KR101015015B1 - Apparatus and method for power offset setting for HS-SCCH transmission power setting in mobile communication base station - Google Patents

Abstract

The present invention provides an apparatus and method for setting a power offset for setting the HS-SCCH transmission power of a mobile communication base station, comprising: a receiving unit for receiving information of a terminal through the HS-DPCCH; An information checking unit for checking whether the DTX or the ACK / NACK is received from the information of the terminal received by the receiving unit; An HS-SCCH power offset control unit for controlling the HS-SCCH power offset by using the information confirmed by the information checking unit; A DCH power controller which receives a power offset setting value from a control station and performs DCH power control; A DCH power adjustment unit performing DCH power adjustment under the control of the DCH power control unit; The initial HS-SCCH power adjustment is performed at a power larger than the transmission power of the DCH according to the value adjusted by the DCH power adjustment unit, and the HS-SCCH power adjustment is performed at the power offset set by the HS-SCCH power offset control unit. By including the HS-SCCH power adjustment unit for transmitting the HS-SCCH, by controlling the power offset for setting the transmission power of the HS-SCCH, which is a signal channel used in the WCDMA system supporting HSDPA, the terminal is in a soft handover situation. This will solve the performance degradation problem caused by the lack of HS-SCCH transmit power.

Description

Apparatus and method for power offset setting for HS-SCCH transmission power setting in mobile communication base station}

1 is a block diagram of a power offset setting apparatus for setting HS-SCCH transmission power of a conventional mobile communication base station.

2 is a flowchart illustrating a power offset setting method for setting HS-SCCH transmission power of a conventional mobile communication base station.

3 is a block diagram of a power offset setting apparatus for setting HS-SCCH transmission power of a mobile communication base station according to the present invention;

4 is a flowchart illustrating a power offset setting method for HS-SCCH transmission power setting of a mobile communication base station according to the present invention;

FIG. 5 is a detailed flowchart of ST13, which is an HS-SCCH power offset control step in FIG. 4;

6 is a graph showing an operation example of the present invention.

Explanation of symbols on the main parts of the drawings

10: receiver

20: information confirmation unit

30: HS-SCCH power offset control

40: DCH power control

50: DCH power control unit

60: HS-SCCH power control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for setting a power offset for setting HS-SCCH transmission power of a mobile communication base station. In particular, a wideband code division (WCDMA) supporting high speed data packet access (HSDPA) is provided. Multiple Access) The lack of HS-SCCH transmit power that can occur when the UE is in soft handover condition by controlling the power offset for setting the transmit power of HS-SCCH, a signal channel used in the system. The present invention relates to an apparatus and method for setting a power offset for HS-SCCH transmission power setting of a mobile communication base station, which is suitable for solving the problem of performance degradation.

In general, HSDPA technology is located in the evolutionary stage of the existing asynchronous IMT-2000 standard, which is an access method added to the downlink for high-speed packet data transmission, and 3GPP (3rd Generation Partnership). Feature of the Release 5 standard of the project).

Channels used for 3GPP HSDPA include HS-DPCCH (High Speed Dedicated Physical Control CHannel), HS-DSCH (High Speed Downlink Shared CHannel), HS-PDSCH (High Speed Physical Downlink Shared CHannel), and HS-SCCH (High Speed) Shared Control Channel).

Here, the HS-DPCCH is an uplink channel used by each terminal to select a base station having the best downlink pilot channel condition and feed back modulation and encoding information suitable for the channel condition. The terminal receiving the packet data from the base station receives ACK / NACK information. Is transmitted through the HS-DPCCH.

In addition, the HS-SCCH is a downlink that transmits information related to a transport format and resource indicator (TFRI) and a hybrid automatic retransmission query (H-ARQ) including a channel code, a modulation method, and a transport block (TB) set size. As a maximum, four can be used per terminal. Quadrature Phase Shift Keying (QPSK) modulation is used and the Spreading Factor (SF) is 128.

