KR20120126453A - Method and radio network controller for distributing traffic to wireless local network - Google Patents

Abstract

A method of distributing traffic over a local area network by a control station of a mobile communication network, the method comprising: receiving a data call from a terminal, estimating a transmission speed of the data call based on available resources to process the data call; Determining whether the criterion is satisfied, if the quality call quality criterion is not satisfied, searching for a local area network near the terminal, and transmitting information of the local area network searched to the terminal.

Description

METHOOD AND RADIO NETWORK CONTROLLER FOR DISTRIBUTING TRAFFIC TO WIRELESS LOCAL NETWORK}

The present invention relates to a traffic distribution method for a local area network and a control station implementing the same.

Recently, the network traffic is increasing due to the rapid increase in data traffic of smartphone terminals. Domestic and overseas mobile service providers are increasing their capex, but there is a limit to dealing with increasing data traffic. The proliferation of data traffic may lower the quality of service (QoS). Therefore, the mobile operator wants to distribute traffic from the mobile communication network to a local area network such as Wi-Fi. However, since the Wi-Fi network has a narrow coverage and the user needs to access the Wi-Fi network after directly searching the Wi-Fi zone, the traffic distribution effect is low.

Disclosure of Invention Problems to be Solved by the Invention The present invention is directed to a method for distributing traffic to a local area network based on radio resources of a mobile communication network and providing local area network information to a wireless terminal, and a control station implementing the same. will be.

A method of distributing traffic to a local area network by a control station of a mobile communication network according to an embodiment of the present invention, the method comprising: receiving a data call from a terminal, and transmitting a data rate of the data call based on available resources to process the data call. Predicting, determining whether the transmission rate satisfies the quality criterion of the data call, if not satisfying the quality criterion of the data call, searching for a local area network around the terminal, and searching the local area network Transmitting information of the.

The method may further include setting a quality reference rate provided to the terminal user, and determining whether the data call quality criterion is satisfied may be determined by comparing whether the transmission rate exceeds the quality reference rate. .

The searching of the local area network may search the local area network around the terminal based on the location information of the terminal when the transmission speed does not exceed the quality reference rate.

The searching of the local area network may search for a local area network to which the terminal is accessible from a database storing location information of the local area network.

The transmitting of the information of the local area network may include transmitting the information of the local area network in a message, and the message may transmit a connection request signal to an access device of the local area network according to whether the terminal selects the message.

The local area network may be a Wi-Fi network.

A control station according to another embodiment of the present invention distributes traffic of a first network to a second network, which is a local area network, the method comprising: receiving a data call connection request signal from a terminal to the first network; Comparing the quality criteria with the available resources of the first network to determine whether to distribute the traffic to the second network; and if determining to distribute the traffic to the second network, searching whether the terminal is accessible to the second network. And if the terminal is accessible to the second network, transmitting information of the second network accessible to the terminal.

In the method, the first network may be a mobile communication network, and the second network may be a Wi-Fi network.

The determining of whether to distribute traffic to the second network may include determining to distribute the data call to the second network when the transmission rate of the data call predicted as available resources of the first network does not satisfy the quality criteria. can do.

The searching of whether the second network is accessible may be performed by searching a database storing the location information of the second network, whether the terminal is accessible to the second network based on the location information of the terminal.

A control station of a mobile communication network for distributing traffic to a Wi-Fi network according to another embodiment of the present invention, comprising: a receiver for receiving a data call from a terminal and predicting a transmission speed of the data call based on available resources to process the data call A quality determining unit configured to set a transmission rate predicting unit, a quality criterion provided to the terminal user, and to determine whether the data call satisfies the quality by comparing the quality standard with the transmission rate; A search unit for searching for a Wi-Fi zone around the terminal, and a transmission unit for transmitting the information of the detected Wi-Fi zone to the terminal.

The receiver may distinguish the data call from the voice call based on the type of the call received from the terminal.

The quality determining unit may set the quality level based on a quality reference speed to be provided to the terminal user.

The quality determining unit may determine that the quality of the data call is satisfied when the transmission speed exceeds the quality reference speed.

