KR20010111096A - Method for Data Transmission for Down link Shared CHannel - Google Patents

Abstract

The present invention relates to the next generation mobile communication, and more particularly, to a data transmission method of a downlink shared channel using a downlink shared channel (DSCH) control channel. The data transmission method of the downlink shared channel according to the present invention comprises opening a session between the network (UTRAN) and the user (UE), assigning a specific transmission power control signature to the user, and transmitting the downlink shared channel packet by the network. Scheduling to transmit the scheduling information to the user along with the specific transmission power control signature, and the user periodically searches for the physical shared channel control channel transmission information and schedules the specific transmission power control signature to be transmitted to the user. Confirming information, retrieving scheduling information, calculating a transmission time of an uplink dedicated physical control channel, and performing a closed loop power control initialization process for a predetermined period before a predetermined time of the calculated transmission time; Downlink shared channel packet of the scheduling information By transmitting the data through the downlink shared channel from the network according to the scheduled time of the kit transmission, the setup process for downlink shared channel packet transmission is short, there is an effect that can transmit the burst packet quickly

Description

Data transmission method using downlink shared channel {Method for Data Transmission for Down link Shared CHannel}

The present invention relates to the next generation mobile communication, and more particularly, to a data transmission method of a downlink shared channel using a downlink shared channel (DSCH) control channel.

Currently, the downlink shared channel (DSCH) in the 3rd generation joint project (3GPP) is a transport channel for downlink packet data transmission shared and used by a plurality of user equipments. Data transmitted to the plurality of mobile stations (UEs) is code multiplexed and transmitted on the downlink shared channel (DSCH).

The downlink shared channel (DSCH) is operated with one or more downlink dedicated channels (DL DCHs) providing power control for the downlink shared channel (DSCH), where downlink dedicated channel (DL DCH) One is operated with one frame of a physical downlink shared channel (Physical DSCH).

When the base station Node B intends to transmit packet data to the mobile station UE according to the operation scheme, first, the base station Node B decodes data on the downlink shared channel (DSCH) to the mobile station UE. You need to give control information about whether or not there is.

The control information is generally reported through a transport format indicator (TFCI) field of a specific channel such as a dedicated physical control channel (DPCCH) or by signaling between upper layers.

When control information is transmitted through signaling of the specific channel (for example, a dedicated physical channel (DPCH) or inter-layer), a plurality of physical downlink shared channels (PDSCH), which are physical channels of the downlink shared channel (DSCH), are subsequently transmitted. Data is transmitted, where a plurality of physical downlink shared channels (PDSCH) transmits data at the same spreading rate in the state of frame synchronization.

In addition, a specific channel, such as a dedicated physical channel (DPCH), to which the control information is transmitted, is transmitted in advance with a plurality of physical downlink shared channels (PDSCHs) at a timing of 3 to 18 slots.

1 is a diagram illustrating timing between a specific channel (for example, a dedicated physical channel; DPCH) to which control information is sent and a physical downlink channel (PDSCH) to which data is transmitted.

That is, information about one frame of a physical downlink shared channel (PDSCH) is transmitted through a dedicated physical control channel (DPCCH) part of a frame of a previously transmitted dedicated physical channel (DPCH). The last slot of the dedicated physical channel (DPCH) frame and the start slot of the associated physical downlink shared channel (PDSCH) transmit control information and user data to each channel with a timing between 3 to 18 slots.

The packet data transmission of the mobile station UE and the base station Node B using the conventional downlink shared channel (DSCH) will be described in detail with reference to FIG. 2.

In FIG. 2, a mobile station (UE) 20 establishes a dedicated channel (DCH) connection between a network (UTRAN) comprising a base station (Node B) 21 and a base station controller (RNC) 22.

When data to be transmitted on the downlink shared channel (DSCH) is generated in the base station controller (RNC) 22, the base station controller (RNC) 22 performs scheduling for the downlink shared channel (DSCH) transmission.

