CN101296003B - Power control method and system for reinforced uplink transmitting scheduling information - Google Patents

Abstract

The invention provides a power control method applied when an enhanced uplink independently transmits scheduling information and a device thereof. The method includes the steps: a RNC configures the power offset value of the scheduling information as the offset value of transmitting power when the scheduling information is independently transmitted with authorization and then sends the offset value to UE and a base station; when the UE independently transmits the scheduling information on authorized resources, the power offset value of the scheduling information is used as the power offset value of an enhanced uplink physical channel and then authorized power is compared with the magnitude of the transmitting power of the enhanced uplink physical channel. When the magnitude of the transmitting power is more than the magnitude of the authorized power, the UE transmits the enhanced uplink physical channel based on the authorized power; while the magnitude of the transmitting power is less than the magnitude of the authorized power, the enhanced uplink physical channel is transmitted based on the magnitude of the transmitting power of the enhanced uplink physical channel, thus ensuring the reliable transmission of the scheduling information and improving the scheduling accuracy and the utilization rate of system resources.

Description

Poewr control method and system during the independent transmitting scheduling information of enhanced uplink

Technical field

The present invention relates to field of wireless communication, more specifically, Poewr control method and system when relating to the independent transmitting scheduling information of a kind of enhanced uplink.

Background technology

Enhanced uplink is commonly referred to as HSUPA (High Speed Uplink PacketAccess; High speed uplink packet inserts); It is intended to improve through advanced person's technology the efficient of up link, with effective support web browse, video, multimedia messages and other IP-based business.

Increased a kind of E-DCH transmission channel (enhanced uplink dedicated transmission channel) among the HSUPA newly, enhanced uplink data is carried on this transmission channel, and the TTI of E-DCH (Transmission Time Interval) is 5ms.The grouping that is mapped on the E-DCH transmission channel is called MAC-ePDU (enhancing media access control protocol data unit), wherein, comprises one or more MAC-d streams.

The physical channel relevant with E-DCH comprises:

One, E-UCCH (enhanced uplink control channel); It is a kind of physical layer control channel; Be carried in the physical layer indication territory of E-PUCH; Control information wherein comprises E-TFCI (indication of enhanced uplink transformat is in order to indicate current transport block length) and HARQ information (comprising process ID and number of retransmissions information);

Two, E-AGCH channel (E-DCH absolute grant channel), it is the control channel of a kind of NodeB of being used for (base station) transmission authorization message;

Three, E-PUCH (E-DCH uplink physical channel; The enhanced uplink that is otherwise known as physical channel), it is the Traffic Channel that a kind of UE of being used for (User Equipment, user terminal) carries the E-DCH transport channel data; In addition, the information that auxiliary dispatching is relevant is also in this channel;

Four, (E-DCH inserts ascending control channel to E-RUCCH at random; Promptly; Enhanced uplink random inserts ascending control channel); It is that a kind of UE of being used for is not having the physical layer control channel that transmits the relevant information of auxiliary dispatching under the situation of authorizing, and in addition, E-RUCCH uses the Physical Random Access Channel resource; And

Five, E-HICH (E-DCH hybrid automatic repeat request indication channel), it is the physical layer control channel that a kind of Node of being used for B carries HARQ (mixing automatic repeat requests) indication information.

Press the difference of scheduling mode, the HSUPA business is divided into dispatching services and non-scheduling service, wherein; The resource of non-scheduling service distributes for UE through SRNC (service wireless network controller); The mode of distributing is identical with existing dedicated channel allocation mode, in addition, and in dispatching services; Come for Node B distributes the enhanced uplink resource pool through SRNC, and come to be single UE Resources allocation through Node B.

In dispatching services; UE need report the scheduling of some information with auxiliary Node B; These information are called schedule information SI (Scheduling Information), comprising path loss metrical information of UE buffer information, power headroom, this sub-district and adjacent sub-district etc.When UE had upstream data to send, UE just possibly trigger the transmission of schedule information; System also can require UE periodically to send schedule information, so that NodeB (Node B, base station) scheduling resource.

