KR20110139960A - Method and apparatus of convergence terminal for discovering wlan access point - Google Patents

Abstract

PURPOSE: A wireless LAN(Local Area Network) access point search method of a combination terminal and apparatus thereof are provided to enable the combination terminal to effectively search a wireless LAN access point by determining the searching period of the wireless LAN access point. CONSTITUTION: A cellular interface unit(510) receives information about the wireless LAN access point distribution of a base station coverage from a cellular network base station. A searching control unit(520) determines the searching period of the wireless LAN access point within the base coverage based on the received information. A wireless LAN interface unit(530) searches the wireless LAN access point based on the determined searching period.

Description

Method and apparatus for discovering WLAN access point of a combined terminal

The present invention relates to a method and apparatus for searching for a WLAN access point of a mobile terminal, and more particularly, to a method and apparatus for searching for a WLAN access point of a combined terminal capable of accessing both a cellular network and a WLAN.

A base station of a cellular network transmits and receives data with terminals included in a wide service area, that is, coverage. However, there is a disadvantage in that the data transmission rate is relatively low compared to the wireless LAN, and the data call fee is charged to the user on a packet basis for the transmission and reception of data instead of the wide coverage.

On the other hand, the wireless LAN has the advantage of having no data call charges to the user for packet transmission and data transmission rate, and the data transmission speed is high. However, since the coverage of the WLAN access point is small, the mobile terminal cannot freely transmit and receive data. There are disadvantages.

Due to the advantages and disadvantages of the cellular network and the WLAN, a mobile terminal that has access to both the cellular network and the WLAN detects an accessible WLAN access point before starting data communication, and if there is no accessible WLAN access point. Perform data communication over the cellular network.

In order to search for a WLAN access point, the mobile terminal continuously applies power to the WLAN interface and periodically checks whether a WLAN signal is received from the WLAN access. Due to the nature of a mobile terminal having a limited power source, the continuous wireless LAN interface is inefficient use of the limited power source.

An object of the present invention is to provide a method and apparatus for a combined terminal to more efficiently search for a WLAN access point.

According to an aspect of the present invention, there is provided a WLAN discovery method of a terminal capable of accessing a cellular network and a WLAN, and a WLAN access point of base station coverage from a base station of the cellular network. Receiving over the cellular network information about the distribution of < RTI ID = 0.0 > Determining whether to discover the WLAN access point within the base station coverage and a discovery period based on the received information; And performing a discovery of the WLAN access point based on the determination.

According to another embodiment of the present invention, the receiving of the information includes receiving a system information block including information on the distribution of the WLAN access point.

According to another embodiment of the present invention, the information on the distribution of the WLAN access point is characterized in that included in the cell identity (Cell Identity) field of the system information block.

According to another embodiment of the present invention, the information on the distribution of the WLAN access point is included in the upper bits of the cell identifier field of the system information block.

According to another embodiment of the present invention, the upper bits of the cell identifier field are set to different bits of the upper bits according to a distribution class determined based on the number of WLAN access points of the base station coverage. It is done.

According to another embodiment of the present invention, the method of claim 2, wherein the receiving of the information comprises a system information block (System Information Block) including information on the distribution of the WLAN access point common to the cellular network Receiving over a channel.

According to an aspect of the present invention, there is provided a WLAN discovery apparatus of a terminal capable of accessing a cellular network and a WLAN, from a base station of the cellular network. a cellular interface unit for receiving information on the distribution of point) through the cellular network; A search controller to determine whether to search for the WLAN access point and a search period within the base station coverage based on the received information; And a WLAN interface unit for searching for a WLAN access point based on the determination.

According to the present invention, it is possible to adaptively search for a WLAN access point according to the distribution of WLAN access points around the mobile terminal, thereby preventing unnecessary power consumption of the mobile terminal and ensuring the success rate of the search. .

1 is a flowchart illustrating a method for searching for a WLAN access point according to an embodiment of the present invention.
2A to 2C illustrate the distribution of WLAN access points according to an embodiment of the present invention.
3A and 3B show a system information block according to an embodiment of the present invention.
4 illustrates an apparatus for transmitting information about a distribution of access points according to an embodiment of the present invention.
5 illustrates an apparatus for searching for a WLAN access point according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

 1 is a flowchart illustrating a method for searching for a WLAN access point according to an embodiment of the present invention.

