WO2010098634A2 - Method and apparatus for transmitting scanning start information of a heterogeneous access network - Google Patents

Abstract

A method and an apparatus for providing user equipment at a boundary with reference information for starting the scanning of a heterogeneous access network are provided. For this purpose, a receiver, according to one embodiment, supports a plurality of access systems, and comprises: a receiving circuit for receiving a scanning threshold value from a transmitter; a first measurement module which measures the channel quality of a serving cell; and a second measurement module which starts scanning a neighbor cell, which is a heterogeneous access network, when the channel quality of the serving cell is lower than the channel quality threshold value. In addition, the receiver can further comprise a handover module which performs a handover to the neighbor cell when the channel quality of the neighbor cell measured by the second measurement module is higher than the channel quality of the serving cell.

Description

Method and apparatus for transmitting scanning start information of heterogeneous access network

Embodiments of the present invention relate to a method and apparatus for providing reference information for initiating scanning of a different radio access network to a terminal in a boundary area.

Network specifications that support multiple radio access technologies (RATs) have been proposed.

According to IEEE 802.16m, when a terminal located in the boundary region of the IEEE 802.16m network receives a system information broadcast including a network boundary indication from the serving cell, a heterogeneous access network adjacent to the serving cell is received. Scanning is periodically performed for neighboring cells of a different kind of access network.

Since the terminal performs scanning of the heterogeneous access network with reference only to the network boundary indicator, the following problems occur.

Firstly, a multi-mode UE equipped with multiple RFs periodically performs heterogeneous access networks to perform scanning on heterogeneous access networks even though it is not in a situation of performing an inter-RATs handover procedure. Unnecessary power is wasted by enabling RF in the access network.

Secondly, considering a multimode terminal equipped with one integrated RF, the integrated RF, which was operated in 802.16m to perform scanning of the heterogeneous access network while operating in the 802.16m mode, is converted to RF for the heterogeneous access network ( switching). Since data cannot be received from the 802.16m serving cell during the switching interval, the data rate is eventually reduced.

The problem to be solved by the embodiments of the present invention is to provide a means for preventing unnecessary scanning for heterogeneous access networks.

In order to solve the above problems, the present invention provides a method for transmitting a scanning start information of a heterogeneous access network by one embodiment.

The method of transmitting the determination information may include receiving, by a receiver, a channel quality report of a neighbor cell, which is a heterogeneous access network, and a scanning threshold for determining whether to initiate scanning of the neighbor cell using the channel quality of the neighbor cell. Updating the value; And transmitting the updated scanning threshold to the receiver.

Lowering the scanning threshold when the channel quality of the neighboring cell is greater than the scanning threshold and / or increasing the scanning threshold when the channel quality of the neighboring cell is smaller than the scanning threshold. have.

In order to solve the above problem, the present invention provides a transmitter for transmitting scanning start information of a heterogeneous access network in another embodiment.

The transmitter may include a receiving circuit for reporting channel quality of a neighboring cell, which is a heterogeneous access network, from a receiver, and updating a scanning threshold for determining whether to start scanning of the neighboring cell using the channel quality of the neighboring cell. Threshold determination module; And a notification module for transmitting the updated scanning threshold to the receiver.

In order to solve the above problems, the present invention provides a receiver supporting a plurality of access systems in another embodiment.

The receiver includes a receiving circuit for receiving a scanning threshold value from a transmitter; and a first measurement module for measuring channel quality of a serving cell; And a second measurement module that starts scanning for neighboring cells that are heterogeneous access networks when the channel quality of the serving cell is lower than the channel quality threshold.

The receiver may further include a transmission circuit for transmitting the channel quality for the neighbor cell, which is a heterogeneous access network measured by the second measurement module, to the transmitter.

The receiver may further include a handover module for performing a handover to the neighbor cell if the channel quality of the neighbor cell measured by the second measurement module is higher than the channel quality of the serving cell.