The base station controller (RNC) 22 requests downlink shared channel (DSCH) data to the base station Node B (21) and requests data to be transmitted to a dedicated channel (DCH) already established. In this case, the downlink shared channel (DSCH) data corresponds to user data, and the dedicated channel (DCH) includes control data and user data. In addition, all data for downlink shared channel (DSCH) control is transmitted through a dedicated channel (DCH).

Next, user data is added to a physical downlink shared channel (PDSCH) and a downlink shared channel (DSCH) is assigned to a transport format combination indicator (TFCI) field of a downlink dedicated physical data channel (DL DPDCH) or a downlink physical control channel (DPCCH). ) Send control data. In this case, user data may also be transmitted on a downlink dedicated physical data channel (DL DPDCH).

However, since the conventional downlink shared channel (DSCH) is a channel designed for transmitting burst data, the conventional downlink shared channel (DSCH) packet transmission is a session. In the set state, since a dedicated channel (DCH) is always set, there is a disadvantage in that packet transmission having burst characteristics cannot be efficiently performed.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and uses a downlink shared channel (DSCH) using a control channel of a downlink shared channel (DSCH) that efficiently supports bursted packet transmission. It is to provide a packet data transmission method of.

According to a method feature of the present invention for achieving the above object, the step of opening a session between the network (UTRAN) and the user (UE) to assign a specific transmission power control signature to the user, and the downlink shared channel by the network Performing scheduling for packet transmission and transmitting the scheduling information to the user along with the specific transmission power control signature; and the user periodically searches for the physical shared channel control channel transmission information and transmits the specific transmission power control signature to the user. Checking the scheduling information, retrieving the scheduling information, calculating a transmission time of an uplink dedicated physical control channel, and performing a closed loop power control initialization process for a predetermined period before a predetermined time of the calculated transmission time. And a downlink shared channel packet of the scheduling information. A step of transmitting data over the downlink shared channel from the network according to the scheduled time of transmission.

Preferably, the transmitting of the scheduling information together with a specific transmission power control signature comprises: transmitting the scheduling information to a user further including downlink shared channel related information; Power ramping by transmitting an emblem to a network; and transmitting the acquisition signal through an acquisition indication channel if the network matches the transmission power control signature sent from its network by identifying the transmission power control signature. Include.

While the session is open, the user periodically searches for a specific slot of a specific frame of a pre-scheduled physical shared channel control channel and checks a specific transmit power control signature of a transmit power control field transmitted to the user. Send the control channel.

System parameters for setting whether to transmit the transmission power control signature allocation information and the control information through the downlink shared channel control information field or the transmission format combination indicator field are previously transmitted to the user through a broadcast channel or a forward access channel.

The transmit power control signatures of the physical shared channel control channel are composed of orthogonal codes, assigned to each user one by one, and simultaneously transmit transmit power control signatures assigned to multiple users in the transmit power control field of the physical shared channel control channel. And a physical shared channel control channel for power controlling the uplink dedicated physical control channel of each user.

The physical shared channel control channel includes a transmit power control field for transmitting a transmit power control signature indicating the uplink dedicated physical control channel, and a downlink shared channel control information field including the scheduling information.

The physical shared channel control channel is configured by optionally adding a transport format combination indicator field and a pilot field.

In a format without the transport format combination indicator field, control information is transmitted to the downlink shared channel control information field.

The user is requested to transmit a specific uplink dedicated physical channel through an acquisition indication channel while the session is open.

1 is a diagram illustrating timing between a dedicated physical channel (DPCH) and a physical downlink channel (PDSCH).

2 is a diagram illustrating a data transmission method using a downlink shared channel (DSCH) according to the prior art.

3A, 3B, 3C, and 3D show slot formats of a physical shared channel control channel (PSCCCH), which is a physical channel of a downlink shared channel (DSCH) control channel, according to the present invention.

3E is a table illustrating slot formats of a physical shared channel control channel (PSCCCH), which is a physical channel of a downlink shared channel (DSCH) control channel according to the present invention.

