CN1770655A - Method and apparatus for controlling enhanced uplink special physical channel power - Google Patents

Abstract

This invention discloses one strengthening upper link special physical signal channel power control method, which comprises the following steps: the network side sending needed power control strengthened special physical data signal channel gains factors to user device and strengthened upper special physical control signal channel power added bias; user device determines the relative strengthened upper special physical data channel gains factors and the control signal channel gains factors; user device processing the relative power control according to the strengthened physical special signal channel factors and the said sure gain upper special physical control signal channel for power control. The invention also discloses one relative strengthened special physical signal channel control device.

Description

Enhanced uplink special physical channel Poewr control method and device

Technical field

The present invention relates to the power control techniques in Wideband Code Division Multiple Access (WCDMA) (WCDMA) mobile communication system, in particular, it is littler and adapt to the enhanced uplink special physical channel Poewr control method and the device of different business quality (QoS) to the present invention relates to a kind of signaling consumption.

Background technology

WCDMA is a kind of standard technique of present 3G (Third Generation) Moblie, and usually, the physical channel of WCDMA has the branch of up-downgoing.Two DPCH and a public physic channel are arranged in the up link, wherein two DPCH are respectively Dedicated Physical Data Channel (DPDCH:Dedicated PhysicalData Channel) and Dedicated Physical Control Channel (DPCCH:Dedicated Physical ControlChannel), and public physic channel then is Physical Random Access Channel (PRACH:Physical RandomAccess Channel).User data transmits on Dedicated Physical Data Channel; The control information of physical layer is then transmitted on Dedicated Physical Control Channel.

Development along with technology, in the enhancing up-high speed bag access technology of WCDMA, increased the enhanced uplink dedicated channel, this channel is a transmission channel, by enhanced uplink Dedicated Physical Data Channel (E-DPDCH:Enhanced Dedicated Physical Data Channel) carrying, increase the enhanced uplink Dedicated Physical Control Channel (E-DPCCH:Enhanced DedicatedPhysical Control Channel) that sends simultaneously in addition and control signaling bear as the physical layer of enhanced uplink Dedicated Physical Data Channel.

At present, when the uplink physical channel (comprising E-DPDCH and E-DPCCH) to above-mentioned enhancement mode carries out power control, generally carry out for the gain factor (being also referred to as power bias) of this channel configuration, and generally carry out according to the quality of service (QoS:Quality ofService) of business for the configuration of described gain factor according to network.Because even the business higher uplink bit rate of different QoS is just the same, its class of business and delay requirement also may be different, and therefore, causing also may be different for its gain factor of different business.Therefore, network need carry out corresponding configuration such as physical channel communication environments or the current loading condition of network according to different business and current network situation toward contact, and this gain factor parameter (power bias parameter) generally is configured to the relative value with the power configuration of existing DPCCH usually.

General, existing power control techniques is to the described gain factor of user device configuration the time, be by the gain factor notifying user equipment of signaling (for example radio bearer control signaling) by network with E-DPDCH and E-DPCCH, because it is professional different, desired QoS also may be different, therefore, when carrying out power control, can require the different gain factor of uplink physical channel (comprising E-DPDCH and E-DPCCH) configuration, come the gain factor of two enhanced uplink special physical channels of notifying user equipment to take valuable high-level signaling bandwidth by signaling fully, strengthened the high-level signaling load of network undoubtedly.

In addition, because the gain factor of E-DPDCH and E-DPCCH is associated with the transformat of transmission channel, different transformats can require different gain factors, and therefore, when issuing described gain factor parameter, it is heavier to cause the network high-level signaling to load equally.

Summary of the invention

The technical problem that the present invention solves provides a kind of enhanced uplink special physical channel Poewr control method and device, with the reduction network signaling overhead, and the QoS of adaptation different business.

For addressing the above problem, enhanced uplink physical channel Poewr control method of the present invention, described enhanced uplink special physical channel comprises enhanced uplink Dedicated Physical Data Channel and enhanced uplink Dedicated Physical Control Channel, comprises step:

A, network side issue the gain factor of the enhanced uplink Dedicated Physical Data Channel that needs power control and the power added biasing of the corresponding described enhanced uplink physical data channel of enhanced uplink Dedicated Physical Control Channel by signaling to subscriber equipment;

The gain factor that b, subscriber equipment are determined corresponding enhanced uplink Dedicated Physical Control Channel according to the gain factor and the described power added biasing of described enhanced uplink Dedicated Physical Data Channel;

C, subscriber equipment carry out corresponding power control according to the gain factor of the gain factor of described enhanced uplink Dedicated Physical Data Channel and described definite enhanced uplink Dedicated Physical Control Channel.

