CN1764307A - Shared channel allocation and using method in multi-carrier frequency cell system - Google Patents

Abstract

The invention discloses a method for configuring and using a shared channel in a multi-carrier frequency cell system. The RNC and the node B respectively establish or reconfigure the shared physical channel on several carrier frequencies in the node B through the reconfiguration process of the shared physical channel, and Configure the time slot format for its transmission; RNC includes the configuration information of the shared physical channel in the broadcast system information, including frequency attributes; on the network side, the RNC and Node B allocate a shared physical channel on a carrier frequency to the UE through the Iub interface protocol ; On the UE side, the RNC allocates a shared physical channel on a carrier frequency to the UE through the Uu interface protocol. Alternatively, the broadcasted system information does not include the information of the shared physical channel, but indicates configuration information of the allocated shared physical channel, including frequency attributes, when the UE side allocates the shared physical channel for the UE. The present invention enables each carrier frequency of a multi-carrier frequency cell to provide a shared channel, reduces the capability requirement of the UE, and improves the utilization rate of wireless resources.

Description

Configuration and usage method of shared channel in multi-carrier frequency cell system

technical field

The invention relates to a TD SCDMA standard wireless communication system, in particular to a method for configuring and using a shared channel in a multi-carrier frequency cell system.

Background technique

Like other mobile communication systems, in order to meet the ever-increasing demands of the mobile communication market, multi-carrier frequency coverage in the same sector/cell will be an important means for TD-SCDMA system to increase system capacity.

Considering the cell search process in the system, the terminal measurement process, the handover decision process at the network side and the system efficiency, there is currently a multi-carrier frequency cell solution. That is, for the same sector/cell area covered by multiple carrier frequencies, a cell (equivalent to a sector) is adopted with multiple carrier frequencies, in which there is only one main carrier frequency, and the others are called auxiliary carrier frequencies. In the same cell, only DwPTS (downlink pilot time slot), UpPTS (uplink pilot time slot) and PCCPCH (primary public control physical channel, fixedly allocated in TS0) are sent on the main carrier frequency, and other common channels are also limited On the main carrier frequency; dedicated channels can be configured on both the main carrier frequency and the auxiliary carrier frequency, but only dedicated channels can be configured on the auxiliary carrier frequency.

In the above scheme, for a mobile terminal (UE) in the CELL-DCH state (cell dedicated channel state) and working on the auxiliary carrier frequency, since TDD (Time Division Duplex) requires the UE to monitor SIB17, the UE needs to monitor both information on two frequencies, that is, to monitor the broadcast channel information on the main carrier frequency, and to monitor the dedicated channel information on the auxiliary carrier frequency at the same time. This increases the capability requirements of the mobile terminal (UE), requiring the terminal to support receiving two carrier frequencies at the same time. "Simultaneously" here means that within the same frame, that is, within one frame, the UE can receive information on different frequencies in different time slots, such as receiving broadcast information on the main carrier frequency in TS0, and receiving information on other frequencies in other time slots. The time slot receives the dedicated information of the auxiliary carrier frequency.

In the above solution, if the shared channel is only configured on the main carrier frequency, as with receiving broadcast channel information, for UEs in the CELL-DCH state and working on the auxiliary carrier frequency, if the shared channel is allocated, the UE needs Simultaneously monitor the information on two frequencies, that is, monitor the shared channel information on the main carrier frequency, and simultaneously monitor the dedicated channel information on the auxiliary carrier frequency, which increases the capability requirements of the UE, requiring the terminal to support receiving two carrier frequencies at the same time, and The "simultaneously" here also refers to within the same frame, that is, within one frame, the UE can only receive information on different frequencies in different time slots. Therefore, if the UE is allocated a shared channel, when a dedicated channel is allocated to the UE on the auxiliary carrier frequency, the dedicated channel cannot be allocated to the same time slot as the shared channel, so that the allocation of the dedicated channel is limited, thereby affecting the wireless resources. usage efficiency.

