KR101177837B1 - Access method in wireless communication system and user equipment - Google Patents

Abstract

A connection method and a user terminal in a wireless communication system are disclosed. An access method in a wireless communication system according to an embodiment of the present invention transmits an access request signal to a wireless access point (AP) through a second frequency band while being connected to a mobile communication base station through a first frequency band. Accessing; Turning off the power of the mobile communication module while connected to the wireless AP through the second frequency band; And transmitting the terminal information to the wireless AP through the second frequency band while connected to the wireless AP.

Description

Access method in wireless communication system and user terminal

The present invention relates to a connection method and a user terminal in a wireless communication system, and more particularly, to a connection method and a user terminal in a wireless communication system that can reduce power consumption of a user terminal that can access a heterogeneous wireless communication system. It is about.

In recent years, the number of users of smart phones that combine mobile communication functions and personal digital assistant (PDA) functions is increasing rapidly. The smart phone supports the voice communication function using the existing mobile communication network and the internet access function using the wireless internet. Smartphones can access the Internet in a variety of ways using a variety of browsing programs, and can implement a user-friendly interface through various applications. In addition, smart phones have various sensors such as acceleration sensors and gyro sensors, and support various applications therefor. As such, smart phones are becoming a personal necessity that provides various services to users in addition to communication functions.

As the smartphone's various functions are used in combination, power consumption increases. For example, when a user uses a function such as playing a video through the wireless Internet, the power consumption of the smartphone increases. Even when the user uses the wireless Internet without transmitting or receiving voice communication or text using the mobile communication function with the smart phone, the mobile communication function of the smart phone always operates, which will increase the power consumption of the smart phone. Can be.

An embodiment of the present invention can provide an access method and a user terminal in a wireless communication system that can reduce the power consumption of the user terminal that can access the heterogeneous wireless communication system.

In a wireless communication system of a terminal including a mobile communication module for transmitting and receiving data through a first frequency band and a wireless LAN module for transmitting and receiving data through a second frequency band according to an embodiment of the present invention, Connecting to the wireless AP by transmitting an access request signal to a wireless access point (AP) through the second frequency band in a state of being connected to a mobile communication base station through a frequency band, the wireless AP through the second frequency band Turning off the power of the mobile communication module in a connected state, and transmitting terminal information to the wireless AP through the second frequency band in a connected state of the wireless AP; The information is transmitted from the wireless AP to the mobile communication base station to release the connection of the terminal through the first frequency band. Notify the same base station.

The transmitting of the access request signal to the wireless AP may include transmitting the access request signal when the strength of a signal periodically broadcast from the wireless AP is greater than or equal to a predetermined threshold.

In the transmitting of the access request signal to the wireless AP, the signal periodically broadcast from the wireless AP includes system information of the wireless AP, and confirms the accessibility of the wireless AP through the system information of the wireless AP. It may further comprise the step.

The method may further include receiving a connection grant signal in response to the access request signal from the wireless AP.

In a state where the terminal is connected to the wireless AP, the mobile communication base station may further include receiving downlink data to be transmitted to the terminal from the wireless AP through the second frequency band.

The downlink data may be transmitted from the mobile communication base station to the wireless AP through the first frequency band.

The mobile communication base station receiving the terminal information may transmit the downlink data to the terminal through the wireless AP with reference to the terminal information.

In a state where the terminal is connected to the wireless AP, the terminal may further include transmitting uplink data to be transmitted to the mobile communication base station to the wireless AP through the second frequency band.

The uplink data may be transmitted from the wireless AP to the mobile communication base station through the first frequency band.

The method may further include turning on the power of the mobile communication module when the strength of a signal periodically broadcast from the wireless AP is less than or equal to a predetermined threshold.

A user terminal according to another embodiment of the present invention is a mobile communication module for transmitting and receiving data through a first frequency band, a wireless LAN module for transmitting and receiving data through a second frequency band, and the mobile communication module and of the wireless LAN module Control the respective functions, turn off the power of the mobile communication module when connected to the wireless AP through the wireless LAN module, and turn off the power of the mobile communication module when the signal strength of the wireless AP is less than a predetermined threshold. And a controller for turning on.

The controller may determine a connection with the wireless AP when the signal strength of the wireless AP received through the WLAN module is greater than or equal to a predetermined threshold value, and transmit a connection request signal to the wireless AP through the WLAN module. .

When the controller is connected to the wireless AP, the controller may transmit terminal information to the wireless AP through the WLAN module.

