FIELD OF THE INVENTION
The present invention relates to the field of wireless telecommunications, and in
particular to the connection of mobile users to wireless local access networks.
BACKGROUND OF THE INVENTION
The interworking of a WLAN (i.e. a "Wireless Local Access Network") with a
mobile network, particularly a so-called "3GPP network" (i.e. a mobile network as
defined in 3GPP standards), has been defined in various standardisation documents.
When considering a WLAN defined as a 3GPP IP access network, document TS 23.234
defines the interworking aspects with other 3GPP networks whereas document TS
23.327 defines the mobility aspects.
The need for supporting roaming between a 3GPP network and a non-3GPP
network (e.g. a WiFi network provided by non-3GPP network operators or service
providers) is recognised for improving the coverage and capacity of 3GPP networks in
situations of 3GPP radio access network overload or lack of 3GPP network coverage.
Such a need is coupled with the ever increasing accessibility of private and public WiFi
networks run by non-3GPP network operators for indoor and public areas, as well as
the built-in WiFi accesses in almost all smartphones and portables devices such as
tablets and laptops.
To illustrate such a need, an exemplary use case is to enable a 3GPP mobile
device in national or international roaming to connect seamlessly to a WiFi network
provided by a non-3GPP network operator, by using its subscription profile including the
necessary access credentials managed by its home 3GPP network, without the explicit
manual configuration which has to be done today for connecting to a WiFi network, for
the first connection at least.
The existing standards technology (as described in TS 23.402) supports such a
roaming with non-3GPP access networks interworked with a 3GPP network. In other
words, the roaming access to a non-3GPP network is only supported, in the existing
3GPP standards, via a 3GPP PLMN ("Public Land Mobile Network") with which the non-
3GPP network has an interworking anchored in the 3GPP network(s).
Figures 1A and 1B illustrate two roaming scenarios as defined in document TS
23.402.
In particular, figure 1A illustrates the roaming architecture in a "home routed"
scenario as defined in figure 4.2.3-3 of TS 23.402. In such a roaming architecture, the
non-3GPP network interworks necessarily with either a visited 3GPP network (via an
ePDG gateway) when it provides an untrusted non-3GPP IP access to the user terminal
or with the home 3GPP network of this user terminal (via a PDN gateway) when it
provides a trusted non-3GPP IP access to this user terminal.
On the other hand, figure 1B illustrates the roaming architecture in a "local
breakout" scenario as defined in figure 4.2.3-5 of TS 23.402. In this other roaming
architecture, the non-3GPP network also interworks necessarily with a visited 3GPP
network, either via an ePDG gateway when it provides an untrusted non-3GPP IP
access to the user terminal or via a PDN gateway when it provides a trusted non-3GPP
IP access to this user terminal.
In other words, in all existing roaming scenarios in the current 3GPP standards,
the user terminal can only connect to non-3GPP accesses which are anchored (or
"interworking") with the roaming partner's 3GPP networks (i.e. anchored on either a
PDN gateway and/or a ePDG gateway).
While such scenarios are applicable to use cases where the user terminal
wishes to access services offered by its home PLMN (HPLMN in figures 1A and 1B), to
access home routed traffic or to access services offered locally by the visited PLMN
(VPLMN in figures 1A and 1B), there are scenarios where there is no direct interworking
between a 3GPP network and a non-3GPP network.
Besides, there are situations where the user terminal wishes to connect to an
access point of a non-3GPP network which has no business relationship with the 3GPP
home network of the user terminal, for instance when a 3GPP user terminal roams into
areas where there is little or no coverage of a PLMN network, but a good coverage of a
WiFi network operated by a non-3GPP service provider.
Consequently, there is strong need for providing mobile users with a direct
access to wireless local area networks (for instance to allow them to access internet
with a higher bandwidth or better coverage) without either going through the PDN
gateway of a home PLMN of a mobile network, or the PDN/ePDG gateway of a visited
PLMN of a mobile network.
SUMMARY OF THE INVENTION
It is thus an object of the present invention to overcome the above-identified
disadvantages.