In 3G and future services, the proportion of PS services (streaming media services) will become larger and larger, and has the characteristics of non-real-time, while the shared channel has the characteristics of time sharing. If the shared channel is used to carry PS services, it will be It has the advantage of flexibility and greatly improves the utilization rate of wireless resources. Therefore, in TD-SCDMA and other third-generation mobile communication systems, the demand for shared channels may be relatively large, and it will be difficult to meet the requirements only by configuring shared channels on the main carrier frequency.

To sum up, in order to reduce the requirements on UE capabilities, improve the utilization of radio resources, and fully meet the needs of future PS services, the multi-carrier frequency cell system needs to have the ability to provide shared channels on each carrier frequency.

In existing standards (3GPP TS 25.433V4.9.0 (2003-06)) and solutions, shared channels are configured by cells.

On the Iub interface, only the cell identification (C-ID) is included in the shared physical channel reconfiguration message. If this identification method is used, the shared physical channel is established in a multi-carrier frequency cell or only on the main carrier frequency of the cell. , so obviously the system does not have the ability to provide shared channels on each carrier frequency; or the system establishes shared channels on all carrier frequencies of the cell, and configures the same number of shared physical channels, and the shared physical channels use the same channel on all carrier frequencies. This configuration method obviously lacks flexibility and is not conducive to improving the utilization rate of wireless resources.

In addition, in the shared physical channel reconfiguration message, when configuring the shared physical channel, in the downlink code information element (DL Code Information LCR IE) and the uplink code information element (UL Code Information LCR IE), only configure The downlink shared physical channel identifier (PDSCHID), the uplink shared physical channel identifier (PUSCH ID) and the channelization code information unit (TDD Channelisation Code LCR) are missing, and the information unit for configuring the time slot format is missing.

On the Uu interface, when configuring the shared physical channel, frequency information is not included in the downlink shared physical channel information element (PDSCH info IE) and the uplink shared physical channel information element (PUSCH info IE). In the system information broadcast in a multi-carrier frequency cell, this method of configuring a shared physical channel that cannot distinguish frequencies obviously cannot realize the function of providing a shared channel on each carrier frequency. Because in the shared physical channel allocation process, this shared physical channel configuration method that cannot distinguish between frequencies will cause confusion, and cannot clearly indicate the frequency attribute of the shared physical channel.

Contents of the invention

The technical problem to be solved by the present invention is to provide a method for configuring and using a shared channel in a multi-carrier frequency cell system in a wireless communication system of the TD SCDMA standard, so as to realize the channel sharing on each carrier frequency in the multi-carrier frequency cell system. Provides and uses shared channel functionality.

In order to solve the above technical problems, the present invention provides a method for configuring and using a shared channel in a multi-carrier frequency cell system, including the following steps:

(a) The radio network controller and the node B respectively establish or reconfigure shared physical channels on several carrier frequencies of a cell through the shared physical channel reconfiguration process, and configure the time slot format for transmission of all shared physical channels;

(b) The radio network controller includes the configuration information of some or all shared physical channels of the cell in the broadcast system information according to the set policy, including frequency attributes;

(c) On the network side, the radio network controller and the node B assign the mobile terminal a shared physical channel on the main carrier frequency or the auxiliary carrier frequency through the protocol of the Iub interface;

(d) On the mobile terminal side, the radio network controller allocates the shared physical channel on the main carrier frequency or the auxiliary carrier frequency to the mobile terminal through the protocol of the Uu interface.

Further, the above method may also have the following features: the shared physical channels in the steps (a), (b), (c), and (d) include uplink shared physical channels and/or downlink physical shared channels.

Further, the above method may also have the following features: in the step (a), different carrier frequencies are distinguished by including a carrier frequency indication information element in the shared physical channel reconfiguration message.

Further, the above method may also have the following characteristics: in the step (a), by including the downlink shared physical channel burst format information unit in the downlink code channel information unit of each downlink shared physical channel, and/or in The uplink code channel information element of the uplink shared physical channel includes the uplink shared physical channel burst format information element to indicate the burst format transmitted by the shared physical channel.

