KR100839244B1 - method for controlling transmission power of HS-SCCH in mobile communication system - Google Patents

Abstract

The present invention relates to a power control method of a shared control channel (HS-SCCH) for an HSDPA system in a mobile communication system.

The present invention provides a method for controlling power for an HS-SCCH associated with an HS-DSCH for transmitting data in a mobile communication system, the method comprising: setting a transmission power for an HI representing the HS-DSCH; Setting an HS-SCCH power offset value for the HI transmit power; And setting the HS-SCCH power by using the set transmission power and the HS-SCCH power offset value of the set HI.

Therefore, according to the present invention, in performing power control of the HS-SCCH, the power offset value of the HS-SCCH does not need to be informed each time there is a change in the link, and a control plane or user plane added for HI field power control. By reusing the message or frame format in the system, the overhead of additional signaling in the network can be reduced.

Description

Shared control channel power control method in mobile communication system {method for controlling transmission power of HS-SCCH in mobile communication system}

1 is a diagram illustrating HS-SCCH transmission during soft handover of a DPCH considered in the prior art and the present invention;

2 is a frame structure of downlink control information

3 shows a structure of a downlink shared control channel for transmitting downlink control information

4 is a diagram illustrating a relative power setting of a shared control channel for a DL DPCH;

5 is a flowchart in which power control is performed according to the present invention.

The present invention relates to a power control method of a shared control channel (HS-SCCH) for an HSDPA system in a mobile communication system. In particular, a shared control channel (HS-SCCH) using a power offset value of a relative HS-SCCH with respect to an HI field is provided. The present invention relates to a power control method capable of controlling the power of a shared control channel (HS-SCCH) according to a link situation without a message or a signal for power control of the control panel).

More specifically, the present invention, in controlling the power for the HS-SCCH associated with the HS-DSCH for transmitting information, the transmission power for the HI indicating the HS-DSCH is transmitted power (P) of the downlink DPCH And a power value derived by summing the variable power offset value PO _HI of the HI field with respect to the transmit power P of the downlink DPCH, and a fixed HS-SCCH power offset value PO _HS-SCCH for HI transmit power. The present invention relates to a power control method capable of appropriately responding to a variable wireless environment.
The dedicated physical channel (DPCH) refers to a dedicated physical channel, and is a channel for transmitting data to be sent to a specific terminal. For reference, the base station transmits information shared by all terminals through a common channel.

1 is a diagram illustrating a shared control channel (HS-SCCH) transmission during soft handover of a DPCH related to the related art and the present invention.

It demonstrates with reference to FIG.

It shows the structure of a radio access network in the case of Intra RNS (Inter Node B Soft-handover) in the same control station (RNC), and the control station (RNC) existing in the UMTS radio access network under the core network Manage dedicated radio resources allocated to each mobile station (UE) in a radio network subsystem (RNS).

In this case, when the mobile station UE is moved from one base station Node B _{1 in the} control station RNC to another base station Node B ₂ , the two base stations respectively demodulate and demodulate the signals received from the mobile station. The received frame to the control station (RNC).

Then, the control station can select the best frame among the received frame. In this way, the mobile station can communicate with two base stations at the same time while on the move to continuously maintain the call channel. Here, the control station and the base stations are included in the radio network subsystem (UMTS radio access network).

1 will be described below.

As shown in the figure, the transmission of the shared control channel during soft handover of the DCH is shown.

In the figure, the DPCH is transmitted through two different cells, and the shared control channel is transmitted only in one cell in which the HS-DSCH is transmitted. As such, when the DPCH associated with the HS-DSCH is a soft handover, another consideration for the shared control channel is required.

When the DPCH associated with the HS-DSCH is in a soft handover state as shown in FIG. This situation needs to be considered when setting the power of the control channel.

In other words, it is necessary to appropriately increase the transmit power of the channel to prevent an increase in the error rate of the shared control channel which may be present during soft handover of the DPCH.

In general, a 3GPP system uses a HS-DSCH channel to support high-speed packet data service on the downlink.

To this end, a new structure of a transport channel called a HSDPA Downlink Shared Control Channel (HS-DSCH) and a control information transmission method for the same have been proposed.

All transmission channels of 3GPP transmit data according to Transmission Time Interval (TTI), and HS-DSCH is different from R'99 / R'4 (TTI is 10, 20, 40, 80 msec), which is a conventional W-CDMA system. Alternatively, the TTI may be selected as one of 1, 3, 5, or 15 slots.

In general, transmission of one frame takes 10 ms and consists of 15 slots. However, in the present invention, TTI (3 slot, 2 ms) is set to one frame among the TTIs, and various MCSs (modulation codes) are provided for high data rate. set).