When the channel quality of the serving cell is lower than the channel quality threshold, the second measurement module further performs scanning of neighboring cells that are homogeneous access networks.

If the channel quality of the neighbor cell which is the homogeneous access network is higher than the channel quality of the serving cell, the handover module first attempts handover to the neighbor cell which is the homogeneous access network. The channel quality of the neighbor cell, which is the homogeneous access network, is lower than the channel quality of the serving cell, and the channel quality of the neighbor cell, which is the heterogeneous access network, is higher than the channel quality of the serving cell. Handover to a neighbor cell is performed.

In these three embodiments, the scanning threshold may be sent with a network boundary indicator.

Embodiments of the present invention minimize the power consumption and improve the data rate by preventing the terminal in the boundary area from performing unnecessary scanning of the heterogeneous access network.

1 briefly illustrates a configuration of a communication network to which embodiments of the present invention are applied.

2 briefly illustrates a structure of a transmitter according to an embodiment of the present invention.

3 is a flowchart illustrating a scanning threshold determination method of a transmitter.

4 briefly illustrates a structure of a receiver according to an embodiment of the present invention.

5 is a flowchart illustrating a method of scanning a neighbor cell by a receiver.

In general, a communication system includes a transmitter and a receiver. The transmitter and the receiver are transceivers that simultaneously perform a transmission function and a reception function. However, in the present invention, for convenience of description, one side of transmitting system information broadcast or inter-RAT scanning threshold to a network is defined as a transmitter, and the other side of transmitting a scanning result to the transmitter is a receiver. It is defined as

The transmitter may be called a base station (BS) or an advanced base station (ABS), and the receiver may be called a mobile station (MS) or an advanced mobile station (AMS).

Assuming that the communication system to which the present invention is applied is a cellular-based wireless mobile communication system, a serving cell refers to a cell of a service area to which a receiver belongs.

1 shows a topology of a communication network to which embodiments of the present invention are applied.

The communication network of FIG. 1 is a multi RAT system in which at least two Radio Access Technologies (RATs) are mixed. Accordingly, the receiver 200 according to an embodiment of the present invention may be referred to as a multimode terminal supporting a plurality of RATs.

For convenience of description, it is assumed that a communication network to which the present invention is applied includes a serving cell of a first RAT to which a transmitter 100 and a receiver 200 belong, and a neighbor cell of a second RAT. Therefore, in the entire specification, the neighbor cell refers to a neighbor cell that supports a different type of RAT from the serving cell. For example, if the first RAT is an IEEE 802.16m system, the second RAT may be defined as a non-IEEE 802.16m system such as a Long Term Evolution (LTE) system or a 3rd Generation (3G) system. .

In FIG. 1, the receiver 200 is moving from a serving cell to a neighboring cell and is currently located in a boundary area of the serving cell and the neighboring cell.

When the receiver 200 reaches a point where the channel quality of the serving cell becomes smaller than a preset threshold (hereinafter, referred to as an 'inter-RAT scanning threshold or threshold'), the receiver 200 detects the possibility of handover to a neighbor cell. Start scanning of neighboring cells. In other words, the scanning threshold may be a reference value for determining whether the receiver 200 starts scanning of a neighbor cell to perform an inter-RAT handover procedure.

The scanning threshold is a value calculated by the transmitter 100 based on the channel quality of the serving cell reported from the receivers 200 in the serving cell. The transmitter 100 calculates scanning thresholds at regular intervals to update the prestored values, and provides the updated scanning thresholds to the receivers 200 in the serving cell.

As a result, since the receiver 200 performs scanning of neighbor cells only at a proper time when a handover procedure between heterogeneous access networks is required, it is possible to prevent waste of power due to unnecessary scanning of neighbor cells.

Next, the structure of a transmitter and a receiver according to a specific embodiment of the present invention will be described.

<Structure of transmitter>

2 briefly illustrates a structure of a transmitter according to an embodiment of the present invention.

In the example of FIG. 1, the transmitter 100 includes a channel encoder 110, a mapper 120, a modulator 130, a receive circuitory 140, and a memory. 150 and a controller 160.

