Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W48/00—Access restriction; Network selection; Access point selection
  • H04W48/08—Access restriction or access information delivery, e.g. discovery data delivery
  • H04W48/14—Access restriction or access information delivery, e.g. discovery data delivery using user query or user detection
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W48/00—Access restriction; Network selection; Access point selection
  • H04W48/16—Discovering, processing access restriction or access information
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W48/00—Access restriction; Network selection; Access point selection
  • H04W48/18—Selecting a network or a communication service
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W48/00—Access restriction; Network selection; Access point selection
  • H04W48/20—Selecting an access point
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W76/00—Connection management
  • H04W76/10—Connection setup
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04W—WIRELESS COMMUNICATION NETWORKS
  • H04W84/00—Network topologies
  • H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
  • H04W84/10—Small scale networks; Flat hierarchical networks
  • H04W84/12—WLAN [Wireless Local Area Networks]

Definitions

• the field of the present disclosure relates to communication networks, notably to local networks such as home networks, and to their access by wireless terminals.
• a determination method for determining an access point to be used by a communication terminal for accessing a wireless communication network, and a corresponding communication terminal are described.
• the disclosed method and communication terminal can relate to a wireless communication network using a standard wireless communication protocol, such as the WIFI protocol.
• a communication network is often accessible, for a wireless terminal, from several access points.
• an access point to the home network can be present in a gateway device for interconnection with a remote network.
• Access points to the local network can also be present in several local devices, thus playing the role of repeaters (for example a device of "WIFI extender" type in the case of a network of WIFI type). It may for example involve local mobile devices such as a smartphone, or a tablet, or a decoder (or set- top box).
• a gateway device can often give access to the broadband network to which it is connected to devices external to the local network. It thus has two distinct identifiers: a private identifier (for example an identifier of private SSID type) reserved for the terminals which are members of the local network and a public identifier (for example an identifier of public SSID type), accessible to terminals which are members of the broadband network, even if they are not members of the local network. It can therefore be seen by other terminals of the local network as two different access points.
• a private identifier for example an identifier of private SSID type
• a public identifier for example an identifier of public SSID type
• a terminal of a wireless network can detect the presence of several access points. It may involve access points in its neighborhood not belonging to its network or access points to its network.
• a terminal when a terminal performs a search of the access points to a wireless network present in its neighborhood, it may detect several access points.
• the access points can vary over time (for example because some correspond to a mobile terminal) or according to the location of the terminal.
• the user of a communication terminal is obliged to select himself, manually, the access point to be used for the connection of his terminal to the network. This selection is made especially difficult and tedious as the number of access points detected is large and the naming of the access points is unclear for the user.
• the association of a terminal with an access point can also be dependent on the prior entry of access keys (login and password for example).
• the present disclosure makes it possible to improve the situation by proposing an easier and quicker method for a user of a terminal than the solutions of the prior art.
• the present disclosure relates to a method for determining an access point to be used by a communication terminal for accessing a wireless communication network.
• the determination method comprises:
• the selection can be done automatically by the terminal itself without interaction with the user of the terminal.
• said verification comprises:
• the present disclosure relates notably to a method for determining an access point to be used by a communication terminal for accessing a first communication network, said first network being a wireless communication network.
• said method comprises the following steps, implemented by said terminal:
• verifying said belonging takes account, when no addressing identifier is obtained for said access point to be verified, of a number of obtaining attempts already performed for said detected access point to be verified.
• requesting to obtain an addressing identifier comprises:
• connection when said connection is established, requesting a provision of said addressing identifier of said access point to be verified from a server external to said first network and accessible from said second network, by making use of said connection.
• said obtained addressing identifier and said reference addressing identifier are public addresses on a broadband network.
• requesting to obtain an addressing identifier further comprises storing, in said terminal, said obtained addressing identifier.
• selecting said access point to be used takes into account a content reception performance criterion for at least one of said access points to be selected.