In addition, the HS-DSCH is a downlink transport channel for high-speed packet data transmission. One DPCCH, one HS-DSCH, and one or more HS-SCCHs are formed between the base station and one terminal for HSDPA transmission. The HS-PDSCH is a physical channel for transmitting the HS-DSCH and the HS-DSCH is composed of one or more HS-PDSCH. This depends on the rate modulation scheme (Quadrature Phase Shift Keying (QPSK) or 16 Quadrature Amplitude Modulation (16QAM)).

Therefore, in the HSDPA technology, a packet is transmitted to each user through the HS-DSCH, and information about the corresponding packet (owner, channel code, modulation scheme, etc.) is transmitted to each user through the HS-SCCH.

At this time, the HS-SCCH transmission power control is a method of transmitting at a constant power irrespective of the user and a method of transmitting at a power larger by a given power offset than the pilot power of each user's dedicated channel (DCH).

1 is a block diagram of a power offset setting apparatus for setting HS-SCCH transmission power of a conventional mobile communication base station.

As shown therein, the receiving unit 1 receives the information of the terminal through the HS-DPCCH; An information confirming unit (2) for confirming whether DTX (Discontinuous Transmission) or ACK / NACK (Acknowledgment / No Acknowledgement) is received from the information of the terminal received by the receiving unit 1; A DCH power control unit 3 for receiving the power offset setting value from the control station and performing DCH power control; A DCH power adjustment unit 4 which performs DCH power adjustment under the control of the DCH power control unit 3; According to the value adjusted by the DCH power adjusting section 4, the HS-SCCH power adjusting section 5 transmits the HS-SCCH by performing the HS-SCCH power adjustment by a power offset larger than the transmission power of the DCH.

2 is a flowchart illustrating a power offset setting method for setting HS-SCCH transmission power of a conventional mobile communication base station.

As shown therein, step (ST1) of receiving power offset setting value from the control station to perform DCH power control; Adjusting DCH power by the DCH power control (ST2); By performing the HS-SCCH power adjustment by using a power offset larger than the transmission power of the DCH by using the DCH power adjustment to perform the step of transmitting the HS-SCCH (ST3).

The operation of the prior art configured as described above will be described in detail with reference to the accompanying drawings.

First, there are two conventional HS-SCCH transmission power control schemes.

The first is that the HS-SCCH transmits at a constant power regardless of the user to which it is delivered, so power control is not necessary.

Secondly, the HS-SCCH power control unit 5 to which the HS-SCCH is transmitted transmits the HS-SCCH at a power larger by a power offset than the transmission power of the DCH. 1 and 2 show this.

Thus, as shown in Figures 1 and 2, the power offset is transmitted from the control station when setting the channel of each user.

In this case, the information received by the receiver 1 and the confirmation information from the information confirming unit 2 are not used by the HS-SCCH power adjusting unit 5.

In addition, since the DCH is a fast power control channel according to the channel condition of the user, the transmission power can be efficiently used by transmitting the HS-SCCH in proportion thereto.

However, this conventional technology has the following problems.

First, when transmitting the HS-SCCH at a constant power regardless of the user who is the first in the prior art, the user in the corner of the cell must use sufficient power to receive the HS-SCCH. There was a problem that brought about.

In addition, in the case of a method of transmitting power with a power offset larger than the pilot power of each user's DCH, which is the second in the prior art, there is a problem in that the transmission power of the HS-SCCH is insufficient when the user is in soft handover. .

That is, for a user in a soft handover situation, since the DCH is received by several base stations, the overall DCH transmission power from one base station is lowered, whereas the HS-SCCH transmits only one base station. Therefore, if the same power offset is used as in the non-soft handover, there is a problem that the reception error probability is increased due to the lack of the HS-SCCH reception power.

Accordingly, the present invention has been proposed to solve the above conventional problems, an object of the present invention is to control the power offset for the transmission power setting of the HS-SCCH signal channel used in the WCDMA system supporting HSDPA terminal The present invention provides a power offset setting device and method for setting the HS-SCCH transmission power of a mobile communication base station that can solve the performance degradation problem caused by the lack of HS-SCCH transmission power that may occur when the soft handover situation occurs. .