Wherein, step b subscriber equipment is determined the gain factor of enhanced uplink Dedicated Physical Control Channel according to following formula:

${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\sqrt{\frac{r_{\mathrm{ec}}}{r_{\mathrm{ed}}}}\·\mathrm{\γ}$

Or ${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\mathrm{\γ}$

Wherein

β _{Ed, i, j}: the gain factor of enhanced uplink Dedicated Physical Data Channel;

r _Ed: the encoding rate of enhanced uplink Dedicated Physical Data Channel;

r _Ec: the encoding rate of enhanced uplink Dedicated Physical Control Channel;

SF _Ed: the spreading factor of enhanced uplink Dedicated Physical Data Channel;

SF _Ec: the spreading factor of enhanced uplink Dedicated Physical Control Channel;

γ: the power added biasing of the corresponding enhanced uplink Dedicated Physical Data Channel of enhanced uplink Dedicated Physical Control Channel.

Wherein, the gain factor of the enhanced uplink Dedicated Physical Data Channel that described network side issues is the enhanced uplink gain factor of special physical data channel of reference transmission form, and step a network side also issues the bias factor of the corresponding described reference transmission form of different business channel that carries on the enhanced uplink Dedicated Physical Data Channel to subscriber equipment by signaling;

Step b comprises:

The corresponding enhanced uplink gain factor of special physical data channel that the different business channel that b1, subscriber equipment determine to carry on the enhanced uplink Dedicated Physical Data Channel according to the enhanced uplink gain factor of special physical data channel of described reference transmission form, described bias factor requires;

The gain factor that corresponding enhanced uplink Dedicated Physical Control Channel requires is determined in corresponding gain factor and described additional biasing that the different business channel that b2, subscriber equipment carry according to described definite enhanced uplink Dedicated Physical Data Channel requires;

Step c subscriber equipment carries out corresponding power control according to corresponding gain factor and the corresponding enhanced uplink Dedicated Physical Control Channel gain factor that the different business channel that carries on the described definite enhanced uplink Dedicated Physical Data Channel requires.

Wherein, the corresponding enhanced uplink gain factor of special physical data channel that requires of the step b1 subscriber equipment different business channel determining to carry on the enhanced uplink Dedicated Physical Data Channel according to following formula:

${\mathrm{\β}}_{\mathrm{ed},i,j}={\mathrm{\δ}}_i\·{\mathrm{\β}}_{\mathrm{ed},\mathrm{ref}}\·\sqrt{\frac{L_{\mathrm{ed},\mathrm{ref}}}{L_{\mathrm{ed},j}}}\·\sqrt{\frac{K_{\mathrm{ed},j}}{K_{\mathrm{ed},\mathrm{ref}}}}$

Wherein:

β _{Ed, ref}: the enhanced uplink gain factor of special physical data channel of reference transmission form;

β _{Ed, i, j}: the enhanced uplink gain factor of special physical data channel of the j kind transformat of i kind Traffic Channel;

L _{Ed, ref}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of reference transmission form;

L _{Ed, j}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of j kind transformat;

δ _i: the bias factor of the corresponding described reference transmission form of i kind Traffic Channel;

K _{Ed, ref}: reference transmission form enhanced uplink Dedicated Physical Data Channel data carried by data bit number;

K _{Ed, j}: j kind transformat enhanced uplink Dedicated Physical Data Channel data carried by data bit number.

Wherein, described signaling is a radio bearer control signaling.

Wherein, described radio bearer control signaling comprises that radio bearer sets up that signaling, radio bearer are reshuffled signaling, transmission channel reshuffles signaling and physical channel is reshuffled signaling.

Correspondingly, enhanced uplink physical channel output control device of the present invention comprises:

The network side transmitting apparatus is used at network side by the gain factor of the enhanced uplink Dedicated Physical Data Channel of transmitting signaling downwards need power control and the power added biasing of the corresponding described enhanced uplink physical data channel of enhanced uplink Dedicated Physical Control Channel;

Subscriber equipment, be used for the gain factor of determining corresponding enhanced uplink Dedicated Physical Control Channel according to the gain factor and the described power added biasing of described enhanced uplink Dedicated Physical Data Channel, and carry out corresponding power control according to the gain factor of the gain factor of described enhanced uplink Dedicated Physical Control Channel and described definite enhanced uplink Dedicated Physical Control Channel.