• said performance criterion belongs to the group comprising:
• selecting said access point to be used takes into account a duration of association with said terminal of at least one of said access points to be selected. According to a particular characteristic, selecting said access point to be used takes into account a criterion of belonging to a subnetwork of said first network of at least one of said access points to be selected.
• said belonging criterion comprises a comparison of an item of addressing information complementary to said addressing identifier of said at least one access point to be selected with a complementary reference item of addressing information.
• said first network is a wireless communication network of Wifi type.
• an embodiment wherein the verification comprises, for an access point, an attempt to obtain an addressing identifier and a comparison of this addressing identifier, can be combined with an embodiment wherein the selection of the access point takes account of performance criteria and/or a duration of association with the terminal.
• the present disclosure applies to any wireless network using a communication protocol known to the terminal and notably to a standard wireless communication protocol, such as the Bluetooth protocol for example or the WIFI protocol in the case of a local network.
• a standard wireless communication protocol such as the Bluetooth protocol for example or the WIFI protocol in the case of a local network.
• the present disclosure relates to a communication terminal, comprising at least one processor configured to determine an access point to be used to access a first communication network, said first network being a wireless communication network.
• said at least one processor is configured to:
• the present disclosure relates to a computer program product.
• a computer program product comprises program code instructions for executing the above determination method, in any one of the aforementioned embodiments, when said program is executed by a computer.
• the present disclosure relates to a computer- readable storage medium on which is saved a computer program comprising program code instructions for executing the determination method of the present disclosure, in any one of the aforementioned embodiments, when said program is executed by a computer.
• Such a computer-readable storage medium can take the form of a computer program product loaded onto at least one computer-readable storage medium comprising computer-readable and computer-executable program code instructions.
• a computer-readable storage medium is considered as being a non-transitory storage medium having the intrinsic capacity to store information and the intrinsic capacity to enable a restitution of the information which it stores.
• a computer-readable storage medium can be for example, but not only, a system, a device or an item of equipment which is electronic, magnetic, optical, electromagnetic or infra-red, made of semiconductors or implements a combination of the techniques previously mentioned.
• aspects of the present invention can be implemented by a terminal, a method, or a computer-readable storage medium.
• aspects of the present invention can be implemented in certain embodiments in the form of entirely hardware components (for example an electronic component or an electronic card equipped with components), or in the form of entirely software components (including for example firmware components, a "resident" software program, microcode, etc.).
• Other embodiments can implement both hardware components and software components.
• the term "module" will generally designate a component which can correspond either to a hardware component or to a software component.
• aspects of the present invention can be implemented in the form of a computer-readable storage medium. Any combination of one or more computer-readable storage media can be used.
• FIG. 1 shows the environment of a mobile communication terminal seeking to connect to a local network, according to a particular embodiment.
• FIG. 2 is a functional diagram showing the determination method of the present disclosure, in a particular embodiment, compatible with an implementation in the communication terminal described in relation to figure 1;
• FIG. 3 shows the determination module of a communication terminal according to a particular embodiment.
• the general principle of the present disclosure consists in performing a filtering of the access points which it is possible for a terminal to select according to whether or not they belong to a determined network.
• the present disclosure can make it possible notably to avoid wasting time and to avoid unnecessary consumption of power testing the performance of access points which do not allow access to the network.
• some embodiments adapted notably to a mobile device can enable the terminal to automatically scan all the access points which surround it, in order to select and/or connect to the access point to the network offering, for example, the best quality in terms of performance. This is especially useful in the case of a mobile terminal, caused to be in the neighborhood of different access points while being moved.
• At least one embodiment can make it possible to limit the selection of the access point to be used by a terminal to only access points belonging to the network which it wishes to access, instead of including in the selection all the access points visible by the communication terminal.
• testing a connection by an access point visible to the terminal but not belonging to the network constitutes a waste of time and unnecessary consumption of power.
• minimizing power consumption is a major constraint for a mobile terminal.
• At least one embodiment can make it possible to compare the access points more efficiently, since only the access points belonging to the network will be evaluated. This is especially important when the selection is performed regularly, for example because the terminal to be connected is moved, or the access points to the network vary (for example because some access points are located on a mobile terminal).