Further, the above method may also have the following characteristics: in the step (b), the frequency information unit is added to the uplink shared physical channel information unit and/or the downlink shared physical channel information unit in the system broadcast information, to indicate the frequency attribute of the shared physical channel.

Further, the above method can also have the following characteristics: the step (c) can be further divided into the following steps:

(c1) The radio network controller and Node B establish or reconfigure the uplink and/or downlink shared transport channel for the mobile terminal through the radio link establishment or radio link synchronous reconfiguration preparation process, and allocate the corresponding uplink and/or coding combination Transmission channel, while establishing or reconfiguring the uplink and/or downlink coding combination transmission channel;

(c2) The radio network controller and the Node B allocate an uplink shared physical channel set for the uplink shared transport channel through a dynamic uplink shared physical channel allocation process;

(c3) The radio network controller allocates a downlink shared physical channel set for each downlink shared transport channel through the downlink shared transport channel data transmission process.

Further, the above method can also have the following characteristics: the step (d) can be further divided into the following steps:

(d1) The radio network controller and the mobile terminal establish or reconfigure the uplink and/or downlink shared transmission channel for the mobile terminal through related procedures, and simultaneously establish or reconfigure the uplink and/or downlink code combination transmission channel;

(d2) The radio network controller allocates a shared physical channel on a carrier frequency for the coded combined transport channel related to the shared transport channel through the shared physical channel allocation process, if the allocated shared physical channel has been included in the broadcast system information Configuration information, the "existing configuration information element" should be included in the shared physical channel allocation message; if the configuration information of the allocated shared physical channel is not included in the broadcast system information, the message should include "new configuration information element" , and add a frequency information element to the uplink shared physical channel information information element and/or downlink shared physical channel information information element contained in the "new configuration information element";

(d3) The mobile terminal requests the radio network controller to allocate an uplink shared physical channel for the uplink shared transport channel through the uplink shared physical channel capacity request process.

In order to solve the above technical problems, the present invention provides another method for configuring and using a shared channel in a multi-carrier frequency cell system, which includes the following steps:

(A) The radio network controller and the node B respectively establish or reconfigure shared physical channels on several carrier frequencies of a cell through the shared physical channel reconfiguration process, and configure the time slot format for transmission of all shared physical channels;

(B) On the network side, the radio network controller and the node B assign the mobile terminal a shared physical channel on the main carrier frequency or the auxiliary carrier frequency through the protocol of the Iub interface;

(C) On the mobile terminal side, the radio network controller allocates the shared physical channel on the main carrier frequency or auxiliary carrier frequency to the mobile terminal through the Uu interface protocol, and indicates the configuration information of the allocated shared physical channel, including frequency attributes.

Further, the above method may also have the following features: the shared physical channel in the steps (A), (B) and (C) includes an uplink shared physical channel and/or a downlink physical shared channel. Steps (A), (B) and (C) may also have all the additional features of the first method.

Further, the above method can also have the following characteristics: the step (C) can be further divided into the following steps:

(C1) The radio network controller and the mobile terminal establish or reconfigure the uplink and/or downlink shared transmission channel for the mobile terminal through related procedures, and simultaneously establish or reconfigure the uplink and/or downlink code combination transmission channel;

(C2) The radio network controller allocates a shared physical channel on a carrier frequency for the coded combination transport channel related to the shared physical channel through the shared physical channel allocation process, and the shared physical channel allocation message contains a new configuration information element, and in the new The uplink shared physical channel information information unit and/or the downlink shared physical channel information information unit included in the configuration information unit includes a frequency information unit to indicate the frequency attribute of the allocated shared physical channel;

(C3) The mobile terminal requests the radio network controller to allocate an uplink shared physical channel for the uplink shared transport channel through the uplink shared physical channel capacity request process.

It can be seen from the above that the present invention provides a flexible method for configuring and using shared channels, which can configure and use shared channels on the main carrier frequency and auxiliary carrier frequency in a multi-carrier frequency cell, so that the shared channel in the multi-carrier frequency cell system On each carrier frequency, the system has the ability to provide shared channels. While fully meeting the needs of future services, it reduces the capability requirements for UEs when using shared channels and improves the utilization of wireless resources.

