CN101860914A - Method and terminal for reporting radio frequency capability, network resource distribution method and system - Google Patents

Abstract

The embodiment of the invention discloses a network resource distribution method, comprising the following steps: setting a signalling used for carrying the radio frequency capability of a terminal in advance; carrying the self radio frequency capability by the terminal into the signalling and sending to network side equipment, distributing the network resource to the terminal by the network side equipment according to the radio frequency capability of the terminal carried in the received signalling. The embodiment of the invention also discloses a network resource distribution system, a method and a terminal for reporting radio frequency capability. The embodiment of the invention can improve the rationality of network resource distribution and improve the utilization ratio of the network resource.

Description

The method of reporting radio frequency capability and terminal, Resource Allocation in Networks method and system

Technical field

The present invention relates to the multicarrier system technology, particularly the method for reporting radio frequency capability and terminal, Resource Allocation in Networks method and system.

Background technology

It is a kind of up enhanced scheme that 3GPP Release7 proposes that high speed uplink packet inserts (HSUPA) technology.The channel architecture of low spreading rate time division multiplexing (LCR TDD) HSUPA business comprises: E-RUCCH (E-DCH Random access Uplink Control Channel, E-DCH inserts ascending control channel at random) and E-PUCH (E-DCH Physical Uplink Channel, E-DCH physical uplink channel) two up channels, and E-AGCH (E-DCH Absolute Grant Channel, the E-DCH absolute grant channel), two down channels of E-HICH (E-DCH HARQ Indicator Channel, E-DCHHARQ just answers indicating channel).HSUPA is divided into scheduled transmission and non-scheduled transmission.The flow process of existing HSUPA scheduled transmission is shown in Fig. 1, and this flow process may further comprise the steps:

Step 101: when existing uplink strengthening data etc. to be sent in the buffer memory of terminal (UE), terminal sends E-RUCCH, request scheduling resource to base station (Node B);

Step 102:Node B carries out scheduling of resource according to the dispatch request information of receiving, and sends resource license information on E-AGCH;

Step 103: terminal strengthens transformat combination (E-TFC) according to the resource scheduling information of receiving and selects, select suitable transmission block size (TBS:Transport Block Size) and modulation system, encode afterwards, modulate, and the uplink strengthening data after sending modulation on the E-PUCH;

Step 104:Node B receives after the data on the E-PUCH, carry out decoding processing, (ACK) or non-replying (NACK) information are replied in verification according to Cyclic Redundancy Check, feed back to this terminal on the E-HICH with being mapped to after this ACK or the nack message coding.

So far, finish existing HSUPA scheduled transmission flow process.

Based on existing procedure shown in Figure 1, terminal is carried schedule information (Scheduling Information) by the media access control protocol data unit (MAC-e PDU) of E-RUCCH and subsequent transmission, with the buffer status of the present terminal of informing base station, power rating, channel status etc., dispatch with assistant base station.Wherein: schedule information comprises: TEBS (Total E-DCH Buffer Status, total cache information), HLID (Highest priority Logical Channel ID, the highest priority logical channel sign), HLBS (Highest priority Logical channel Buffer Status, the highest priority logical channel buffer status), SNPL (Serving and Neighbor Cell Pathloss, adjacent area and local area path loss information), UPH (UE Power Headroom, terminal power headrooms).

Except that above-mentioned schedule information, it is that terminal is carried out the power mandate that base station side also needs the RF capabilities according to terminal, is the too high emissivities that surpass terminal of ascending power of terminal distribution to avoid, and causes valuable power resource waste.But, in multicarrier system, terminal may be operated in a plurality of carrier waves, do not provide corresponding method to make network equipment know the RF capabilities of terminal works each carrier wave when a plurality of carrier wave in the prior art, thereby the reasonability of the resource allocation of network equipment in the multicarrier system can't be guaranteed, cause Internet resources to have waste, utilization rate of network resource is lower.

Summary of the invention

In view of this, the embodiment of the invention provides a kind of Resource Allocation in Networks method and system, with the raising rationality of network resource distribution, and improves utilization rate of network resource.