• the choice of the access point to be used can be automated and not require interaction with a user of the terminal.
• the user can thus benefit at any moment from the access point whose performance is best from among the access point available in the network.
• the local network implements the standard communication protocol IEE 802.11 - 2012 (of 29 March 2012).
• Figure 1 shows the environment of the mobile communication terminal 130.
• FIG. 1 shows a local network of WIFI type 100, connected to a broadband network 170, for example a network of an internet access provider, by a gateway device 110, equipped with a WIFI card, having on one hand a public access point 112 and on the other hand a private access point 114 reserved for members of the local network 100.
• a decoder 120 (or set-top box), also equipped with a WIFI card, comprises on one hand a WIFI client, which enables it to communicate with the private access point 114 of the gateway device 110, and on the other hand a private access point 122, which enables it to play a role of repeater between the gateway device 110 and a terminal wishing to connect to the local network 100.
• the gateway device 110 and the decoder 120 are visible to the terminal 130.
• Figure 1 also shows another local network of WIFI type 150, located in the neighbourhood of the local network 100, and accessible from a gateway device 160 having on one hand a public access point 162 and on the other hand a private access point 164 reserved for members of the local network 150.
• the gateway device 160 is located in the coverage area of the terminal 130.
• another device 140 located in the coverage area of the terminal 130, comprises a private WIFI access point 142 to a GSM (global system monitoring) network.
• GSM global system monitoring
• each access point is identified by a string of alphanumeric characters, such as a SSID (service set identifier). It can also be identified for example by a MAC (media access control) address, which makes it possible to guarantee a unique identification of each access point.
• SSID service set identifier
• MAC media access control
• Figure 2 shows the determination method of the present disclosure, in a particular embodiment, implemented in the terminal 130.
• the method for determining 200 the access point to be used comprises a step 210 of detection by the terminal 130 of the access points in its neighborhood.
• the terminal 130 thus sees six access points:
• the public and private access point 162 and 164 of the device 160 (giving access to the network 150);
• the public and private access point 112 and 114 of the gateway device 110 (giving access to the network 100);
• the private access point 122 of the decoder 120 The private access point 122 of the decoder 120;
• the private access point 142 of the mobile terminal 140 The private access point 142 of the mobile terminal 140.
• the method then comprises a verification
• This verification can for example correspond to an allocation of a particular value to a belonging indicator stored at least temporarily by the terminal, as discussed in more detail below.
• the verification 220 can be conducted for each of the detected access points 112, 114, 162, 164, 122 and 142 or only for certain detected access points, for example for the access points detected for the first time by the terminal 130. Such an embodiment is particularly suitable when the determination method is implemented periodically by the terminal 130.
• the verification 220 can comprise an obtaining 230 of an addressing identifier of the access point to be verified on a broadband network.
• the addressing identifier is a public IP (internet protocol) address enabling the unique designation of an interface with a network using the internet protocol.
• IP internet protocol
• Such an address can for example be assigned by a provider of access to a broadband communication network, for example via a DHCP (dynamic host configuration protocol) server.
• DHCP dynamic host configuration protocol
• the gateway device 110 has two interfaces to the broadband network (a so-called “private” interface reserved for the interconnections between the broadband network and the devices of the local network, via the intermediary of the private access point 114, and an interface of "hot spot" type, that is to say which can be used by all the terminals using the services of the access provider, via the intermediary of the public access point 112).
• Each of the interfaces of the gateway device 110 is identified by a different public address.
• Each device which uses an interface of the gateway device 110 to interface with the broadband network will be seen as having as its public addressing identifier the addressing identifier of the interface of the gateway device which it uses.
• the addressing information of an access point to be verified can for example be obtained from a server external to the network, for example a remote server in the particular embodiment shown.
• the obtaining 230 of the addressing information thus comprises an establishment of a connection 232 between the terminal 130 and the access point to be verified, on the initiative of the terminal 130.
• This step can possibly require the provision of an encryption key, such as a WEP (wired equivalent privacy) or WAP (Wi-Fi protected access) or WAP2 key.