According to a first aspect of the present invention, there is provided a method
for granting access, for a user equipment registered in a home mobile network, to a
wireless local area network, comprising the following steps, performed by an access
network server located in the wireless local area network :
receiving a probe request comprising a first information allowing to identify the
home mobile network of the user equipment;
determining at least one access point of the wireless local area network to
which said user equipment is allowed to connect, based on the identification of said
home mobile network from said first information; and
sending a response message comprising at least one access identifier
identifying said at least one access point of the wireless local area network.
With such an access method, it is possible for a user equipment to be granted
access to a wireless local area network which has no interworking anchored in a mobile
network. It is therefore possible to tackle the issue of access authorization to wireless
local area networks in situations which are not addressed currently in the standards.
In an embodiment of the present invention, the probe request is transmitted
from the user equipment through an access point of the wireless local area network and
the response message is transmitted to the user equipment through this access point.
This allows the user equipment to request a connection to the wireless local area
network once under the coverage of this wireless local area network.
In an embodiment of the present invention, the method further comprises
transmitting an access network request comprising said first information to a first access
network discovery and server function entity located in the home mobile network of the
user equipment; and receiving in response, from said access network discovery and
server function entity, an access network response comprising a network selection rule;
wherein said at least one access point is determined by the access network server
using said network selection rule.
With such an embodiment, a mobile network can keep a certain amount of
control on the extent to which one of its registered user equipment can access other
wireless local area networks which are not interworking anchored with this mobile
network, for instance by forbidding certain wireless local area networks or prioritizing
some wireless local area networks over others.
In an embodiment of the present invention wherein the wireless local area
network is connected to a visited mobile network interworking with the home mobile
network of the user equipment, the access network request is received by a second
access network discovery and server function entity located in the visited mobile
network before being forwarded to the first access network discovery and server
function entity.
This embodiment allows a mobile network to keep a certain amount of control
on the extent to which one of its registered user equipment can access other wireless
local area networks which are not interworking anchored with this home network, but
are connected to another mobile network which interworks with this mobile network.
In another embodiment of the present invention, the probe request is
transmitted by an access network discovery server and function entity located in the
home mobile network of the user equipment and the response message is transmitted
to said access network discovery server and function entity. This allows the user
equipment to request a connection to a wireless local area network while still under the
coverage of its home mobile network.
According to a specific feature, the first information is an identifier of the home
mobile network, in order to simplify the access authorization decision taken by the
access network server of the wireless local area network. According to another specific
feature wherein the first information is an identifier of the user equipment, the method
further comprises retrieving an identifier of the home mobile network based on said
identifier of the user equipment. This avoids the user equipment to reveal the identity of
its home network when probing unknown wireless local area networks.
According to a second object of the present invention, there is provided a device
for granting access, for a user equipment registered in a home mobile network, to a
wireless local area network, comprising :
a receiving unit able to receive a probe request comprising a first information
allowing to identify the home mobile network of the user equipment ;
a control unit configured to determine at least one access point of the wireless
local area network to which said user equipment is allowed to connect, based on an
identification of said home mobile network from said first information; and
a transmitting unit configured to send a response message comprising at least
one identifier identifying said at least one access point of the wireless local area
network.
In an embodiment of this device, the transmitting unit is further configured to
send a policy request to an access network discovery server located within the home
mobile network of the user equipment, the receiving unit is further configured to
receive, from said access network discovery server, a policy response message
comprising a network selection rule, and the control unit is further configured to
determine said least one access point of the wireless local area network in accordance
with said network selection rule.
According to a third object of the present invention, there is provided a user
equipment comprising :
a transmitting unit configured to send a probe request, comprising a first
information allowing to identify the home mobile network of said user equipment, to an
access network server of a wireless local area network ;
a receiving unit configured to receive, from said access network server, a
response message comprising at least one access identifier identifying at least one
access point of the wireless local area network; and
a processing unit configured to connect the user equipment with said wireless
local area network using said at least one access identifier.
According to a fourth object of the invention, there is provided a network system
comprising a user equipment as previously described and a device for granting the user
equipment an access to a wireless local area network as previously described.
According to a fifth object of the present invention, there is provided a computer
program comprising code instructions for performing the steps of the method for
granting access to a wireless local area network as described above, when this
computer program executed on a processor. There is also provided a recording medium
on which is stored such a computer program.