When the transmission speed does not exceed the quality criterion, the search unit may search for a Wi-Fi zone around the terminal based on the location information of the terminal.

According to an embodiment of the present invention, the traffic is distributed to the local area network, thereby reducing the data traffic load of the mobile communication network, increasing the service quality of the data traffic, and providing the local area network information adjacent to the mobile communication service subscriber to select a network to which the subscriber is connected. Make sure

1 is a diagram schematically illustrating a wireless communication system according to an embodiment of the present invention.
2 is a flowchart illustrating a traffic distribution method according to an embodiment of the present invention.
3 is a schematic block diagram of a control station according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

In this specification, a terminal includes a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment , An access terminal (UE), an access terminal (AT), and the like, and may include all or some functions of a terminal, a mobile terminal, a subscriber station, a mobile subscriber station, a user equipment,

In the present specification, a base station (BS) is an access point (AP), a radio access station (Radio Access Station, RAS), a Node B (Node-B), an eNB (Evolved Node-B), a base station (Base transceiver station) It may refer to a Transceiver Station (BTS), a Mobile Multihop Relay (MMR) -BS, or the like, and may include all or a part of functions of an access point, a wireless access station, a Node B, an eNB, a base transceiver station, and an MMR-BS. .

Now, a method for distributing traffic to a local area network and a control station implementing the same will be described in detail with reference to the accompanying drawings.

1 is a diagram schematically illustrating a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 1, the wireless communication system 10 includes a mobile communication network 20, a local area network 30, 40, and 50, and a terminal 100 connected to the communication networks 20, 30, 40, and 50. .

The mobile communication network 20 is a first network to which the terminal 100 connects, and includes a control station (Radio Network Controller, RNC) 200 and a base station 70. The mobile communication network 20 may vary according to a wireless access standard. For example, the mobile communication network 20 may be a code division multiple access (CDMA) network, a wideband code division multiple access (WCDMA) network, or a long term evolution (LTE) network. The control station 200 is located between the terminal 100 and the core network and is connected to the base station 70. When the terminal 100 transmits a call connection request message to the base station 70, the control station 200 determines whether the quality criteria of the call can be satisfied with available resources. The control station 200 connects the call in the mobile communication network 20 if there are enough available resources to satisfy the call quality criteria. However, if the quality criteria are not satisfied, the control station 200 transmits the location information of the local area networks 30, 40, and 50 to the terminal 100 to access another network, for example, the local area network 30. . As a result, the control station 200 may reduce the load of the mobile communication network 20, and the user of the terminal 100 may also access a local area network to use a service of which quality is guaranteed.

The local area network (30, 40, 50) is a second network to which the terminal 100 is connected, and includes an access point (AP) (300, 400, 500). Local area network (30, 40, 50) may vary according to the wireless connection standard, for example, may be a Wi-Fi (WiFi) network. The local area network 30, 40, or 50 supports wireless communication within a predetermined area where the wireless access devices 300, 400, and 500 are installed, and are called a Wi-Fi network or a wireless LAN network. The location information of the radio access devices 300, 400, and 500 is stored, and the control station 200 selects a radio access device around the terminal 100 based on the stored location information of the radio access devices 300, 400, and 500. Search. The control station 200 transmits the found radio access device information to the terminal 100 so that the terminal 100 can access the radio access device.

2 is a flowchart illustrating a traffic distribution method according to an embodiment of the present invention.

Referring to FIG. 2, the control station 200 of the mobile communication network 20 receives a data call from the terminal 100 (S210). The control station 200 distinguishes a packet-based call and a circuit-based call based on the type of the call received from the terminal 100. The control station 200 may classify the packet-based data call based on the establishment cause of the RRC (Radio Resource Control) connection request message.

The control station 200 predicts the transmission rate of the data call based on the available resources to process the data call (S220). The control station 200 checks the available resources for processing the data call and the load state of the mobile communication network 20 to predict the transmission rate of the data call.

