KR20100138766A - Terminal, method for managing thereof, base station and method for managing thereof - Google Patents

Abstract

PURPOSE: A terminal and a method for managing the terminal, and a base station and a method for managing the base station are provided to flexibly transmit a paging message to a terminal of an idle mode of a femto base station. CONSTITUTION: A determining unit(210) determines whether a femto base station managing a femto cell that a terminal enters belongs to the same paging group as a macro base station managing a macro cell overlapped with the femto cell. When the femto base station belongs to the same paging group, a ranging code transmitting unit(220) transmits the first ranging code for making an available paging state to the femto base station. A receiving unit(230) receives a paging message from the femto base station.

Description

Terminal, terminal management method, base station and base station management method {TERMINAL, METHOD FOR MANAGING THEREOF, BASE STATION AND METHOD FOR MANAGING THEREOF}

The present invention relates to a terminal, a method for managing the terminal, a base station and a method for managing the base station.

A femto cell means, for example, an area in which a wireless communication service is provided for an area within a radius of 30m. A femto base station that manages a femto cell is installed in an office or a home, and uses the same or different frequency as another cell targeting a larger area than a femto cell. Such a femto cell may be included in a macro cell managing a larger area than a femto cell, and the macro cell is managed by the macro base station.

The femto base station periodically transmits a paging message to support a terminal operating in an idle mode in the femto cell. Although one macro cell has a limited number of terminals that a femto base station can service in an environment where a plurality of femto cells overlap, a paging message should be periodically transmitted to all terminals belonging to the same paging group. In particular, the femto cell has a high probability that there is no terminal in the idle mode in the cell. Nevertheless, the femto base station must broadcast a paging message periodically to all the idle mode terminals in the paging group. This approach is inefficient due to excessive paging overhead and waste of radio resources.

In order to solve this problem, a method of broadcasting a paging message only to a terminal in an idle mode existing in a femto cell by setting a paging group differently between a macro base station and a femto base station. However, this method requires a location update according to a paging group change whenever the UE in the idle mode enters the macro cell, thereby causing a load.

The technical problem to be achieved by the present invention is to flexibly operate the transmission of the paging message to the terminal in the idle mode of the femto base station.

A management method according to an embodiment of the present invention is a method for managing a terminal operating in an idle state, the method comprising: entering a femto cell, and a femto base station managing the femto cell manages a macro cell overlapping the femto cell; Determining whether it is the same paging group as the macro base station, if the determination is the same paging group, transmitting a first ranging code for causing a paging possibility to the femto base station, and receiving a paging message from the femto base station It includes a step.

After transmitting the first ranging code, the method may further include transmitting a second ranging code for location registration to the femto base station.

The method may further include transmitting a ranging code for location registration to the femto base station if it is not the same paging group.

The determination may be performed based on a paging group identifier.

A management method according to another embodiment of the present invention is a management method of a terminal operating in an idle state, entering a femto cell, and a paging state indicator indicating a paging state of the femto base station from a femto base station managing the femto cell. And receiving a ranging code for location registration to the femto base station, and receiving a paging message from the femto base station.

According to another aspect of the present invention, there is provided a management method of a femto base station for managing a femto cell, the method comprising: receiving a first ranging code for causing a paging state from a terminal operating in an idle state; After receiving the ranging code, transitioning to a pageable state, and broadcasting a paging message to the terminal.

And after receiving the first ranging code, starting the pageable timer.

The method may further include transitioning to a non-pageable state after the pageable timer expires.

After receiving the first ranging code, the method may further include receiving a second ranging code for location registration from the terminal, and updating the pageable timer.

According to another aspect of the present invention, there is provided a method of managing a femto base station for managing a femto cell, the method comprising: transmitting a paging state indicator indicating a paging state of the femto base station to a terminal operating in an idle state; Receiving a ranging code for location registration, and broadcasting a paging message to the terminal.