 By selecting the most suitable MCS for the channel situation, the optimum throughput can be increased.For this purpose, the hybrid ARQ (HARQ) technology, which combines the automatic request (ARQ) technology and the channel coding technology, enables reliable transmission. . In addition, it has been proposed to support up to four users at the same time through CDM (Code Division Multiplexing).

As described above, a shared control channel (hereinafter referred to as HS-SCCH) is newly defined for transmission of downlink control information for the HS-DSCH.

The control information is generated in a Node B (base station) to which the cell transmitting the corresponding HS-DSCH is transmitted through a shared control channel, and the control information is largely in TFRI (transport format and resource related information) and HARQ. It can be divided into related information.

The TFRI includes information on the HS-DSCH transport channel set size, modulation method, coding rate, and number of multicodes. HARQ-related information includes information such as block number and redundancy version. In addition, information about UE identification (UE identification) for informing which user's information is transmitted is transmitted.

The UE Id related information performs a CRC operation together with TFRI and HARQ information to transmit only the resulting CRC.

2 is a physical channel frame structure contained in the HS-SCCH.

The HI (HS-DSCH Indicator, hereinafter referred to as HI) is an indicator for informing the UE whether data is to be transmitted through the HS-DSCH and which downlink HS-SCCH to read.

As shown in FIG. 3, UEs using the HS-DSCH have an associated dedicated downlink DPCH for transmitting the HI field, and can share up to four downlink HS-SCCHs simultaneously with multiple users.

However, in the conventional control information transmission method as described above, although the channel type and information contained in the physical channel in the physical layer for the HS-DSCH are defined, the shared control channel still used in the HS-DSCH No power control is specified for (HS-SCCH).

In order to operate the HS-DSCH, as shown in FIG. 3, associated DPCCHs and shared control channels (HS-SCCHs) are required.                         

When the soft handover of the DPCCH associated with the HS-DSCH occurs, the reception quality of the HI field and the HS-SCCH occurs, and a new power control method has been proposed to overcome this problem. In performing power control on the HI field and the HS-SCCH, a method using different power offsets according to handover of a user equipment (UE), a case in which the cell transmitting the HS-DSCH is a primary cell and a non-primary cell A method of controlling power by classifying a has been proposed.

However, when performing the power control of the HS-SCCH using this method, it is necessary to add a new signaling to calculate the power offset for the HS-SCCH and transfer it between the network nodes.

In addition to power control of the HS-SCCH, power control for the HI field used in the HS-DSCH may be performed.

In the prior art, when the power control for the HI field is performed together with the power control for the HS-SCCH, the power control information for the HI field and the power control information for the HS-SCCH should be explicitly informed separately.

In the prior art, the power offsets required for power control of the HS-SCCH are initially notified through a control message of a control plane when setting up a radio link, and triggering which power offset to use as a control frame of a user plane for HI. There is this.

In this case, additional signaling to inform the power offset every time is not necessary for power control of the HS-SCCH, but in this case, the power offset value is fixed to some specific value determined at the radio link setup so that one of them is selected. Therefore, it does not actively cope with the radio link situation.

Accordingly, in order to solve the above problems, the present invention proposes a power control method that actively copes with the wireless environment and does not have to notify the power offset value of the HS-SCCH every time even if the wireless environment changes.

The present invention provides a method for controlling power for an HS-SCCH associated with an HS-DSCH for transmitting data in a mobile communication system, the method comprising: setting a transmission power for an HI representing the HS-DSCH; Setting an HS-SCCH power offset value for the HI transmit power; And setting the power of the HS-SCCH using the set transmission power of the HI and the HS-SCCH power offset.

Also, in the present invention, the transmit power P _HI for the HI representing the HS-DSCH is equal to the transmit power P of the downlink DPCH and the power offset value PO _HI of the HI field for the transmit power P of the downlink DPCH. The sum is derived.

In addition, in the present invention, the PO _HI is calculated according to the radio link situation, characterized in that it is delivered to the base station to transmit the HI field through a control frame of the user plane, or a message of the control plane.

In the present invention, the HS-SCCH power offset value PO _HS-SCCH for HI transmission power is a fixed value set when a radio link is first created or when radio link reconfiguration is performed. Characterized in that the control message is transmitted to the base station.

That is, the present invention relates to a method of controlling transmission power of the HS-SCCH according to link conditions while reducing occurrence of higher layer messages.

Other objects and features of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, a power control method for an HS-SCCH according to the present invention will be described with reference to the accompanying drawings.

In common, the HI field and the HS-SCCH are transmitted in only one cell.

For the same UE, the received power of the HI field and the shared control channel will show a similar trend and change.

The power control for the HI field may change the appropriate power offset value at that time according to a situation in which power control is required, such as a handover.