The embodiment of the invention also provides a kind of method and terminal of reporting radio frequency capability, so that network side can be known the RF capabilities of terminal, and carry out the distribution of Internet resources according to the RF capabilities of terminal, thus rationality of network resource distribution improved, and improve utilization rate of network resource.

In a kind of Resource Allocation in Networks method that the embodiment of the invention provides, set in advance the signaling of the RF capabilities that is used for carried terminal, this method also comprises:

A, terminal are carried on the RF capabilities of himself in the described signaling, and described signaling are sent to network equipment;

B, network equipment carry out Resource Allocation in Networks according to the RF capabilities of the described terminal of carrying in the described signaling that receives to described terminal.

In a kind of system that carries out Resource Allocation in Networks that the embodiment of the invention provides, comprising:

Terminal is used for the RF capabilities of himself is carried on the signaling of the RF capabilities that is used for carried terminal that sets in advance, and is used for described signaling is sent to network equipment;

Network equipment, the RF capabilities that is used for the described terminal of carrying according to the described signaling that receives carries out Resource Allocation in Networks to described terminal.

The embodiment of the invention also provides a kind of method of reporting radio frequency capability, is used for terminal and reports the RF capabilities of described terminal to network equipment, and this method comprises:

Terminal is carried on himself RF capabilities the signaling of the RF capabilities that is used for carried terminal that sets in advance;

Terminal sends to network equipment with the described signaling that carries the RF capabilities of himself.

The embodiment of the invention also provides a kind of terminal, comprising:

The signaling constructing module is used for the RF capabilities of described terminal is carried on the signaling of the RF capabilities that is used for carried terminal that sets in advance;

Sending module is used for described signaling is sent to network equipment.

As seen from the above technical solution, the embodiment of the invention sends to network equipment by terminal with the signaling that himself RF capabilities is carried on the RF capabilities that is used for carried terminal that sets in advance, make network equipment to carry out Resource Allocation in Networks to this terminal according to the RF capabilities of terminal entrained in this signaling, thereby improved rationality of network resource distribution, avoid waste of network resources, and improved utilization rate of network resource.The technical scheme that the embodiment of the invention provided is applicable to the follow-up evolution system of multi-carrier HSUPA system and HSPA, and, the technical scheme that the embodiment of the invention provided is not only applicable to time division multiplexing (TDD) pattern, equally is applicable to frequency division multiplexing (FDD) pattern yet.

Description of drawings

Fig. 1 is the schematic flow sheet of existing HSUPA scheduled transmission;

Fig. 2 is the schematic flow sheet of Resource Allocation in Networks method in the embodiment of the invention;

Fig. 3 is the composition structural representation of network resource distribution system in the embodiment of the invention;

Fig. 4 is the composition structural representation of the present invention's one preferable terminal.

Embodiment

For making purpose of the present invention, technical scheme and advantage clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, the present invention is described in further detail.

Terminal can be divided into single-call DTE and multichannel terminal according to port number.Wherein, the single-call DTE has a cover radio frequency path, and any time is up only can to send single radio frequency signal; Multichannel terminal has many cover radio frequency paths, and multichannel terminal any time is up can to send a plurality of radio frequency signals.

The RF capabilities of terminal comprises that the maximum uplink transmission power of terminal (is designated as: P _Max).For the single-call DTE, the maximum uplink transmission power that can use on passage is P _MaxFor multichannel terminal, transmitting power can be distributed according to dual mode.A kind of mode is: the transmitting power of a plurality of passages is shared, and promptly the summation of the maximum uplink transmission power of all passages is P _MaxAnother kind of mode is: the transmitting power of a plurality of passages is independent, and promptly the maximum uplink transmission power of each passage is P _Max

The method of salary distribution difference of the transmitting power of multichannel terminal will influence the resource allocation of network side, especially influences in the HSUPA system network to the power mandate of terminal.

As previously mentioned, terminal to report is given in the schedule information of base station and is comprised UPH information.UPH is used for terminal is considered in the base station when dispatching maximum available power, avoids being the too high emissivities that surpass terminal of the ascending power of terminal distribution, causes valuable power resource waste.