A base station according to another embodiment of the present invention is a base station for managing a femto cell, a ranging code receiving unit for receiving a first ranging code for inducing a paging enabled state from a terminal operating in an idle state, the first ranging code And a state change unit for changing the state of the base station to a pageable state after receiving the paging message, and a paging message broadcaster for broadcasting a paging message to the terminal.

The apparatus may further include a timer setting unit configured to activate a pageable timer, wherein the state changing unit may change the state of the base station to a pageable state when the pageable timer expires.

The ranging code receiving unit may further receive a second ranging code for location registration from the terminal.

A terminal according to another embodiment of the present invention is a terminal operating in an idle mode, and determines whether a femto base station managing a femto cell to which the terminal enters is the same paging group as a macro base station managing a macro cell overlapping the femto cell. A determining unit, a ranging code transmitter for transmitting a first ranging code for inducing a paging state to the femto base station, and a receiving unit for receiving a paging message from the femto base station Include.

The ranging code transmitter may further transmit a second ranging code for location registration to the femto base station.

If it is determined that the determination unit is not the same paging group, the ranging code transmitter may transmit the ranging code for location registration.

According to the present invention, it is possible to flexibly operate the paging message transmission to the terminal in the idle mode of the femto base station to reduce the paging load and allocate more resources to the terminal operating in the active mode (active mode).

1 is a diagram schematically illustrating a mobile communication system according to an embodiment of the present invention.
2 is a flowchart illustrating an operation procedure of a terminal and a base station according to an embodiment of the present invention.
3 is a block diagram schematically illustrating a femto base station according to an embodiment of the present invention.
4 is a block diagram schematically illustrating a terminal 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 addition, the terms “… unit”, “… unit”, “module”, etc. described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. have.

In the present specification, a terminal is a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment (User Equipment). It may also refer to a user equipment (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 portable subscriber station, a user device, an access terminal, and the like.

In the present specification, a base station (BS) includes an access point (AP), a radio access station (RAS), a node B (Node B), an advanced node B (evolved NodeB, eNodeB), transmission and reception It may also refer to a base transceiver station (BTS), a mobile multihop relay (MMR) -BS, and the like, and may perform all or part of functions of an access point, a wireless access station, a node B, an eNodeB, a transmission / reception base station, an MMR-BS, and the like. It may also include.

A management method of a terminal and a management method of a base station according to an embodiment of the present invention will now be described in detail with reference to the drawings.

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

Referring to FIG. 1, a mobile communication system includes a femto base station 100 and 110, a macro base station 120, and a terminal 200.

The femto base station (100, 110) refers to a very small base station that provides a wireless communication service for an area of 10cm to 30m radius, for example, the shade of which radio waves of other cells deteriorate, such as inside a home or building It is to ensure the quality of mobile communication service by installing in the area. Each of the femto base stations 100 and 110 manages femto cells 10 and 11. Here, the femto base station 100, 110 and femtocell 10 is not limited to the dictionary definition of femto (femto) is a term that includes a range of ultra-small base station and ultra-small cell having a name of a larger unit or a smaller unit. .

The femto base station 100, 110 may use a public internet network commonly used in a wired internet network as a backbone network.

The macro base station 120 manages a macro cell 12. Macro cell 12 includes femto cells 10 and 11 and means a cell in a larger area than femto cells 10 and 11 and is not limited to the dictionary definition of the term macro.

The macro base station 120 and the femto base station (100, 110) may be connected by a wired network, the macro base station 120 may manage the femto base station (100, 110) connected to it.

The terminal 200 connects to the femto base station 100 and 110 and the macro base station 120 as an end point of the wireless channel and transmits and receives data.

A management method of a terminal and a management method of a base station will now be described in detail with reference to FIG. 2.

2 is a flowchart illustrating an operation procedure of a terminal and a base station according to an embodiment of the present invention.

Referring to FIG. 2, the terminal 200 operating in an idle mode enters the femto cell 10 (S220). Subsequently, the terminal 200 determines whether the femto base station 100 is the same paging group as the macro base station 120 superimposed therewith (S220). The determination of whether the paging group is the same may be performed based on whether the paging group identifier is the same.

