KR20010038996A - Power control method for common packet channel - Google Patents

Abstract

The present invention relates to next generation mobile communication, and more particularly, to a power control method of a common packet channel for performing efficient power control for an uplink-common packet channel. In the power control method of the common packet channel according to the present invention, the base station (BS) measures the uplink signal-to-noise ratio (SIR) of the user side (UE), the base station (BS) is the measured signal-to-noise ratio (SIR) Transmitting a power control command (TPC) to the user side (UE) at a slot start time of a downlink control channel, and the user side (UE) is uplink common according to the transmitted power control command (TPC) By adjusting the power of the packet channel (UL-CPCH), it is possible to perform the power control of the 1-slot length required by the system, thereby optimizing the system performance.

Description

Power control method for common packet channel

The present invention relates to next generation mobile communication, and more particularly, to a power control method of a common packet channel for performing efficient power control for an uplink-common packet channel.

Recently, the ARIB and TTC in Japan, the ETSI in Europe, the T1 in the US, and the TTA in Korea have recently introduced the Third Generation Partnership Project (hereinafter abbreviated as 3GPP) to establish technical standards for next-generation mobile communication systems. Configured.

In the research section of the 3GPP research on the global radio access network (UTRAN) describes the definition and description of the transport channel (Physical channel) and the physical channel (Physical channel).

The common packet channel (CPCH), which is one of the transport channels, is a channel allocated to the uplink (UL) when the UE (UE) wants to transmit relatively long packet data to the base station (BS). The common packet channel (CPCH) is a time-division channel that requests and uses an allocation every time a user side (UE) is required, and transmits high-speed data from the user side (UE) to the base station (BS) and the base station (BS) is simply a common packet. A channel for asymmetric service that sends only control information for the channel (CPCH).

In the structure of a common common packet channel (CPCH), the uplink (UL) transmitted from the UE to the BS is composed of a dedicated physical channel through which high-speed data and control information are transmitted. In downlink (DL) to be transmitted to (UE), it consists of a dedicated physical channel for transmitting control information which is low speed data. In general, when high speed data is transmitted in the UL, power control is performed to increase the capacity of the entire system.

The following describes the general channel structure and power control method as proposed by 3GPP.

1 is a diagram illustrating a structure of a conventional uplink-transport channel.

Referring to FIG. 1, an uplink-transmission channel (UL-DCH) configured as a base station (BS) at a user side (UE) is composed of a data channel (Data channel), which is an I channel, and a control channel (Control Channel), which is a Q channel. do. At this time, one slot of the control channel is composed of a pilot field and a power control command field.

Then, the UE transmits pilot information and power control commands (hereinafter, abbreviated as TPC) to the base station BS through the control channel, and transmits packet data through the data channel.

Meanwhile, the uplink-common packet channel (UL-CPCH) has the same structure as that of FIG. 1.

In this case, since the UL-CPCH generally transmits high-speed data, a spreading factor (SF) is used as a low value to transmit a large amount of data in one slot.

FIG. 2 is a diagram illustrating a structure of a downlink control channel corresponding to an uplink-transport channel (UL-DCH) shown in FIG. 1.

Referring to FIG. 2, a DL control channel configured as a user side at a base station BS includes a first data field 200, a power control command field 201, and a second data. Field 202 and pilot field 203.

In this case, dummy data is inserted and transmitted in the first data field 200 and the second data field 202, and power control of the UL-DCH is performed in the power control command field 201. TPC for is inserted and transmitted. Since the downlink control channel corresponding to the uplink-common packet channel (UL-CPCH) generally transmits only control information, the code utilization of the downlink (DL) is increased by using a spread ratio (SF) as a large value. To increase.

FIG. 3 is a timing diagram of power control for the uplink-transport channel (UL-DCH) shown in FIG. 1.

Referring to FIG. 3, the UE receives a pilot information 300 transmitted from a base station BS through a downlink-control channel, measures a signal-to-noise ratio (SIR) of the downlink channel, and measures the measured signal-to-noise ratio. According to SIR, the TPC 303 is transmitted through the control channel UL-DPCCH of the uplink-transmission channel UL-DCH. Then, the base station BS adjusts its power according to the TPC 303 transmitted by the user side UE.

Subsequently, the base station (BS) measures the signal-to-noise ratio (SIR) of the uplink channel, and considers the measured signal-to-noise ratio (SIR) of the uplink channel to the user side (UE) of the uplink-common packet channel (UL-CPCH). Send TPC 302 for power control. Then, the UE (UE) adjusts its own power in accordance with the TPC (302) transmitted by the base station (BS).