The P that local area path loss, the maximum uplink transmission power of terminal, up maximum available launch power and the end side that the calculating of UPH needs the terminal utilization to measure safeguarded _E-baseCalculate, computing formula as

(1) shown in the formula:

$\mathrm{UPH}=\frac{P_{\max ,\mathrm{tx}}}{P_{e-\mathrm{base}}\·L_{\mathrm{Path}\_\mathrm{loss}}}---\left(1\right)$

(1) in the formula, P _{Max, tx}The up maximum available launch power of expression terminal;

P _E-baseExpression closed power controlling value is safeguarded jointly by terminal and network equipment;

L _{Path_loss}The local area path loss that the expression terminal is measured.

In single carrier HSUPA system, terminal only is operated on the carrier wave, and only sends upstream data on this carrier wave, the maximum power that the maximum uplink transmission power of terminal promptly can be launched on this carrier wave.UPH is the parameter of user class in the single carrier, and each user safeguards a UPH parameter, and that reference was the maximum uplink transmission power P of terminal when UPH calculated _MaxYet in the multi-carrier HSUPA system, terminal can be operated in a plurality of carrier waves, and sends upstream data on these a plurality of carrier waves.In this case, the calculating of UPH needs the RF capabilities of reference terminal.

Single-call DTE and multichannel terminal are all supported the multi-carrier HSUPA system.Particularly:

For the single-call DTE, if be operated under a plurality of carrier waves, then the summation of the maximum uplink transmission power of a plurality of carrier waves can not be greater than the maximum uplink transmission power P of terminal _Max

For multichannel terminal, need be according to the power division mode between a plurality of radio-frequency channels of terminal, the maximum uplink transmission power on each carrier wave of decision terminal.Network equipment is when the power division mode between a plurality of radio-frequency channels is the mandate of terminal distribution power according to terminal, and the power resource of authorizing on each carrier wave is not more than the terminal radio frequency emissivities.Multichannel terminal comprises in the power division mode of a plurality of radio-frequency channels: a plurality of radio-frequency channels power is shared with a plurality of radio-frequency channels power independent.

Suppose that for the multichannel terminal that is operated in the multi-carrier HSUPA system, the work carrier wave has three f1, f2, f3.At this moment, for the terminal that a plurality of radio-frequency channels power is shared, the uplink transmission power mandate that distributes on the f1 carrier wave for this terminal as if network equipment is P ₁, then the uplink transmission power that distributes on f2 carrier wave and f3 carrier wave for this terminal can not be greater than P _Max-P ₁For a plurality of radio-frequency channels power terminal independently, network equipment is not more than P for the uplink transmission power mandate that distributes on each carrier wave of this terminal _MaxGet final product.

Based on above-mentioned analysis, the embodiment of the invention proposes a kind of technical scheme and a kind of technical scheme of carrying out Resource Allocation in Networks according to the RF capabilities of terminal of reporting terminal RF capabilities.

The main thought of the embodiment of the invention is: the signaling that is provided for the RF capabilities of carried terminal, by terminal himself RF capabilities is carried in this signaling and sends to network equipment, and according to the RF capabilities of terminal entrained in this signaling this terminal is carried out Resource Allocation in Networks by network equipment, thereby avoid waste of network resources, improve rationality of network resource distribution, and utilization rate of network resource.

Fig. 2 is the schematic flow sheet of Resource Allocation in Networks method in the embodiment of the invention.Referring to Fig. 2, this method comprises the step 200 that sets in advance, and step 201～202 of carrying out when carrying out Resource Allocation in Networks.Particularly:

Step 200: the signaling that sets in advance the RF capabilities that is used for carried terminal.

In theory, any up signaling that sends to network equipment by terminal all can be served as the role of the signaling that sets in advance in this step, is used for the RF capabilities of carried terminal.When specific implementation, can in existing related protocol, the RF capabilities that a signaling is exclusively used in carried terminal be set separately, also can on the basis of existing relevant signaling, expand, the signaling after the utilization expansion is as the signaling among the present invention.