BRIEF DESCRIPTION OF THE DRAWINGS
Other features and advantages of the invention will become apparent from the
following description of non-limiting exemplary embodiments, with reference to the
appended drawings, in which, besides Figure 1A and 1B already discussed :
Figure 2 illustrates a first embodiment of a network architecture
accordance with the present invention;
Figure 3 illustrates a second embodiment of a network architecture
accordance with the present invention;
Figure 4 illustrates a third embodiment of a network architecture
accordance with the present invention; and
Figure 5 illustrates a fourth embodiment of a network architecture
accordance with the present invention.
DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION
Next some embodiments of the present invention are described in more detail
with reference to the attached figures.
We refer now to Figure 2 which illustrates a first embodiment of a network
architecture in accordance with the present invention.
In this embodiment, the network architecture comprises a mobile network 2 1
which is the home mobile network of user equipment 11 (typically a mobile terminal
such as a smartphone, a tablet or any mobile device having a mobile network radio
interface and a wireless local area network radio interface), that is to say the mobile
network wherein the user equipment 11 is registered (typically wherein the user of this
user equipment 11 has subscribed). Such a mobile network 2 1 is typically a 3GPP
mobile network, i.e. a mobile network working according to 3GPP standards such as a
3G or 4G mobile network.
The network architecture further comprises a wireless local area network 22,
also called WLAN network, which is typically a WiFi network using transmission
techniques and protocols as defined in IEEE 802.1 1x standards. Such a WLAN network
can be an indoor local area network, comprising one or several access points located
within a building, or an outdoor local area network, comprising several access points
also called "hotspots" covering a certain area in a city.
This WLAN network 22 comprises one or more access points 12 (only one is
illustrated here, for the sake of simplicity) connected to an access network server 13,
which controls the access of mobile terminals to the access points of WLAN network 22.
The access network server 13 may be typically implemented as a server using
the ANQP protocol (for "Access Network Query Protocol") as defined in the Technical
Specification "Hotspot 2.0 (Release 2), version 1.03" published by the WiFi Alliance
(WFA) Technical Committee. Such an ANQP protocol allows a mobile terminal to
discover the WLAN access points and query different types of information regarding
these access points such as their identifiers, their capacities or their WAN metrics.
In this first embodiment, the access granting process to the WLAN network 22 is
performed as follows :
When the user terminal 11 enters into the coverage of an access point 12 of
WLAN network 22, it becomes aware of it since it receives a beacon signal emitted by
this access point. Following the detection of such a beacon signal, the user terminal 11
can send a probe request (typically an ANQP probe request within a radio signal format)
towards this access point 12 (step 101 ) , such a probe request being forwarded by
access point 12 to the access network server 13 within WLAN network 22 (step 103).
Depending on the network connectivity between the access point 12 and the access
network server 13, the probe request may be kept as a radio signal or converted by the
access point 12 in another signal format compatible with this network connectivity as
well as with the protocol message format used between the user equipment 11 and the
access network server 13.
This probe request comprises a first information which allows identifying the
home mobile network 2 1 of the user equipment 11, advantageously in a manner that
identifies uniquely the home mobile network of the user equipment with a secure access
authorization process.
In an embodiment, this first information is an identifier of this home mobile
network 2 1 , for instance its PLMN identifier (i.e. the MCC Mobile Country Code + MNC
Mobile Network Code). In such a case, the access network server 13 can directly
identify the home mobile network from this information.
In another embodiment, this first information is the IMEI number of the
subscriber using the user equipment 11. With such an IMEI number, the access network
server 13 can indirectly identify the home mobile network 2 1, by retrieving its identity
from a remote database wherein are stored IMEI numbers mapped with identifiers of
their mobile networks. In an embodiment, this mapping may be resolved by an access
network and discovery server function entity located in the home mobile network 2 1,
after it has received this IMEI number transmitted by access network server 13. In
another embodiment, this mapping is resolved by a HSS server within home mobile
network 2 1 after it has received this IMEI number from an Access and Authorisation
server (e.g. AAA server) located in the WLAN network 22.