When UE does not authorize, SI will send through the E-RUCCH channel; When the E-PUCH resource of authorizing, schedule information and business datum are together through the transmission of E-PUCH channel.Under following situation, SI can send on the E-PUCH channel separately:

1. because the resource of authorizing is fewer, authorization resources allows the transport block length of transmission can't service data transmission (the minimum packets length of business datum is greater than this transport block length), and this moment, UE only sent SI on the resource of authorizing;

2. because the timing of schedule information reports mechanism, make UE on current authorization resources, must send SI, but can't carry other business datum again because of the resource-constrained that obtains.As shown in Figure 1, provided the transmission situation of three kinds of schedule informations.

Schedule information has 23 bits, and in the enhanced uplink transformat form that system provides, the E-TFCI that 23 bits are corresponding is 0.After receiving the SI of UE, resource authorization be not immediately or each TTI send to UE, but fully determine whether/when send according to current network conditions priority situation with each competition UE by the scheduling feature entity among the Node B.

The course of work of dispatching services is: have data need transmit but during the current resource that does not have to authorize in the UE buffering area; Will be through the E-RUCCH request resource; Node B sends absolute grant information through the E-AGCH channel to UE, wherein, comprises power authorization message and physical channel authorization message.The power authorization message is used between each competition UE, distributing the available system jamming resource, and the physical channel authorization message is used between each competition UE, distributing the time slot and sign indicating number resource of E-PUCH use.

Article one, the authorization message on the E-AGCH uses once only for a UE; Authorizing the minimum duration that is suitable for is an E-DCH TTI; Also can support the mandate of variable-length through using RDI (resource continuous time indication); For example, RDI can indicate UE in ensuing 8 TTI, to use this authorization resources.UE intercepts one group of E-AGCH channel, and this group E-AGCH channel is the UE configuration by the network high level, and UE successfully attends school the authorization message of getting wherein in case decode, and after the agreement predetermined timing time, sends data through the E-PUCH channel of authorizing.

When sending data through E-PUCH, UE can be with SI in passing, also possibly only send SI.The Node B E-UCCH control channel of at first will decoding; Information according to is wherein decoded to the data among the E-PUCH again, decodes and successfully then on the E-HICH channel, returns ACK, if unsuccessful; Then return NACK, this moment, UE need carry out retransmission process according to retransmission mechanism.

Because SI information is that NodeB provides important scheduling foundation, thus need to guarantee the reliability of SI transmission, present reliability mechanisms comprise following some:

When 1, SI sent through E-RUCCH, E-RUCCH had suitable power mechanism and forward error correction mechanism, and when after UE sends E-RUCCH, in the regular hour, not receiving E-AGCH, can resend E-RUCCH; And

When 2, SI and data were sent in a MAC-e PDU, MAC-e PDU had the HARQ Profile (mixing automatic repeat requests attribute) of oneself, wherein, comprised power offset attribute and retransmitted time number attribute.

In 2, when SI and data were sent together, the transmitting power of E-PUCH was provided by following formula:

P _E-PUCH＝P _e-base+L+β _e+K _E-PUCH......(1)

Wherein, P _E-PUCHBe the E-PUCH channel transmitting power, P _E-baseBe the power closed loop amount of UE storage, be controlled by the power control commands word on the E-AGCH channel, L is the circuit loss value that UE measures, β _eBe the power excursion that current selected transport block length, resource and modulation system obtain, and K _E-PUCHBe MAC-e PDU power excursion (that is aforesaid power offset attribute).Retransmit time number attribute and refer to after UE sends E-PUCH, if on E-HICH, receive NACK (not confirming), UE will resend this packet, just abandon this packet up to surpassing the repeating transmission number of times.

RNC (radio network controller) comes each MAC-d for UE to banish according to the QOS attribute of business to put a HARQ Profile (mix and retransmit attribute automatically), comprising power excursion, retransmit number of times, retransmission timer.Power excursion with retransmit number of times reliability transmission be provided, and retransmit number of times and retransmission timer provides the time delay guarantee.The power offset values of MAC-e PDU is the power excursion that is multiplexed into the corresponding MAC-d stream of highest priority logical channel in this grouping, and to retransmit number of times and retransmission timer be respectively to be multiplexed into number of retransmissions that all MAC-d in this grouping flow and the maximum in the retransmission timer value.

Can find out in existing HSUPA system, when SI sends separately, also do not have a kind of power control mechanism in a MAC-ePDU, lack the mechanism that transmission reliability guarantees.Because SI directly has influence on the accurate scheduling of NodeB, and then has influence on effective utilization of system resource, thereby, need effective power of formulation and retransmission mechanism to improve existing enhanced uplink connecting system.

