KR20020055770A - Method of controlling timing for power control in forward common data channel - Google Patents

Abstract

The present invention provides efficient fast closed-loop power control for a particular terminal when a forward common data channel (FCDCH) is used for delay-sensitive data transmission in a CDMA cellular communication system. The present invention relates to a timing control method for power control of a forward common data channel. Such a timing control method for power control of a forward common data channel according to the present invention, in a mobile communication system including at least one or more wireless terminals and a base station for controlling the allocation of a wireless channel of the wireless terminal, in any wireless terminal Estimating power of the forward channel using pilot symbols of the assigned dedicated physical channels; And transmitting a forward link power control command to control the estimated forward channel power every slot or every frame to the base station.

Description

Method of controlling timing for power control of forward common data channel {Method of controlling timing for power control in forward common data channel}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a timing control method for power control of a forward common data channel. In particular, the present invention relates to a timing control for power control of a forward common data channel, which is suitable for efficiently performing power control by improving a conventional power control method. It is about a method.

In general, in the forward link of the CDMA next-generation mobile communication system, since the channels transmitted from the same base station are symbol-synchronized, a dedicated physical channel (DPCH) that separates each channel by an orthogonal code is used. Send data to each terminal. Thus, as the data rate increases, the number of orthogonal codes available on the forward link is reduced. Accordingly, for the efficient use of limited orthogonal code resources, the terminal uses a forward common channel (FCDCH) that can be shared by multiple terminals, so that each terminal uses a forward common data channel as shown in FIG. 1. Time-sharing (FCDCH) is received in units of frames. Since a plurality of forward common data channels (FCDCHs) can be received by a plurality of terminals, corresponding terminals have more than one dedicated physical channel (DPCH). That is, one forward link dedicated physical channel (DPCH) corresponds to each frame of the forward common data channel (FCDCH).

2 illustrates a structure of a forward common data channel (FCDCH) and a structure of a forward link dedicated physical channel (DPCH) corresponding to each frame of the forward common data channel (FCDCH). 2, in the forward common data channel FCDCH, only control data is transmitted without control information. As shown in FIG. 2, the dedicated forward channel dedicated physical channel (DPCH) transmits a pilot symbol and a reverse link power control bit for each slot for forward link channel estimation and reverse link power control. It shows a time multiplex form of a control channel (DPCCH) and a dedicated physical data channel (DPDCH) for transmitting data. In this case, the reverse link dedicated physical channel (DPCH) is an I / Q multiplex of a dedicated physical data channel (DPDCH) through which data is transmitted and a dedicated physical control channel (DPCCH) carrying pilot symbols, PCBs, and layer 1 control information. It is. Each terminal does not transmit a dedicated physical data channel (DPDCH) when there is no data to be transmitted, and a pilot symbol and forward link power for maintaining reverse link synchronization in a dedicated physical control channel (DPCCH) of discontinuous transmission (DTX). Power control bits for control continue to be transmitted. In this case, the frame offsets of the forward and reverse dedicated physical channels (DPCH) are the same.

However, the forward common data channel (FCDCH) described above requires relatively high transmission power because it transmits high-speed data that is not sensitive to delay. This demand for transmit power shortens the life of the battery of the portable wireless terminal, which eventually counters the trend of miniaturization of the terminal.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems of the prior art, and uses a forward common data channel (FCDCH) for data transmission that is not sensitive to delay in a CDMA cellular communication system. The present invention provides a timing control method for power control of a forward common data channel that can efficiently perform fast closed-loop power control for a specific terminal.

1 and 2 are diagrams for explaining a frame structure of a general forward common data channel.

3 and 4 are diagrams for explaining a timing control method for power control of a forward common data channel according to the present invention;

In order to achieve the above object, a timing control method for power control of a forward common data channel according to the present invention, a mobile communication system including at least one or more wireless terminals and a base station for controlling the allocation of the wireless channel of the wireless terminal Estimating power of a forward channel using pilot symbols of a dedicated physical channel assigned at any wireless terminal; And transmitting a forward link power control command for controlling the estimated forward channel power to the base station every slot or every frame.