Description of drawings

FIG. 1 is a flow chart of a method for configuring and using a shared channel according to the first embodiment of the present invention.

Detailed ways

first embodiment

The method for configuring and using the shared channel in the multi-carrier cell system includes: establishing or reconfiguring the shared physical channel in the multi-carrier cell, allocating the shared physical channel to the UE on the network side, and allocating the shared physical channel to the UE on the UE side, etc. Three major processes. It should be pointed out that there is no time sequence requirement for allocating the shared physical channel to the UE on the network side or the UE side.

As shown in Figure 1, the method of this embodiment includes the following steps:

Step 110, during the shared physical channel reconfiguration process, the radio network controller and the node B (Node B), by including the carrier frequency indication information element (UARFCN) in the shared physical channel reconfiguration message, several carriers in the Node B Establish and configure shared physical channels on each frequency (including main carrier frequency and auxiliary carrier frequency), and configure the time slot format for transmission of all shared physical channels;

The shared physical channels established and configured in this embodiment include uplink and downlink shared physical channels (but the present invention is not limited thereto). The physical channel (PUSCH) is respectively configured into one or more uplink shared physical channel sets (PUSCH Set), and all downlink shared physical channels (PDSCH) are respectively configured into one or more downlink shared physical channel sets (PDSCH Set), each The shared physical channel set assigns a unique shared physical channel set identifier in the cell. Each uplink shared physical channel in the uplink shared physical channel set and each downlink shared physical channel in the downlink shared physical channel set are also configured with a unique shared physical channel identifier.

In this embodiment, in the shared physical channel reconfiguration message, for each downlink shared physical channel, the downlink code channel information element (DL Code Information LCR IE) includes the downlink shared physical channel burst format information element (TDD DL DPCH Time Slot Format LCR IE), for each uplink shared physical channel, the uplink code channel information element (UL CodeInformation LCR IE) contains the uplink shared physical channel burst format information element (TDD ULDPCH Time Slot Format LCR IE), In order to indicate the burst format of physical channel transmission, the content of the shared physical channel burst format information element is the same as that of the dedicated physical channel burst format information element. . Other information elements in the shared physical channel reconfiguration message are the same as the current existing standards.

Step 120, the radio network controller, according to the set policy, includes the information of some or all shared physical channels of the cell in the system information broadcast on the broadcast channel on the main carrier frequency, and configures the attribute parameters of these shared physical channels, This includes frequency attributes and assigns an associated identity to each shared physical channel;

For example, the above strategy can be set as follows: for the shared physical channels configured at the initial establishment of the cell, the configuration information of these shared physical channels is included in the broadcast system information; and the shared physical channels established according to business needs are not broadcast in the system The information includes configuration information of these shared physical channels.

In the current standard SIB17, the uplink shared physical channel and the downlink shared physical channel are respectively configured through the uplink shared physical channel system information unit and the downlink shared physical channel system information unit. Each uplink shared physical channel system information element (PUSCH system information IE) is configured with a set of uplink shared physical channels, which contains an identifier of the set, and is further included in the uplink shared physical channel information information element (PUSCH info IE) Configure one or more uplink shared physical channels; similarly, each downlink shared physical channel system information element (PDSCH system information IE) is configured with a set of downlink shared physical channels, including the identity of the set, and further in the downlink One or more downlink shared physical channels are configured in the shared physical channel information element (PDSCH infoIE). In this embodiment, a frequency information element (Frequency info IE) is added to the PUSCH info IE and PDSCH info IE to indicate the frequency attribute of the shared physical channel, and other information elements are the same as the information elements in the existing standards.

The above completes the process of establishing and configuring the shared physical channel in the multi-carrier frequency cell.