Summary of the invention

Thereby; In order to address the above problem; Poewr control method and system when the invention provides the independent transmitting scheduling information of a kind of enhanced uplink; It can guarantee the reliability during transmission on authorization resources separately of schedule information in the high speed uplink packet access (HSUPA) business, and can adjust power timely according to the variation of wireless environment and send strategy, thereby guarantees that schedule information transmission reliably is to improve the accuracy and the usage factor of system resource of scheduling.In addition, can apply the present invention to TD-CDMA (time division CDMA) system and TD-SCDMA (TD SDMA) system.

Poewr control method when one aspect of the present invention provides the independent transmitting scheduling information of a kind of enhanced uplink; It can may further comprise the steps: step S202; The power offset values of radio network controller configuration schedules information is as the transmit power offset value during transmitting scheduling information separately under the situation of mandate is arranged, and the transmit power offset value is sent to user terminal and base station; Step S204, when user terminal on authorization resources separately during transmitting scheduling information, with the power offset values of said schedule information power offset values as the enhanced uplink physical channel; And step S206; The transmission power level and the authorization power of enhanced uplink physical channel are compared; When the transmission power level of the enhanced uplink physical channel that calculates during greater than the authorization power value; The transmitting power of enhanced uplink physical channel is reduced to authorization power and launches the enhanced uplink physical channel according to authorization power; And when the transmission power level of enhanced uplink physical channel during less than the authorization power value, according to the transmission power level emission enhanced uplink physical channel of the enhanced uplink physical channel that calculates.

Wherein among the step S204, user terminal at first selects to make the modulation system of transmitted power minimum according to the transport block length of schedule information, current resource situation, obtain the power excursion β e by the common decision of transport block length, resource and modulation system; The transmitting power of user terminal and then calculating enhanced uplink comprises power closed loop amount, path loss, β e and schedule information power offset values in the power component.

According to an aspect of the present invention, this Poewr control method can also may further comprise the steps: step S208, the base station can be indicated the power offset values of radio network controller adjustment schedule information at any time according to the network interferences situation.

According to a bright aspect of we, after radio network controller receives the indication of base station adjustment schedule information power excursion, to the reconfiguration course of base station and user terminal initiation schedule information power offset values.

Wherein, the power offset values of requirement radio network controller adjustment schedule information is come according to the success rate or the mortality of schedule information in the scheduled time when sending separately in the base station.

Alternatively, the power offset values of requirement radio network controller adjustment schedule information is come according to success rate or the mortality that user terminal transmission in the scheduled time strengthens media access control protocol data unit in the base station.

In addition, the power transmission value of enhanced uplink physical channel is calculated through following formula: P _E-PUCH=P _E-base+ L+ β _e+ P _SI, wherein, P _E-baseBeing the power closed loop amount of user terminal, is the user terminal configuration by the network high level, and according to dynamically adjustment of closed power control, L is the circuit loss value that user terminal measurement obtains, β _eBe the power offset values of confirming according to transport block length, resource and modulation system, and P _SIIt is the power offset values of schedule information.

According to an aspect of the present invention, the power offset values of schedule information disposes in radio resource control or reshuffles.

Power control system when another aspect of the present invention also provides the independent transmitting scheduling information of a kind of enhanced uplink; It can comprise: the configuration transmitting element; Be positioned on the radio network controller; The power offset values that is used to dispose or reshuffle schedule information is as the transmit power offset value during transmitting scheduling information separately under the situation of mandate is arranged, and the transmit power offset value is sent to user terminal and base station; The transformat selected cell; Be used for when user terminal on authorization resources separately during transmitting scheduling information; According to transport block length and current resource, the user terminal selecting modulation system, and calculate the transmission power level of enhanced uplink physical channel; At the transmission power level of enhanced uplink physical channel during greater than the authorization power value; The transmitting power of enhanced uplink physical channel is reduced to authorization power and automatically according to authorization power emission enhanced uplink physical channel, and at the transmission power level of enhanced uplink physical channel during less than the authorization power value, according to the transmission power level emission enhanced uplink physical channel of enhanced uplink physical channel.

Power control system according to a further aspect of the invention can also comprise: adjustment unit, be positioned on the base station, and be used for power offset values according to network interferences situation indication radio network controller adjustment schedule information.