Wherein, described subscriber equipment is determined the gain factor of enhanced uplink Dedicated Physical Control Channel according to following formula:

${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\sqrt{\frac{r_{\mathrm{ec}}}{r_{\mathrm{ed}}}}\·\mathrm{\γ}$

Or ${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\mathrm{\γ}$

Wherein

β _{Ed, i, j}: the gain factor of enhanced uplink Dedicated Physical Data Channel;

r _Ed: the encoding rate of enhanced uplink Dedicated Physical Data Channel;

r _Ec, the encoding rate of enhanced uplink Dedicated Physical Control Channel;

SF _Ed: the spreading factor of enhanced uplink Dedicated Physical Data Channel;

SF _Ee: the spreading factor of enhanced uplink Dedicated Physical Control Channel;

γ: the power added biasing of the corresponding enhanced uplink Dedicated Physical Data Channel of enhanced uplink Dedicated Physical Control Channel.

Wherein, the gain factor of the enhanced uplink Dedicated Physical Data Channel that described network side transmitting apparatus issues is the enhanced uplink gain factor of special physical data channel of reference transmission form, and described network side transmitting apparatus also issues the bias factor of the corresponding described reference transmission form of different business channel that carries on the enhanced uplink Dedicated Physical Data Channel to subscriber equipment;

Described subscriber equipment comprises:

First calculation element is used for the corresponding enhanced uplink gain factor of special physical data channel that different business channel that the enhanced uplink gain factor of special physical data channel according to described reference transmission form, described bias factor determine to carry on the enhanced uplink Dedicated Physical Data Channel requires;

Second calculation element is used for determining the gain factor that corresponding enhanced uplink Dedicated Physical Control Channel requires according to corresponding gain factor and described additional biasing that the different business channel that described definite enhanced uplink Dedicated Physical Data Channel carries requires;

Control device, the corresponding gain factor and the corresponding enhanced uplink Dedicated Physical Control Channel gain factor that are used for requiring according to the different business channel that carries on the described definite enhanced uplink Dedicated Physical Data Channel carry out corresponding power control.

Wherein, the corresponding enhanced uplink gain factor of special physical data channel that requires of described first calculation element different business channel determining to carry on the enhanced uplink Dedicated Physical Data Channel according to following formula:

${\mathrm{\β}}_{\mathrm{ed},i,j}={\mathrm{\δ}}_i\·{\mathrm{\β}}_{\mathrm{ed},\mathrm{ref}}\·\sqrt{\frac{L_{\mathrm{ed},\mathrm{ref}}}{L_{\mathrm{ed},j}}}\·\sqrt{\frac{K_{\mathrm{ed},j}}{K_{\mathrm{ed},\mathrm{ref}}}}$

Wherein:

β _{Ed, ref}: the enhanced uplink gain factor of special physical data channel of reference transmission form;

β _{Ed, i, j}: the enhanced uplink gain factor of special physical data channel of the j kind transformat of i kind Traffic Channel;

L _{Ed, ref}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of reference transmission form;

L _{Ed, j}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of j kind transformat;

δ _i: the bias factor of the corresponding described reference transmission form of i kind Traffic Channel;

K _{Ed, ref}: reference transmission form enhanced uplink Dedicated Physical Data Channel data carried by data bit number;

K _{Ed, j}: j kind transformat enhanced uplink Dedicated Physical Data Channel data carried by data bit number.

Wherein, described signaling is a radio bearer control signaling.

Wherein, described radio bearer control signaling comprises that radio bearer sets up that signaling, radio bearer are reshuffled signaling, transmission channel reshuffles signaling and physical channel is reshuffled signaling.

Compared with prior art, the present invention has following beneficial effect:

At first, the present invention issues the power added biasing of gain factor and the described relatively E-DPDCH of E-DPCCH of E-DPDCH earlier to subscriber equipment by signaling, further determine the corresponding gain factor of E-DPCCH then according to the gain factor of described E-DPDCH and described power added biasing by subscriber equipment, because network side only passes through the gain factor of transmitting signaling downwards E-DPDCH, the gain factor of E-DPCCH determined according to relevant information by subscriber equipment, thereby reduced the expense that signaling is used to transmit the E-DPCCH channel gain factors.

Secondly, can issue the E-DPDCH gain factor of a reference transmission form among the present invention according to qos requirements such as the kind of business and time delays, the bias factor of the corresponding described reference transmission form of different business channel of the last carrying of E-DPDCH and the power added biasing of the corresponding described E-DPDCH of E-DPCCH, by the E-DPDCH gain factor of subscriber equipment according to described reference transmission form, described bias factor is calculated and is determined that E-DPDCH goes up the corresponding E-DPDCH gain factor of the different business channel requirement of carrying, and the corresponding E-DPDCH gain factor that the different business channel of going up carrying by described additional biasing and described definite E-DPDCH requires is further determined corresponding E-DPCCH gain factor, because described bias factor is relevant with transformat and QoS of survice, therefore the E-DPDCH that determines of the present invention and the E-DPCCH requirement that can satisfy miscellaneous service QoS has also reduced the expense of high-level signaling simultaneously.