Referring to FIG. 1, in step 110, the mobile terminal 100 obtains information on the distribution of the WLAN access point from the base station 102 managing an area (eg, a cell) to which the mobile terminal 100 belongs. Receive via cellular network. The base station 102 is a device that provides a cellular network based service to the mobile terminal 100. The base station 102 transmits information on the WLAN access point (hereinafter, referred to as an 'access point') in the base station coverage to the mobile terminal 100 through the cellular network.

The cellular network is a cell structure based mobile communication to the mobile terminal 100, such as Global System for Mobile communications (GSM), Code Division Multiple Access (CDMA), Universal Mobile Telecommunication System (UMTS), Wideband Code Division Multiple Access (WCDMA), and the like. A service providing network, and a wireless LAN is a network providing a wireless Internet connection service to devices in a local area according to IEEE 802.11.

The base station 102 of the cellular network periodically transmits system information to mobile terminals in its coverage for network management. For example, a base station 102 of a 3GPP WCDMA network transmits a master information block (MIB) and a system information block (SIB) to all mobile terminals 100 included in a cell through a broadcast control channel (BCCH). Information block).

The master information block includes a parameter (PLMN ID) that the mobile terminal 100 should acquire quickly for PLMN search or scheduling information of a plurality of system information blocks. The mobile terminal 100 receives the master information block periodically (for example, 80 ms) from the base station 102 and receives the system information block according to the scheduling information included in the master information block.

The system information block includes information on the cell to which the mobile terminal 100 currently belongs. According to 3GPP TS25.311 "Radio Resource Control," the system information block type 3 and the system information block type 4, that is, SIB 3 Alternatively, SIB 4 may include a cell identity, cell selection and reselection info, a cell access restriction field, and the like.

According to the method for searching for an access point according to an embodiment of the present invention, information about the distribution of access points may be included in SIB 3 or SIB 4 transmitted by the base station 102. Since the cell identifier field of SIB 3 or SIB 4 includes extra bits, these extra bits can be assigned to information about the distribution of access points. The information about the distribution of access points may be information about the number of access points within base station 102 coverage.

In step 112, the mobile terminal 100 determines whether to search for an access point and a search period based on the information on the distribution of the access points received in step 110. If the access point is not in the coverage of the base station 102, the search of the access point can be stopped, and if only a small number of access points exist, the search period can be determined as a long period. This will be described in detail with reference to FIGS. 2A to 2C.

2A to 2C illustrate the distribution of WLAN access points according to an embodiment of the present invention.

2A, there is no access point in coverage 220 of base station 210. Therefore, it is a waste of power for the WLAN interface of the mobile terminal 100 to search for an access point in the coverage 220 of the base station 210.

However, when a predetermined number of WLAN access points 230 to 234 exist in the coverage 220 of the base station 210 as shown in FIG. 2B, the WLAN interface of the mobile terminal 100 searches for an access point. To access the WLAN.

However, compared to FIG. 2C, since the number of access points is small, setting a longer search period may reduce power consumed for searching. As shown in FIG. 2C, six access points 230 to 240 exist in the base station 210 coverage 220 and three access points in the base station 210 coverage 220 as shown in FIG. 2B. If there are 230 to 234, the probability that the mobile terminal 100 succeeds in the access point search is different. As shown in FIG. 2C, the mobile terminal 100 is more likely to succeed in access point discovery when there are a greater number of access points 230 to 240 in the base station 210 coverage 220.

The higher the probability of success in access point discovery, the shorter the period of access point discovery is determined, thereby accessing the WLAN faster and faster data transmission and reception at a lower cost. On the other hand, if the probability of success of the access point search is low, by determining the period of the access point search to a long period, it is possible to prevent the waste of power generated by frequent search.

Referring back to FIG. 1, in step 112, when the mobile terminal 100 determines whether to search for an access point and a search period, the mobile terminal 100 may refer to system information periodically transmitted by the base station 102. For example, whether to search for an access point and a search period may be determined by referring to a cell identifier field of SIB 3 or SIB 4. This will be described in detail with reference to FIGS. 3A and 3B.

3A and 3B show a system information block according to an embodiment of the present invention.

28 bits are all allocated to the cell identifier field of SIB 3 or SIB 4 transmitted by the base station 102. However, n bits of the cell identifier field are not used as the cell identifier. The cell identifier used to identify the cells of the cellular network depends on the total number of cells. However, since the total number of cells is not large enough to use all bits allocated to the cell identifier field, the upper n bits of the cell identifier field are all set to '0' and are not actually used.