In adjustment unit, can also comprise first counting unit, be used in the given time schedule information being counted by the success rate or the mortality that send separately, and come the power offset values of requirement radio network controller adjustment schedule information according to count results.

Alternatively; In adjustment unit; Can also comprise second counting unit; Be used in the given time the success rate or the mortality of user terminal transmission enhancing media access control protocol data unit being counted, and come the power offset values of requirement radio network controller adjustment schedule information according to count results.

In addition, in the transformat selected cell, the power transmission value of enhanced uplink physical channel is calculated through following formula: P _E-PUCH=P _E-base+ L+ β _e+ P _SI, wherein, P _E-baseBeing the power closed loop amount of user terminal, is the user terminal configuration by the network high level, and according to dynamically adjustment of closed power control, L is the circuit loss value that user terminal measurement obtains, β _eBe the power offset values of confirming according to transport block length, resource and modulation system, and P _SIIt is the power offset values of schedule information.

Wherein, the power offset values that disposes or reshuffle schedule information is accomplished through radio resource control.

Thereby; Through the present invention; Can guarantee the reliability transmission when schedule information is transmitted separately in the high speed uplink packet access (HSUPA) business on authorization resources, and can adjust strategy timely, thereby improve the accuracy and the usage factor of system resource of Node B scheduling according to the variation of wireless environment.In addition, can apply the present invention to TD-CDMA (time division CDMA) system and TD-SCDMA (TD SDMA) system.

Other features and advantages of the present invention will be set forth in specification subsequently, and, partly from specification, become obvious, perhaps understand through embodiment of the present invention.The object of the invention can be realized through the structure that in the specification of being write, claims and accompanying drawing, is particularly pointed out and obtained with other advantages.

Description of drawings

Accompanying drawing is used to provide further understanding of the present invention, and constitutes the part of specification, is used to explain the present invention with embodiments of the invention, is not construed as limiting the invention.In the accompanying drawings:

Fig. 1 is the sketch map of the transmission situation of three kinds of schedule informations in the prior art;

Fig. 2 is the flow chart of the Poewr control method during according to the independent transmitting scheduling information of enhanced uplink of the present invention;

Fig. 3 is the concise and to the point flow graph of the enhanced uplink schedule information power excursion configuration of the embodiment of the invention;

Fig. 4 is enhanced uplink dispatch and the detail flow chart of business datum process among Fig. 2; And

Fig. 5 is the block diagram of the power control system during according to the independent transmitting scheduling information of enhanced uplink of the present invention.

Embodiment

Below in conjunction with accompanying drawing the preferred embodiments of the present invention are described, should be appreciated that preferred embodiment described herein only is used for explanation and explains the present invention, and be not used in qualification the present invention.

Fig. 2 is the flow chart of the Poewr control method during according to the independent transmitting scheduling information of enhanced uplink of the present invention.As shown in Figure 2, this method may further comprise the steps:

Step S202, the power offset values of radio network controller configuration schedules information be as the transmit power offset value during transmitting scheduling information separately under the situation of mandate is arranged, and this power offset values is sent to user terminal and base station;

Step S204 is when user terminal separately during transmitting scheduling information, need add the power excursion of schedule information in the calculating of transmitting power on authorization resources.User terminal is at first according to transport block length and current resource situation (comprising authorization power, time interval resource and sign indicating number resource); Selecting modulation mode; 2 kinds of optional modulation system: QPSK (QPSK) and 16QAM (16 quadrature amplitude modulation) are arranged; Select the less a kind of modulation system of power demand, this process is consistent with the selection course of the relevant modulation system of existing 3GPP (3G (Third Generation) Moblie partnership projects).User terminal obtains a power excursion through transport block length, resource and modulation system three, and this process can be with reference to the computational process of the existing relevant E-PUCH power factor of 3GPP.User terminal further calculates the transmission power level of enhanced uplink physical channel.The power transmission value of enhanced uplink physical channel is calculated through following formula: P _E-PUCH=P _E-base+ L+ β _e+ P _SI, wherein, P _E-baseBe the power closed loop amount of user terminal, L is the circuit loss value that user terminal measurement obtains, β _eBe to calculate power excursion according to transport block length, resource, modulation system, and P _SIIt is the power offset values of schedule information.First three items behind the equality is the transmitting power parameter that defines in the existing 3GPP agreement, a back P _SIBe the bright power offset values of we for the special increase of schedule information; And

Step S206, because TDD (tdd systems) is an interference limiting system, user terminal should select less power to send between enhanced uplink transmitting power that calculates and NodeB authorization power.Specifically: user terminal compares the transmission power level and the authorization power of said enhanced uplink physical channel; When the transmission power level of said enhanced uplink physical channel during greater than said authorization power value; Said user terminal is according to said authorization power emission enhanced uplink physical channel; And when the transmission power level of said enhanced uplink physical channel during less than said authorization power value, according to the transmission power level emission enhanced uplink physical channel of said enhanced uplink physical channel.