Step 130, the radio network controller and the node B establish or reconfigure the shared transport channel for the UE through the radio link establishment or radio link synchronous reconfiguration preparation process in the NBAP protocol, and allocate the corresponding code combination transport channel for the shared transport channel ( CCTrCH), while establishing or reconfiguring the coded combination transport channel;

In this step, the established or reconfigured shared transport channel includes the uplink shared transport channel (USCH) and/or the downlink shared transport channel (DSCH), and the established or reconfigured coded combined transport channel includes uplink and/or downlink coded combined transmission channel. The parameters in the radio link establishment and radio link synchronous reconfiguration preparation messages are the same as the current existing standards. Among them, for each uplink shared transport channel, configure the uplink coded combined transport channel through the coded combined transport channel identification information element (CCTrCH ID IE) in the uplink shared transport channel information element (USCH Information IE) in the message; for each downlink For the shared transport channel, configure the downlink coded combined transport channel through the coded combined transport channel identification information element in the downlink shared transport channel information element (DSCH TDD Information IE) in the message.

For each uplink coded combined transport channel related to the shared transport channel, the uplink coded combined transport channel information element (UL CCTrCH Information IE) contains information elements such as the transport format combination set of the coded combined transport channel, but does not include the uplink dedicated physical Channel information element (ULDPCH Information LCR IE); the downlink coded combined transport channel information element (DLCCTrCH Information IE) contains information elements such as the transport format combination set of the coded combined transport channel, but does not include the downlink dedicated physical channel information element (DL DPCH information LCR IE).

Step 140, during the dynamic uplink shared physical channel allocation process in the FP protocol between the radio network controller and the node B, the dynamic uplink shared physical channel allocation control frame is the same as the existing standard, which includes the uplink shared physical channel set Identification (PUSCH Set Id), configure the uplink shared physical channel set for the uplink shared transport channel;

Step 150, during the data transmission process of the downlink shared transport channel between the radio network controller and the Node B, the data frame of the downlink shared transport channel is the same as the existing standard, which includes the downlink shared physical channel set identifier (PDSCH Set Id ), assigning a downlink shared physical channel set for each downlink shared transport channel;

The process of allocating the shared physical channel for the UE on the network side is completed above, and the shared physical channel on the main carrier frequency or the auxiliary carrier frequency can be allocated.

In step 160, the radio network controller and the UE establish or communicate with the UE through related procedures (such as radio bearer establishment, radio bearer reconfiguration, cell update, handover to UTRAN, radio bearer release, RRC connection establishment, or transport channel reconfiguration, etc.) Reconfigure the shared transmission channel, and simultaneously establish or reconfigure the code combination transmission channel;

In this step, the established or reconfigured shared transport channel includes an uplink and/or downlink shared transport channel, and the established or reconfigured coded combined transport channel includes an uplink and/or downlink coded combined transport channel. The parameters in the corresponding message are the same as those in the existing standards, wherein, for each uplink coded combined transport channel, a single uplink coded combined transport channel information element (Individual ULCCTrCH information IE) contains the transmission format combination of the coded combined transport channel Information units such as TFCS and transport format combination set identifier; for each downlink coded combined transport channel, a single downlink coded combined transport channel information element (Individual DL CCTrCHinformation IE) contains the transmission format combination of the coded combined transport channel Information units such as the set (TFCS) and the transport format combination set identifier.

In step 170, the radio network controller allocates uplink and/or downlink shared physical channels on a carrier frequency for the coded combination transport channel related to the shared transport channel through the shared physical channel allocation process.

If the allocated shared physical channel already contains its configuration information in the broadcast system information, the shared physical channel allocation message shall contain the "existing configuration information element" (Old configurationIE), which contains the shared physical channel identifier, etc. information, same as the existing standard.

If the configuration information of the allocated shared physical channel is not included in the broadcasted system information, the message shall contain a "New configuration information element" (New configuration IE), which contains information related to the configuration of the shared physical channel, which is related to The difference between existing standards is that the frequency information element (Frequency info IE) needs to be added to the uplink shared physical channel information information element (PUSCH info IE) and downlink shared physical channel information information element (PDSCH info IE) to indicate The frequency attribute of the allocated shared physical channel, and other information elements are the same as those in the existing standards.