Preferably, can expand, make the RF capabilities that these signalings can carried terminal existing Radio Resource control (RRC, Radio Resource Control) signaling.For example: can expand to terminal wireless access capability signaling (UE radio access capability), physical channel ability signaling signalings such as (Physical channel capability) in the existing RRC signaling.

Because the RF capabilities of terminal can comprise: single-call DTE, a plurality of radio-frequency channels power are shared and a plurality of radio-frequency channels power independence; In order to represent the RF capabilities of terminal, can in these signalings, increase the indication of the RF capabilities that is used to represent terminal, and be provided with this indication different values the RF capabilities of the terminal of representative respectively.Describe for two examples below:

First example: the RF capabilities of carried terminal in UE radio access capability.Referring to table 1:

Table 1

In the table 1, cell Physicalchannel capability is the existing cell in the existing UE radio access capability signaling, and cell UE specific power capability increases in UE radioaccess capability signaling for the present invention is used to represent the indication of the RF capabilities of terminal.When not carrying this indication in the UE radioaccess capability signaling, the expression terminal is the single-call DTE, when the value of this entrained indication when sharing, the expression terminal is the multichannel terminal that a plurality of radio-frequency channels power is shared, when the value of this entrained indication when being independent, the expression terminal is an independently multichannel terminal of a plurality of radio-frequency channels power.

Second example: the RF capabilities of carried terminal in Physical channel capability.Referring to table 2:

Table 2

In the table 2,1.28Mcps TDD uplink physical channel capability is the existing cell group in the existing Physicalchannel capability signaling, cell UE specific power capability increases in the 1.28Mcps TDD uplink of Physical channel capability signaling physicalchannel capability cell group for the present invention is used to represent the indication of the RF capabilities of terminal.When not carrying this indication in the Physical channel capability signaling, the expression terminal is the single-call DTE, when the value of this entrained indication when sharing, the expression terminal is the multichannel terminal that a plurality of radio-frequency channels power is shared, when the value of this entrained indication when being independent, the expression terminal is an independently multichannel terminal of a plurality of radio-frequency channels power.

Step 201: terminal is carried on the RF capabilities of himself in this signaling, and this signaling is sent to network equipment.

In this step, terminal can be according to the judgement to himself RF capabilities, how to determine the RF capabilities of himself is carried in the signaling, particularly:

If terminal is the single-call DTE, then terminal is not carried above-mentioned indication in signaling;

If terminal is the multichannel terminal that a plurality of radio-frequency channels power is shared, then terminal is carried the shared indication of a plurality of radio-frequency channels power that value is represented terminal in signaling;

If terminal is independently multichannel terminal of a plurality of radio-frequency channels power, then terminal is carried a plurality of radio-frequency channels power that value represents terminal and is independently indicated in signaling.

Step 202: network equipment carries out Resource Allocation in Networks according to the RF capabilities of the terminal of carrying in the signaling that receives to this terminal.

In this step, network equipment can be according to the above-mentioned indication that whether carries in the signaling that receives, and the concrete value of this indication carries out Resource Allocation in Networks, particularly:

If do not comprise above-mentioned indication in the signaling that receives, then network equipment carries out the power mandate according to the principle of the maximum uplink transmission power that is not more than terminal for this terminal;

If comprise the indication that value represents that a plurality of radio-frequency channels power of this terminal is shared in the signaling that receives, then network equipment carries out the power mandate according to the principle that the summation that is the power mandate that a plurality of carrier wave distributed of this terminal is not more than the maximum uplink transmission power of this terminal for this terminal;

Represent that a plurality of radio-frequency channels power of this terminal independently indicates if comprise value in the signaling that receives, then network equipment carries out the power mandate according to the principle that all is not more than the maximum uplink transmission power of this terminal for the power mandate that each carrier wave distributed in a plurality of carrier waves of this terminal for this terminal.

So far, finish Resource Allocation in Networks method of the present invention.