In addition, this Poewr control method can also may further comprise the steps: step S208, the base station is according to the power offset values of network interferences situation indication radio network controller adjustment schedule information.

Wherein, the power offset values of requirement radio network controller adjustment schedule information is come according to the success rate or the mortality of schedule information in the scheduled time when sending separately in the base station.

Alternatively, the power offset values of requirement radio network controller adjustment schedule information is come according to success rate or the mortality that user terminal transmission in the scheduled time strengthens media access control protocol data unit in the base station.

After radio network controller receives the indication of base station adjustment schedule information power excursion; Adopt recommended value or the recommended value of reference base station and power offset values of RRM (RRM) algorithm design of basis oneself of base station, to the reconfiguration course of base station and user terminal initiation schedule information power offset values.

The power offset values that mails to the schedule information of user terminal is configured or reshuffles through RRC (Radio Resource control) process.Mail to that the schedule information power offset values of NodeB is configured or reshuffles through NBAP (node B application part) process.

Fig. 3 is the concise and to the point flow graph of the enhanced uplink dispatching services data procedures of the embodiment of the invention.With the TD-SCDMA system is that example is presented in the enhanced uplink access dispatching business, and the power control scheme when schedule information is transmitted separately under the situation of mandate is arranged is to guarantee the reliability of transmission.

As shown in Figure 3, at first, RNC is the power offset attribute of UE configuration schedules information, as the independent transmit power offset during transmitting scheduling information under the situation of mandate is arranged, then, Node B according to the network interferences situation to this power offset values of RNC indication adjustment.

RNC is for UE configuration enhanced uplink dispatching services the time; Power offset attribute for UE configuration schedules information; As the power excursion when transmitting scheduling information is separately arranged under the situation of mandate in packet, like this, schedule information in packet separately the power during transmission be:

P _E-PUCH＝P _e-base+L+β _e+P _SI......(2)

Wherein, preceding four parameters are identical with the implication of description in the formula (1), and last parameter is that RNC is the schedule information power offset values that UE disposes or reshuffles.

On authorization resources, separately during transmitting scheduling information, can confirm that E-TFCI is 0 when UE decision, corresponding transport block length is 23 bits, according to transport block length and current resource, and the UE selecting modulation mode, and calculate β _eIf (P _E-base+ L+ β _e+ P _SI) greater than authorization power, UE launches E-PUCH after transmitting power is reduced to authorization power automatically more so; If (P _E-base+ L+ β _e+ P _SI) less than authorization power, so will be according to the P that calculates _E-PUCHPower emission E-PUCH.

The schedule information power excursion can be set up in the RRC agreement or reshuffle in the message of E-DCH radio bearer and send to UE, and (physical channel is reshuffled, RADIO BEARER RECONFIGURATION (radio bearer is reshuffled), RADIOBEARER RELEASE (radio bearer release), RADIO BEARER SETUP (radio bearer foundation), RRC CONNECTION SETUP (RRC connects foundation), TRANSPORT CHANNEL RECONFIGURATION (transmission channel is reshuffled) to comprise CELL UPDATE CONFIRM (cell update affirmation), HANDOVER TO UTRAN COMMAND (switching command), PHYSICAL CHANNEL RECONFIGURATION.Table 1 is concrete element definition:

Table 1

Masurium	Exist	The value explanation
			The schedule information power excursion	MP (essential)	Integer: 0-6, unit: decibel

RNC simultaneously need be to the parameter shown in the NodeB allocation list 1, in NBAP, sets up or reshuffles in the message of E-DCH radio bearer and dispose, so that NodeB carries out power control.

