be selected as the preferred policy.
  • the policies may, for example, be ANDSF policies, and may be obtained from an ANDSF server.
  • the retrieving steps of the present invention (such as retrieving a preferred network connection policy, retrieving 200802983
  • network connection data and retrieving a confidence value may encompass retrieving data (for example from a server) on request by a user device (such as a mobile communication device) or retrieving data that has previously been stored lo- cally at the user device.
  • data may be received at a mobile communication device from a server (such as an ANDSF server) and stored at the device; the said server may, for example, be providing data in a "push" mode.
  • the given area may be a coverage area defining an area in which all available discovery data is provided. In some forms of the invention, the coverage area is included in the network connection data.
  • the coverage area may be defined for each network connection option separately.
  • the coverage area may consist of a plurality of areas which together make up a coverage area.
  • the given area may be a location area defining the location of access points for one or more of said one or more priori- tised network connection options.
  • the location area data may be included in the network connection data.
  • the mobile communication device may use that access point to connect to the highest priority network connection option.
  • the action taken may be dependent on the confidence value.
  • the confidence value may indicate that the access point data is sufficient complete that searching for unknown access points is unlikely to be successful.
  • the high confidence may indicate that no further access points are within the coverage area and so a further search is not justified.
  • next highest priority network connection (if any) may be considered.
  • the confidence value is below a second threshold (for example, the confidence value is "low")
  • a scan may be made for access points to the highest priority network connection option.
  • the low confidence value may indicate that further (unknown) access points may be available, such that a search is justified.
  • the given area is a coverage area
  • the low confidence may indicate that it is unknown whether or not further access points are available within the coverage area.
  • the first and second thresholds may be the same.
  • the confidence value is either above the first threshold (e.g. "high”) or below the second threshold (e.g. "low”) .
  • a third threshold for example, the confidence value is "high"
  • specified channels (if any) of the highest priority network connection option are checked.
  • no further connection attempts are made for that network connection option.
  • the confidence value is between the third and fourth thresholds (for example, the confidence level is "medium")
  • specified channels (if any) of the highest priority network connection option may be checked. Furthermore, in the event that the specified channels do not result in a connection being made, a scan of all potentially available channels is conducted.
  • the invention may further comprise: obtaining a set of network selection policies (such as ANDSF policies) , the network selection policies defining an ordered list of mobile commu- nication network connection options (such as WLAN and 3GPP) ; and using said ordered list to determine the highest priority network connection option.
  • a set of network selection policies such as ANDSF policies
  • the network selection policies defining an ordered list of mobile commu- nication network connection options (such as WLAN and 3GPP) ; and using said ordered list to determine the highest priority network connection option.
  • the network connection data (such as discovery data) may include frequency ranges and/or channels .
  • the present invention further provides a computer program product comprising: retrieving a preferred network connection policy for connecting a mobile communication device to a network, wherein the policy includes one or more prioritised network connection options; retrieving network connection data, wherein the network connection data provides information for connecting the mobile communication device to net- work connection options; retrieving a confidence value that is indicative of the completeness or accuracy of the network connection data within a given area; and determining whether or not to attempt to connect to a particular network connection option on the basis of the network connection data and the confidence value:
  • the present invention further provides a computer program comprising: code for retrieving a preferred network connec- 200802983
  • the computer program may be a computer program product comprising a computer- readable medium bearing computer program code embodied therein for use with a computer.
  • Figure 1 is a block diagram of a system in which the present invention may be used;
  • Figure 2 is a flow chart showing a network access selection algorithm
  • Figure 3 is a flow chart showing an algorithm in accor- dance with an aspect of the present invention
  • Figure 4 is a flow chart showing an algorithm in accordance with an aspect of the present invention.
  • Figure 5 is a flow chart showing an algorithm in accordance with an aspect of the present invention.
  • the ANDSF server 4 provides at least the following information to the mobile communication device 2 :
  • Policy information providing one or more policies that can be used for connecting to networks.
  • the policies each have a priority.
  • Each policy includes a number of prioritised access network options. 200802983
  • Discovery information providing information, such as frequency and other channel information, for identifying available networks.