Accordingly, the upper bits of the cell identifier field according to an embodiment of the present invention are used to signal information about the distribution of access points included in the coverage of the base station 102 as shown in FIG. 3A.

Since the base station 102 is a device operated by a service provider operating a cellular network, the service provider already knows the number of access points included in the coverage of the base station 102. Accordingly, the service provider may control the base station 102 to use the upper bits of the cell identifier field of the SIB 3 or SIB 4 to signal information about the distribution of the access point.

The base station 102 may include the number of access points included in the coverage in the upper n bits of the cell identifier field and transmit the same to the mobile terminal 100. For example, the upper six bits of the cell identifier field may be used to signal information against the distribution of access points. In this case, when the number of access points included in the base station 102 coverage is 10, the upper six bits of the cell identifier field may be set to "001010".

According to another embodiment, the information about the distribution class determined based on the number of access points within the base station 102 coverage may be included in the upper bits of the cell identifier field. When the number of access points is encoded as it is and included in the upper bits of the cell identifier field, the number of access points included in the base station 102 coverage may be so large that it cannot be signaled using the upper n bits. Therefore, a plurality of distribution classes can be set based on the number of access points, and the higher bits of the section identifier field can be set based on this. For example, if there is no access point in coverage, set the distribution class to the lowest g0 class, if there are 0 to k1 access points, then set the next higher g1 class, and if there are k1 to k2 access points, In this case, the third highest g2 level may be set, and if there are k2 or more access points, the highest g2 level may be set.

Referring to FIG. 3B, information about a distribution of an access point may be signaled using the upper four bits. If the most significant bit is '1', it may mean that there is no access point in the coverage of the base station 102 as shown in FIG. 2A. Accordingly, the mobile terminal 100 receiving the system information in which the most significant bit of the cell identifier field of the SIB 3 or SIB 4 is set to '1' turns off the power of the WLAN interface and does not perform the access point search.

If the second higher bit is '1', it may mean that the distribution of access points of coverage of the base station 102 is low. Accordingly, the mobile terminal 100 receiving the system information in which the second higher bit of the cell identifier field of SIB 3 or SIB 4 is set to '1' sets the search period of the access point to a relatively long period and accesses at a long period interval. Point search can be performed.

If the third higher bit is '1', it may mean that the distribution of access points of coverage of the base station 102 is intermediate. Accordingly, the mobile terminal 100 receiving the system information in which the third higher bit of the cell identifier field of SIB 3 or SIB 4 is set to '1' sets the search period of the access point to a relatively short intermediate period rather than the aforementioned long period. And access point discovery may be performed at intermediate intervals.

If the fourth higher bit is '1', it may mean that the distribution of access points of coverage of the base station 102 is high. Accordingly, the mobile terminal 100 receiving the system information in which the fourth higher bit of the cell identifier field of SIB 3 or SIB 4 is set to '1' sets the search period of the access point to a relatively short period and accesses at short intervals. Point search can be performed.

Referring back to FIG. 1, in step 114, the mobile terminal 100 searches for an access point based on a search period and a search period of the access point determined in step 112.

If the determination of step 112 determines that there is no access point in coverage of the base station 102 and does not perform a search, then the search of the access point is stopped. Power off the WLAN interface and do not perform an access point discovery.

As a result of the determination of step 112, if a search period is determined because there are a predetermined number or a predetermined distribution class of access points in the coverage of the base station 102, search for the access point is performed according to the determined search period. The period may differ depending on the distribution of access points as described above with respect to step 112.

In order to receive the WLAN signal periodically transmitted by the access point, the power of the WLAN interface is 'on' and periodically checked whether the WLAN signal is received through the WLAN channel.

4 illustrates an apparatus for transmitting information about a distribution of access points according to an embodiment of the present invention.

Referring to FIG. 4, an apparatus for transmitting information about a distribution of access points according to an embodiment of the present invention includes a system information transmitter 450.

The system information transmitter 450 includes information about the distribution of the access point in the system information and transmits the information to the mobile terminals of the coverage of the base station 102. The base station 102 transmits the information about the distribution of the access point included in the coverage of the base station 102 in the system information block periodically transmitted for the management of the cellular network.