Because schedule information need reflect buffer information and the interfere information that UE is up-to-date, requires certain real-time.Behind the independent transmitting scheduling information, if UE receives the NACK feedback (that is, incorrect the reception) of NodeB, schedule information does not need re-transmission so in packet.It is 0 that number of retransmissions when system can transmit schedule information separately fixedly installs.UE can send up-to-date schedule information in next one transmission.

Because schedule information ends in Node B, makes radio network controller not understand the schedule information efficiency of transmission of single UE, the excessive or very few decline that all can cause resource utilization ratio of power excursion setting.Because Node B is the entity of unique awareness network disturbed condition and transmission quality, thereby according to current network disturbed condition requirement radio network controller this power offset parameter is adjusted by Node B.

Concrete grammar is, after NodeB receives the E-PUCH information of UE, and decoding E-UCCH channel wherein at first; If E-TFCI wherein is designated as 0; What can specified data partly transmit is schedule information, and NodeB decodes to the E-PUCH data division, if decode successfully; Return ACK (affirmation) to UE, and preserve schedule information wherein; If the decoding failure is returned NACK (not confirming) to UE.The success or the frequency of failure when NodeB transmits SI separately to single UE in a period of time are added up; When success rate during greater than certain thresholding; Can require RNC to reduce the schedule information power excursion of this UE; When success rate during, can require RNC to increase the schedule information power excursion less than certain thresholding.Perhaps when mortality during greater than certain thresholding, can require RNC to increase the power excursion of schedule information, in addition,, can require RNC to reduce the power excursion of schedule information when success rate during less than certain thresholding.NodeB also can require radio network controller adjustment schedule information power excursion according to success rate or the mortality of this UE transmission MAC-e PDU in a period of time.

Because NodeB understands the current schedule information power excursion of UE, RADIO LINK PARAMETERUPDATE INDICATION (radio link parameter update indication) process that NodeB can pass through among the NBAP (NodeB Application Part) is directly advised suitable schedule information power excursion to RNC.The parameter-definition and the table 1 of radio link parameter update indication process are consistent.

Radio link parameter update indication process is after UE sets up the E-DCH link, just possibly carry out.Thereby when initial configuration E-DCH link, RNC can be a UE selection scheduling information power excursion according to former statistical value or empirical value.The geographical position of it and UE is relevant with the disturbed condition of system.

Fig. 4 is the detail flow chart of the enhanced uplink dispatching services data procedures among Fig. 2.As shown in Figure 4, may further comprise the steps:

Step S402:RNC thinks and can set up enhanced uplink for this UE through admitting control; Setting up the range request Node B through the Radio Link of NBAP agreement is that UE sets up the E-PUCH Radio Link; Except original parameter, the power excursion when comprising schedule information and transmitting separately;

Step S404: Node B receives configuration parameter; And be that from the enhanced uplink common pool of this sub-district this UE distributes E-AGCH channel and E-RNTI (Radio Link temporary mark), set up response or radio link reconfiguration through the Radio Link of NBAP and respond and return to RNC;

Step S406:RNC initiates radio bearer through the RRC agreement to UE and sets up order, except original parameter, and the power excursion when also comprising schedule information and transmitting separately;

Step S408:UE receives configuration parameter, replys response message to network side, and confirms that according to configuration parameter current E-DCH transport service is available;

Data volume becomes at non-0 o'clock by 0 in the logic channel buffering area of step S410:UE E-DCH correspondence, and UE initiates the E-RUCCH random access procedure, is with schedule information;

Step S412: after Node B detects the request of access at random of this UE; UE is added among the competition UE crowd who uses the E-DCH resource; According to the QOS attribute of current resource situation, UE, UE auxiliary dispatching information etc. this UE is dispatched; After distributing adequate resources, send authorization message to UE through the E-AGCH channel;

After step S414:UE received E-AGCH, if current authorization resources can only carry out the transmission of schedule information, UE selected the suitable modulating mode, according to P according to the transport block length and the authorization resources of schedule information so _E-PUCH=P _E-base+ L+ β _e+ P _SICalculate transmitting power, if the P that calculates _E-PUCHGreater than authorization power, UE launches E-PUCH after transmitting power is reduced to authorization power automatically more so, and if P _E-PUCHLess than authorization power, so will be according to the P that calculates _E-PUCHPower emission E-PUCH;