The control station 200 determines whether the predicted transmission rate satisfies the quality criteria of the data call (S230). In this case, the control station 200 may set a quality reference speed provided to the user of the terminal 100 as a quality reference. The quality reference speed may be for each user who accesses the mobile communication network 20 and uses a communication service, and the quality reference speed may be the lowest speed of download and upload that the user can tolerate. The quality reference speed can be set for each user according to the rate plan, terminal performance, and access region. The control station 200 compares whether the predicted transmission rate exceeds the quality reference rate and determines whether the quality standard is satisfied.

The control station 200 connects the data call to the mobile communication network 20 when it is possible to satisfy the quality criteria of the data call with the currently available resources (S240). In addition, the control station 200 may transmit a radio link setup message to the terminal 100.

If the control station 200 does not satisfy the data call quality criteria with the current available resources, the control station 200 searches for a local area network around the terminal 100 (S250). If the transmission speed does not exceed the quality standard, the control station 200 searches for a local area network around the terminal 100 based on the location information of the terminal 100. At this time, the control station 200 searches for a local area network to which the terminal 100 can access from a database storing information of the local area network. At this time, the local area network may be a Wi-Fi network. For example, the control station 200 may search the local area network 30 and the wireless access device 300 near the location of the terminal 100. The control station 200 may search for a Wi-Fi zone to which the terminal 100 can access and a wireless access device in a database in which location information of the Wi-Fi zone is stored.

The control station 200 transmits the searched local area network information to the terminal 100 (S260). The information of the local area network may include the location of the wireless access device and the wireless access device information of the local area network, and may provide a list of the local area network when there are a plurality of accessible local area networks. The control station 200 transmits the information of the local area network in a message. For example, the message may be a short message service (SMS) type message. In this case, the message may further include connection information for transmitting a connection request signal to the access device 300 of the local area network. Therefore, when the user of the terminal 100 selects the connection information included in the message, a connection request signal is transmitted to the wireless access device 300 to connect the wireless access device 300 and the terminal 100.

As such, if the control station 200 does not satisfy the quality criteria of the data call with the currently available resources, the control station 200 transmits information of the local area network that can be connected to the terminal 100. At this time, the control station 200 may be configured to connect the received data call to the mobile communication network 20 even if the current call does not satisfy the quality criteria of the data call. Alternatively, the control station 200 may be configured to request the terminal 100 to redirection to a local area network without connecting the received data call if the quality criteria of the data call are not satisfied with the currently available resources.

3 is a schematic block diagram of a control station according to an embodiment of the present invention.

Referring to FIG. 3, the control station 200 includes a receiver 210, a transmission rate predictor 230, a quality determiner 250, a searcher 270, and a transmitter 290.

The receiver 210 receives a data call from the terminal 100. The receiver 210 may distinguish a data call and a voice call based on a call type received from the terminal 100.

The transmission rate predicting unit 230 estimates the transmission rate of the data call based on the available resources to process the data call. In particular, the transmission rate predicting unit 230 checks the available resources for processing the data call and the load state of the mobile communication network 20 to predict the transmission rate of the data call.

The quality determining unit 250 sets a quality standard provided to the user of the terminal 100, compares the quality standard with the transmission speed, and determines whether the data call is satisfied. The quality determining unit 250 may set the quality level based on the quality reference speed to be provided to the user of the terminal 100. The quality reference speed may be a download and upload speed related to traffic transmission and may be set for each user according to user information. If the transmission speed exceeds the quality reference speed, the quality determination unit 250 may determine that the quality of the data call is satisfied.

The search unit 270 searches for a Wi-Fi zone around the terminal 100 based on the result of the quality determination unit 250. When the transmission speed does not exceed the quality standard, the search unit 270 searches for a Wi-Fi zone around the terminal 100 based on the location information of the terminal 100. Wi-Fi zones are areas where wireless access devices are installed. The search unit 270 searches for a Wi-Fi zone close to the terminal 100 in a database storing location information of the Wi-Fi zone. In addition to the Wi-Fi zone, the search unit 270 may search for information related to a local area network of another wireless access standard such as a femtocell and provide the corresponding information to the terminal 100.