Thus, once the access network server 13 has received this probe request, it
determines the identity of the home mobile network 2 1 of user equipment 11 based on
the first information, as previously explained, and determines if an access can be
granted to user equipments registered with this mobile network 2 1, or not. Such a
decision can be made for instance based on the existence of a business relationship
between WLAN network 22 and mobile network 2 1. Alternatively, WLAN network can
automatically grant access to mobile users registered with any mobile networks except
the ones listed in a black list.
In a specific embodiment, the probe request comprises also a list of WLAN
networks identifiers (so-called "preferred WiFi networks"), stored beforehand in the user
equipment 11 itself or in a SIM/USIM card located within this user equipment, indicating
a list of WLAN networks to which the user equipment 11 is allowed to connect by its
home mobile network 2 1. In other terms, the operator of mobile network 2 1 may restrict
the WLAN networks to which its users may automatically connect with the present
process, and impose the memorization of such a restricted list within user equipment 11
and the insertion of this restricted list within the probe request sent by user equipment
11. In such a case, the access network server 13 also checks, besides its own
requirements, that its WLAN network 2 1 belongs to this list of network (e.g. by checking
that its own WLAN identifier belongs to the list of WLAN identifiers in the probe request)
and grant an access to the user equipment 11 only when this is the case.
On the one hand, if the access network server 13 determines that user
equipment 11 should not be granted an access to the WLAN network 22, the access
network server 11 can deny access either explicitly, by sending a negative response
message to the user equipment 11 via access point 12, or implicitly, by not responding
at all to the probe request. In this last case, user equipment 11 derives such an access
denial when it has not received any response at all after the expiration of a determined
time period or after a number of repeated transmission of the probe requests from te
ANQP server.
On the other hand, if the access network server 13 determines that user
equipment 11 can be granted an access to the WLAN network 22, then it sends a
response message back to the access point 12 (step 105), which then forwards it to the
user equipment 11 (step 107). When forwarding the response message, the access
point 12 may adapt this response message to a signal format which is compatible with
the transmission of such a response from the ANQP server to the user equipment,
depending on the used standardised protocol or interface.
This response message comprises one or more access identifier(s) identifying
one or more access point(s) of WLAN network 22 to which the user equipment 11 is
allowed to connect. In an embodiment, one access identifier such as a SSID identifier
can be sent for each access point of the WLAN network 22, these SSID identifiers being
listed in a priority order based on the WLAN network service provider's preferences. In
another embodiment, a common access identifier, such as a NAI realm identifier, can
be sent in order to identify a plurality of access points covering a realm area.
Alternatively, an identifier representing a WiFi network included in a probe response as
defined by WFA technical specifications can be used.
In a specific embodiment, this response message may also comprise additional
information regarding each of the access points which are identified in this response
message, such as :
- the capacity of the access point to provide internet access;
- a maximum bandwidth that can be reserved by the access point for the data
traffic exchanged with user equipment 11 ;
- WAN metrics information regarding the data link between the access point
and the user equipment 11 (such as downlink speed, uplink speed, downlink
percentage loading, uplink percentage loading, load measurement duration)
Once it has obtained such access identifier(s), the user equipment 11 can then
establish a connection with an access point of the WLAN network 22 (for instance with
the same access point 12 through which it managed to get the access identifier(s), or
with another access point if it moved within the WLAN network coverage in the
meantime) that belongs to the same WiFi network(s) as represented by the WiFi
network identifier(s), in order to access internet or other types of network local services
provided by the WLAN network 22. When additional information as previously described
has been sent with the access identifiers, the user equipment 11 can use such an
additional information when deciding which access point to connect with.
This first embodiment is therefore particularly applicable to cases where the
user equipment 11 is within the coverage of a WLAN network which has no interworking
relationship with the home mobile network of user equipment 11 (for instance when a
user wishes to access the WiFi network of an hotel that has no interworking or roaming
with his own mobile network), independently of whether the user equipment 11 is within
coverage of its own home mobile network.
We refer now to Figure 3 which illustrates a second embodiment of a network
architecture in accordance with the present invention.