Step S416: Node B is decoded to the E-UCCH in the E-PUCH channel; Obtain transport format information; Data portion is decoded then, and on the E-HICH channel, returns ACK/NACK information, is the situation of schedule information for current data; NodeB preserves (need not send to RNC), and carries out the statistics of schedule information transmission accuracy rate;

Step S418: will send the radio link parameter update indication to RNC, with going up the power offset values that it sees fit by the schedule information power excursion that is necessary to adjust this UE if Node B is thought; And

Step S420 carries out reshuffling of schedule information power excursion with reference to the RRM algorithm decision of self for UE after receiving the power modulation indication of NodeB to step S426:RNC, initiates to reshuffle flow process to NodeB and UE.Because NodeB is carrying out inner loop power when control to Pe-base, each parameter information when needing to understand the current calculating transmitting power of UE, thereby reshuffle the flow process suggestion and adopt the synchronized reconfiguration flow process.

Fig. 5 is the block diagram of the power control system 500 during according to the independent transmitting scheduling information of enhanced uplink of the present invention; As shown in Figure 5; This system comprises: configuration transmitting element 502; Be positioned on the radio network controller, the power offset values that is used to dispose or reshuffle schedule information is as the transmit power offset value during transmitting scheduling information separately under the situation of mandate is arranged, and the transmit power offset value is sent to user terminal and base station; Transformat selected cell 504; Be positioned at user terminal, be used for when user terminal on authorization resources separately during transmitting scheduling information, according to transport block length and current resource; The user terminal selecting modulation system, and further calculate the transmission power level of enhanced uplink physical channel; When the transmission power level of enhanced uplink physical channel during greater than the authorization power value; The transmitting power of enhanced uplink physical channel is reduced to authorization power automatically and launches the enhanced uplink physical channel according to authorization power; And at the transmission power level of enhanced uplink physical channel during less than the authorization power value, according to the transmission power level emission enhanced uplink physical channel of enhanced uplink physical channel.

This power control system 500 can also comprise adjustment unit 506, is positioned on the base station, is used for the power offset values according to schedule packet transmissions transmission situation indication radio network controller adjustment schedule information.

In adjustment unit 506; Can also comprise first counting unit; Be used in the given time schedule information being counted by the success rate or the mortality that send separately, and come the power offset values of requirement radio network controller adjustment schedule information according to count results.

Alternatively; In adjustment unit 506, can also comprise second counting unit; Be used in the given time the success rate or the mortality of user terminal transmission enhancing media access control protocol data unit being counted, and come the power offset values of requirement radio network controller adjustment schedule information according to count results.

In addition, in transformat selected cell 504, the power transmission value of enhanced uplink physical channel is calculated through following formula: P _E-PUCH=P _E-base+ L+ β _e+ P _SI, wherein, P _E-baseBe the power closed loop amount of user terminal, L is the circuit loss value that user terminal measurement obtains, β _eBe the power offset values that transport block length, resource and modulation system determine, and P _SIIt is the power offset values of schedule information.

Wherein, the power offset values of configuration schedules information is set up in radio resource control, or in the message of reshuffling the E-DCH radio bearer, sends to user terminal.

In sum; Through the present invention; Can guarantee the reliability transmission mechanism when schedule information is transmitted separately in the high speed uplink packet access (HSUPA) business on authorization resources; And can adjust strategy timely according to the variation of wireless environment, thereby guarantee that schedule information transmission reliably is to improve the accuracy and the usage factor of system resource of scheduling.

In addition, can apply the present invention to TD-CDMA (time division CDMA) system and TD-SCDMA (TD SDMA) system.

More than be merely the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various changes and variation.All within spirit of the present invention and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (14)

1. the Poewr control method during the independent transmitting scheduling information of an enhanced uplink is characterized in that, may further comprise the steps:

Step S202, the power offset values of radio network controller configuration schedules information be as the transmit power offset value during transmitting scheduling information separately under the situation of mandate is arranged, and said transmit power offset value is sent to user terminal and base station;

Step S204, when said user terminal on authorization resources separately during the said schedule information of transmission, with the power offset values of said schedule information power offset values as the enhanced uplink physical channel; And

Step S206; The transmission power level and the authorization power of said enhanced uplink physical channel are compared; When the transmission power level of said enhanced uplink physical channel during greater than said authorization power value; Said user terminal is according to said authorization power emission enhanced uplink physical channel, and when the transmission power level of said enhanced uplink physical channel during less than said authorization power value, launches the enhanced uplink physical channel according to the transmission power level of said enhanced uplink physical channel.