Corresponding to said method, the embodiment of the invention also provides a kind of network resource distribution system, as shown in Figure 3.Referring to Fig. 3, comprise in the network resource distribution system of present embodiment: terminal 310 and network equipment 320.Wherein:

Terminal 310 is used for the RF capabilities of himself is carried on the signaling of the RF capabilities that is used for carried terminal that sets in advance, and is used for this signaling is sent to network equipment 320;

Network equipment 320, the RF capabilities that is used for the terminal 310 of carrying according to the signaling that receives carries out Resource Allocation in Networks to terminal 310.

Preferably, terminal 310 shown in Figure 3, also be used for carrying the indication of the RF capabilities of expression terminal, and pass through the different RF capabilities of the different values difference GC group connectors of this indication, and the signaling that is used for carrying this indication sends to network equipment 310 in above-mentioned signaling;

Correspondingly, network equipment 310 also is used to receive the signaling of indication of the RF capabilities that carries the expression terminal of self terminal 310, and carries out Resource Allocation in Networks according to the indication of carrying in this signaling.

In the system shown in Figure 3, terminal 310 also is used for basis the judgement of the RF capabilities of himself is carried above-mentioned indication in signaling, particularly:

When judging that terminal is the single-call DTE, in signaling, do not carry above-mentioned indication;

Judge terminal be a plurality of radio-frequency channels power share multichannel terminal the time, in signaling, carry the indication that a plurality of radio-frequency channels power that value represents this terminal is shared;

Judging that terminal is a plurality of radio-frequency channels power independently during multichannel terminal, in signaling, carrying a plurality of radio-frequency channels power that value represents this terminal and independently indicate.

In the system shown in Figure 3, network equipment 320 also is used for the above-mentioned indication that signaling comprised that receives is judged, particularly:

When in the signaling that judgement receives, not comprising above-mentioned indication, carry out the power mandate for this terminal according to the principle of the maximum uplink transmission power that is not more than this terminal;

When comprising the indication that value represents that a plurality of radio-frequency channels power of this terminal shares in the signaling that judgement receives, the principle that is not more than the maximum uplink transmission power of this terminal according to the summation for the power mandate that a plurality of carrier wave distributed of this terminal is carried out the power mandate for this terminal;

When in the signaling that judgement receives, comprising value and representing that a plurality of radio-frequency channels power of this terminal is independently indicated, carry out the power mandate for this terminal according to the principle that all is not more than the maximum uplink transmission power of this terminal for the power mandate that each carrier wave distributed in a plurality of carrier waves of this terminal.

Preferably, the terminal 310 in the system shown in Figure 3 is used for that himself RF capabilities is carried on terminal wireless access capability signaling or physical channel ability signaling sends to network equipment 320;

Network equipment 320 in the system shown in Figure 3, the RF capabilities that is used for the terminal of carrying according to above-mentioned terminal wireless access capability signaling or physical channel ability signaling carries out Resource Allocation in Networks to this terminal.

Fig. 4 is the composition structural representation of the present invention's one preferable terminal.Referring to Fig. 4, comprise in this terminal:

Signaling constructing module 410 is used for the RF capabilities of terminal is carried on the signaling of the RF capabilities that is used for carried terminal that sets in advance;

Sending module 420 is used for this signaling that carries the RF capabilities of himself is sent to network equipment 320.

Preferably, the signaling constructing module 410 in the terminal shown in Figure 4 also is used for carrying in this signaling the indication of the RF capabilities of expression terminal, and passes through the different RF capabilities of the different values difference GC group connectors of this indication;

Correspondingly, the sending module 420 in the terminal shown in Figure 4, the signaling that also is used for carrying above-mentioned indication sends to network equipment 320.

Particularly, signaling constructing module 410 shown in Figure 4 is used for carrying above-mentioned indication according to the judgement to the RF capabilities of terminal in signaling:

When judging that terminal is the single-call DTE, in signaling, do not carry above-mentioned indication;

Judge terminal be a plurality of radio-frequency channels power share multichannel terminal the time, in signaling, carry the indication that a plurality of radio-frequency channels power that value represents this terminal is shared;

Judging that terminal is a plurality of radio-frequency channels power independently during multichannel terminal, in signaling, carrying a plurality of radio-frequency channels power that value represents this terminal and independently indicate.