• connection of the terminal 130 with the access point 142 can fail, due to the absence of provision of a particular encryption key.
• the failure of a connection of the terminal with an access point to be verified (for example the access point 122 of figure 1) can result in the verified access point being considered as not belonging to the local network.
• the terminal 130 can then communicate, via the intermediary of an access point, with devices accessible on the broadband network.
• the method can thus in particular comprise an access to a server external to the network, for a request to provide 234 the addressing identifier of the access point to be verified.
• it may involve the transmission of a request providing in return the public IP address of the device connected to the public internet network which transmitted the request, that is to say, in the embodiment shown in figure 1, the gateway 110.
• the obtaining 230 of an addressing identifier can also comprise a storage 236 of the obtained addressing identifier.
• it may involve a storage, in a look-up table of the terminal, of the addressing identifier (for example a public IP address in the embodiment shown) in connection with an identifier of the access point (for example a SSID identifier in the embodiment shown or a MAC address).
• the addressing identifier for example a public IP address in the embodiment shown
• an identifier of the access point for example a SSID identifier in the embodiment shown or a MAC address
• Such an embodiment offers the advantage of enabling a subsequent obtaining of the addressing identifier associated with an access point without interrogation of a remote server, said obtaining therefore being quicker.
• the embodiment shown then comprises a comparison 240 of the addressing identifier with at least one reference addressing identifier, associated with the local network.
• a reference addressing identifier can notably be the addressing identifier of the "private" interface for interconnection between the local network 101 and the broadband network of the gateway device 110.
• Such an identifier can for example be entered by a user of the terminal during a prior configuration, or be obtained beforehand or dynamically by interrogation of a remote server via the intermediary of a reference access point, known to the terminal as belonging to the local network, for example the private access point 114 of the gateway device 110. It can also be obtained from the terminal by near-field communication, when the terminal 130 is brought near to a gateway device 110.
• a comparison 240 with several reference identifiers can be performed. This can be the case for example in network configurations where several gateway devices enable an interconnection between the network of the terminal and another network, for example a broadband network.
• the comparison 240 between the addressing identifier of the access point to be verified and a reference identifier results for example in an allocation of a particular value to a belonging indicator stored at least temporarily by the terminal, as discussed in more detail below.
• the addressing identifiers of the access points 162 and 164 (relating to the interfaces of the gateway device 160 with the network 150) will be different from the reference addressing identifier associated with the access point 114.
• the addressing identifier of the "public" access point 112 to the broadband network from the gateway device 110 will also be different from this reference addressing identifier.
• the access points 112, 162, 164 will be considered as not belonging to the local network.
• the verification 220 of the belonging to the local network can comprise a storage 242 of the belonging decision.
• the indicator of belonging to the network of an access point will be the presence in the stored list of the identifier relating to the access point.
• it may involve an item of information coded on two bits, a first bit indicating the allocation of a significant value, relative to at least one belonging verification, to the second bit, and the second bit, constituting a belonging indicator, being representative of the result of the belonging verification.
• a value "1" allocated to the belonging indicator can indicate a belonging to the local network and a value "0" allocated to the belonging indicator can indicate a non-belonging to the network (or vice- versa).
• Such an embodiment makes it possible for example to attempt to obtain again the addressing identifier of an access point when a first connection to another network, for example a wide area network in the case of the embodiment shown in figure 2, by this access point has failed.
• it may also involve an item of information coded on more than two bits, being able to take several particular values, for example a first, initial value indicating the absence of verification relating to the access point, a second value, indicating a belonging of the access point to the network, a third value indicating a non-belonging of the access point to the network, other values indicating a failure of connection with the access point and/or the reason for the failure (in the case of absence a particular value can be allocated to the absence of provision of a required encryption key) and/or a current number of connection attempts.