In this case, the conventional power control method for the uplink-transmission channel (UL-DCH) simultaneously performs the uplink power control and the downlink power control, and the following two methods are used to reduce the time taken for power control. use.

Firstly, since the slot start time of the downlink-control channel transmitted by the base station BS and the uplink-transmission channel transmitted by the user UE do not coincide, the timing offset is used to determine the reception power at both sides. The time for measuring the intensity is different and also the TPC transmission has a certain offset from each other. In 3GPP, there is typically a time offset of 1024 chips.

Second, the power control bit is transmitted to the downlink control channel transmitted by the base station BS after transmitting certain data (ie, the first data field 301).

Using these two methods, 3GPP can reduce the time taken for power control of uplink and downlink to 1 slot.

However, when the conventional power control method used for such a symmetric service is applied to a common packet channel (CPCH), which is an asymmetric service that transmits high-speed data through the uplink (UL), the time required for power control is Longer problems arise.

For example, there is a time required to apply power control from the time when the UE receives all the TPCs transmitted by the base station BS0 for power control of the uplink-common packet channel (UL-CPCH). If this problem is not met, the system may not be able to perform the power control of 1 slot optimized for the system, resulting in a problem of poor system performance.In this case, 3GPP considers the stability of the system and takes the time required to apply the power control. Caught with 512 chips.

In more detail with reference to FIG. 4, in order to perform power control on an uplink-common packet channel (UL-CPCH) according to a TPC 402 transmitted from a base station (BS), a user side (UE) may use a TPC ( The processing time required to change the power according to the TPC is required from the time when all of the 402 is received to the start time of the newly started slot. This delay time is a time required for the UE to apply the received TPC 402 to the actual RF stage.

Therefore, if the UE does not have time to process to change the power until the start time of the pilot information 405 of the newly started slot after reception of the TPC 402 transmitted from the base station BS, Power control can only be applied at the beginning of the next slot's pilot information, making the system unable to meet the 1-slot length of power control required by the system.

In this case, since the downlink control channel corresponding to the uplink-common packet channel (UL-CPCH) generally transmits only control information, the code utilization of the downlink (DL) using a spread value (SF) as a large value is used. To increase. To this end, 3GPP uses a fixed spread rate (SF) for the downlink control channel to 512, the largest value.

In this situation, according to the conventional power control method, when the spreading rate is 512, the base station BS transmits the first data field 401, which is one symbol, and then transmits the TPC 402, which is one symbol, and thus 512 chips per symbol. Considering that time is applied, the UE cannot secure processing time of 512 chips from the time when all TPCs 402 are received to the start time of pilot information 405 of a newly started slot.

Eventually, the UE needs to apply power control according to the received TPC only when transmission of pilot information of a new slot is restarted after one slot is passed. Therefore, a system for an uplink-common packet channel (UL-CPCH) is applied. This will result in power control of two slots in length rather than the one slot required. This delay in power control increases the required power of the data over the uplink-common packet channel (UL-CPCH), thereby reducing the capacity of the overall system.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and performs power control suitable for an asymmetric service such as UL-CPCH to optimize system performance. To provide a power control method of a common packet channel.

According to an aspect of the present invention for achieving the above object, the power control method of the common packet channel is a base station (BS) measuring the uplink signal-to-noise ratio (SIR) of the user side (UE), and the base station ( BS) transmitting a power control command (TPC) to the user side (UE) at a slot start time of a downlink control channel according to the measured signal to noise ratio (SIR), and the user side (UE) transmitting the transmitted power Adjusting the power of the uplink common packet channel (UL-CPCH) according to the control command (TPC).

Preferably, in the step of transmitting the power control command, the base station (BS) sequentially the power control command field, the data field, and the pilot field into which the power control command (TPC) is inserted through the downlink control channel. send.

1 illustrates the structure of a conventional uplink-common packet channel (UL-CPCH).

FIG. 2 is a diagram illustrating a structure of a downlink-control channel for power control of an uplink-common packet channel (UL-CPCH) shown in FIG.

3-4 are timing diagrams of power control for the uplink-common packet channel (UL-CPCH) shown in FIG.

5 illustrates a structure of a downlink-control channel according to the present invention.