In order to achieve the above object, a power offset setting apparatus for HS-SCCH transmission power setting of a mobile communication base station according to an embodiment of the present invention,

A receiving unit for receiving information of the terminal through the HS-DPCCH; An information checking unit for checking whether the DTX or the ACK / NACK is received from the information of the terminal received by the receiving unit; An HS-SCCH power offset control unit for controlling the HS-SCCH power offset by using the information confirmed by the information checking unit; A DCH power controller which receives a power offset setting value from a control station and performs DCH power control; A DCH power adjustment unit performing DCH power adjustment under the control of the DCH power control unit; The initial HS-SCCH power adjustment is performed at a power larger than the transmission power of the DCH according to the value adjusted by the DCH power adjustment unit, and the HS-SCCH power adjustment is performed at the power offset set by the HS-SCCH power offset control unit. Including the HS-SCCH power control unit for transmitting the HS-SCCH characterized by its technical configuration.

In order to achieve the above object, a power offset setting method for setting HS-SCCH transmission power of a mobile communication base station according to an embodiment of the present invention,

A first step of receiving at the base station information from the terminal via the HS-DPCCH; A second step of checking whether an ACK / NACK or a DTX is received from the received information after the first step; A third step of controlling a power offset using the information identified in the second step; And a fourth step of transmitting the HS-SCCH after adjusting the HS-SCCH power according to the power offset controlled in the third step.

Hereinafter, an embodiment according to the present invention, an apparatus for setting a power offset for setting HS-SCCH transmission power of a mobile communication base station, and a method thereof will be described with reference to the accompanying drawings.

3 is a block diagram of a power offset setting apparatus for setting HS-SCCH transmission power of a mobile communication base station according to the present invention.

As shown therein, the receiving unit 10 receives information of the terminal through the HS-DPCCH; An information confirming unit 20 confirming whether a DTX (Discontinuous Transmission) or ACK / NACK (Acknowledgment / No Acknowledgement) is received from the information of the terminal received by the receiving unit 10; An HS-SCCH power offset control unit 30 for controlling the HS-SCCH power offset using information confirmed by the information checking unit 20; A DCH power controller 40 which receives a power offset setting value from a control station and performs DCH power control; A DCH power adjustment unit 50 for performing DCH power adjustment under the control of the DCH power control unit 40; According to the value adjusted by the DCH power adjustment unit 50, the initial HS-SCCH power adjustment is performed by a power larger than the transmission power of the DCH, and the HS to the power offset set by the HS-SCCH power offset control unit 30 And HS-SCCH power adjusting unit 60 for performing the SCCH power adjustment to transmit the HS-SCCH.

When the HS-SCCH power offset control unit 30 confirms that the information confirming unit 20 has received the DTX from the terminal, the HS-SCCH power offset control unit 30 adjusts the power offset by K * D_SCCH as large as possible, and the information confirming unit 20 controls the When confirming that an ACK or NACK is received, the power offset is adjusted as small as D_SCCH, and D_SCCH is much smaller than the difference between the power offset minimum (PO_min) and the power offset maximum (PO_Max). K and D_SCCH are set to be determined in consideration of the reception performance of the HS-SCCH.

4 is a flowchart illustrating a power offset setting method for setting HS-SCCH transmission power of a mobile communication base station according to the present invention.

As shown therein, a first step (ST11) of receiving information from the terminal from the base station through the HS-DPCCH; A second step (ST12) of checking whether an ACK / NACK or a DTX is received from the received information after the first step; A third step ST13 of controlling the power offset using the information identified in the second step; And performing a fourth step (ST14) of transmitting the HS-SCCH after adjusting the HS-SCCH power according to the power offset controlled in the third step.

FIG. 5 is a detailed flowchart of ST13, which is an HS-SCCH power offset control step in FIG.

As shown therein, the third step includes: an eleventh step (ST21) of using the value specified by the control station when the initial value of the power offset is set to the HSDPA; A twelfth step (ST22) of checking what information is received in the received information after the eleventh step; A thirteenth step (ST23 to ST28) of adjusting the magnitude of the power offset using the information identified in the twelfth step is performed.