The control unit receives downlink data through the wireless LAN module in a state of being connected to the wireless AP, and the downlink data is transmitted from the mobile communication base station to the wireless AP through the first frequency band and then the wireless AP. May be transmitted through the second frequency band.

The control unit transmits uplink data by controlling the WLAN module in a state of being connected to the wireless AP, and the uplink data is transmitted to the wireless AP through the second frequency band, and then the It may be transmitted to the mobile communication base station through one frequency band.

A terminal connected to the wireless AP may transmit / receive data of the mobile communication system through the wireless AP, and turn off the power of the mobile communication module for data transmission and reception with the mobile communication system, thereby reducing power consumption of the terminal.

1 shows a wireless communication system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a terminal according to an embodiment of the present invention.
3 is a flowchart illustrating a connection method in a wireless communication system 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 so that those skilled in the art may easily implement the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In addition, in the various embodiments, components having the same configuration are represented by the same reference symbols in the first embodiment. In the other embodiments, only components different from those in the first embodiment will be described .

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 shows a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 1, a wireless communication system includes a user equipment (UE) and a base station (BS). A base station generally refers to a fixed station communicating with a terminal, and may be referred to as other terms such as a Node-B, a Base Transceiver System (BTS), and an Access Point (AP). The terminal may be fixed or mobile and may be referred to in other terms such as mobile station (MS), user terminal (UT), subscriber station (SS), wireless device (wireless device), and the like.

The terminal 10 includes a multiple access function capable of connecting to heterogeneous wireless communication systems using different frequency bands. For example, the terminal 10 may access a first wireless communication system (mobile communication system) according to a mobile communication technology standard and a second wireless communication system (wireless LAN system) according to a wireless technology standard.

The first wireless communication system includes a terminal 10 and a mobile communication base station 20. The first wireless communication system uses a radio technology according to the mobile communication technology standard. Mobile communication technology standards include Global System for Mobile communications (GSM), General Packet Radio Service (GPRS), Enhanced Data Rates for GSM Evolution (EDGE), 3rd Generation Partnership Project (3GPP), IEEE 802.16e (WiMAX), IEEE 802.16m Wireless technologies, and the like.

The mobile communication base station 20 is connected to a radio network control (RNC) 40. The RNC 40 is an entity managing at least one mobile communication base station 20, and connects the mobile communication base station 20 to a core network (CN) 60. The mobile communication base station 20 is connected to the core network 60 and a dedicated line.

The second wireless communication system includes a terminal 10 and a wireless access point (AP) 30. The second wireless communication system uses a wireless technology according to the wireless LAN technology standard. The WLAN technology standard includes a wireless technology such as IEEE 802.11 (Wi-Fi).

Hereinafter, for convenience of explanation, it is assumed that the first wireless communication system uses 3GPP wireless technology, and the second wireless communication system uses Wi-Fi wireless technology. The frequency band used according to the mobile communication technology standard (3GPP) is called the first frequency band, and the frequency band used according to the wireless LAN technology standard (Wi-Fi) is called the second frequency band. For example, the first frequency band of the first wireless communication system using 3GPP wireless technology may be 2.1 GHz, and the second frequency band of the second wireless communication system using Wi-Fi wireless technology may be 2.4 GHz.

The wireless AP 30 is connected to a gateway (GW) 50 via an IP network. The gateway 50 is an entity managing at least one wireless AP 30 and may connect the wireless AP 30 to the core network 60 through an IP network. The gateway 50 may perform registration, authentication, and security procedures of the wireless AP 30.

Each of the mobile communication base station 20 and the wireless AP 30 includes at least one cell. A cell means a service area in which a communication service is provided. The terminal 10 connects to the mobile communication base station 20 through a first frequency band in a cell of the mobile communication base station 20. When the terminal 10 enters the cell of the wireless AP 30, the terminal 10 accesses the wireless AP 30 through the second frequency band and releases the connection with the mobile communication base station 20.

Hereinafter, user data transmitted from the mobile station 10 to the mobile communication base station 20 is referred to as uplink data, and user data transmitted from the mobile communication base station 20 to the terminal 10 is referred to as downlink data. The user data includes voice and packet data transmitted and received between the terminal 10 and the mobile communication base station 20 in the first wireless communication system.