In step 180, the UE requests the radio network controller to allocate an uplink shared physical channel for the uplink shared transport channel through a physical uplink shared channel (PUSCH) capacity request procedure. In the PUSCH capacity request message, its information elements are the same as those in existing standards.

The process of allocating the shared physical channel for the UE on the UE side is completed above, and the shared physical channel on the main carrier frequency or the auxiliary carrier frequency can be allocated.

second embodiment

The difference between this embodiment and the first embodiment is that: in step 120, the broadcasted system information does not include the information of the shared physical channel; correspondingly, in step 170, the radio network controller allocates the shared physical channel for When the code combination transport channel related to the shared transport channel allocates the uplink and/or downlink shared physical channel on a carrier frequency, the message should contain the "new configuration information element" (New configuration IE), which contains the shared physical channel. Information about channel configuration. The difference from the existing standard is that the frequency information element (Frequency info IE) needs to be added in the uplink shared physical channel information information element (PUSCH info IE) and downlink shared physical channel information information element (PDSCH info IE), so as to Indicates the frequency attribute of the allocated shared physical channel, and other information elements are the same as those in existing standards.

Other steps of this embodiment are the same as those of the first embodiment, and will not be repeated here.

It should be noted that in the present invention, only the uplink shared physical channel may be established, configured and used, or only the downlink shared physical channel may be established, configured and used, and the same method as that of the above-mentioned embodiments may be adopted.

Claims (13)

1, the configuration and the using method of shared channel in a kind of multi-carrier frequency cell system may further comprise the steps:

(a) radio network controller and Node B are set up or are reshuffled shared physical channel respectively, and all shared physical channels are disposed the time slot format of its emission by sharing the physical channel reconfiguration course on some carrier frequency of a sub-district;

(b) radio network controller comprises the part of this sub-district or the configuration information of all shared physical channels, comprising frequency attribute according to setting strategy in the system information of broadcasting;

(c) at network side, radio network controller and Node B are that portable terminal distributes the shared physical channel on main carrier frequency or the assistant carrier frequency by the agreement of Iub interface;

(d) at mobile terminal side, radio network controller is that portable terminal distributes the shared physical channel on main carrier frequency or the assistant carrier frequency by the agreement of Uu interface.

2, the method for claim 1 is characterized in that, the shared physical channel among described step (a) and (b), (c), (d) comprises up shared physical channel and/or downlink physical shared channel.

3, method as claimed in claim 2 is characterized in that, in the described step (a), distinguishes different carrier frequency by comprise carrier frequency frequency indication information unit in shared physical channel reconfiguration message.

4, method as claimed in claim 2, it is characterized in that, in the described step (a), be to comprise up shared physical channel burst format information unit in Physical Downlink Shared Channel burst format information unit and/or the uplink code channel information unit, to indicate the burst format of sharing the physical channel emission at up shared physical channel by in the descending code channel information unit of each Physical Downlink Shared Channel, comprising.

5, method as claimed in claim 2, it is characterized in that, in the described step (b), be by increasing the frequency information unit in up shared physic channel information information unit in system broadcast information and/or the Physical Downlink Shared Channel information unit, indicating the frequency attribute of sharing physical channel.

6, method as claimed in claim 2 is characterized in that, described step (c) further can be divided into following steps:

(c1) radio network controller and Node B set up by Radio Link or wireless link synchronization to reshuffle set-up procedure be that portable terminal is set up or reshuffled up and/or downlink shared transmission channel, and distribute corresponding up and/or coded combination transmission channel, set up simultaneously or reshuffle up and/or downlink coding combination of transmitted channel;

(c2) radio network controller and Node B are that up shared transmission channel distributes up shared sets of physical channels by dynamic up shared physical channel assigning process;

(c3) radio network controller is that each bar downlink shared transmission channel allocation of downlink is shared sets of physical channels by the downlink shared transmission channel data transmission procedure.