In the thirteenth step, if the information checked in the twelfth step is DTX reception, the power offset is adjusted to be larger by K * D_SCCH, and D_SCCH is the minimum value of the power offset (PO_min) and the maximum value of the power offset (PO_Max). It is set to a value much smaller than the difference value, and K and D_SCCH are performed including the twenty-first step (ST23) to be determined in consideration of the reception performance of the HS-SCCH.

In the thirteenth step, if the power offset adjusted after the twenty-first step is larger than the set maximum value PO_max, the twenty-second step of adjusting the power offset to the set maximum value PO_max so that HS-SCCH power adjustment is performed. It further includes (ST24) (ST25).

In the thirteenth step, if the information checked in the twelfth step is an ACK or NACK reception, the power offset is adjusted to be smaller by D_SCCH, and D_SCCH is the minimum value of the power offset (PO_min) and the maximum value of the power offset (PO_Max). A thirty-first step ST26 is set to a value that is much smaller than the difference value.

In the thirteenth step, if the power offset adjusted after the thirty-first step is smaller than the set minimum value PO_min, the thirty-second step of adjusting the power offset to the set minimum value PO_min to perform HS-SCCH power adjustment ( ST27) (ST28) is further included.

An apparatus for setting a power offset for setting HS-SCCH transmission power of a mobile communication base station and a method thereof according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, the present invention is to control the power offset for setting the transmission power of the HS-SCCH signal channel used in the WCDMA system supporting HSDPA.

Therefore, in order to implement the present invention, the power offset for the HS-SCCH in the transceiver structure of the base station can be controlled by adding an HS-SCCH power offset control unit 30 to feed back to the HS-SCCH power adjustment.

As the input information of the HS-SCCH power offset control unit 30, there is a reception value for ACK / NACK or DTX information of the uplink HS-DPCCH.

Referring to the present invention in more detail as follows.

First, as shown in Figure 3, the receiver 10 is located in the receiver of the base station, and receives the information of the terminal by the HS-DPCCH. In this case, the received information includes DTX or ACK or NACK information.

In addition, the information checking unit 20 checks whether DTX or ACK / NACK information is received from the information of the terminal received by the receiving unit 10 and provides it to the HS-SCCH power offset control unit 30.

Then, the HS-SCCH power offset control unit 30 controls the HS-SCCH power offset by using the information confirmed by the information checking unit 20. That is, when the information confirming unit 20 confirms that the DTX is received from the terminal, the power offset is adjusted to be larger by K * D_SCCH, and when the information confirming unit 20 confirms that the ACK or NACK is received from the terminal, the power offset is determined by the D_SCCH. Adjust it small. Here, D_SCCH is set to a value smaller than the difference between the minimum value PO_min of the power offset and the maximum value PO_Max of the power offset. Also, K and D_SCCH are determined in consideration of the reception performance of the HS-SCCH.

6 is a graph showing an operation example of the present invention.

Therefore, when receiving the DTX, as shown in FIG. 6, increasing the power offset by K * D_SCCH greatly increases the power offset.

In addition, when ACK or NACK is received, as shown in FIG. 6, if the power offset is reduced by D_SCCH, the power offset is reduced by a minute width.

The power offset adjusted by this increase and decrease width is positioned between the minimum value PO_min and the maximum value PO_max of the power offset.

That is, when the value of increasing the power offset becomes larger than the preset maximum value PO_max, the power offset value is set to the maximum value instead of increasing by K * D_SCCH.

When the value of decreasing the power offset is smaller than the preset minimum value PO_min, the power offset value is set to the lowest value instead of decreasing by the D_SCCH.

The DCH power control unit 40 receives the power offset setting value from the control station and performs DCH power control.

In addition, the DCH power control unit 50 performs DCH power adjustment under the control of the DCH power control unit 40.