  • the discovery information includes location data defining area(s) where access network ac- cess points can be expected to be found.
  • the present invention seeks to address the problem that even if an ANDSF server knows all the locations and related discovery information, there is no mechanism to inform a user device and the user device has no way to know if it has all the relevant information available.
  • a user device may have discovery information of a specific WLAN access point with validity condition of a 3GPP Cell area. The policy however might be given for a location area. If the user de- vice enters another cell in the same location area, the user device cannot know if it should contact the ANDSF server to refresh the discovery information. If it does contact the ANDSF server, but server knows there is no related WLAN access point under this cell area, how can this be told to the user device?
  • Absence of discovery information can be interpreted as 'network doesn't know if there is a suitable access point in the area' or 'network knows there is no suitable access point in the area' .
  • the latter indicates there is no need to scan the WLAN access point, while the former indi- cates that the user device should perform a scan.
  • this problem is addressed by additionally providing (typically, although not exclusively, as part of the discovery information) one or both of the following :
  • Coverage information defining an area within which the discovery information is valid. If a user device is within the coverage area, then the user device knows that it has all of the available discovery information for that area (at least from the ANDSF server concerned - of course, further discovery information could be available from other ANDSF service providers) . 200802983
  • Confidence information indicating the level of confidence that the mobile communication device can place on the provided discovery information.
  • the confidence information may, for example, be indicative of the com- pleteness of the discovery information.
  • a sample policy might be as follows:
  • the user device knows it has all information for the WLAN access point (since the confidence level is high) , it knows where to search for it and it knows where not to search. Accordingly, in this example, as the confidence level is high, there is no need to request discovery information update while within the PLMN.
  • FIG. 3 is a flow chart showing an algorithm, indicated gen- erally by the reference numeral 10, demonstrating the use of the coverage and confidence information in accordance with an aspect of the present invention.
  • the algorithm 10 takes place between the steps 105 and 106 of the algorithm 100 described above. Accordingly, step 102 (obtaining ANDSF infor- mation) , step 104 (apply highest priority valid policy) and step 105 (apply highest priority valid access network) have already been carried out when the algorithm 10 starts.
  • the algorithm 10 seeks to connect to the selected access network.
  • the algorithm 10 starts at step 12, where the user device determines whether it has discovery information (including coverage area data) for the location of the user device. If the user device has the required discovery information, the algo- 200802983
  • step 16 it is determined whether the user device is at a location that falls within a location area specified in the discovery information.
  • the location areas given in the discovery information define locations of access points for a particular access network (typically the access network se- lected at step 105) . If the user device is within a location area specified in the discovery information, then the algorithm moves to step 18, where the user device attempts to connect to the access point at that location. If the user device is not within a location area, then the algorithm 10 moves to step 22.
  • step 18 the algorithm 10 moves to step 20 where it is determined whether or not the attempt to connect to the access point was successful. If the attempt was successful, the algorithm 10 terminates at step 30. Otherwise, the algorithm 10 moves to the step 22.
  • the confidence level associated with the discovery information is checked.
  • the confidence level is either high or low.
  • a high confidence level indicates that the location information given in the discovery data is complete.
  • a low confidence level indicates that the location information may not be complete. Accordingly, at step 22 it has been determined that the user device is within the coverage area of up-to-date discovery data, but not within the area of a known access point.
  • a high confidence level indicates that the ANDSF server is certain that there are no further access points in this area and so no attempt should be made to look for an access point.
  • a low confidence level indicates that the ANDSF server is not certain whether or not a further access point might be available.
  • step 22 the confidence level is high, then there is no need to search for further access points and the algorithm 10 terminates at step 30.
  • the algorithm 10 moves to step 24, where a scan of the coverage area for further access points is carried out. From step 24, the algorithm 10 moves to step 26, which determines whether or not an access point has been found. If not, the algorithm 10 terminates at step 30. If an access point is found, then the algorithm 10 attempts to connect to that access point (at step 28) before terminating at step 30.
  • step 30 of the algorithm 10 the algorithm 100 moves to step 106, where it is determined whether or not a connection has been successfully made. If so, the algorithm 100 terminates. If not, an attempt is made to connect to the next highest priority access network (if any) . The algorithm 10 would then be repeated.