2. Poewr control method according to claim 1 is characterized in that, and is further comprising the steps of:

Step S208, said base station indicates said radio network controller to adjust the power offset values of said schedule information according to the network interferences situation at any time.

3. Poewr control method according to claim 1 is characterized in that, said step S204 comprises following processing:

Said user terminal at first utilizes the transport block length of said schedule information and the modulation system that current resource situation selects to make the transmitted power minimum, obtains the power excursion β by the common decision of transport block length, resource and modulation system _eAnd

Said user terminal calculates the transmitting power of enhanced uplink, comprises power closed loop amount, path loss, β in the component of said transmitting power _eAnd schedule information power offset values.

4. Poewr control method according to claim 2; It is characterized in that said base station comes the said radio network controller of requirement to adjust the power offset values of said schedule information according to the success rate or the mortality of said schedule information in the scheduled time when sending separately.

5. Poewr control method according to claim 2; It is characterized in that said base station comes the said radio network controller of requirement to adjust the power offset values of said schedule information according to success rate or the mortality that said user terminal transmission in the scheduled time strengthens media access control protocol data unit.

6. Poewr control method according to claim 2 is characterized in that, said radio network controller is reshuffled the schedule information power offset values through the synchronized reconfiguration process to base station and user terminal after receiving the said adjustment indication of base station.

7. according to each described Poewr control method in the claim 1 to 6, it is characterized in that the power transmission value of said enhanced uplink physical channel is calculated through following formula:

P _E-PUCH＝P _e-base+L+β _e+P _SI，

Wherein, P _E-baseBe the power closed loop amount of said user terminal, L is the circuit loss value that said user terminal measurement obtains, β _eBe the power offset values that said user terminal is confirmed according to transport block length, resource and modulation system, and said P _SIIt is the power offset values of said schedule information.

8. Poewr control method according to claim 7 is characterized in that the power offset values of said schedule information disposes or reshuffles in radio resource control.

9. the power control system during the independent transmitting scheduling information of an enhanced uplink is characterized in that, comprising:

The configuration transmitting element; Be positioned on the radio network controller; The power offset values that is used to dispose or reshuffle schedule information is as the transmit power offset value during transmitting scheduling information separately under the situation of mandate is arranged, and said transmit power offset value is sent to user terminal and base station;

The transformat selected cell; Be used for when said user terminal transmits said schedule information separately on authorization resources; According to transport block length and current resource; Said user terminal selecting modulation system is calculated current power offset values, and further calculates the transmission power level of enhanced uplink physical channel; And definite last transmitting power; At the transmission power level of said enhanced uplink physical channel during greater than said authorization power value; According to said authorization power emission enhanced uplink physical channel; And at the transmission power level of said enhanced uplink physical channel during less than said authorization power value, according to the transmission power level emission enhanced uplink physical channel of said enhanced uplink physical channel.

10. power control system according to claim 9 is characterized in that, also comprises:

Adjustment unit is positioned on the said base station, is used for indicating said radio network controller to adjust the power offset values of said schedule information according to the network interferences situation.

11. power control system according to claim 10; It is characterized in that; Said adjustment unit comprises first counting unit; Be used in the given time said schedule information being counted by the success rate or the mortality that send separately, and come the said radio network controller of requirement to adjust the power offset values of said schedule information according to count results.

12. power control system according to claim 10; It is characterized in that; In said adjustment unit; Also comprise second counting unit, the success rate or the mortality that are used in the given time said user terminal transmission being strengthened media access control protocol data unit are counted, and come the said radio network controller of requirement to adjust the power offset values of said schedule information according to count results.

13., it is characterized in that in said transformat selected cell, the power transmission value of said enhanced uplink physical channel is calculated through following formula according to each described power control system in the claim 9 to 12:

P _E-PUCH＝P _e-base+L+β _e+P _SI，

Wherein, P _E-baseBe the power closed loop amount of said user terminal, L is the circuit loss value that said user terminal measurement obtains, β _eBe the power offset values that said user terminal is confirmed according to transport block length, resource and modulation system, and said P _SIIt is the power offset values of said schedule information.

14. power control system according to claim 13 is characterized in that, the power offset values of the said schedule information of said configuration disposes in radio resource control or reshuffles.

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