This second embodiment differs from the first one in that the access network
server 13 of the WLAN network 22 has interactions (typically via a logical interface)
with an access network discovery and selection function entity 14 located in the home
mobile network 2 1 of the user equipment 11. In other words, both mobile network 2 1
and WLAN network 22 have a business and/or roaming relationship but no direct
interworking functions as defined, e.g. in 3GPP, between the two networks.
In this second embodiment, the access network server 13 is still in charge of
deciding whether or not to grant an access to the user equipment 11. However, this
time, it takes into account the rules and policies defined by the operator of the home
mobile network 2 1 of the user equipment 11 when making this decision, these rules and
policies being implemented by an access network discovery and selection function
entity 14 located within the mobile network 2 1.
Such an access network discovery and selection function entity 14 is typically
an ANDSF server (for "Access Network Discovery and Selection Function") as defined
in document 3GPP TS 24.302. Such an ANDSF server can be implemented as a stand
alone server dedicated to the functions of network discovery (i.e. providing mobile
terminals with a list of mobile network and/or WLAN access points depending on certain
criteria) and network selection policy enforcement (e.g. prioritizing the aforementioned
list based on the mobile network operator's preferences). Alternatively, the ANDSF
server can be implemented as a PCRF server (for "Policy and Charing Rule Function")
on which the access network discovery and selection function entity is implemented with
an additional a computer program module.
In this second embodiment, the access granting process to the WLAN network
22 is performed as follows :
The user terminal 11 sends a probe request towards an access point 12 of the
WLAN network (step 201 ) , such a probe request being forwarded by this access point
12 to the access network server 13 inside the WLAN Network (step 203), similarly to the
first embodiment.
Once the access network server 13 has received this probe request, it can
determine the network address (e.g. the IP address) of the access network discovery
and selection function entity 14 from the identity of the home mobile network 2 1 (for
instance by querying a DNS server) and send a policy request to this access network
discovery function entity 14, using this network address (step 205). Such a policy
request comprises an identifier of the WLAN network 22, and may as well comprise the
identification parameter of the home mobile network 2 1 received from the user
equipment 11.
Once the access network discovery and selection function entity 14 has
received this policy request, it can verify the identifier of the WLAN network 22 and,
depending of this identifier, select a network selection rule (step 206, not illustrated) to
be transmitted to the access network server 13. This rule can describe information such
as the accessibility and the access point selection priority for a user equipment wishing
to connect to a WLAN network, as well as charging related information.
The access network discovery and selection function entity 14 returns then a
policy response message to the access network server 13 (step 207), this message
comprising the network selection rule determined by the access network discovery and
selection function entity 14.
Once the access network server 13 has received this policy response message,
it can use the network selection rule when determining whether or not to grant access to
the user equipment 11 (step 208, not illustrated). In particular, if the access network
server 13 decides to grant access to a plurality of its access points which may belong to
the same or different WiFi networks/providers, these access points can be listed in a
priority order as defined by such a network selection rule.
If the access network server 13 decides to grant access to the user equipment
11, it sends a response message back to the access point 12 (step 209), which then
forwards it to the user equipment 11 (step 2 11) , possibly after having adapted it to a
signal format compatible with the transmission of such a response message towards the
user equipment, such a response message comprising the aforementioned access
identifier(s) identifying one or more access point(s) of the WLAN network to which the
user equipment 11 is allowed to connect.
Once it has obtained such an access identifier, the user equipment 11 can then
establish a connection with an access point of the WLAN network 22 (for instance with
the same access point 12 through which it managed to get the access identifier(s), or
with another access point belonging to the same WiFi networks as represented by the
WiFi network identifiers included in the response message if it moved within the WLAN
network coverage in the meantime), in order to access internet or other types of network
local services provided by the WLAN network 22.
This second embodiment is therefore particularly applicable to cases where the
user equipment 11 is within the coverage of a WLAN network which has some business
or roaming relationship with the home mobile network of user equipment 11 (in other
words where an access network server of the WLAN network has interactions with the
access network discovery and selection function entity of the home mobile network
when it exists), independently of whether the user equipment 11 is within coverage of its
own home mobile network.
We refer now to Figure 4 which illustrates a third embodiment of a network
architecture in accordance with the present invention.