Description of drawings

Fig. 1 is the Radio interface protocols layer schematic diagram that enhanced uplink special physical channel of the present invention is used;

Fig. 2 is the various channel Mapping schematic diagrames of prior art;

Fig. 3 is the embodiment flow chart of enhanced uplink special physical channel Poewr control method of the present invention;

Fig. 4 is that the present invention is applied in radio bearer and sets up signaling transport process in the control procedure;

Fig. 5 is the composition schematic diagram of enhanced uplink special physical channel output control device of the present invention;

Fig. 6 is a kind of composition schematic diagram of the present invention's subscriber equipment shown in Figure 5.

Embodiment

With reference to figure 1, this figure is the Radio interface protocols layer schematic diagram that enhanced uplink special physical channel of the present invention is used.

According to the protocol specification of 3GPP, the Radio interface protocols layer of WCDMA is divided into three layers.As shown in Figure 1, the bottom is a physical layer, and the protocol layer that is positioned on the physical (L1) is called data link layer (L2) and network layer (L3).In UTRA FDD wave point, data link layer is divided into several sublayers.On control plane, data link layer (L2) comprises two sublayers---medium access control (MAC) agreement and Radio Link control (RLC) agreement; On user plane, except MAC and RLC, also have two agreements relevant with specific transactions: packet data convergence protocol (PDCP) and broadcast/group broadcast control protocol (BMC), enhanced uplink special physical channel of the present invention promptly belongs to physical layer channel.

Also please refer to shown in Figure 1ly, on interface layer, circle is represented communication service access point (SAP) end to end.SAP between MAC and the physical layer (PHY) provides transmission channel.SAP between RLC and the MAC provides logic channel.Logic channel is divided into two classes: control channel and Traffic Channel.Control channel is used for transmitting control plane information, and Traffic Channel then is used for transmitting user plane information, the corresponding a kind of business of a common Traffic Channel.

With reference to figure 2, this figure is the mapping schematic diagram of above-mentioned various channels, and as shown in the figure, the logic channel that transmits miscellaneous service information or control information at first is mapped to transmission channel, is mapped to corresponding physical channel by transmission channel then and transmits.

Because prior art is when carrying out power control to enhanced uplink special physical channel, gain factor for E-DPDCH and E-DPCCH is all given subscriber equipment by transmitting signaling downwards, cause the waste of high-level signaling, in fact the gain factor of E-DPDCH and E-DPCCH all is relevant with the QoS of business, high-level signaling there is no need the gain factor of two channels of notifying user equipment simultaneously, promptly only need notify the gain factor of one of them channel, the gain factor of another one channel can be by the difference of subscriber equipment by the spreading factor of interchannel, and/or the difference of encoding rate, and/or from the corresponding power of high level configuration additional biasing obtains.

With reference to figure 3, this figure is the preferred embodiment flow chart of enhanced uplink special physical channel Poewr control method of the present invention, mainly may further comprise the steps:

Step 10, network side issue a kind of E-DPDCH reference gain factors β of reference transmission form to subscriber equipment by signaling _{Ed, ref}, the last carrying of E-DPDCH the bias factor δ of the corresponding described reference transmission form of different business channel _iThe power added biasing γ (described γ meaning is to distinguish the receptivity of E-DPCCH and E-DPDCH, promptly different reception Block Error Rates) of (the i representative is mapped to the different business on the same transmission channel) and the corresponding E-DPDCH of E-DPCCH;

δ generally speaking _i=1, for saving signaling, network can not transmit this value.Some is professional owing to require lower propagation delay time or bigger average traffic throughput, can dispose δ _i=2,4,8 ..., to strengthen through-put power.Like this in the transformat except the size that comprises packet, the bias factor that has also comprised the corresponding reference transmission form of this transformat, this bias factor can be finished the multiplexing back of business data packet notice physical layer by the media access control layer MAC of subscriber equipment, if the MAC layer in multiplexing with the packet multiplexing of a plurality of business in the packet of same transmission channel, MAC can be with wherein higher bias factor as current bias factor notice physical layer.