4 is a diagram illustrating a command transmission method of a transmission power control (TPC) field constituting a physical shared channel control channel (PSCCCH) according to the present invention.

FIG. 5 illustrates Hadamard Codes for obtaining bits of a symbol constituting a TPC field shown in FIG. 5 in accordance with the present invention. FIG.

6 illustrates a channel structure of a downlink shared channel set (DSCH Set) according to the present invention.

7 illustrates an example of a data transmission method using a downlink shared channel (DSCH) according to the present invention.

8A and 8B illustrate still another example of a data transmission method using a downlink shared channel (DSCH) 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 downlink shared channel (DSCH) control channel in a new format for speeding downlink shared channel (DSCH) packet transmission according to the prior art.

The downlink shared channel (DSCH) control channel is a downlink transport channel for transmitting related control information to a mobile station (UE) receiving packet data via a downlink shared channel (DSCH).

The downlink shared channel (DSCH) control channel is mapped to a physical shared channel control channel (PSCCCH) which is a physical channel, and the downlink shared channel (DSCH) is mapped to a physical downlink shared channel (PDSCH).

The physical shared channel control channel PSCCCH, which is a physical channel of the downlink shared channel (DSCH) control channel, has a format as shown in FIGS. 3A, 3B, 3C, and 3D.

3A, 3B, 3C, and 3D are diagrams illustrating a format of a physical shared channel control channel (PSCCCH) in bars.

3A, 3B, 3C, and 3D, one frame of the physical downlink shared channel (PSCCCH) has a length of 10 ms. This one frame consists of 14 slots with 2560 chips per slot. The slot includes a transmission power control (TPC), a transmission format combination indicator (TFCI), a downlink shared channel control information (DCI), and a pilot field, and these fields are different from each other. To configure one slot.

3A, 3B, 3C, and 3D illustrate transmission power control (TPC), transmission format combination indicator (TFCI), downlink shared channel (DSCH) control information (DCI), and pilot ( As a possible example of a pilot), the slots may be configured in different positions.

The transport format indicator (TFCI) and pilot correspond to options.

An example of a bit string of each field of FIGS. 3A, 3B, 3C, and 3D is as shown in FIG. 3E.

Referring to FIG. 3E, a format without a transport format indicator (TFCI) may be used for blind detection. In this case, a modified format including the downlink shared channel control information (DCI) bit string is used as the bit string of the transport format indicator (TFCI).

In addition to the example of FIG. 3E, slots having a spread ratio SF of 32 or less constitute a bit string of the physical shared channel control channel PSCCCH.

In the present invention, the bit string of the transmit power control (TPC) is related to the maximum number of mobile stations (UEs) that one physical shared channel control channel (PSCCCH) can accommodate.

As described above, since the pilot of the physical shared channel control channel (PSCCCH) is an option, the common pilot channel (CPICH) serves as a general pilot when a format without a pilot is used. In charge.

Information that can be transmitted per frame through the downlink shared channel control information (DCI) field is a temporary identification of a mobile station (UE) that will use a downlink shared channel (DSCH) frame associated with the physical shared channel control channel (PSCCCH). , Transmission format combination indicator (TFCI) information, timing of downlink shared channel (DSCH) packet data transmission for the mobile station (UE), length of packet data, and other downlinks transmitted from other upper layers. Contains link shared channel (DSCH) control information or general control information.

The downlink shared channel control information (DCI) encoding scheme generally includes a channel encoding scheme such as data transmission and a transport format combination indicator (TFCI) encoding scheme.

The transport format combination indicator (TFCI) of the physical shared channel control channel (PSCCCH) informs the mobile station UE of transmission format control (TFC) information for information transmitted in the downlink shared channel control information (DCI) field.

Or downlink sharing with TFC information of downlink shared channel control information (DCI) using a split mode of a transport format combination indicator (TFCI) for a conventional downlink shared channel (DSCH) It also informs transmission format control (TFC) information of a channel (DSCH).