As described above, the cell identifier field of SIB 3 or SIB 4 is included in the information about the distribution of the access point and transmitted. The upper bits of the cell identifier field are allocated to the information on the distribution of the access point, and the SIB 3 or SIB 4 including the cell identifier field set according to the distribution of the access point is transmitted to the mobile terminals of the coverage.

Since the base station 102 is a device operated by a mobile telephone provider providing a cellular network, the distribution of access points of coverage can be known in advance. Accordingly, the base station 102 may be controlled to transmit a system information block including information on the distribution of the access points to all mobile terminals included in the coverage of the base station 102.

SIB 3 including higher cell bits of the cell identifier field as described above with reference to FIGS. 3A and 3B according to the information on the distribution class determined based on the number or the number of access points of the coverage, and including the set cell identifier field; or SIB 4 may be sent to mobile terminals.

5 illustrates an apparatus for searching for a WLAN access point according to an embodiment of the present invention.

Referring to FIG. 5, a WLAN discovery apparatus according to an embodiment of the present invention includes a cellular interface unit 510, a discovery controller 520, and a WLAN interface unit 530.

The cellular interface unit 510 receives information about the distribution of access points of base station coverage. Receive system information transmitted from the base station 102 via the cellular network. SIB 3 or SIB 4 may be received that includes information about the distribution class determined based on the number or the number of access points. As described above with reference to FIGS. 3A and 3B, it is possible to receive SIB 3 or SIB 4 in which higher bits are set differently according to the distribution of access points.

The discovery controller 520 determines whether to discover the WLAN access point and a discovery period based on the information on the distribution of the access points received by the cellular interface 510.

If the access point does not exist in the coverage of the base station 102, it may be determined whether to search or not, and the search period may be set to a long period, an intermediate period, or a short period according to the distribution class of the access point of the coverage. The period for checking whether the WLAN signal is received through the WLAN channel may be set to be short or long.

The WLAN interface unit 530 searches for an access point according to whether or not a search determined by the search controller 520 and a search period. When the search control unit 520 decides to stop the search, the power of the WLAN interface unit 530 is turned off and the search is stopped to prevent waste of power. Even when the search is performed, the search is performed according to the search period determined by the search controller 520. In the base station coverage where the access points are widely distributed, the access point is searched according to a short period determined by the search controller 520. In the base station coverage having less access points, the search of the access point is performed according to the long period determined by the search control unit 520 to prevent waste of power due to frequent search of the access point.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications will fall within the scope of the invention.

For example, an apparatus for transmitting information about a distribution of a WLAN access point and an apparatus for discovering a WLAN access point according to an exemplary embodiment of the present invention may be described in detail with respect to each of the apparatus as shown in FIGS. 4 and 5. A bus coupled to the units, and at least one processor coupled to the bus. It may also include a memory coupled to the bus for storing instructions, received messages or generated messages and coupled to at least one processor for performing instructions as described above.

Claims (7)

A method for discovering a WLAN of a terminal capable of accessing a cellular network and a WLAN,
Receiving, via the cellular network, information about a distribution of WLAN access points of base station coverage from a base station of the cellular network;
Determining whether to discover the WLAN access point within the base station coverage and a discovery period based on the received information; And
Performing a discovery of a WLAN access point based on the determination. The method of claim 1, wherein receiving the information is
And receiving a System Information Block including information on the distribution of the WLAN access points. The method of claim 2, wherein the information on the distribution of the WLAN access point is
WLAN discovery method, characterized in that included in the cell identity (Cell Identity) field of the system information block. The method of claim 3, wherein the information on the distribution of the WLAN access point is
WLAN discovery method, characterized in that included in the upper bits of the cell identifier field of the system information block. 5. The method of claim 4, wherein the upper bits of the cell identifier field are
And different bits of the higher bits are set to 1 according to a distribution class determined based on the number of WLAN access points of the base station coverage. The method of claim 2, wherein receiving the information is
And receiving a system information block including information on the distribution of the WLAN access point through a common channel of the cellular network. A wireless LAN discovery apparatus of a terminal capable of accessing a cellular network and a wireless LAN,
A cellular interface unit for receiving information on a distribution of WLAN access points of base station coverage from the base station of the cellular network through the cellular network;
A search controller to determine whether to search for the WLAN access point and a search period within the base station coverage based on the received information; And
And a WLAN interface unit for searching for a WLAN access point based on the determination.

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