Data transmission and reception between the terminal 10 and the mobile communication base station 20 connected to the wireless AP 30 is performed through the wireless AP (30). To this end, the wireless AP 30 supports the 3GPP radio technology used by the mobile communication base station 20. The mobile communication base station 20 transmits the downlink data to the wireless AP 30 through the first frequency band, and the wireless AP 30 transmits the downlink data to the terminal 10 through the second frequency band. The terminal 10 transmits uplink data to the wireless AP 30 through the second frequency band, and the wireless AP 30 transmits uplink data to the mobile communication base station 20 through the first frequency band. do.

2 is a block diagram showing the configuration of a terminal according to an embodiment of the present invention.

2, the terminal 10 includes a user interface 110, a controller 120, a memory 130, a mobile communication module 140, and a wireless LAN module 150.

The user interface 110 may be a combination of an input device such as a keypad or a touch screen and a display device such as a liquid crystal display (LCD) and organic light emitting diodes (OLED). The user interface 110 displays various information to the user and transmits a user input signal to the controller 120.

The memory 130 stores a terminal driving system, an application, and a general file. The memory 130 may include a universal subscriber identity module (USIM) and store terminal information.

The mobile communication module 140 transmits and receives data according to a mobile communication technology standard. That is, the mobile communication module 140 may transmit and receive data through the first frequency band. The mobile communication module 140 may use at least one wireless technology of GSM, GPRS, EDGE, 3GPP, IEEE 802.16e (WiMAX), and IEEE 802.16m. Data transmission and reception between the terminal 10 and the mobile communication base station 20 is performed through the mobile communication module 140.

The WLAN module 150 transmits and receives data according to WLAN technology standards. That is, the WLAN module 150 may transmit and receive data through the second frequency band. The WLAN module 150 may use a wireless technology of IEEE 802.11 (Wi-Fi). Data transmission and reception between the terminal 10 and the wireless AP 30 is performed through the WLAN module 150.

The controller 120 is connected to the user interface 110, the memory 130, the mobile communication module 140, and the wireless LAN module 150 to control each function. In particular, the controller 120 measures the signal strength of the wireless AP 30 received through the wireless LAN module 150 and determines whether to connect or disconnect with the wireless AP 30. That is, the controller 120 determines a connection with the wireless AP 30 when the signal strength of the wireless AP 30 is greater than or equal to a predetermined threshold, and when the signal strength of the wireless AP 30 is less than or equal to the predetermined threshold, the wireless AP. Determination of the connection with (30) is determined. When the controller 120 determines the connection with the wireless AP 30, the controller 120 transmits a connection request signal to the wireless AP 30 through the wireless LAN module 150.

When the controller 120 is connected to the wireless AP 30 through the WLAN module 150, the controller 120 turns off the power of the mobile communication module 140. The controller 120 turns on the power of the mobile communication module 140 when the signal strength of the wireless AP 30 is less than or equal to a predetermined threshold.

When the controller 120 is connected to the wireless AP 30, the controller 120 transmits terminal information to the wireless AP 30 through the wireless LAN module 150. The terminal information is transmitted from the wireless AP 30 to the mobile communication base station 20 to inform the mobile communication base station 20 that the connection of the terminal 10 is released through the first frequency band.

The controller 120 receives downlink data through the WLAN module 150 in a state of being connected to the wireless AP 30. The downlink data is data transmitted from the mobile communication base station 20 to the wireless AP 30 through the first frequency band and then transmitted from the wireless AP 30 to the terminal 10 through the second frequency band.

The controller 120 transmits uplink data through the WLAN module 150 while connected to the wireless AP 30. In this case, when using the first wireless communication system, the uplink data is transmitted to the wireless AP 30 through the second frequency band and then from the wireless AP 30 to the mobile communication base station 20 through the first frequency band. Is sent. If using the second wireless communication system, uplink data is transmitted to the wireless AP 30 through the second frequency band, and then transmitted from the wireless AP 30 to the gateway 50.

Now, a description will be given of a connection method in a wireless communication system that can reduce power consumption of a terminal 10 capable of connecting to a heterogeneous wireless communication system.

3 is a flowchart illustrating a connection method in a wireless communication system according to an embodiment of the present invention.

Referring to FIG. 3, the terminal 10 measures the signal strength of the wireless AP 30 in the mobile communication connection state connected to the mobile communication base station 20 through the first frequency band. At this time, the power of the mobile communication module 140 and the wireless LAN module 150 of the terminal 10 is turned on. The wireless AP 30 may periodically broadcast system information through the second frequency band. The terminal 10 may receive system information of the wireless AP 30 and measure signal strength of the wireless AP 30.