Then, the HS-SCCH power regulator 60 performs initial HS-SCCH power adjustment with power larger than the power offset of the DCH according to the value adjusted by the DCH power regulator 50, and then HS-SCCH power. HS-SCCH power adjustment is performed at the power offset set by the offset control unit 30 to transmit the HS-SCCH.

The operation of the present invention will be described in more detail with reference to FIGS. 4 and 5 as follows.

First, the receiver 10 of the base station receives information from the terminal through the HS-DPCCH (ST11).

Then, the information checking unit 20 checks whether the ACK / NACK or DTX is received from the information received by the receiving unit 10 (ST12).

Then, the power offset is controlled using the confirmed information (ST13).

When controlling such a power offset, HS-SCCH power adjustment is performed initially using the power offset value specified by the control station. That is, when the DCH power control unit 40 receives the power offset setting value from the control station and performs the DCH power control, the DCH power adjustment unit 50 performs the DCH power adjustment under the control of the DCH power control unit 40. According to the value adjusted by the control station, the HS-SCCH power adjusting unit 60 performs initial HS-SCCH power adjustment with a power larger than the adjusted DCH transmission power by a power offset (ST21).

After performing the initial HS-SCCH power adjustment, the HS-SCCH power adjustment unit 60 performs the HS-SCCH power adjustment with the power offset set by the HS-SCCH power offset control unit 30.

To this end, first, the information checking unit 20 determines what information is included in the information received from the terminal (ST22).

If the confirmed information is DTX, adjust the power offset as large as K * D_SCCH.

At this time, D_SCCH is set to a fine value, and K and D_SCCH are determined in consideration of the reception performance of the HS-SCCH (ST23).

Then, it is determined whether the adjusted power offset is larger than the set maximum value PO_max (ST24).

Therefore, if the adjusted power offset is not larger than the set maximum value PO_max, the HS-SCCH power regulator 60 performs power adjustment by the power offset adjusted by K * D_SCCH to transmit the HS-SCCH (ST14). ).

In addition, when the adjusted power offset is larger than the set maximum value PO_max, the power offset is adjusted to the preset maximum value PO_max so that the power offset does not exceed the maximum value range (ST25).

Then, the HS-SCCH power adjusting unit 60 adjusts the power to the maximum value of the preset power offset and transmits the HS-SCCH (ST14).

If the confirmed information is ACK or NACK received, the power offset is adjusted to be smaller than D_SCCH. At this time, D_SCCH is set to a fine value which is much smaller than the difference between the minimum value PO_min of the power offset and the maximum value PO_Max of the power offset (ST26).

Therefore, when the power offset is increased by receiving the DTX, it is greatly increased, and when the power offset is decreased by receiving the ACK or NACK, the power offset is decreased.

Then, it is determined whether the adjusted power offset is smaller than the set minimum value PO_min (ST27).

Therefore, if the adjusted power offset is not smaller than the set minimum value PO_min, the HS-SCCH power adjuster 60 performs power adjustment by the power offset adjusted to D_SCCH to transmit the HS-SCCH (ST14).

In addition, if the adjusted power offset is smaller than the set minimum value PO_min, the power offset is adjusted to the preset minimum value PO_min so that the power offset does not exceed the minimum value range (ST28).

Then, the HS-SCCH power adjusting unit 60 adjusts the power to the lowest value of the preset power offset to transmit the HS-SCCH (ST14).

Accordingly, as shown in FIG. 6, when the power offset is within the range of the minimum value PO_min and the maximum value PO_max, the width is increased by as much as K * D_SCCH when receiving DTX and as small as D_SCCH when receiving ACK or NACK. It is possible to cope with the problem of the lack of HS-SCCH transmission power by performing the HS-SCCH power adjustment.

As such, the present invention is to solve the performance degradation problem due to the lack of HS-SCCH transmit power that may occur when the terminal is in a soft handover situation.

Although preferred embodiments of the present invention have been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the apparatus and method for setting the power offset for setting the HS-SCCH transmission power of the mobile communication base station according to the present invention and the method for setting the transmission power of the HS-SCCH, which is a signal channel used in the WCDMA system supporting HSDPA By controlling the power offset, there is an effect that can solve the performance degradation problem due to the lack of HS-SCCH transmit power that may occur when the terminal is in a soft handover situation.