The channel encoder 110 encodes the input stream of information bits by a predetermined coding scheme to generate coded data. Channel encoder 110 may add error detection bits, such as cyclic redundancy check (CRC), to a stream of information bits, and may include a turbo code, a low density parity check code, or other convolutional code. You can add extra code for error correction, such as

The mapper 120 maps the encoded data output from the channel encoder 110 into symbols represented by positions according to constellations of amplitude and phase. The modulation scheme is not limited, and may be m-quadrature phase shift keying (m-PSK) or m-quadrature amplitude modulation (m-QAM).

When the transmitter 100 supports multiple access modulation, the transmitter 100 may further include a modulator 130 for modulating the mapped transmission symbol according to a predetermined multiple access modulation scheme. There is no restriction on the multiple access modulation scheme, and a single-carrier modulation scheme such as CDMA or a multi-carrier modulation scheme such as OFDM may be adopted.

The receiving circuit 140 receives the signal transmitted from the receiver through the antenna and digitizes it and sends it to the controller 160. The information extracted from the signal received by the receiving circuit 140 includes the channel quality of the serving cell.

The channel quality is one of information fed back to the transmitter 100 by the receiver, and includes channel quality information (CQI), channel state information (for example, signal to interference and noise ratio (SINR) and signal to signal). Noise ratio) and the like, and at least one of signal strength information.

The memory 150 stores scanning thresholds in addition to various system information necessary for the operation of the transmitter 100.

The controller 160 controls the overall operation of the transmitter 100, and in particular includes an advertising module 161. Optionally, the controller 160 can further include a threshold computing module 162.

The notification module 161 notifies the scanning threshold to the receiver (s) 200 located at the network boundary of the cell to which the transmitter 100 belongs. The scanning threshold may be included in the other access network information together with the network boundary indication. In one WirelessMAN-OFDMA Advanced network, for example, heterogeneous access network information may be informed using an AAI L2 XFER message. The notification module 161 may notify the receivers 200 of the scanning threshold at a predetermined period, or may further notify when the scanning threshold is updated in addition to the predetermined period.

The initial scanning threshold can be obtained through field tests performed at the network boundary between heterogeneous access networks when initially configuring the network. This initial scanning threshold can be used as a constant value, but on the one hand continuous updating is also possible. That is, in an actual service situation, since the location of the receiver 200, the time, or the channel conditions of the network change in real time, dynamic update of the scanning threshold is required to obtain an optimal scanning threshold. The threshold determination module 162 may be further provided for this purpose.

The threshold determination module 162 determines the new scanning threshold by comparing the channel quality of the neighbor cell received from the receivers 200 in the boundary region with the scanning threshold previously stored in the memory 150. Then, the previous scanning threshold is updated with the determined threshold, and the updated scanning threshold is transmitted to the notification module 161.

The determination process of the scanning threshold is described in detail as follows.

3 is a flowchart illustrating a scanning threshold determination method of the transmitter 100.

When the notification module 161 informs the receiver 200 of the network boundary (S101), the receiver 200 compares the scanning quality measured with the channel quality measured for the serving cell (S102) (S103). . If the channel quality of the serving cell is less than (or less than or equal to) the scanning threshold, scanning of the neighboring cell is started (S104).

The receiver 200 reports the channel quality of the neighbor cell back to the transmitter 100 of the serving cell (S105), and the threshold determination module 162 of the transmitter 100 reports the channel of the neighbor cell reported from the receiver 200. The quality is compared to a pre-stored scanning threshold to determine a new scanning threshold.

Specifically, if the channel quality of the neighbor cell reported from the receiver 200 is greater than the pre-stored scanning threshold (S107), the threshold determination module 162 lowers the scanning threshold (S108), and the channel quality of the reported neighbor cell. If it is smaller than the prestored scanning threshold (S109), the scanning threshold is increased (S110). The updated scanning threshold allows the receiver 200 to initiate scanning of neighboring cells under more appropriate conditions. The notification module 161 notifies the receivers 200 of the serving cell again of the updated scanning threshold so as to use the next neighboring cell scanning.