When the terminal 10 is moved into a cell of the wireless AP 30 so that the signal strength of the wireless AP 30 is greater than or equal to a predetermined threshold, the terminal 10 requests a connection to the wireless AP 30 through a second frequency band. The signal is transmitted (S10). The access request signal is transmitted through the WLAN module 150. Meanwhile, the wireless AP 30 may be a public wireless AP that can be connected to any terminal or a private wireless AP that can be accessed only by a predetermined terminal. The terminal 10 may check the accessibility to the wireless AP 30 through the received system information, and the terminal 10 may transmit a connection request signal to a public wireless AP or an accessible personal wireless AP.

The wireless AP 30 may transmit the access approval signal through the second frequency band in response to the access request signal of the terminal 10 (S15). The access approval signal transmitted from the wireless AP 30 to the terminal 10 is received by the terminal 10 through the WLAN module 150. Meanwhile, the wireless AP 30 may request authentication information for access from the terminal 10 and transmit a connection approval signal only to the authenticated terminal 10.

As connected to the wireless AP 30, the terminal 10 turns off the power of the mobile communication module 140 (S20). As the power of the mobile communication module 140 is turned off, transmission and reception of data with the mobile communication base station 20 is not performed. The terminal 10 is in a wireless LAN connection state connected to the wireless AP 30 according to the access approval of the wireless AP 30.

After connecting to the wireless AP 30, the terminal 10 transmits terminal information to the wireless AP 30 through the second frequency band (S30). The terminal information may include a terminal ID and / or any identifier used when the terminal 10 accesses the mobile communication base station 20. The wireless AP 30 stores terminal information.

After receiving the terminal information through the second frequency band, the wireless AP 30 transmits the terminal information to the mobile communication base station 20 through the first frequency band (S35). In this case, the wireless AP 30 may transmit its own unique identifier to the mobile communication base station 20 together with the terminal information. As the mobile communication base station 20 receives the terminal information and the unique identifier of the wireless AP 30, the mobile communication base station 20 may release the connection through the first frequency band and access the wireless AP 30. The mobile communication base station 20 may generate a terminal list connected to the wireless AP 30 to correspond to and store terminal information and wireless AP information. The mobile communication base station 20 may transfer the terminal information connected to the wireless AP 30 to the RNC 40 or the core network 60. Meanwhile, the wireless AP 30 may transmit the terminal information and its unique identifier to the core network 60 through the backbone network.

The mobile communication base station 20 determines whether the terminal 10 is accessing the wireless AP 30 when downlink data including packet data and a call to be transmitted to the terminal 10 is generated. The mobile communication base station 20 may determine whether the terminal 10 is connected to the wireless AP 30 with reference to the terminal list connected to the wireless AP 30.

The mobile communication base station 20 transmits downlink data to be transmitted to the terminal 10 accessing the wireless AP 30 to the corresponding wireless AP 30 through the first frequency band (S40).

The wireless AP 30 transmits the downlink data received through the first frequency band to the terminal 10 through the second frequency band (S45). The terminal 10 may receive downlink data of the mobile communication base station 20 through the wireless LAN module 150 while the power of the mobile communication module 140 is turned off.

Here, a process of transmitting downlink data of the mobile communication base station 20 to the terminal 10 via the wireless AP 30 while the power of the mobile communication module 140 of the terminal 10 is turned off is shown. It was. In a state where the power of the mobile communication module 140 of the terminal 10 is turned off, uplink data of the terminal 10 may also be transmitted to the mobile communication base station 20 through the wireless AP 30. When the uplink data to be transmitted to the mobile communication base station 20 is generated, the terminal 10 transmits uplink data to the wireless AP 30 through the second frequency band. At this time, the power of the mobile communication module 140 of the terminal 10 is turned off. The wireless AP 30 transmits uplink data to the mobile communication base station 20 through the first frequency band.

As such, the terminal 10 may turn off the power of the mobile communication module 140 and transmit and receive uplink data and downlink data through the wireless LAN module 150 in the wireless LAN connection state. Therefore, the terminal 10 consumes power because only the WLAN module 150 can be used in the WLAN connection state without using the power of the mobile communication module 140 and the WLAN module 150 to be turned on. Can be reduced.

In the wireless LAN connection state, the terminal 10 periodically measures the signal strength of the wireless AP 30, and when the signal strength of the wireless AP 30 falls below a predetermined threshold, the mobile communication module 140 turns on. -Turn on (S50).