If it is determined that the same paging group is determined, the terminal 200 entering the femto cell 10 transmits a ranging code for inducing a paging enable state to the femto base station 100 ( S230). The paging-enabled state refers to a state in which the femto base station 100 can transmit a paging message when at least one terminal 200 operating in the idle mode enters the femto cell 10. On the other hand, when the femto base station 100 does not have a terminal 200 in the idle mode in the femto cell 10 does not transmit a paging message, this is called a paging impossible state.

The ranging code for triggering the paging state is transmitted first when it is determined that the terminal 200 in the idle mode enters the femto cell 10 as the same paging group.

The femto base station 100 receiving the ranging code for inducing the pageable state transitions from the non-pageable state to the pageable state and starts a paging enable timer (S240). From this time, the femto base station 100 broadcasts a paging message to the terminal 200.

If the femto base station 100 that has received the ranging code for causing the pageable state is already in the pageable state, the femto base station 100 maintains the pageable state by resetting and restarting the pageable timer to zero.

Meanwhile, the terminal 200 transmits a ranging code for location update to the femto base station 100 after the idle mode timer ends (S250). Here, the ranging code for location registration is a ranging code in which the femto base station 100 can determine whether the terminal 200 in the idle mode exists in the femto cell 10.

Upon receiving the ranging code for location registration, the femto base station 100 updates the pageable timer and continuously maintains the pageable state (S260).

Then, when the pageable timer ends (S270), the femto base station 100 transitions to the pageless state (S280). When the femto base station 100 transitions to the non-pageable state, the femto base station 100 does not broadcast the paging message until receiving the ranging code for causing the pageable state.

If the terminal 200 in the idle mode does not transmit the ranging code for causing the paging-enabled state, the terminal 200 sends the ranging code for the location registration after the idle mode timer expires, and then the femto base station 100 Send to. Then, a delay time until the idle mode timer expires. Therefore, when the terminal 200 enters the femto cell 10 and immediately transmits a ranging code for inducing a paging enabled state as in this embodiment, the femto base station 100 transmits a paging message until the idle mode timer expires. It is possible to prevent the delay time of not broadcasting.

On the other hand, if it is determined in step S220 that the paging group is not the same, that is, if the femto base station 100 has a different paging group identifier from the overlapped macro base station 120, the terminal 200 in the idle mode is Even if the femto cell 10 enters, the terminal 100 does not transmit a ranging code for causing a pageable state. In this case, the terminal 200 recognizes that the paging group of the femto base station 100 is different from the paging group of the terminal 200 and immediately transmits a ranging code for location registration (S250). Therefore, in this case, the femto base station 100 may transition to a paging-enabled state after receiving the ranging code for location registration, and no delay time occurs.

On the other hand, the femto base station 100 may periodically transmit a paging enable indicator (paging enable indicator) indicating its paging state to the terminal 200. In this case, the terminal 200 that enters the femto cell 10 by selecting the femto base station 100 in the paging state does not transmit the ranging code for inducing the paging state to the femto base station 100. This paging state indicator may be included in a second super frame header (S-SFH).

Now, a femto base station 100 according to an embodiment of the present invention will be described in detail with reference to FIG. 3.

3 is a block diagram schematically illustrating a femto base station according to an embodiment of the present invention.

Referring to FIG. 3, the femto base station 100 includes a ranging code receiving unit 110, a state changing unit 120, a timer setting unit 130, and a paging message broadcasting unit 140.

The ranging code receiving unit 110 receives a ranging code for inducing a pageable state or a ranging code for location registration from the terminal 200.

When the ranging code receiving unit 110 receives a ranging code for inducing a pageable state or a ranging code for location registration from the terminal 200, the state changing unit 120 enters the paging state into the femto base station 100. Change the state of).

The timer setting unit 130 activates the pageable timer when the state changing unit 120 changes the state to the pageable state. On the other hand, the state changing unit 120 changes the state of the femto base station 100 to a non-paging state when the pageable timer expires.