Step 11, subscriber equipment is determined the corresponding E-DPDCH gain factor that the different business channel of the last carrying of E-DPDCH requires according to the E-DPDCH gain factor of described reference transmission form, described bias factor, during specific implementation, can determine that by calculating E-DPDCH goes up the required corresponding gain factor of other Traffic Channels of carrying by described bias factor subscriber equipment, also be that the gain factor that other Traffic Channels require does not need to transmit by the network high-level signaling again;

For example, subscriber equipment can calculate the E-DPDCH gain factor of the different transformat j correspondence of each different professional i according to following formula:

${\mathrm{\β}}_{\mathrm{ed},i,j}={\mathrm{\δ}}_i\·{\mathrm{\β}}_{\mathrm{ed},\mathrm{ref}}\·\sqrt{\frac{L_{\mathrm{ed},\mathrm{ref}}}{L_{\mathrm{ed},j}}}\·\sqrt{\frac{K_{\mathrm{ed},j}}{K_{\mathrm{ed},\mathrm{ref}}}}$

Wherein:

-β _{Ed, ref}: the E-DPDCH gain factor of reference transmission form.

-β _{Ed, i, j}: the E-DPDCH gain factor of the j kind transformat of i kind Traffic Channel.

-L _{Ed, ref}: the E-DPDCH Code Channel number of reference transmission form.

-L _{Ed, j}: the E-DPDCH Code Channel number of j kind transformat.

-δ _i: the bias factor of the corresponding reference transmission form of i kind Traffic Channel

-K _{Ed, ref}: reference transmission form E-DPDCH data carried by data bit number.

-K _{Ed, j}: j kind transformat E-DPDCH data carried by data bit number.

Need to prove that those skilled in the art also can adopt other formula to calculate according to actual conditions, repeat no more here.

Step 12, the gain factor that corresponding E-DPCCH requires is determined in corresponding gain factor and described additional biasing that the different business channel that subscriber equipment carries according to described definite E-DPDCH requires;

Usually, because in the time of the transmission of the business of higher qos requirement, the power gain factors of E-DPDCH is than higher, require the power gain factors of E-DPCCH also will match with E-DPDCH this moment, otherwise understand the traffic affecting efficiency of transmission, therefore in the gain factor of determining E-DPCCH, should consider the gain factor of current E-DPDCH.

The encoding rate of supposing E-DPDCH is r _Ed, the encoding rate of E-DPCCH is r _Ec, the spreading factor of E-DPDCH is SF _Ed,, if E-DPDCH divides channel to form by many bar codes, get wherein maximum spreading factor, β _EdAlso be taken as the gain factor of the Code Channel of this spreading factor correspondence.The spreading factor of E-DPCCH is SF _Ec, then can calculate the gain factor of E-DPCCH according to following formula:

${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\sqrt{\frac{r_{\mathrm{ec}}}{r_{\mathrm{ed}}}}\·\mathrm{\γ}$

Or ${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\mathrm{\γ}$

Wherein

β _{Ed, i, j}: the gain factor of E-DPDCH;

r _Ed: the encoding rate of E-DPDCH;

r _Ec: the encoding rate of E-DPCCH;

SF _Ed: the spreading factor of E-DPDCH;

SF _Ec: the spreading factor of E-DPCCH;

γ: the power added biasing of the corresponding E-DPDCH of E-DPCCH.

For example, if SF _Ed=16, SF _Ec=256, β _Ed=1, γ=1, r _Ed=0.4, r _Ec=1/3, then calculate according to formula

β _ec＝0.5*0.9128＝0.4564.

Above-mentioned high level can dispose at the different channels environment for the biasing of γ, can not dispose yet, and γ=1 then, in addition, β in this step _EcBe corresponding β _EdCalculating is determined, for step 11 β definite according to different business _Ed, this step can be determined the β of corresponding various traffic channels equally according to above-mentioned method _Ec, by such method, both the power bias of high speed uplink bag access channel (comprising E-DPCCH and E-DPDCH) and qos requirements such as professional kind and time delay were connected, realized accurate control for wireless traffic QoS.Reduced the expense that signaling is used to transmit the E-DPCH power offset of channel again simultaneously.

At last, in step 13, corresponding gain factor and corresponding E-DPCCH gain factor that the different business channel that subscriber equipment is gone up carrying according to described definite E-DPDCH requires carry out corresponding power control.

The present invention can be applied in the various radio bearer control, describe with a kind of concrete application below, with reference to figure 4, this figure is that radio bearer is set up the signaling transport process in the control procedure, concrete, network side can be set up signaling by radio bearer and issue described reference gain factors β to subscriber equipment _{Ed, ref}, bias factor δ _iAnd the power added biasing γ of the corresponding E-DPDCH of E-DPCCH, subscriber equipment is received described reference gain factors β again _{Ed, ref}, bias factor δ _iAnd the power added biasing γ of the corresponding E-DPDCH of E-DPCCH can determine the E-DPDCH of corresponding various traffic channels and the gain factor of E-DPCCH, and then can carry out corresponding power control according to the gain factor of described E-DPDCH and E-DPCCH.