When the power of the mobile communication module 140 is turned on, the terminal 10 transmits a connection request signal to the mobile communication base station 20 through the first frequency band (S60). The access request signal may include a terminal ID and / or any identifier. The mobile communication base station 20 checks the terminal ID included in the access request signal, so that the terminal 10 can know that the connection with the wireless AP 30 has been released. The mobile communication base station 20 may update the terminal list connected to the wireless AP 30 by checking the terminal ID.

The mobile communication base station 20 may transmit the access grant signal through the first frequency band in response to the access request signal (S65). The terminal 10 receiving the access approval signal from the mobile communication base station 20 is in a mobile communication connection state capable of transmitting and receiving uplink data and downlink data through the first frequency band.

The process of the terminal 10 transmitting the access request signal to the mobile communication base station 20 and receiving the access approval signal from the mobile communication base station 20 is referred to as a mobile communication access procedure. The mobile communication access procedure may be performed by various processes according to the wireless technology of the mobile communication standard.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are illustrative and explanatory only and are intended to be illustrative of the invention and are not to be construed as limiting the scope of the invention as defined by the appended claims. It is not. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: terminal
20: mobile communication base station
30: wireless AP
40: RNC
50: Gateway (GW)
60: core network (CN)
110: user interface unit
120:
130: memory
140: mobile communication module
150: wireless LAN module

Claims (11)

In a connection method in a wireless communication system of a terminal including a mobile communication module for transmitting and receiving data through a first frequency band and a wireless LAN module for transmitting and receiving data through a second frequency band,
Accessing the wireless AP by transmitting an access request signal to a wireless access point (AP) through the second frequency band while being connected to a mobile communication base station through the first frequency band;
Turning off the power of the mobile communication module in a state of being connected to the wireless AP through the second frequency band;
Transmitting terminal information to the wireless AP through the second frequency band while connected to the wireless AP; And
Receiving, by the mobile communication base station, downlink data to be transmitted to the terminal from the wireless AP through the second frequency band in a state of being connected to the wireless AP;
The downlink data is transmitted from the mobile communication base station to the wireless AP via the first frequency band in a wireless communication system, characterized in that.
The method according to claim 1,
The transmitting of the access request signal to the wireless AP may include transmitting the access request signal when the strength of a signal periodically broadcast from the wireless AP is greater than or equal to a predetermined threshold; And
The signal periodically broadcast from the wireless AP includes system information of the wireless AP, and further comprising the step of confirming the accessibility of the wireless AP through the system information of the wireless AP. How to connect
The method according to claim 1,
And the terminal information is transmitted from the wireless AP to the mobile communication base station to inform the mobile communication base station that the connection of the terminal through the first frequency band is released.
The method of claim 3,
The mobile communication base station receiving the terminal information,
The downlink data is transmitted to the terminal through the wireless AP with reference to the terminal information.
The method according to claim 1,
When the terminal is connected to the wireless AP,
And transmitting, by the terminal, uplink data to be transmitted to the mobile communication base station to the wireless AP through the second frequency band.
And the uplink data is transmitted from the wireless AP to the mobile communication base station through the first frequency band.
The method according to claim 1,
Turning on the power of the mobile communication module when the strength of the signal periodically broadcast from the wireless AP is less than or equal to a predetermined threshold.
A mobile communication module for transmitting and receiving data through a first frequency band;
A wireless LAN module for transmitting and receiving data through a second frequency band; And
Control the respective functions of the mobile communication module and the wireless LAN module, and when connected to the wireless AP through the wireless LAN module, the power of the mobile communication module is turned off, the signal strength of the wireless AP is a predetermined threshold A control unit for turning on the power of the mobile communication module when
In a state of being connected to the wireless AP, the controller is configured to wirelessly transmit downlink data transmitted through the second frequency band from the wireless AP after being transmitted from the mobile communication base station to the wireless AP through the first frequency band. User terminal receiving through the LAN module.
The method of claim 7, wherein
The control unit transmits a connection request signal to the wireless AP through the wireless LAN module when the signal strength of the wireless AP received through the wireless LAN module exceeds a predetermined threshold.
The method of claim 7, wherein
The control unit transmits terminal information to the wireless AP through the wireless LAN module when connected to the wireless AP.
delete The method of claim 7, wherein
The controller transmits uplink data by controlling the WLAN module in a state of being connected to the wireless AP,
The uplink data is transmitted to the wireless AP through the second frequency band and then the user equipment characterized in that the wireless AP is transmitted to the mobile communication base station through the first frequency band.

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