Meanwhile, since a plurality of receivers 200 may exist in the boundary region, the transmitter 100 may receive a plurality of channel quality reports. In this case, the threshold determination module 162 of the transmitter 100 compares the channel quality of the neighboring cells reported from the plurality of receivers 200 with an average value S106 and a previously stored scanning threshold to compare a new scanning threshold. Determine the value.

<Structure of Receiver>

4 briefly illustrates a structure of a receiver according to an embodiment of the present invention.

In the example of FIG. 4, the receiver 200 includes a channel decoder 210, a demapper 220, a demodulator 230, a memory 240, and a transmit circuit. circuitry 250 and controller 260.

The demodulator 230, the demapper 220, and the channel decoder 210 of the receiver 200 perform inverse functions with respect to the modulator 130, the mapper 120, and the channel encoder 110 of the transmitter 100 described above. . In other words, the signal received via the antenna is demodulated by demodulator 230 and demapped back to coded data by demapper 220. The encoded data is decoded by the channel decoder 210. The demodulator 230, the demapper 220, and the channel decoder 210 may be collectively referred to as a reception circuit (not shown).

The memory 240 stores a scanning threshold in addition to various system information necessary for the operation of the receiver 200.

The transmitting circuit 250 transmits the channel quality of the neighboring cell provided from the controller 260 to the transmitter 100 through an antenna.

The controller 250 controls the overall operation of the receiver 200, in particular, the first measurement module 251 for measuring the channel of the serving cell, the second measurement module 252 for measuring the channel of the heterogeneous access network, Handover module 253.

The scanning process of the neighbor cell by the controller 250 is described in detail as follows. 5 is a flowchart illustrating a method of scanning a neighbor cell by a receiver 200.

The first measurement module 251 periodically measures the channel quality of the serving cell to which the receiver 200 belongs (S201).

The second measurement module 252 compares the channel quality of the serving cell with the channel quality threshold previously stored in the memory 240 (S202), and the channel quality of the serving cell is greater than the channel quality threshold previously stored in the memory 240. If small (or smaller or equal), measure the channel quality of the neighbor cell. In addition, the second measurement module 252 reports the measured channel quality of the neighboring cell to the transmitter 100 of the serving cell (S204) to be used for updating the channel quality threshold.

The handover module 253 performs a handover procedure between neighboring cells when the channel quality of the neighbor cell measured by the second measurement module 252 is higher than the channel quality of the serving cell.

Meanwhile, even when a neighboring cell capable of handover is detected, the second measurement module 252 may first detect whether there is a neighboring cell that is a homogeneous access network capable of handover before performing the handover to the neighboring cell.

In other words, if the channel quality of the serving cell is less than (or less than or equal to) the channel quality threshold previously stored in the memory 240, the second measurement module 252 is a neighbor cell that is a homogeneous access network with a neighbor cell that is a heterogeneous access network. Scanning is performed in parallel (S203). If the channel quality of the neighbor cell, which is a homogeneous access network, is higher than the channel quality of the serving cell (S205), the handover module 253 preferentially attempts handover to the neighbor cell of the homogeneous access network (S206). Therefore, when the channel quality of the neighboring cell, which is a homogeneous access network, is lower than the channel quality of the serving cell, and the channel quality of the neighboring cell, which is a heterogeneous access network, is higher than the channel quality of the serving cell (S207), the handed neighbor is a neighboring cell, which is a heterogeneous access network. Over is performed (S208).

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 or improvements based on the claims can be made by those skilled in the art to which the present invention pertains. Aspects also fall within the scope of the present invention.

Embodiments of the present invention can be applied to a method and apparatus for providing a terminal in a boundary area with reference information for initiating scanning of a different radio access network.