• a first, initial value indicating the absence of verification relating to the access point
• a second value indicating a belonging of the access point to the network
• a third value indicating a non-belonging of the access point to the network
• other values indicating a failure of connection with the access point and/or the reason for the failure (in the case of absence a particular value can be allocated to the absence of provision of a required encryption key) and/or
• the verification when the verification is performed periodically, or when a same verification can comprises several connection attempts with an access point to be verified, it may for example be possible to attempt several times to obtain an addressing identifier of an access point, a determined number of failures to connect to an access point resulting for example in an access point considered as not belonging to the network.
• the determination method 200 also comprises a selection 250 of the access point to be used by the terminal from among the access points considered as belonging to the local network.
• the selection is performed from among the access points 114 and 122.
• the selection 250 can notably take account of a performance criterion for the access points belonging to the network of the terminal, and result in the selection of the access point whose performance is best (for example the one having the lowest average error rate, or the highest average bitrate).
• the selection of an access point may take account not only of whether the access point belongs to the network 100 but also whether it belongs to a subnetwork of the network 100.
• This belonging can be determined for example by comparison of a complementary addressing identifier of the access point, such as a subnet mask (notably a DHCP (Dynamic Host Configuration Protocol) address) with a complementary addressing identifier determined (for example the DHCP address of a configuration server of the subnetwork, stored by the terminal), so as to select preferably for example an access point belonging to a particular subnetwork, having a complementary addressing identifier identical to a stored complementary addressing identifier.
• a complementary addressing identifier of the access point such as a subnet mask (notably a DHCP (Dynamic Host Configuration Protocol) address)
• a complementary addressing identifier determined for example the DHCP address of a configuration server of the subnetwork, stored by the terminal
• the mobile communication terminal 130 shown in figure 1 is now presented in more detail in figure 3.
• Figure 3 shows diagrammatically a hardware embodiment of the communication terminal 130 of figure 1, adapted to determine an access point to be used to access a wireless communication network.
• the communication terminal 130 corresponds for example to a laptop, a tablet or a smartphone.
• the communication terminal 130 comprises the following elements, connected to each other by an address and data bus 300 which also transports a clock signal:
• microprocessor 31 (or CPU);
• I/O devices 34 such as for example a keyboard, a mouse, a webcam, a microphone, etc.;
• ROM read only memory
• RAM random access memory
• a communication interface RX 37 configured for the reception of data via a wireless (for example Wifi® or Bluetooth type) connection;
• a communication interface 38 configured for the transmission of data via a wireless (for example Wifi® or Bluetooth type) connection;
• the communication terminal 130 also comprises or is connected to a display device 33 of display screen type directly connected to the graphics card 32 by a dedicated bus 330.
• a display apparatus is external to the communication terminal 130 and is connected to the device 33 by a cable transmitting the display signals.
• the communication terminal 130 for example the graphics card 32, comprises a means for transmission or connector (not shown in figure 3) adapted to transmit a display signal to an external display means such as for example an LCD or plasma screen or a video projector.
• register used in the description of a memory designates in each of the memories mentioned a memory zone of low capacity (some binary data) as well as a memory zone of large capacity (enabling storage of a whole program or all or part of the data representative of data calculated or to be displayed).
• the microprocessor 31 When switched on, the microprocessor 31 loads and executes the instructions of the program contained in a register 360 of the RAM 36, and notably the algorithms implementing the steps of the method specific to the present disclosure and described hereafter.
• the terminal comprises several microprocessors.
• the power supply 39 is external to the device 6.
• the microprocessor is configured to determine an access point to be used to access a first communication network, said first network being a wireless communication network.
• microprocessor 31 can in particular be configured to:
• verify the belonging to said first network of at least one of the detected access points, called access point to be verified by taking account of a reference addressing identifier, associated with said first communication network, verifying the belonging to said first network of said access point to be verified comprising requesting to obtain (230) an addressing identifier, relating to a second network, of said access point to be verified;

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

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• 2015
  • 2015-03-05 EP EP15710455.5A patent/EP3114887B1/en active Active
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  • 2015-03-05 CN CN201580018034.6A patent/CN106165497B/zh active Active
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  • 2015-03-05 WO PCT/EP2015/054680 patent/WO2015132362A1/en not_active Ceased
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