In addition, the present invention can maintain the average HS-SCCH transmission power as in the conventional method by setting the K and D_SCCH value in consideration of the reception performance of the HS-SCCH, by increasing the HS-SCCH reception performance of the user in soft handover There is an effect that can increase the throughput of the base station.

Claims (8)

A receiving unit for receiving information of the terminal through HS-DPCCH (High Speed Dedicated Physical Control CHannel); An information confirmation unit confirming whether a DTX (Discontinuous Transmission) or ACK / NACK (Acknowledgment / No Acknowledgement) is received from the information of the terminal received by the receiver; An HS-SCCH power offset control unit for controlling a High Speed Shared Control Channel (HS-SCCH) power offset using the information identified by the information checking unit; A DCH power controller which receives a power offset setting value from a control station and performs dedicated channel (DCH) power control; A DCH power adjustment unit performing DCH power adjustment under the control of the DCH power control unit; The initial HS-SCCH power adjustment is performed at a power larger than the transmission power of the DCH according to the value adjusted by the DCH power adjustment unit, and the HS-SCCH power adjustment is performed at the power offset set by the HS-SCCH power offset control unit. And a power offset setting device for setting HS-SCCH transmission power of a mobile communication base station including an HS-SCCH power adjusting unit for transmitting an HS-SCCH. The method of claim 1, wherein the HS-SCCH power offset control unit, When the information confirming unit confirms that the DTX is received from the terminal, the power offset is adjusted as large as K * D_SCCH, where K is a random constant , and when the information confirming unit confirms that the ACK or NACK is received from the terminal, the power offset. Is adjusted to be smaller than D_SCCH, and the D_SCCH is set to a value smaller than the difference between the lowest value of the power offset and the maximum value of the power offset. Power offset setting device for setting the HS-SCCH transmission power of the mobile communication base station characterized in. A first step of receiving at the base station information from the terminal through a High Speed Dedicated Physical Control CHannel (HS-DPCCH); A second step of checking whether an acknowledgment / no acknowledgment (ACK / NACK) or discontinuous transmission (DTX) is received from the received information after the first step; A third step of controlling a power offset using the information identified in the second step; And a fourth step of transmitting the HS-SCCH after performing HS-SCCH power adjustment according to the power offset controlled in the third step. How to set power offset for The method of claim 3, wherein the third step, The power offset initial value is an eleventh step of using a value specified by the control station when HSDPA (High Speed Data Packet Access) is set; A twelfth step of checking what information is received in the received information after the eleventh step; And a thirteenth step of adjusting the magnitude of the power offset by using the information identified in the twelfth step. The method of claim 4, wherein the thirteenth step comprises: If the information identified in the twelfth step is DTX reception, the power offset is adjusted as large as K * D_SCCH, where K is an arbitrary constant , and D_SCCH is smaller than the difference between the lowest value of the power offset and the maximum value of the power offset. And setting the K and the D_SCCH in consideration of the reception performance of the HS-SCCH. The method of claim 5, wherein the thirteenth step is And a twenty-second step of adjusting the power offset to the set maximum value so that the HS-SCCH power adjustment is performed if the adjusted power offset is greater than the set maximum value after the twenty-first step. How to set power offset for setting. 7. The method of claim 4, wherein the thirteenth step comprises: If the information checked in the twelfth step is an ACK or NACK reception, the power offset is adjusted to be smaller by D_SCCH, and the D_SCCH includes a thirty-first step of setting a value smaller than the difference between the lowest value of the power offset and the maximum value of the power offset. Power offset setting method for setting the HS-SCCH transmission power of the mobile communication base station. The method of claim 7, wherein the thirteenth step is And setting the HS-SCCH transmission power of the mobile communication base station, if the adjusted power offset is smaller than the set minimum value after the 31 st step, adjusting the power offset to the set minimum value to perform HS-SCCH power adjustment. How to set power offset for

Images