  • the confidence level specified in the discovery information specifies whether or not the access network informa- tion includes all possible access points within the coverage area.
  • a "high” confidence level indicates that all access points are defined: a "low” confidence level indicates that further access points may be available, so that a scan may be justified .
  • discovery data is requested at step 14, then that discovery data is obtained. If, however, a user device cannot access the server or the server does not provide new discovery data, then a number of options are possible. For example, in the event that existing discovery data is available to the user device, then this data may be used (especially if that data is relatively recent) . If discovery data cannot be obtained, 200802983
  • the user device can set the confidence level to "low” such that, at step 22, the algorithm 10 moves to step 24 where a scan is carried out.
  • the algorithm 10 can be applied to the example described above in which an active ANDSF policy has two preferred networks.
  • the access network discovery information (ANDI) message does not contain any information about the preferred WLAN network.
  • the action taken depends first on whether an access point is available. Assuming that an ac- cess point is not available, then the action taken depends on the confidence level associated with the discovery information .
  • the algorithm 10 termi- nates at step 30, without any attempt to connect to a preferred WLAN channel. This is because the confidence level is high, indicating that the reason that no WLAN channels are specified in the discovery information is that no such channels are available. In this case, the less preferred 3GPP network would be used. If the confidence level given to the discovery information was low, then a full scan of the WLAN frequency range would be carried out at step 24.
  • the confidence information has two levels: high and low.
  • a high level indicates either that the ANDSF server is confident that, within the specified coverage area, there either is, or is not, an available access point.
  • a low level indicates that the ANDSF server is not certain.
  • FIG 4 is a flow chart showing an algorithm, indicated generally by the reference numeral 40, in accordance with an aspect of the present invention. As described below, the algorithm 40 makes use of three confidence levels: high, medium and low.
  • step 102 obtaining ANDSF information
  • step 104 applying highest priority valid policy
  • step 105 applying highest priority valid access network
  • the algorithm 40 seeks to connect to the selected access network .
  • the algorithm 40 starts at step 42, where the user device determines whether it has discovery information for the location of the user device. If the user device has the required discovery information, the algorithm 40 moves to step 46. Otherwise, discovery information is obtained from the relevant ANDSF server at step 44, before the algorithm 40 moves to the step 46.
  • the algorithm 40 asks whether the confidence data associated with the policy that is being implemented is low, medium or high.
  • the confidence data associated with the policy that is being implemented is low, medium or high.
  • three confidence levels are described in this example, more or fewer than three confidence levels could be used in alternative embodiments of the invention .
  • step 46 If, at step 46, it is determined that the confidence level is high, indicating that the operator is confident that the discovery information is accurate and complete, then the algorithm 40 moves to step 48. Since the discovery information is complete, in order to find this network, the mobile communication device 2 need only check the defined frequencies and/or channels to determine whether the preferred network is available. If the network is not found, then the network is 200802983
  • the algorithm 40 terminates at step 56, regardless of whether or not the channel has been found.
  • step 46 If, at step 46, it is determined that the confidence level is low, then the algorithm 40 moves to step 50.
  • the operator knows that it should not rely on any discovery information that has been provided by the ANDSF server 4.
  • the mobile communication device needs to perform a full scan of the available frequency range in order to find a network. Once the scan has been carried out, the algorithm 40 terminates at step 56.
  • step 46 If, at step 46, it is determined that the confidence level is medium, then the algorithm 40 moves to step 52.
  • a medium confidence level indicates that the discovery information provided by the ANDSF server 4 may well be incomplete.
  • the mobile communication device 2 first tries the known channels and/or frequencies.
  • step 54 it is determined whether or not the desired channel has been found. If the desired channel has been found, then the algorithm 40 terminates at step 56. If the desired channel has not been found, then the algorithm 40 moves to step 50, where, as described above, a full scan of the available bandwidth is carried out. The algorithm then terminates at step 56.
  • the algorithm 40 can readily be applied to the example de- scribed above in which an active ANDSF policy has two preferred networks.
  • the lower priority network is a 3GPP network.