Need to prove, for described reference gain factors β _{Ed, ref}, bias factor δ _iAnd the power added biasing γ of the corresponding E-DPDCH of E-DPCCH, also can be applied in the radio bearer reconfiguration course and reshuffle transmitting signaling downwards by radio bearer, perhaps be applied in the transmission channel reconfiguration course to reshuffle transmitting signaling downwards and to be applied in the physical channel reconfiguration course and reshuffle transmitting signaling downwards, no longer describe in detail here by physical channel by transmission channel.

The following describes the device of the present invention's enhanced uplink special physical channel power control on the other hand, with reference to figure 5, at network side network side transmitting apparatus 20 is set in the device of enhanced uplink special physical channel power control of the present invention, described network side transmitting apparatus 20 is used at network side by the gain factor of the E-DPDCH of transmitting signaling downwards need power control and the power added biasing of the corresponding described E-DPDCH of E-DPCCH, concrete, described network equipment can be realized by radio network controller, the corresponding function that only need strengthen radio network controller gets final product, and no longer carefully states here.

Be correspondingly provided with subscriber equipment 21 in user side the present invention, described subscriber equipment 21 is used for determining according to the gain factor of described E-DPDCH and described power added biasing the gain factor of corresponding E-DPCCH, and carries out corresponding power control according to the gain factor of the gain factor of described E-DPDCH and described definite E-DPCCH.Same, can realize by the corresponding function that strengthens subscriber equipment equally for subscriber equipment among the present invention.

When reality is implemented, the gain factor of the E-DPDCH that described network side transmitting apparatus 20 issues can be a kind of enhanced uplink gain factor of special physical data channel of reference transmission form, accordingly, adapt to of the requirement of different business channel to QoS, described network side transmitting apparatus 20 can also issue the bias factor that E-DPDCH goes up the corresponding described reference transmission form of different business channel of carrying to subscriber equipment, so that subscriber equipment is determined the corresponding gain factor that the different business channel of the last carrying of E-DPDCH requires, and then carry out corresponding power control.

With reference to figure 6, this figure is a kind of composition schematic diagram of subscriber equipment 21 of the present invention, and part of module related to the present invention only is shown among the figure, and for not shown with the irrelevant part of essence of the present invention, as shown in Figure 6, described subscriber equipment 21 further comprises:

Described subscriber equipment comprises:

First calculation element 211, be used for the E-DPDCH gain factor according to described reference transmission form, described bias factor and determine that E-DPDCH goes up the corresponding E-DPDCH gain factor that the different business channel of carrying requires, accordingly, the gain factor that the different business that described first calculation element 211 can adopt aforementioned corresponding calculated formula to determine that E-DPDCH upward carries requires no longer describes in detail here.

Second calculation element 212, be used for determining the gain factor that corresponding E-DPCCH requires according to corresponding gain factor and described additional biasing that the different business channel that described definite E-DPDCH carries requires, same, described second calculation element 212 also can adopt aforementioned corresponding calculated formula to determine the E-DPCCH gain factor, no longer describes in detail here.

Control device 213, the corresponding gain factor and the corresponding enhanced uplink Dedicated Physical Control Channel gain factor that are used for requiring according to the different business channel that carries on the described definite enhanced uplink Dedicated Physical Data Channel carry out corresponding power control.

The above only is a preferred implementation of the present invention, does not constitute the qualification to protection range of the present invention.Any any modification of being done within the spirit and principles in the present invention, be equal to and replace and improvement etc., all should be included within the claim protection range of the present invention.

Claims (12)

1, a kind of enhanced uplink special physical channel Poewr control method, described enhanced uplink special physical channel comprises enhanced uplink Dedicated Physical Data Channel and enhanced uplink Dedicated Physical Control Channel, it is characterized in that, comprises step:

A, network side issue the gain factor of the enhanced uplink Dedicated Physical Data Channel that needs power control and the power added biasing of the corresponding described enhanced uplink physical data channel of enhanced uplink Dedicated Physical Control Channel by signaling to subscriber equipment;

The gain factor that b, subscriber equipment are determined corresponding enhanced uplink Dedicated Physical Control Channel according to the gain factor and the described power added biasing of described enhanced uplink Dedicated Physical Data Channel;

C, subscriber equipment carry out corresponding power control according to the gain factor of the gain factor of described enhanced uplink Dedicated Physical Data Channel and described definite enhanced uplink Dedicated Physical Control Channel.