In this third embodiment, the WLAN network to which the user equipment 11 is
trying to connect has an interworking relationship with another mobile network 23, also
called "visited mobile network" and designated by V-NW in figure 4, which itself
interworks with the home mobile network 2 1 of the user equipment 11, in a manner as
described in standard document 3GPP TS 23.402. Just like the home mobile network
2 1 , the visited mobile network 22 is typically a 3GPP mobile network, i.e. a mobile
network working according to 3GPP standards.
In this network architecture, beyond the first access network discovery and
selection function entity 14 located in the home mobile network 2 1, a second access
network discovery and selection function entity 15 is located in the visited mobile
network 23, the access network server 13 of the WLAN network being connected to this
second access network discovery and selection function entity 15 rather than to the first
access network discovery function entity 14 as described in the previous embodiment.
In this third embodiment, the access granting process to WLAN network 2 1 is
performed out as follows :
The user terminal 11 sends its probe request towards an access point 12 of the
WLAN network (step 301 ) , such a probe request being forwarded by this access point
12 to the access network server 13 inside the WLAN network 22 (step 303), similarly to
the first two embodiments.
Once the access network server 13 has received this probe request, it can
determine the identity of the home network 2 1 of the user equipment 11, as explained
beforehand, and retrieve from this information the network address (e.g. the IP address)
of the access network discovery and selection function entity 14 within this network 2 1.
The access network server 13 prepares then a policy request to be sent to this access
network discovery and selection function entity 14 using this network address (step 304,
not illustrated).
Such a policy request is then sent to the second access network discovery and
selection function entity 15 of the visited network 23 (step 305), which forwards this
policy request to the access network discovery and selection function entity 14 located
in the home mobile network 2 1 of the user equipment 11 (step 307). This forwarding
step may be triggered only after that the access network discovery and selection
function entity 15 has verified the validity of the policy request, for instance after having
checked that the user equipment 11 belongs to a roaming partner's network and,
optionally, if sufficient information is available to the access network server and
selection function entity for making the decisions to allow for the access to the WiFi
network by the user equipment.
This access network discovery and selection function entity 14 returns a policy
response message comprising a network selection rule regarding the selection of
WLAN networks which can be used by the user equipment registered in mobile network
2 1 , such as a prioritized list of WLAN access points which can be used by user
equipment 11. This policy response message is returned to the access network
discovery and selection function entity 15 within the visited mobile network 23 (step
309), which forwards it to the access network server 13 in the WLAN network (step
3 1 1) .
Based on the network selection rule received from the access network
discovery and selection function entity 14, the access network server 13 determines
whether or not to grant an access to user equipment 11 (step 3 12, not illustrated). When
that is the case, it sends a probe response message to the user equipment 11,
comprising access identifier(s) of the WiFi networks that the access point(s) belongs to
and which this user equipment 11 can connect to, via the access point 12 (steps 3 13
and 3 15). The user equipment 11 can then establish a connection with an access point
of the WLAN network 22, using such an access identifier.
This third embodiment is therefore particularly applicable to cases where the
user equipment 11 is within the coverage of a WLAN network which has some business
or roaming relationship, as exemplified by the interactions between the access network
server 13 and the access network discovery and selection function entity 14 within a
mobile network having an interworking /roaming relationship with the home mobile
network of user equipment 11, independently of whether the user equipment 11 is within
coverage of its own home mobile network.
We refer now to Figure 5 which illustrates a fourth embodiment of a network
architecture in accordance with the present invention.
In this fourth embodiment, the user equipment 11 requests the access to the
WLAN network 22 via its home mobile network 2 1, rather than through the WLAN
network 22 itself, when user equipment 11 is within a cell covered by a base station 16
belonging to this mobile network 2 1, and possibly not (yet) within the coverage of an
access point of WLAN network 22. The decision to grant, or not, access to the WLAN
network is still taken by the access network server 13 of the WLAN network, as follows :
The user equipment 11 sends first a WLAN connection request towards the
access network discovery and selection function entity 14 within the home mobile
network 2 1. This is typically achieved by the user equipment 11 sending this request on
a radio channel to the base station 16 (step 401 ) , which forwards then this request
within this mobile network 2 1 (step 403) where it is routed to the access network
discovery and selection function entity 14 via a certain number of routing nodes (not
illustrated).