  • the access network discovery information (ANDI) message does not contain any information about the preferred WLAN network.
  • the action taken depends on the confidence level given to the discovery information. If the 200802983
  • Figure 3 shows an algorithm in which both coverage and confidence data are provided.
  • Figure 4 shows an algorithm in which confidence data is provided, but coverage data is not provided (or, at least, is not considered) .
  • Figure 5 shows an algorithm, indicated generally by the reference numeral 10', in which coverage data is provided, but confidence data is not provided.
  • the algorithm 10' is similar to the algorithm 10, expect that the steps 22 to 28 are omitted. In essence, the algorithm 10' implements the algorithm 10, where the confidence level is always set to high.
  • the algorithm 10' starts at step 12' , where the user device determines whether it has discovery information (including coverage area data) for the location of the user device. If the user device has the required discovery information, the algorithm 10' moves to step 16' . Otherwise, discovery information is obtained from the relevant ANDSF server at step 14', before the algorithm 10' moves to the step 16' . 200802983
  • step 16' it is determined whether the user device is at a location that falls within a location area specified in the discovery information.
  • the location areas given in the discovery information define locations of access points for a particular access network (typically the access network selected at step 105) . If the user device is within a location area specified in the discovery information, then the algorithm moves to step 18', where the user device attempts to connect to the access point at that location. From step 18', the algorithm 10' moves to step 30', where the algorithm terminates. Similarly, if, at step 16', the user device deemed not to be within a location area, then the algorithm 10' terminates at step 30'. In the algorithm 10', the coverage area and the discovery data validity area are the same. When the mobile communication device 2 is within the coverage area, then the algorithm 30' knows that all relevant discovery information is available, so that the location data (indicating the location of access points) is complete and so no scanning for access points is required.
  • ANDSF information may be conveyed to the device using OMA DM compliant ANDSF management object defined in the 3GPP 24.312 specification.
  • Each access discovery information element in the management tree consists of AccessNetworkType Information Element (IE) , AccessNetwork- ValidityArea IE and a reference to actual technology specific discovery information element.
  • the arrangement of the present invention adds a new ConfidenceLevel IE to this access discovery information element, next to AccessNetworkValidityArea IE.
  • the confidence level may have two, three or more values to identify the confidence levels discussed above (e.g.
  • the confidence level may be expressed as a function of the completeness of the information 200802983
  • an operator can provide mean- ingful policies and discovery information to mobile communication devices.
  • the devices know how to behave, resulting in faster connection times and/or saved battery lifetime.
  • the coverage and/or con- fidence information has generally been described as being part of the discovery information. This is not essential. For example, at least some of the coverage and/or confidence information could be provided as part of the policy information. Alternatively, at least some of the coverage and/or confidence information could be provided separate to both the policy information and the discovery information.

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  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Telephone Function (AREA)

Abstract

La présente invention se rapporte à un procédé de sélection de réseau. Un dispositif de communication mobile inclut des informations de politique et de découverte. Les informations de politique concernent des politiques hiérarchisées pour se raccorder à un certain nombre de réseaux. Les informations de découverte concernent des informations pour identifier des réseaux disponibles. Les informations de découverte comprennent des informations de couverture et/ou des informations de confiance se rapportant aux informations de découverte. Le fait qu'un dispositif de communication mobile recherche un réseau d'accès de priorité plus élevée lorsqu'un réseau d'accès de priorité plus faible est disponible, dépend des informations de couverture et/ou des informations de confiance.
PCT/EP2009/058673 2009-07-08 2009-07-08 Contrôle d'accès à un réseau WO2011003445A1 (fr)

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Publication number Priority date Publication date Assignee Title
EP2671407A4 (fr) * 2011-01-31 2017-01-18 Synchronoss Technologies, Inc. Système et procédé de gestion, sans connaissance de l'hôte ni du système d'exploitation, de dispositifs connectés par modification d'état commandée par le réseau
GB2510352A (en) * 2013-01-31 2014-08-06 Azenby Ltd Selection of optimum bearers for Mobile Services
GB2510352B (en) * 2013-01-31 2019-06-26 Azenby Ltd Selection of optimum bearers for mobile services

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