The paging message broadcaster 140 broadcasts a paging message to the terminal 200 when the state changer 120 changes the state of the femto base station 100 to a paging-enabled state.

Now, with reference to Figure 4 will be described in detail with respect to the terminal 200 according to an embodiment of the present invention.

4 is a block diagram schematically illustrating a terminal according to an embodiment of the present invention.

Referring to FIG. 4, the terminal 200 includes a determiner 210, a ranging code transmitter 220, and a receiver 230.

When the terminal 200 enters the femto cell 10, the determination unit 210 determines whether the paging group of the femto base station 100 of the entered femto cell 10 is the same as the paging group of the macro base station 120. do.

When the determination unit 210 determines that the paging group is the same, the ranging code transmitter 220 transmits the ranging code for causing the paging state to the femto base station 100. In addition, when the determination unit 210 determines that the paging group is not the same, the ranging code transmitter 220 transmits the ranging code for location registration to the femto base station 100.

The receiver 230 receives a paging message from the femto base station 100 after the femto base station 100 transitions to a paging enabled state.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (16)

As a management method of a terminal operating in an idle state,
Entering the femto cell,
Determining whether the femto base station managing the femto cell is the same paging group as the macro base station managing the macro cell overlapping the femto cell;
Transmitting the first ranging code for inducing a paging possibility state to the femto base station when it is the same paging group as the determination result, and
Receiving a paging message from the femto base station
Management method comprising a. In claim 1,
After transmitting the first ranging code, transmitting a second ranging code for location registration to the femto base station
Management method further comprising. In claim 1,
Transmitting the ranging code for location registration to the femto base station if it is not the same paging group as a result of the determination;
Management method further comprising. In claim 1,
Wherein the determination is performed based on a paging group identifier. As a management method of a terminal operating in an idle state,
Entering the femto cell,
Receiving a paging state indicator indicating a paging state of the femto base station from the femto base station managing the femto cell,
Transmitting a ranging code for location registration to the femto base station; and
Receiving a paging message from the femto base station
Management method comprising a. A method of managing a femto base station for managing a femto cell,
Receiving a first ranging code for causing a pageable state from a terminal operating in an idle state,
Transitioning to a pageable state after receiving the first ranging code, and
Broadcasting a paging message to the terminal;
Management method comprising a. In claim 6,
And after receiving the first ranging code, starting a pageable timer. In claim 7,
Transitioning to a non-pageable state after the pageable timer expires. In claim 6,
Receiving a second ranging code for location registration from the terminal after receiving the first ranging code, and
Updating the pageable timer
Management method further comprising. A method of managing a femto base station for managing a femto cell,
Transmitting a paging state indicator indicating a paging state of the femto base station to a terminal operating in an idle state;
Receiving a ranging code for location registration from the terminal, and
Broadcasting a paging message to the terminal;
Management method comprising a. A base station for managing a femto cell,
A ranging code receiving unit which receives a first ranging code for inducing a paging enabled state from a terminal operating in an idle state;
A state change unit for changing a state of the base station to a pageable state after receiving the first ranging code;
Paging message broadcasting unit for broadcasting a paging message to the terminal
Base station comprising a. In claim 11,
Further comprising a timer setting unit for starting the pageable timer,
The state changing unit changes the state of the base station to a pageable state when the pageable timer expires.
Base station. In claim 11,
The ranging code receiving unit further receives a second ranging code for location registration from the terminal. A terminal operating in idle mode,
Determination unit for determining whether the femto base station for managing the femto cell entering the terminal is the same paging group as the macro base station for managing the macro cell overlapping the femto cell,
A ranging code transmitter for transmitting a first ranging code for causing a paging state to the femto base station when the determination result is the same paging group;
Receiving unit for receiving a paging message from the femto base station
Terminal comprising a. The method of claim 14,
The ranging code transmitter further transmits a second ranging code for location registration to the femto base station. The method of claim 14,
When the determination unit determines that the same paging group is not the same, the ranging code transmitter transmits the ranging code for location registration.

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