2, enhanced uplink special physical channel Poewr control method according to claim 1 is characterized in that, step b subscriber equipment is determined the gain factor of enhanced uplink Dedicated Physical Control Channel according to following formula:

${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\sqrt{\frac{r_{\mathrm{ec}}}{r_{\mathrm{ed}}}}\·\mathrm{\γ}$

Or ${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\mathrm{\γ}$

Wherein

β _{Ed, i, j}: the gain factor of enhanced uplink Dedicated Physical Data Channel;

r _Ed: the encoding rate of enhanced uplink Dedicated Physical Data Channel;

r _Ec: the encoding rate of enhanced uplink Dedicated Physical Control Channel;

SF _Ed: the spreading factor of enhanced uplink Dedicated Physical Data Channel;

SF _Ec: the spreading factor of enhanced uplink Dedicated Physical Control Channel;

γ: the power added biasing of the corresponding enhanced uplink Dedicated Physical Data Channel of enhanced uplink Dedicated Physical Control Channel.

3, enhanced uplink special physical channel Poewr control method according to claim 1 and 2, it is characterized in that, the gain factor of the enhanced uplink Dedicated Physical Data Channel that described network side issues is the enhanced uplink gain factor of special physical data channel of reference transmission form, and step a network side also issues the bias factor of the corresponding described reference transmission form of different business channel that carries on the enhanced uplink Dedicated Physical Data Channel to subscriber equipment by signaling;

Step b comprises:

The corresponding enhanced uplink gain factor of special physical data channel that the different business channel that b1, subscriber equipment determine to carry on the enhanced uplink Dedicated Physical Data Channel according to the enhanced uplink gain factor of special physical data channel of described reference transmission form, described bias factor requires;

The gain factor that corresponding enhanced uplink Dedicated Physical Control Channel requires is determined in corresponding gain factor and described additional biasing that the different business channel that b2, subscriber equipment carry according to described definite enhanced uplink Dedicated Physical Data Channel requires;

Step c subscriber equipment carries out corresponding power control according to corresponding gain factor and the corresponding enhanced uplink Dedicated Physical Control Channel gain factor that the different business channel that carries on the described definite enhanced uplink Dedicated Physical Data Channel requires.

4, enhanced uplink special physical channel Poewr control method according to claim 3, it is characterized in that the corresponding enhanced uplink gain factor of special physical data channel that the different business channel that step b1 subscriber equipment is determined to carry on the enhanced uplink Dedicated Physical Data Channel according to following formula requires:

${\mathrm{\β}}_{\mathrm{ed},i,j}={\mathrm{\δ}}_i\·{\mathrm{\β}}_{\mathrm{ed},\mathrm{ref}}\·\sqrt{\frac{L_{\mathrm{ed},\mathrm{ref}}}{L_{\mathrm{ed},j}}}\·\sqrt{\frac{K_{\mathrm{ed},j}}{K_{\mathrm{ed},\mathrm{ref}}}}$

Wherein:

β _{Ed, ref}: the enhanced uplink gain factor of special physical data channel of reference transmission form;

β _{Ed, i, j}: the enhanced uplink gain factor of special physical data channel of the j kind transformat of i kind Traffic Channel;

L _{Ed, ref}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of reference transmission form;

L _{Ed, j}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of j kind transformat;

δ _i: the bias factor of the corresponding described reference transmission form of i kind Traffic Channel;

K _{Ed, ref}: reference transmission form enhanced uplink Dedicated Physical Data Channel data carried by data bit number;

K _{Ed, j}: j kind transformat enhanced uplink Dedicated Physical Data Channel data carried by data bit number.

5, enhanced uplink special physical channel Poewr control method according to claim 1 is characterized in that, described signaling is a radio bearer control signaling.

6, enhanced uplink special physical channel Poewr control method according to claim 5, it is characterized in that described radio bearer control signaling comprises that radio bearer sets up that signaling, radio bearer are reshuffled signaling, transmission channel reshuffles signaling and physical channel is reshuffled signaling.

7, a kind of enhanced uplink special physical channel output control device is characterized in that, comprising:

The network side transmitting apparatus is used at network side by the gain factor of the enhanced uplink Dedicated Physical Data Channel of transmitting signaling downwards need power control and the power added biasing of the corresponding described enhanced uplink physical data channel of enhanced uplink Dedicated Physical Control Channel;

Subscriber equipment, be used for the gain factor of determining corresponding enhanced uplink Dedicated Physical Control Channel according to the gain factor and the described power added biasing of described enhanced uplink Dedicated Physical Data Channel, and carry out corresponding power control according to the gain factor of the gain factor of described enhanced uplink Dedicated Physical Control Channel and described definite enhanced uplink Dedicated Physical Control Channel.