This WLAN connection request may comprise an identifier of the WLAN network
2 1, for instance inputted in user equipment 11 by its user when he knows this identifier.
Alternatively, when the WLAN identifier is not available (for instance because the user
equipment 11 does not know yet which WLAN networks are accessible), the WLAN
connection request may just contain an indication that the user equipment 11 requests
to access a WLAN network, for instance by enabling a "WLAN Access" parameter
inserted in such a request to be set to "TRUE" in order to ask the access network
discovery and selection function entity 14 to send a query request to the access network
server of WLAN network 22.
After having received this request, the access network discovery and selection
function entity 14 queries the access network server 13 of the WLAN network 22 (step
405), by sending a query request to this server 13. In order to send this query request,
the network address of access network server 13 may be retrieved based on the
identifier of the WLAN network 2 1 received in the WLAN connection. This query request
comprises an identifier of the home mobile network 2 1 (for instance its HPLMN
identifier) and may also comprise a network selection rule regarding the WLAN network
selection, such as a prioritized list of WLAN access points to be used by user equipment
11.
The access network server 13 then determines whether or not to grant access
to user equipment 11, as previously explained (step 406, not illustrated), possibly taking
account the network selection rule that the access network discovery and selection
function entity 14 may have sent, and, when it decides to grant such an access, replies
with a response message comprising one or more access identifier(s) identifying one or
more access point(s) of the WLAN network, for instance the SSID identifier of access
point 12 (step 407).
Once it has received this response message from the access network server
13, the access network discovery and selection function entity 14 can prepare a
response message for user equipment 11, such a response message being in a
transmission format compatible with a message transmission within mobile home
network 2 1 and comprising the aforementioned access identifier(s) (step 408, not
illustrated). This response message is then sent back to user equipment 11, typically via
base station 16 (step 409) which forwards this response on a radio channel to user
equipment 11 when it is located in the cell covered by this base station 16 (step 4 1 1).
Having obtained such access identifier(s), the user equipment 11 can then
establish a connection with an access point of the WLAN network 22 (for instance with
access point 12 using its SSID identifier, or other WiFi network access identifiers as
defined in the WFA technical specifications), once user equipment 11 moves under the
coverage of this access point, in order for instance to access internet or other types of
network local services provided by WLAN network 22. Once this connection is
established, the previously established connection with the home mobile network 2 1
can be disconnected, if user equipment is still within coverage of mobile network 2 1, in
order to free some resources such as bandwidths by offloading all or part of the traffic
from 3GPP access to WiFi accesses.
The present invention relates also to a device for granting access, for a user
equipment registered in a home mobile network, to a wireless local area network
according to the present invention. Such a device can be used in particular to
implement the access network server 13 described previously, when located in the
WLAN network 22.
This device comprises a receiving unit which is able to receive the probe
request as described previously, which comprises a first information allowing to identify
the home mobile network 2 1 of the user equipment 11. This receiving unit can be
connectable to an access point of the WLAN network 22, in order to receive this probe
request from the user equipment 11 itself through this access point, or it can be
connectable to an access network discovery and selection function entity 14 or 15 of a
home mobile network 2 1 or a visited mobile network 23, in order to receive this probe
request from such an access network discovery and selection function entity. It
comprises also a control unit (implemented for instance as a processor) configured to
determine one or more access point(s) of the wireless local area network to which the
user equipment 11 is allowed to connect, based on an identification of its home mobile
network from the first information received by the receiving unit.
This device comprises also a transmitting unit configured to send the response
message previously described, which comprises one or more identifier(s) identifying
one or more access point(s) of the wireless local area network. This transmitting unit
can be connectable to an access point of the WLAN network 22, in order to transmit the
response message to the user equipment 11 through this access points, or it can be
connectable to an access network discovery and selection function entity 14 or 15 of a
home mobile network 2 1 or a visited mobile network 23, in order to send this response
message to such an access network discovery and selection function entity.