Alternatively, the transport format control (TFC) information of the downlink shared channel (DSCH) may be informed only by the transport format combination indicator (TFCI) field of the physical shared channel control channel (PSCCCH).

The transmit power control (TPC) field provides fast closed loop power control. In particular, in the present invention, the TPC field supports as many _TUEs as N _TPCs .

A transmission power control (TPC) command transmission method per slot transmitted through the transmission power control (TPC) field is shown in FIG. 4.

Referring to FIG. 4, the TPC field is composed of N _TPC bit streams, and N (N = N _TPC ) symbols (a ₀ , a _1, ..., a) constituting the bit streams. _N ) is given by Equation 1 below.

In Equation 1, the value of TPC_cmd _s is given as +1, -1, or 0, and corresponds to a power control command according to signature S.

In the TPC_cmd, +1 and -1 indicate upward power rise and fall, or upward power fall and rise, and 0 means not transmitted.

At this time, the sequence b uses an orthogonal code of length N. For example, Hadamard codes or orthogonal gold codes of length N are used. Thus, the sequence b is shown in FIG.

In FIG. 6, the values of the sequences b _{s, 0} ,..., B _{s, N} are determined through a 16-length Hadamard codes sequence c corresponding to the s values in the table below.

That is, when N is 16, b = c, and when N = 32, b is equal to Equation 2, when N = 64, b is equal to Equation 3, and when N = 128, b is equal to Equation 4.

In the present invention, a concept of a downlink shared channel set (DSCH Set) having a channel structure as shown in FIG. 6 is defined. The downlink shared channel set (DSCH Set) includes N _TPC uplink dedicated physical channels (UL DPCH), transmit power control signatures (TPC Signature) of N _TPC physical shared channel control channels (PSCCCH), and uplink only. It consists of a preamble for power initialization of the physical channel UL DPCH.

The dedicated physical channel (DPCH) is composed of a dedicated physical data channel (DPDCH) and a dedicated physical control channel (DPCCH).

The uplink dedicated physical channel (UL DPCH) for the downlink shared channel (DSCH) also has the same physical structure as the existing uplink dedicated physical channel (UL DPCH).

The dedicated physical control channel (DPCCH) may be transmitted together with the dedicated physical data channel (DPDCH), but may also transmit only the dedicated physical control channel (DPCCH). However, during the power control initialization process, only a dedicated physical control channel (DPCCH) is transmitted.

The spread rate SF of the uplink dedicated physical control channel UL DPCCH may be fixed to 512 or 256.

Here, the preamble corresponds to an option. If there is a preamble, the uplink preamble part for the downlink shared channel (DSCH) has the same physical structure as the existing random access channel (RACH) preamble or common packet channel (CPCH) preamble.

The downlink shared channel set (DSCH Set) information is managed in a radio resource control (RRC) layer and its main contents are as follows.

First, a scrambling code, a slot format, and the like, which are UL Downlink Physical Channel (UL DPCH) information related to the downlink shared channel (DSCH).

Second, the channelization code, which is the downlink shared channel (DSCH) related physical shared channel control channel (PSCCCH) channel information, a scrambling code, a slot format, and the like.

Optionally, the downlink shared channel (DSCH) related preamble information includes a scrambling code.

System related information including such downlink shared channel set (DSCH Set) information is transmitted from a network (UTRAN) to all mobile stations (UE) in a cell through a broadcast channel (BCH) or a forward access channel (FACH).

The preamble transmits one of N _TPC signatures. In this case, the specific signature transmitted indicates a specific uplink dedicated physical channel (UL DPCH) and a specific physical shared channel control channel (PSCCCH) transmission power control (TPC) signature.

Table 1 below shows an example of mapping between the preamble signature and an uplink dedicated physical channel (UL DPCH) scrambling code.

Physical shared channel control channel signature number Uplink only physical channel scrambling code for downlink shared channel One Uplink Dedicated Physical Channel Scrambling Code # 1 2 Uplink Dedicated Physical Channel Scrambling Code # 2 3 Uplink Dedicated Physical Channel Scrambling Code # 3 .... ....