8, enhanced uplink special physical channel output control device according to claim 7 is characterized in that, described subscriber equipment is determined the gain factor of enhanced uplink Dedicated Physical Control Channel according to following formula:

${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\sqrt{\frac{r_{\mathrm{ec}}}{r_{\mathrm{ed}}}}\·\mathrm{\γ}$

Or ${\mathrm{\β}}_{\mathrm{ec}}={\mathrm{\β}}_{\mathrm{ed}}\·\sqrt{\frac{{\mathrm{SF}}_{\mathrm{ed}}}{{\mathrm{SF}}_{\mathrm{ec}}}}\·\mathrm{\γ}$

Wherein

β _{Ed, i, j}: the gain factor of enhanced uplink Dedicated Physical Data Channel;

r _Ed: the encoding rate of enhanced uplink Dedicated Physical Data Channel;

r _Ec: the encoding rate of enhanced uplink Dedicated Physical Control Channel;

SF _Ed: the spreading factor of enhanced uplink Dedicated Physical Data Channel;

SF _Ec: the spreading factor of enhanced uplink Dedicated Physical Control Channel;

γ: the power added biasing of the corresponding enhanced uplink Dedicated Physical Data Channel of enhanced uplink Dedicated Physical Control Channel.

9, according to claim 7 or 8 described enhanced uplink special physical channel output control devices, it is characterized in that, the gain factor of the enhanced uplink Dedicated Physical Data Channel that described network side transmitting apparatus issues is the enhanced uplink gain factor of special physical data channel of reference transmission form, and described network side transmitting apparatus also issues the bias factor of the corresponding described reference transmission form of different business channel that carries on the enhanced uplink Dedicated Physical Data Channel to subscriber equipment;

Described subscriber equipment comprises:

First calculation element is used for the corresponding enhanced uplink gain factor of special physical data channel that different business channel that the enhanced uplink gain factor of special physical data channel according to described reference transmission form, described bias factor determine to carry on the enhanced uplink Dedicated Physical Data Channel requires;

Second calculation element is used for determining the gain factor that corresponding enhanced uplink Dedicated Physical Control Channel requires according to corresponding gain factor and described additional biasing that the different business channel that described definite enhanced uplink Dedicated Physical Data Channel carries requires;

Control device, the corresponding gain factor and the corresponding enhanced uplink Dedicated Physical Control Channel gain factor that are used for requiring according to the different business channel that carries on the described definite enhanced uplink Dedicated Physical Data Channel carry out corresponding power control.

10, enhanced uplink special physical channel output control device according to claim 9, it is characterized in that the corresponding enhanced uplink gain factor of special physical data channel that the different business channel that described first calculation element is determined to carry on the enhanced uplink Dedicated Physical Data Channel according to following formula requires:

${\mathrm{\β}}_{\mathrm{ed},i,j}={\mathrm{\δ}}_i\·{\mathrm{\β}}_{\mathrm{ed},\mathrm{ref}}\·\sqrt{\frac{L_{\mathrm{ed},\mathrm{ref}}}{L_{\mathrm{ed},j}}}\·\sqrt{\frac{K_{\mathrm{ed},j}}{K_{\mathrm{ed},\mathrm{ref}}}}$

Wherein:

β _{Ed, ref}: the enhanced uplink gain factor of special physical data channel of reference transmission form;

β _{Ed, i, j}: the enhanced uplink gain factor of special physical data channel of the j kind transformat of i kind Traffic Channel;

L _{Ed, ref}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of reference transmission form;

L _{Ed, j}: the enhanced uplink Dedicated Physical Data Channel Code Channel number of j kind transformat;

δ _i: the bias factor of the corresponding described reference transmission form of i kind Traffic Channel;

K _{Ed, ref}: reference transmission form enhanced uplink Dedicated Physical Data Channel data carried by data bit number;

K _{Ed, j}: j kind transformat enhanced uplink Dedicated Physical Data Channel data carried by data bit number.

11, enhanced uplink special physical channel output control device according to claim 7 is characterized in that, described signaling is a radio bearer control signaling.

12, enhanced uplink special physical channel output control device according to claim 11, it is characterized in that described radio bearer control signaling comprises that radio bearer sets up that signaling, radio bearer are reshuffled signaling, transmission channel reshuffles signaling and physical channel is reshuffled signaling.

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