In addition, the embodiments of the present invention described above are not implemented only by an apparatus and a method, but may be implemented as a program for realizing a method of arranging the steps in which the apparatus of each embodiment operates.

Claims (20)

1. In a receiver supporting a plurality of access systems,

   Receiving circuitry for receiving a scanning threshold from a transmitter;

   A first measurement module for measuring channel quality of the serving cell; And

   A second measurement module that starts scanning for neighboring cells that are heterogeneous access networks when the channel quality of the serving cell is lower than the channel quality threshold;

   Receiver comprising a.
2. The method of claim 1,

   And the scanning threshold is received with a network boundary indicator.
3. The method of claim 2,

   And the scanning threshold is included in the AAI L2 XFER message.
4. The method of claim 1,

   And a transmitter circuit for transmitting channel quality for a neighbor cell, which is a heterogeneous access network, measured by the second measurement module, to the transmitter.
5. The method of claim 1,

   And a handover module for performing a handover to the neighbor cell if the channel quality of the neighbor cell measured by the second measurement module is higher than the channel quality of the serving cell.
6. The method of claim 5, wherein the second measurement module,

   And if the channel quality of the serving cell is lower than the channel quality threshold, scanning for neighboring cells that are homogeneous access networks.
7. The method of claim 6, wherein the handover module,

   And if the channel quality of the neighbor cell that is the homogeneous access network is higher than the channel quality of the serving cell, the receiver attempts to handover to the neighbor cell that is the homogeneous access network.
8. The method of claim 7, wherein the handover module,

   When the channel quality of the neighboring cell which is the homogeneous access network is lower than the channel quality of the serving cell, and the channel quality of the neighboring cell which is the heterogeneous access network is higher than the channel quality of the serving cell, the neighboring cell which is the heterogeneous access network. Receiver performing a handover.
9. A method for transmitting a scanning start information of a heterogeneous access network by a transmitter, the method comprising:

   Receiving a channel quality report for a neighbor cell that is a heterogeneous access network from a receiver;

   Updating a scanning threshold for determining whether to initiate scanning of the neighbor cell using the channel quality of the neighbor cell; And

   Transmitting the updated scanning threshold to the receiver

   Scanning start information transmission method of a heterogeneous access network comprising a.
10. The method of claim 9,

    And the scanning threshold is transmitted with a network boundary indicator.
11. The method of claim 10,

    The scanning threshold value is included in the AAI L2 XFER message is transmitted scanning start information transmission method of a heterogeneous access network.
12. The method of claim 9,

    And if the channel quality of the neighboring cell is greater than the scanning threshold, lowering the scanning threshold.
13. The method of claim 9,

    And if the channel quality of the neighboring cell is less than the scanning threshold, increasing the scanning threshold.
14. The method of claim 9,

    If multiple channel qualities are reported from multiple receivers,

    And transmitting the scanning threshold information of the heterogeneous access network using the average value of the plurality of channel qualities.
15. A transmitter for transmitting scanning start information of a heterogeneous access network,

    A receiving circuit for reporting channel quality from a new device to a neighboring cell which is a heterogeneous access network;

    A threshold determination module for updating a scanning threshold value for determining whether to initiate scanning of the neighbor cell using the channel quality of the neighbor cell; And

    A notification module for transmitting the updated scanning threshold to the receiver

    Transmitter comprising a.
16. The method of claim 15,

    And the scanning threshold is transmitted with a network boundary indicator.
17. The method of claim 16,

    And the scanning threshold is included in the AAI L2 XFER message and transmitted.
18. The method of claim 15, wherein the threshold determination module,

    And lowering the scanning threshold if the channel quality of the neighbor cell is greater than the scanning threshold.
19. The method of claim 15, wherein the threshold determination module,

    And if the channel quality of the neighboring cell is less than the scanning threshold, increasing the scanning threshold.
20. The method of claim 15, wherein the threshold determination module,

    If multiple channel qualities are reported from multiple receivers,

    And updating the scanning threshold by using the average of the plurality of channel qualities.

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