Preferably, signaling constructing module 410 in the terminal shown in Figure 4, be used for the RF capabilities of himself is carried on terminal wireless access capability signaling or physical channel ability signaling, and terminal wireless access capability signaling or the physical channel ability signaling that this carries the terminal radio frequency ability sent to network equipment 320 by sending module 420.

As seen from the above-described embodiment, the embodiment of the invention sends to network equipment by terminal with the signaling that himself RF capabilities is carried on the RF capabilities that is used for carried terminal that sets in advance, make network equipment to carry out Resource Allocation in Networks to this terminal according to the RF capabilities of terminal entrained in this signaling, thereby improved rationality of network resource distribution, avoid waste of network resources, and improved utilization rate of network resource.The technical scheme that the embodiment of the invention provided is applicable to the follow-up evolution system of multi-carrier HSUPA system and HSPA, and the technical scheme that the embodiment of the invention provided is not only applicable to tdd mode, equally also is applicable to fdd mode.

The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention.All any modifications of being done within the spirit and principles in the present invention, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (16)

1. a Resource Allocation in Networks method is characterized in that, sets in advance the signaling of the RF capabilities that is used for carried terminal, and this method also comprises:

A, terminal are carried on the RF capabilities of himself in the described signaling, and described signaling are sent to network equipment;

B, network equipment carry out Resource Allocation in Networks according to the RF capabilities of the described terminal of carrying in the described signaling that receives to described terminal.

2. method according to claim 1 is characterized in that:

The described signaling that sets in advance the RF capabilities that is used for carried terminal comprises: increase the indication of the RF capabilities that is used to represent terminal in described signaling, and the RF capabilities of the terminal that the different values institute of described indication represents respectively is set;

The RF capabilities of described terminal comprises: single-call DTE, a plurality of radio-frequency channels power are shared and a plurality of radio-frequency channels power independence.

3. method according to claim 2 is characterized in that, described terminal comprises the mode that himself RF capabilities is carried in the described signaling:

If described terminal is the single-call DTE, then terminal is not carried described indication in described signaling;

If described terminal is the multichannel terminal that a plurality of radio-frequency channels power is shared, then terminal is carried the shared indication of a plurality of radio-frequency channels power that value is represented described terminal in described signaling;

If described terminal is independently multichannel terminal of a plurality of radio-frequency channels power, then terminal is carried a plurality of radio-frequency channels power that value represents described terminal and is independently indicated in described signaling.

4. method according to claim 3 is characterized in that, described B comprises:

If do not comprise described indication in the described signaling that receives, then network equipment is that described terminal is carried out the power mandate according to the principle of the maximum uplink transmission power that is not more than described terminal;

If comprise the indication that value represents that a plurality of radio-frequency channels power of described terminal is shared in the described signaling that receives, then network equipment is that described terminal is carried out the power mandate according to the principle that the summation that is the power mandate that a plurality of carrier wave distributed of described terminal is not more than the maximum uplink transmission power of described terminal;

Represent that a plurality of radio-frequency channels power of described terminal independently indicates if comprise value in the described signaling that receives, then network equipment is that described terminal is carried out the power mandate according to the principle that all is not more than the maximum uplink transmission power of described terminal for the power mandate that each carrier wave distributed in a plurality of carrier waves of described terminal.

5. according to each described method of claim 1 to 4, it is characterized in that:

Described signaling comprises: terminal wireless access capability signaling or physical channel ability signaling.

6. a system that carries out Resource Allocation in Networks is characterized in that, comprising:

Terminal is used for the RF capabilities of himself is carried on the signaling of the RF capabilities that is used for carried terminal that sets in advance, and is used for described signaling is sent to network equipment;

Network equipment, the RF capabilities that is used for the described terminal of carrying according to the described signaling that receives carries out Resource Allocation in Networks to described terminal.

7. system according to claim 6 is characterized in that:

Described terminal also is used for carrying in described signaling the indication of RF capabilities of expression terminal, and distinguishes the different RF capabilities of GC group connectors by the different values of described indication, and the described signaling that is used for carrying described indication sends to network equipment;

Described network equipment, the signaling of the indication of the described RF capabilities that carries the expression terminal that also is used to receive self terminal, and carry out Resource Allocation in Networks according to the described indication of carrying in the described signaling.