Although downlink shared channel (DSCH) information is also transmitted by the downlink shared channel set (DSCH), downlink shared channel (DSCH) transmission information is conventionally used in a random access channel (RACH) or a forward access channel (FACH). It can also be sent via. In this case, the network side UTRAN may change downlink shared channel (DSCH) transmission information, such as uplink dedicated physical channel (UL DPCH) information, depending on circumstances.

In order to transmit data between the base station Node B and the mobile station UE, there may be several connections during one session for packet data transmission.

In the present invention, the transmission power control signature (TPC Signature) is transmitted from the network side (UTRAN) while the session is connected to call a specific mobile station (UE).

At this time, the transmit power control signature (TPC Signature) for the call is transmitted only in the first slot # 0 in each frame. A specific mobile station (UE) periodically retrieves call information by reading the transmit power control (TPC) field of the first slot # 0 once for each frame. Alternatively, call information may be transmitted and searched for each specific slot number of a specific frame number for each N slot of the N frame. At this time, the information on the transmission position of these call transmission power control (TPC) signatures is transmitted to the mobile station (UE) in advance through the broadcast channel (BCH) or the forward access channel (FACH) as system information.

In the simplest call example, FIG. 7 illustrates a case in which a transmission power control (TPC) signature is transmitted only to the first slot # 0 of every frame.

7 illustrates an example of a data transmission method using a downlink shared channel (DSCH) according to the present invention.

In Figure 7, it is assumed that the mobile station receives a forward access channel (FACH).

First, the mobile station UE and the network side UTRAN open a session through a random access channel (RACH) and a forward access channel (FACH). At this time, the network UTRAN assigns a signature number to the mobile station UE. This signature number implies a specific uplink dedicated physical channel (UL DPCH) and a physical shared channel control channel (PSCCCH) transmit power control (TPC) signature, and at the same time a temporary ID (UE) for that mobile station (UE) while a session is established. It plays the role of identification.

While the session is open, a transmit power control signature may be transmitted through an acquisition indication channel (AICH). At this time, the mobile station which has opened a session always monitors the acquisition indication channel (AICH) periodically to check whether there is packet data in its mobile station (UE).

When packet data to be transmitted from the base station controller (RNC) to the mobile station (UE) is generated, the base station controller (RNC) performs scheduling for downlink shared channel (DSCH) packet transmission.

The base station controller (RNC) transmits downlink shared channel (DSCH) scheduling information including a transmit power control signature according to the present invention while requesting downlink shared channel (DSCH) control channel data transmission to the base station Node B. In addition, related system information such as downlink shared channel (DSCH) packet data transmission time information is transmitted.

At this time, the base station Node B transmits the signature to the transmit power control (TPC) field of the first slot # 0 of the frame through the physical shared channel control channel (PSCCCH) to call a specific mobile station (UE).

The call transmits a specific transmit power control (TPC) signature of a physical shared channel control channel (PSCCCH) at a power sufficient to be received at the cell end.

In the call, related control information may be transmitted through downlink shared channel control information (DCI) of a corresponding frame in which a transmission power control (TPC) signature is transmitted. In this case, whether to transmit control information through the downlink shared channel control information (DCI) or the transmission format combination indicator (TFCI) may be set as a system parameter and transmitted in advance through a broadcast channel (BCH) or a forward access channel (FACH). .

The mobile station UE periodically checks the first slot # 0 of the corresponding frame, thereby checking call information coming to the mobile station UE. If it is previously promised to read the control information through a system parameter or the like, the mobile station UE indicates the control information (DCI) or transmission format combination indicator of the downlink shared channel of the frame in which the corresponding TPC signature is transmitted. Read the corresponding control information by reading (TFCI).