The transmitter 290 transmits the searched Wi-Fi zone information to the terminal 100. The information of the Wi-Fi zone may include a location of the wireless access device and information of the wireless access device, and may provide a list of wireless access devices when there are a plurality of accessible wireless access devices. The transmitter 290 transmits the information of the Wi-Fi zone by including the message.

As such, since the control station 200 distributes traffic to the local area network, the data traffic load of the mobile communication network 20 can be reduced. In addition, the control station 200 may reduce the idle resources of the local area network by distributing traffic to the local area network. In addition, since the control station 200 distributes the traffic to the mobile communication network 20 or the local area network 30 based on the available resources and quality, the service quality of the data traffic is increased, the local area network information accessible to the user of the terminal 100 Provide easy access to the local area network.

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (15)

A method for distributing traffic over a local area network by a control station of a mobile communication network,
Receiving a data call from a terminal,
Estimating a transmission rate of the data call based on available resources to process the data call,
Determining whether the transmission rate satisfies the quality criteria of the data call,
Searching for a local area network near the terminal when the quality criteria of the data call are not satisfied; and
Transmitting information of the local area network searched to the terminal;
Traffic distribution method to a local area network comprising a. In claim 1,
Setting a quality reference rate provided to the terminal user;
Determining whether the quality call of the data call is satisfied
And comparing the transmission speed with the quality reference speed and determining whether the transmission speed exceeds the quality reference speed. In claim 2,
Searching for the local area network
And searching for a local area network near the terminal based on the location information of the terminal, if the transmission rate does not exceed the quality reference rate. In claim 1,
Searching for the local area network
A method for distributing traffic to a local area network for searching for a local area network to which the terminal is accessible from a database storing location information of a local area network. In claim 1,
Transmitting the information of the local area network
Including the information of the local area network in a message and transmitting,
And the message includes information for transmitting a connection request signal to a connection device of a local area network according to whether the terminal selects the terminal. In claim 1,
The local area network is a Wi-Fi network traffic distribution method to a local area network. A method for a control station to distribute traffic of a first network to a second network that is a local area network,
Receiving a data call connection request signal from the terminal to the first network;
Comparing the quality criteria of the data call with the available resources of the first network to determine whether traffic is distributed to the second network;
If it is determined to distribute traffic to the second network, searching whether the terminal is accessible to the second network; and
When the terminal is accessible to the second network, transmitting information of a second network accessible to the terminal.
Traffic distribution method to a local area network comprising a. In claim 7,
And wherein the first network is a mobile communication network and the second network is a Wi-Fi network. In claim 7,
Determining whether or not traffic is distributed to the second network
And distributing the data call to the second network if the transmission rate of the data call predicted as the available resource of the first network does not satisfy the quality criterion. In claim 7,
Searching whether the second network is accessible.
And retrieving a database storing the location information of the second network whether the terminal is accessible to the second network based on the location information of the terminal. A control station of a mobile communication network that distributes traffic over a Wi-Fi network,
Receiving unit for receiving a data call from the terminal,
A transmission rate predicting unit for predicting a transmission rate of the data call based on available resources to process the data call;
A quality determination unit for setting a quality standard provided to the terminal user and comparing the quality standard with the transmission speed to determine whether the data call is satisfied with quality;
A search unit for searching for a Wi-Fi zone around the terminal based on a result of the quality determination unit, and
Transmitter for transmitting the information of the detected Wi-Fi zone to the terminal
Control station comprising a. 12. The method of claim 11,
The receiving unit
And a control station that distinguishes the data call from the voice call based on the type of the call received from the terminal. 12. The method of claim 11,
The quality determination unit
And setting the quality level based on a quality reference rate to be provided to the terminal user. In claim 13,
The quality determination unit
And if the transmission rate exceeds the quality reference rate, determining that the quality of the data call is satisfied. 12. The method of claim 11,
The search unit
And if the transmission speed does not exceed the quality criterion, searching for a Wi-Fi zone around the terminal based on the location information of the terminal.

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