7, method as claimed in claim 2 is characterized in that, described step (d) further can be divided into following steps:

(d1) radio network controller and portable terminal are portable terminal foundation by correlated process or reshuffle up and/or downlink shared transmission channel, set up or reshuffle up simultaneously and/or downlink coding combination of transmitted channel;

(d2) radio network controller is shared physical channel by sharing the physical channel assigning process for the coded combination transmission channel relevant with sharing transmission channel distributes on a carrier frequency, if the shared physical channel that is distributed has comprised its configuration information in the system information of broadcasting, in shared physical channel assignment messages, should comprise " existing configuration information unit "; If the configuration information of the shared physical channel that is distributed is not included in the system information of broadcasting, should comprise in this message " new configuration information unit ", and increase in up shared physic channel information information unit that comprises in this " new configuration information unit " and/or the Physical Downlink Shared Channel information unit and comprise the frequency information unit;

(d3) portable terminal is that up shared transmission channel distributes up shared physical channel by up shared physical channel capacity request procedure request wireless network controller.

8, the configuration and the using method of shared channel in a kind of multi-carrier frequency cell system may further comprise the steps:

(A) radio network controller and Node B are set up or are reshuffled shared physical channel respectively, and all shared physical channels are disposed the time slot format of its emission by sharing the physical channel reconfiguration course on some carrier frequency of a sub-district;

(B) at network side, radio network controller and Node B are that portable terminal distributes the shared physical channel on main carrier frequency or the assistant carrier frequency by the agreement of Iub interface;

(C) at mobile terminal side, radio network controller is that portable terminal distributes the shared physical channel on main carrier frequency or the assistant carrier frequency by the agreement of Uu interface, and indicates the configuration information of the shared physical channel that is distributed, and comprises frequency attribute.

9, method as claimed in claim 8 is characterized in that, described step (A), (B) and (C) in shared physical channel comprise up shared physical channel and/or downlink physical shared channel.

10, method as claimed in claim 9 is characterized in that, in the described step (A), distinguishes different carrier frequency by comprise carrier frequency frequency indication information unit in shared physical channel reconfiguration message.

11, method as claimed in claim 9, it is characterized in that, in the described step (A), be to comprise uplink special physical channel burst format information unit by comprising in downward special physical channel burst format information unit and/or the uplink code channel information unit at up shared physical channel in the descending code channel information unit of each Physical Downlink Shared Channel, the burst format of physical channel emission is shared in indication.

12, method as claimed in claim 9 is characterized in that, described step (B) further can be divided into following steps:

(B1) radio network controller and Node B set up by Radio Link or wireless link synchronization to reshuffle set-up procedure be that portable terminal is set up or reshuffled up and/or downlink shared transmission channel, and distribute corresponding up and/or coded combination transmission channel, set up simultaneously or reshuffle up and/or downlink coding combination of transmitted channel;

(B2) radio network controller and Node B are distributed up shared sets of physical channels by dynamic up shared physical channel assigning process for the up shared transmission channel of each bar;

(B3) radio network controller is that each bar downlink shared transmission channel allocation of downlink is shared sets of physical channels by the downlink shared transmission channel data transmission procedure.

13, method as claimed in claim 9 is characterized in that, described step (C) further can be divided into following steps:

(C1) radio network controller and portable terminal are portable terminal foundation by correlated process or reshuffle up and/or downlink shared transmission channel, set up or reshuffle up simultaneously and/or downlink coding combination of transmitted channel;

(C2) radio network controller is shared physical channel by sharing the physical channel assigning process for the coded combination transmission channel relevant with sharing transmission channel distributes on a carrier frequency, comprise " new configuration information unit " in shared physical channel assignment messages, and in up shared physic channel information information unit that this " new configuration information unit " comprises and/or Physical Downlink Shared Channel information unit, increase and comprise the frequency information unit, distributed the frequency attribute of shared physical channel with indication;

(C3) portable terminal is that up shared transmission channel distributes up shared physical channel by up shared physical channel capacity request procedure request wireless network controller.

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