According to the characteristics of the present invention, when the forward common data channel (FCDCH) transmits high-speed data that is not sensitive to delay, the shorter the power control delay has the advantage of lowering the transmission power in a sudden radio channel environment .

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention.

In the present invention, in order to perform efficient forward link power control on the forward common data channel (FCDCH), forward common data using pilot symbols of the forward dedicated physical channel (DPCH) corresponding to each frame of the forward common data channel (FCDCH). Forward link channel estimation is performed for channel (FCDCH) power control. The pilot symbol of the dedicated physical channel (DPCH) can be used for channel estimation for forward link coherent demodulation of the dedicated physical channel (DPCH) in addition to the above channel estimation.

First, a user of a terminal sets one of a slot-based mode and a frame-based mode in order to adjust a relative offset of a forward common data channel (FCDCH) and a dedicated physical channel (DPCH).

In the slot mode, the terminal performs the forward link channel estimation for every slot, and transmits the forward link power control bit for every slot. To this end, as shown in FIG. 3, a relative offset of a dedicated physical channel (DPCH) relative to a forward common data channel (FCDCH) is determined according to a power control delay, a parameter given in a communication system. Using this, a frame offset of a dedicated physical channel (DPCH) is obtained. Here, the power control delay is a time difference between a time point when channel estimation is performed by a terminal and a time point when a power control bit is received by an actual base station to adjust transmission power of a forward common data channel (FCDCH). Therefore, the shorter the power control delay, the lower the average transmission power can be in a sudden wireless channel environment.

In the frame mode, the terminal decodes a dedicated physical channel (DPCH) and transmits by creating a forward link power control bit that increases power when a frame error occurs and decreases power when a frame error does not occur. That is, each slot power control bit in one frame transmitted on the reverse dedicated physical channel (DPCH) is the same. To this end, as shown in FIG. 4, the frame offset of the dedicated physical channel DPCH is determined according to the relative offset of the dedicated physical channel DPCH relative to the forward common data channel FCDCH. In this case, the relative offset between the forward common data channel FCDCH and the dedicated physical channel DPCH is a decoding processing of the corresponding dedicated physical channel DPCH before the frame boundary of the forward common data channel FCDCH. , The forward power control (FPC) occurrences and the round trip delay are determined to be greater than the combined time. This method is a very useful power control method when the wireless channel changes slowly, i.e., for low speed terminals.

According to the timing control method for power control of a forward common data channel according to the present invention described above, when the forward common data channel (FCDCH) transmits high-speed data that is not sensitive to delay, power control can be efficiently performed. This can shorten the life of the battery of the wireless terminal. That is, when power control of the forward common data channel is performed for each slot, the frame offset of the dedicated physical channel may be determined to start the frame boundary of the dedicated physical channel according to the power control delay before the frame boundary of the forward common channel. In addition, it may be determined that the decoding procedure and the FPC generation of the dedicated physical channel are completed before the frame boundary of the forward common channel.

Claims (4)

In a mobile communication system including at least one wireless terminal and a base station for controlling the allocation of a wireless channel of the wireless terminal, Estimating power of the forward channel using pilot symbols of dedicated physical channels assigned at any wireless terminal; And transmitting a forward link power control command for controlling the estimated forward channel power to the base station in every slot or every frame. The method of claim 1, wherein the forward link power control command is transmitted every slot or every frame when the forward link power control command is transmitted to the base station. The frame offset of the dedicated physical channel according to claim 1, wherein the frame offset of the dedicated physical channel is determined according to a power control delay before a frame boundary of the forward common channel. And a frame boundary is determined to be started. The method of claim 1, wherein when performing power control of the forward common data channel every frame, the frame offset of the dedicated physical channel is equal to the decoding procedure of the dedicated physical channel and the forward power before the frame boundary of the forward common channel. The control method for timing control for the power control of the forward common data channel, characterized in that the control is terminated.