The control information includes downlink shared channel (DSCH) related uplink dedicated physical channel (UL DPCH) information including a scrambling code and a slot format, and a transmit power control (TPC) signature of a physical shared channel control channel (PSCCCH). A mapping relationship of the uplink dedicated physical channel (UL DPCH) associated with the downlink shared channel (DSCH), a temporary identification of the mobile station (UE) that will use the associated downlink shared channel (DSCH) frame, and an associated downlink shared channel Transport Format Combination Indicator (TFCI) information of a (DSCH) frame, downlink shared channel (DSCH) packet data transmission timing and transmission length for a corresponding mobile station (UE), and downlink sharing transmitted from other upper layers. It includes channel (DSCH) control information or general control information.

The control information may optionally include preamble information such as a downlink shared channel related scrambling code. The mobile station (UE) receiving the allocated signature performs power ramping by selectively transmitting a preamble at an appropriate time in accordance with a downlink shared channel (DSCH) packet transmission time. At this time, the signature number transmitted to the primamble corresponds to the transmission power control (TPC) signature.

If the UE is in a state in which it is unable to receive a downlink shared channel (DSCH) packet transmission, the UE informs the base station controller (RNC) of the fact through the random access channel (RACH) and downlinks. The process of transmitting a shared channel (DSCH) packet is stopped.

Optionally, the base station Node B, which has received the preamble of the mobile station UE, checks the included signature and provides an acknowledgment signal ACK through the acquisition indication channel AICH if it matches the signature sent by the base station Node B.

The mobile station UE receives the acquisition signal ACK of the acquisition indication channel AICH of the base station Node B, calculates an appropriate transmission time of an uplink dedicated physical control channel (UL DPCCH). Then, the initialization process of the closed loop power control starts at a suitable time. The length of this initialization process is previously transmitted through a broadcast channel (BCH) or a forward access channel (FACH) as a parameter of a radio resource control (RRC) layer. For example, it may have a length of 0 to 8 slots.

After the power control initialization process is completed, the Node B and the UE continue to perform closed loop power control and wait for scheduled downlink shared channel (DSCH) packet transmission time.

As shown in FIG. 1, the mobile station UE first receives a physical shared channel control channel (PSCCCH) frame transmitted before a downlink shared channel (DSCH) frame to obtain downlink shared channel (DSCH) control information. The mobile station (UE) receives the downlink shared channel (DSCH) control information every frame and is transmitted to its mobile station (UE). The mobile station (UE) receives the downlink shared channel (DSCH) frame at a predetermined time. do.

8A and 8B illustrate two different schemes of the downlink shared channel (DSCH) packet transmission portion indicated by blocks in FIG.

8A illustrates a scheme in which only an uplink dedicated physical control channel (UL DPCCH) is transmitted.

8B illustrates a method in which an uplink dedicated physical control channel (UL DPCCH) and a downlink dedicated physical data channel (DL DPDCH) are transmitted together.

In FIG. 8A, only the uplink dedicated physical control channel (UL DPCCH) is transmitted. The uplink dedicated physical control channel (UL DPCCH) mainly transmits only transmission power control (TPC) and pilot.

In general, signaling information such as an acquisition signal (ACK) for downlink shared channel (DSCH) packet transmission is transmitted through a random access channel (RACH) or through an uplink dedicated physical data channel (UL DPDCH). Therefore, signaling information is transmitted through a random access channel (RACH) in a method in which the UL dedicated physical data channel (UL DPDCH) is not transmitted as shown in FIG. 8A.

In FIG. 8A, signaling information may be transmitted through an uplink transport format combination indicator (UL TFCI) regardless of whether an uplink dedicated physical data channel (UL DPDCH) is present. In this case, the signaling information is encoded by a transport format combination indicator (TFCI) and mapped to a dedicated physical control channel (DPCCH) by a transport format combination indicator (TFCI) mapping.

In FIG. 8B, various signaling information transmitted to a mobile station UE through a base station Node B during transmission of a downlink shared channel (DSCH) packet may include downlink shared channel control information (DCI) of a physical shared channel control channel (PSCCCH). Field or forward access channel (FACH). User data may be transmitted over this forward access channel (FACH).