The present invention provides a method of using the power control of the HI field in performing power control of the HS-SCCH, in which the new field or new message is added to the control frame of the user plane for the HS-SCCH. The power of the HS-SCCH is controlled by using a variable power offset value of the HI field included in a message transmitted for power control of the HI field, without transmitting the power offset value of the H-field.

When power control for the HI field is performed, the transmit power of the HI field is determined by adding an appropriate power offset to the DCH transmit power according to the radio link situation.

That is, when the transmit power for the HI field is P _HI , the transmit power of the downlink DPCH is P, and the power offset of the HI field for the transmit power of the downlink DPCH is PO _HI , the following relation is established.

P _HI = P + PO _HI

In Equation (1), the PO _HI is recalculated each time according to a radio link situation and delivered to the corresponding base station transmitting the HI field through a control frame of the user plane or a message of the control plane.

Hereinafter, the transmission power of the HS-SCCH will be described.

The present invention proposes a method of controlling power using a power offset of an HI field used in the HI power control without informing the transmission power of the HS-SCCH.

That is, when the transmission power of the _{HS-SCCH is} called P _HS-SCCH and the power offset of the HS-SCCH with respect to the transmission power of the HI field is PO _HS-SCCH , it is shared using a relational expression as shown in Equation (2). We propose a method of controlling the power of a control channel.

Since the PO _HS-SCCH value is the difference between the transmit power of the HI field, a negative value is required for lower power than the HI field, and a positive value is required for higher power. In case of power control like control, it can be 0.

The PO _HS-SCCH value is a fixed value and is calculated and known when the radio link is first created or when the radio link is reset.

P _HS-SCCH = P _HI + PO _HS-SCCH

FIG. 4 illustrates an example of setting a power of a shared control channel (HS-SCCH) as a relative power of a HI field of a DL DPCH according to the present invention, and illustrates a case in which a PO _HS-SCCH value is positive.

The PO _HS-SCCH used to derive the transmission power in Equation (2) is calculated only once when the radio link is first generated and transferred to the base station through the control message of the control plane, and then power control of the HS-SCCH is performed. No additional signaling is required.

Since P _HI is adequately power controlled considering the situation of the radio link, the P _HS-SCCH can be adaptively changed according to the condition of the radio link by adding a fixed PO _HS-SCCH to the P _HI .

5 is a flowchart illustrating a power control method of the HS-SCCH of the present invention.                     

First, the transmit power (P _HI = P + PO _HI ) of the HI field is set. (Step 51).

Thereafter, a fixed PO _HS-SCCH value, which is an HS-SCCH power offset value for the transmit power of the HI field, is set. (Step 52).

The transmission power of the HS-SCCH is set using the P _HI and the PO _HS-SCCH obtained in the above steps 51 and 52. (Step 53).

As described above, in the present invention, the HS-SCCH is appropriately adapted to the situation of the radio link by reusing a message or frame format in the control plane or the user plane for HI field power control without additional signaling for power control of the HS-SCCH. Power can be controlled.

In addition, using the power control method proposed in the present invention, as in the power control method for the HI field, not only when the Radio Link is initially set up, but also whether the UE's movement or the cell transmitting the HS-DSCH is primary or non-primary. Therefore, at that time, it is possible to appropriately control the power of the HS-SCCH.

Although the preferred embodiment of the present invention has 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.

Therefore, according to the present invention, in performing power control of the HS-SCCH, the power offset value of the HS-SCCH does not need to be informed each time there is a change in the link.

In addition, the power control of the HS-SCCH in the 3GPP asynchronous system and the terminal by reusing the message or frame format in the control plane or user plane added for the HI field power control to convey information for power control of the HS-SCCH. It can be performed efficiently according to the link situation and can reduce the overhead of additional signaling in the network.

Claims (4)

A method for controlling power for an HS-SCCH associated with an HS-DSCH for transmitting data, the method comprising: setting a transmission power for an HI representing the HS-DSCH; Setting an HS-SCCH power offset value for the HI transmit power; And setting the power of the HS-SCCH using the set transmission power of the HI and the HS-SCCH power offset. The transmit power (P _HI ) for the HI representing the HS-DSCH is the transmit power (P) of the downlink dedicated physical channel (DPCH) and the power of the HI field for the transmit power (P) of the downlink DPCH. Transmission power control method of the HS-SCCH characterized in that the sum of the offset value (PO _HI ) to derive. The transmission power of the HS-SCCH according to claim 2, wherein the PO _HI is calculated according to a radio link situation and transmitted to a corresponding base station transmitting a HI field through a control frame of a user plane or a message of a control plane. Control method. The HS-SCCH power offset value PO _HS-SCCH for HI transmit power is a fixed value set when a radio link is first created or when a radio link is reset, and is transmitted to a base station through a control message of a CONTROL PLANE. Transmission power control method of the HS-SCCH, characterized in that.

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