6 is a power control timing diagram of an uplink-common packet channel according to the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The present invention proposes a power control method of an uplink-common packet channel (UL-CPCH) that optimizes system performance by preventing power control delay of an uplink (UL) in which high-speed data is transmitted.

To this end, in the present invention, the base station (BS) transmits the transmission position of the power control command (TPC) to the slot start time of the downlink-control channel so as to secure the processing time for changing the power by applying the power control bit. .

5 is a diagram illustrating the structure of a downlink-control channel according to the present invention.

Referring to FIG. 5, the downlink-control channel according to the present invention includes a TPC field 500, a data field 501, and a pilot field 502 for power control of an uplink-common packet channel (UL-CPCH). It is composed of

It should be noted here that the transmission order of the TPC field 500, data field 501 and pilot field 502 in the downlink-control channel. That is, according to the present invention, the TPC field 500 is transmitted first at the slot start time of the downlink-control channel, followed by the data field 501 and the pilot field 502.

In the conventional 3GPP, this means that the first data field, which is one symbol in the downlink-control channel, is merged into the second data field and transmitted together when the second data field is transmitted. This means that a symbol TPC is inserted and transmitted.

In more detail, when the spread rate SF of the downlink channel is 512, the structure of the conventional downlink-control channel is shown in Table 1 below.

Diffusion Rate (SF) First data field TPC Second data field pilot 512 chip 2 bits 2 bits 2 bits 4 bit

In this case, the structure of the downlink control channel according to the present invention is shown in Table 2.

Diffusion Rate (SF) TPC First data field Second data field pilot 512 chip 2 bits 0 bit 4 bit 4 bit

Referring to Tables 1 and 2, it can be seen that the first data field composed of conventional two bits is merged into the second data field so that the second data field becomes four bits. Then, the TPC of 2 bits can be pulled forward to the slot start time in order to secure the processing time for changing the power by applying the power control bit, and then inserted and transmitted into the first empty data field. At this time, since the data of the first data field is transmitted together with the transmission of the second data field, no data transmission loss occurs.

6 is a power control timing diagram of an uplink-common packet channel according to the present invention.

Referring to FIG. 6, first, a UE receives a pilot information 600 transmitted by a base station BS through a downlink-control channel, measures a signal-to-noise ratio (SIR) for the downlink channel, and then measures The TPC 603 is transmitted to the base station BS through the control channel of the uplink-common packet channel (UL-CPCH) according to the signal-to-noise ratio (SIR). Then, the base station BS adjusts its power according to the TPC 603 transmitted by the user side UE.

Subsequently, the base station (BS) measures the signal-to-noise ratio (SIR) of the uplink channel, and takes into account the measured signal-to-noise ratio (SIR) of the uplink channel to the user side for power control of the uplink-common packet channel (UL-CPCH). At (UE), one symbol TPC 601 is transmitted at the start of the downlink-control channel.

Here, considering that there is a time offset of 1024 chips between the downlink-control channel and the uplink-common packet channel, the UE receives a new symbol from the time when the UE receives all 1 symbols of the TPC 601 from the BS. Power control bits may be applied until the start of the pilot information of the starting slot to secure processing time for changing the power.

Therefore, the UE (UE) receives all the TPC 601 transmitted by the base station (BS) and the TPC 601 received at the start time of the pilot information 604 of the newly started slot after a delay of 512 chips. Adjust the power accordingly. As a result, the UE may perform power control of an optimal one slot length required by the system for the uplink-common packet channel (UL-CPCH).

As described above, according to the power control method of the common packet channel according to the present invention, the base station BS transmits a power control command (TPC) for the uplink-common packet channel (UL-CPCH) to the slot of the downlink-control channel. By transmitting at the start, one-slot power control is required by the system, thus optimizing system performance.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (3)

Measuring, by the base station BS, an uplink signal-to-noise ratio (SIR) on the user side (UE); Transmitting, by the base station BS, a power control command (TPC) to the user side (UE) at a slot start time of a downlink control channel according to the measured signal to noise ratio (SIR); And controlling the power of an uplink common packet channel (UL-CPCH) by the user side (UE) according to the transmitted power control command (TPC). The method of claim 1, wherein in the step of transmitting the power control command (TPC): The base station BS transmits a power control command field into which the power control command (TPC) is inserted, a data field, and a pilot field sequentially through the downlink control channel. Way. 3. The method of claim 2, wherein when the spread rate SF of the downlink control channel is 512, the power control command field is 2 bits, the data field is 4 bits, and the pilot field is 4 bits. Power control method of common packet channel.