In the present invention, multi-code transmission of a physical downlink shared channel (PDSCH) is possible.

That is, one mobile station (UE) may receive several physical downlink shared channels (PDSCH). In this case, the physical downlink shared channel (PDSCH) transmitted in the multi-code may be associated with each one physical shared channel control channel (PSCCCH) or may share only one physical shared channel control channel (PSCCCH) together. have.

Meanwhile, the maximum transmission length of the downlink shared channel (DSCH) may be limited. In this case, the maximum transmission length that can be transmitted in one access is represented in units of frames, and the length is transmitted through a broadcast channel (BCH) or a forward access channel (FACH) as system information.

Meanwhile, the downlink shared channel (DSCH) according to the present invention may be operated together with the existing scheme. At this time, the base station Node B should inform the mobile station UE that it transmits the packet in the downlink shared channel (DSCH) scheme of the present invention. Information on the method used in one cell may be informed in the form of system information through a broadcast channel (BCH) or a forward access channel (FACH).

As described above, the present invention has a short setup process for downlink shared channel packet transmission, so that burst packets can be transmitted quickly. In addition, the channel can be quickly connected and disconnected, which is efficient for burst packet transmission.

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 examples, but should be defined by the claims.

Claims (9)

Opening a session between the network UTRAN and the user UE to assign a specific transmit power control signature to the user; Scheduling by the network for downlink shared channel packet transmission and transmitting this scheduling information to the user along with the specific transmit power control signature; Periodically searching for the physical shared channel control channel transmission information, checking a specific transmission power control signature and scheduling information transmitted to the user, and retrieving the scheduling information to calculate a transmission time of the uplink dedicated physical control channel; Performing a closed loop power control initialization process for a period of time before a predetermined time of the calculated transmission time; And transmitting data through a downlink shared channel from a network according to a predetermined time of downlink shared channel packet transmission of the scheduling information. The method of claim 1, wherein the transmitting of the scheduling information with a specific transmission power control signature is performed. Transmitting the scheduling information to a user further including downlink shared channel related information; Performing power ramping by transmitting a preamble including the allocated transmission power control signature to a network; The network further includes the step of identifying the transmission power control signature and transmitting an acquisition signal through an acquisition indication channel if it matches the transmission power control signature sent from its own network. Transmission method. The method of claim 1, wherein while the session is open, the user periodically searches for a specific slot of a specific frame of a pre-scheduled physical shared channel control channel to identify a specific transmit power control signature of a transmit power control field transmitted to the user. The packet data transmission method of the downlink shared channel, characterized in that for transmitting the uplink dedicated physical control channel. 4. The system of claim 3, wherein a system parameter for setting whether to transmit the transmission power control signature allocation information and the control information through the downlink shared channel control information field or the transmission format combination indicator field is transmitted to the user in advance through a broadcast channel or a forward access channel. Packet data transmission method of a downlink shared channel, characterized in that transmitted. The transmission power control signatures of claim 1, wherein the transmit power control signatures of the physical shared channel control channel are composed of orthogonal codes, assigned to each user one by one, and assigned to multiple users in the transmit power control field of the physical shared channel control channel. And a physical shared channel control channel for controlling power transmission of the uplink dedicated physical control channel of each user by simultaneously transmitting power control signatures. 6. The method of claim 5, wherein the physical shared channel control channel includes a transmit power control field for transmitting a transmit power control signature indicating the uplink dedicated physical control channel and a downlink shared channel control information field including the scheduling information. Packet data transmission method of a downlink shared channel, characterized in that configured. 6. The method of claim 5, wherein the physical shared channel control channel is configured by optionally adding a transport format combination indicator field and a pilot field. 6. The method of claim 5, wherein the format without the transport format combination indicator field is control information is transmitted in the downlink shared channel control information field. 2. The method of claim 1, wherein a user is requested to transmit a specific uplink dedicated physical channel through an acquisition indication channel while the session is open.