In order to take into account criteria defined by the operator of the home mobile
network of the user equipment, this transmitting unit may be further configured to send a
policy request to the access network discovery and selection function entity 14 located
within the home mobile network 2 1 of the user equipment 11, the receiving unit may be
further configured to receive, from this access network discovery and selection function
entity 14, a policy response message comprising a network selection rule, and the
control unit may be further configured to determine one or more access point(s) of the
wireless local area network 22 in accordance with this network selection rule.
Although the invention has been described with reference to certain specific
embodiments it is to be understood that various modifications and improvements can be
made without departing from the scope of the invention as defined in the appended
claims.

C L A I MS
1. A method for granting access, for a user equipment ( 1 1) registered in a home
mobile network (21 ) , to a wireless local area network (22), comprising the following
steps, performed by an access network server ( 13) located in the wireless local area
network :
receiving a probe request comprising a first information allowing to identify
the home mobile network of the user equipment;
determining at least one access point ( 12) of the wireless local area network
to which said user equipment is allowed to connect, based on the identification of said
home mobile network from said first information; and
sending a response message comprising at least one access identifier
identifying said at least one access point of the wireless local area network.
2. The method according to claim 1, wherein the probe request is transmitted
from the user equipment ( 1 0 1,201 ,301 ) through an access point of said wireless local
area network and the response message is transmitted to the user equipment
( 107,207,307) through said access point.
3. The method according to claim 2, further comprising :
transmitting an access network request (205) comprising said first
information to a first access network discovery and server function entity ( 14) located in
the home mobile network of the user equipment;
receiving in response (207), from said access network discovery and server
function entity, an access network response comprising a network selection rule;
wherein said at least one access point is determined by the access network
server ( 13) using said network selection rule.
4. The method according to claim 3, wherein the wireless local area network
(22) is connected to a visited mobile network (23) interworking with the home mobile
network (21) of the user equipment, and wherein the access network request is
received (305) by a second access network discovery and server function entity ( 15)
located in the visited mobile network before being forwarded (307) to the first access
network discovery and server function entity.
5. The method according to claim 1, wherein the probe request is transmitted
(405) by an access network discovery server and function entity (14) located in the
home mobile network of the user equipment and the response message is transmitted
(407) to said access network discovery server and function entity (14).
6. The method according to any one of claims 1 to 5, wherein said first
information is an identifier of the home mobile network.
7. The method according to any one of claims 1 to 5, wherein said first
information is an identifier of the user equipment, the method further comprising
retrieving an identifier of the home mobile network based on said identifier of the user
equipment.
8. A device ( 13) for granting access, for a user equipment ( 1 1) registered in a
home mobile network (21 ) , to a wireless local area network (22), comprising :
a receiving unit able to receive a probe request comprising a first information
allowing to identify the home mobile network of the user equipment ;
a control unit configured to determine at least one access point ( 12) of the
wireless local area network to which said user equipment is allowed to connect, based
on an identification of said home mobile network from said first information; and
a transmitting unit configured to send a response message comprising at
least one identifier identifying said at least one access point of the wireless local area
network.
9. The device according to claim 8, wherein :
the transmitting unit is further configured to send a policy request to an
access network discovery and selection function entity (14) located within the home
mobile network of the user equipment;
the receiving unit is further configured to receive, from said access network
discovery and selection function entity (14), a policy response message comprising a
network selection rule; and
the control unit is further configured to determine said least one access point
( 12) of the wireless local area network in accordance with said network selection rule.
10. A user equipment ( 11) comprising :
a transmitting unit configured to send a probe request, comprising a first
information allowing to identify the home mobile network of said user equipment, to an
access network server ( 13) of a wireless local area network (22);
a receiving unit configured to receive, from said access network server ( 13),
a response message comprising at least one access identifier identifying at least one
access point of the wireless local area network; and
a processing unit configured to connect the user equipment with said
wireless local area network using said at least one access identifier.
11. A network system comprising a user equipment ( 1 1) according to claim 10
and a device for granting the user equipment an access to a wireless local area network
(22) according to claim 8.
12. A computer program comprising code instructions for performing the steps of
the method for granting access to a wireless local area network according to any one of
claims 1 to 7, when said computer program is executed on a processor.
13. A recording medium on which is stored the computer program according to
claim 12.