8. system according to claim 7 is characterized in that, described terminal is used for basis the judgement of the RF capabilities of described terminal is carried described indication in described signaling:

When judging that described terminal is the single-call DTE, in described signaling, do not carry described indication;

Judge described terminal be a plurality of radio-frequency channels power share multichannel terminal the time, in described signaling, carry the indication that a plurality of radio-frequency channels power that value represents described terminal is shared;

Judging that described terminal is a plurality of radio-frequency channels power independently during multichannel terminal, in described signaling, carrying a plurality of radio-frequency channels power that value represents described terminal and independently indicate.

9. system according to claim 8 is characterized in that, described network equipment is used for the described indication that signaling comprised that receives is judged:

When in the signaling that judgement receives, not comprising described indication, be that described terminal is carried out the power mandate according to the principle of the maximum uplink transmission power that is not more than described terminal;

When comprising the indication that value represents that a plurality of radio-frequency channels power of described terminal shares in the signaling that judgement receives, the principle that is not more than the maximum uplink transmission power of described terminal according to the summation for the power mandate that a plurality of carrier wave distributed of described terminal is that described terminal is carried out the power mandate;

When in the signaling that judgement receives, comprising value and representing that a plurality of radio-frequency channels power of described terminal is independently indicated, be that described terminal is carried out the power mandate according to the principle that all is not more than the maximum uplink transmission power of described terminal for the power mandate that each carrier wave distributed in a plurality of carrier waves of described terminal.

10. according to each described system of claim 6 to 9, it is characterized in that:

Described terminal is used for that also himself RF capabilities is carried on terminal wireless access capability signaling or physical channel ability signaling sends to network equipment;

Described network equipment, the RF capabilities that also is used for the described terminal of carrying according to described terminal wireless access capability signaling or physical channel ability signaling carries out Resource Allocation in Networks to described terminal.

11. the method for a reporting radio frequency capability is used for terminal and reports the RF capabilities of described terminal to network equipment, it is characterized in that this method comprises:

Terminal is carried on himself RF capabilities the signaling of the RF capabilities that is used for carried terminal that sets in advance;

Terminal sends to network equipment with the described signaling that carries the RF capabilities of himself.

12. method according to claim 11 is characterized in that, described terminal is carried on himself RF capabilities in the described signaling and comprises:

If described terminal is the single-call DTE, then in described signaling, do not carry described indication;

If described terminal is the multichannel terminal that a plurality of radio-frequency channels power is shared, then in described signaling, carry the shared indication of a plurality of radio-frequency channels power that value is represented described terminal;

If described terminal is independently multichannel terminal of a plurality of radio-frequency channels power, then in described signaling, carries a plurality of radio-frequency channels power that value represents described terminal and independently indicate.

13. method according to claim 12 is characterized in that:

Described signaling comprises: terminal wireless access capability signaling or physical channel ability signaling.

14. a terminal is characterized in that, comprising:

The signaling constructing module is used for the RF capabilities of described terminal is carried on the signaling of the RF capabilities that is used for carried terminal that sets in advance;

Sending module is used for described signaling is sent to network equipment.

15. terminal according to claim 14 is characterized in that:

Described signaling constructing module also is used for carrying in described signaling the indication of the RF capabilities of expression terminal, and distinguishes the different RF capabilities of GC group connectors by the different values of described indication;

Described sending module, the described signaling that also is used for carrying described indication sends to network equipment.

16. terminal according to claim 15 is characterized in that, described signaling constructing module is used for basis the judgement of the RF capabilities of described terminal is carried described indication in described signaling:

When judging that described terminal is the single-call DTE, in described signaling, do not carry described indication;

Judge described terminal be a plurality of radio-frequency channels power share multichannel terminal the time, in described signaling, carry the indication that a plurality of radio-frequency channels power that value represents described terminal is shared;

Judging that described terminal is a plurality of radio-frequency channels power independently during multichannel terminal, in described signaling, carrying a plurality of radio-frequency channels power that value represents described terminal and independently indicate.

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