CN104185962A - Physical layer signaling transmission method, user equipment, and base station - Google Patents

Abstract

Embodiments of the invention provide a physical layer signaling transmission method, user equipment, and a base station. The method comprises bearing a first physical layer signaling in a first physical channel, wherein the first physical layer signaling is at least one physical layer signaling corresponding to a HS-SCCH command, and spread spectrum factor of the first physical channel is larger than the spread spectrum factor of the HS-SCCH; using a first channelized code to spread spectrum of the first physical channel; and transmitting the spectrum spread first physical channel. In the embodiments, the physical layer signaling corresponding to the HS-SCCH command is transmitted through the first physical channel whose spread spectrum factor is larger than 128, use ratio of a code channel is improved.

Description

Physical layer signaling sending method, subscriber equipment and base station

Technical field

The embodiment of the present invention relates to wireless communication field, and more specifically, relates to a kind of physical layer signaling sending method.

Background technology

At universal mobile telecommunications system (Universal Mobile Telecommunication System, UMTS) in, High-Speed Shared Control Channel (High Speed Shared Control Channel, HS-SCCH) for carrying high-speed physical downlink shared channel (HS-PDSCH) (High Speed Shared Control Channel, HS-PDSCH) code channel that transmission is used, modulation system, transmission block size (Transport block Size, TBS), mixed automatic retransfer request (Hybrid Automatic Repeat Request, HARQ) information such as the number of carrying out, subscriber equipment (User Equipment, UE) according to the reception of the decode results of HS-SCCH being instructed to HS-PDSCH.

UMTS R7-R11 introduces new much new characteristics, as continuity, grouping connects (Continuous Packet Connectivity, CPC), two carrier wave high speed downlink packet access (Dual Cell High Speed Downlink Packet Access, DC-HSDPA), two carrier wave high speed uplink packet access (Dual Cell High Speed Uplink Packet Access, DC-HSUPA), HS-SCCH less, uplink closed loop transmit diversity (Uplink Closed loop transmit diversity, UL CLTD), independently High-Speed Dedicated Physical Control Channel (standalone High Speed Dedicated Physical Control Channe, standalone HS-DPCCH) etc., these physical layer procedure all need physical layer signaling to activate and deexcitation.

In prior art, for ensure compatibility, the physical layer signaling of activation or the above-mentioned physical layer procedure of deexcitation all carries by HS-SCCH, and the HS-SCCH that carries above-mentioned physical layer signaling is called HS-SCCH order (HS-SCCH order).

In current HS-SCCH order, carry 8 bit physical layer signalings, comprise the explosion command type field (Extended order type) of 2 bits, the command type territory (order type) of 3 bits and the command field (order bit) of 3 bits, the different values of 8 bits have represented the physical layer signaling of different implications.Although design can keep compatible like this, the spreading factor adopting due to HS-SCCH is 128, introduces too much redundant bit cause the utilance of code channel low in order to distinguish different physical layer signalings.

Summary of the invention

The embodiment of the present invention provides a kind of physical layer signaling sending method, subscriber equipment and base station, has improved the utilance of code channel.

First aspect, a kind of physical layer signaling sending method is provided, comprise: the first physical layer signaling is carried in the first physical channel, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order, and the spreading factor of described the first physical channel is greater than the spreading factor of HS-SCCH; Utilize the first channel code to carry out spread spectrum to described the first physical channel, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree; Send the first physical channel after described spread spectrum to UE.

In conjunction with first aspect, in a kind of implementation of first aspect, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 6.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, 3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, a group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and described the first channel code is in a described N channel code.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of E-AGCH.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 8.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, punching process corresponding in the cataloged procedure of described the first physical channel has been destroyed 36 bits, on the basis of 30 bits that described 36 bits are destroyed for punching process corresponding in the cataloged procedure of E-AGCH, destroys 6 bits again.

In conjunction with first aspect and above-mentioned implementation thereof, in the another kind of implementation of first aspect, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Second aspect, provides a kind of sending method of physical layer signaling, comprising: receive the first physical channel, the spreading factor of wherein said the first physical channel is greater than the spreading factor of HS-SCCH; Utilize the first channel code to carry out despreading to described the first physical channel; Obtain the first physical layer signaling in the first physical channel being carried on after described despreading, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

In conjunction with second aspect, in a kind of implementation of second aspect, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 6, described in obtain the first physical layer signaling being carried in described the first physical channel and comprise: determine described the first physical layer signaling according to the value of described 6 information bits.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, 3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, a group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, described the first channel code is in a described N channel code, described in obtain the first physical layer signaling being carried in described the first physical channel and comprise: determine described the first physical layer signaling according to the value of signaling corresponding to described the first channel code and described 6 information bits.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of E-AGCH.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 8, described in obtain the first physical layer signaling being carried in described the first physical channel and comprise: determine described the first physical layer signaling according to the value of described 8 information bits.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, punching process corresponding in the cataloged procedure of described the first physical channel has been destroyed 36 bits, on the basis of 30 bits that described 36 bits are destroyed for punching process corresponding in E-AGCH cataloged procedure, destroys 6 bits again.

In conjunction with second aspect and above-mentioned implementation thereof, in the another kind of implementation of second aspect, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

The third aspect, a kind of base station is provided, comprise: load bearing unit, for the first physical layer signaling is carried on to the first physical channel, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order, and the spreading factor of described the first physical channel is greater than the spreading factor of HS-SCCH; Spectrum-spreading unit, for utilizing the first channel code to carry out spread spectrum to described the first physical channel; Transmitting element, for sending the first physical channel after described spread spectrum to UE.

In conjunction with the third aspect, in a kind of implementation of the third aspect, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 6.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, 3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, a group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and described the first channel code is in a described N channel code.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of E-AGCH.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 8.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, the punching process that described the first physical channel is corresponding has been destroyed 36 bits, on the basis that described 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

In conjunction with the third aspect and above-mentioned implementation thereof, in the another kind of implementation of the third aspect, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Fourth aspect, provides a kind of subscriber equipment, comprising: receiving element, and for receiving the first physical channel, the spreading factor of wherein said the first physical channel is greater than the spreading factor of HS-SCCH; Despread unit, for utilizing the first channel code to carry out despreading to described the first physical channel; Acquiring unit, for obtaining the first physical layer signaling that is carried on the first physical channel after described despreading, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

In conjunction with fourth aspect, in a kind of implementation of fourth aspect, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 6, and described acquiring unit is specifically for determining described the first physical layer signaling according to the value of described 6 information bits.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, 3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, a group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, described the first channel code is in a described N channel code, and described acquiring unit is specifically for determining described the first physical layer signaling according to the value of signaling corresponding to described the first channel code and described 6 information bits.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of E-AGCH.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, the information bit that carries described the first physical layer signaling in described the first physical channel is 8, and described acquiring unit is specifically for determining described the first physical layer signaling according to the value of described 8 information bits.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, the punching process that described the first physical channel is corresponding has been destroyed 36 bits, on the basis that described 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

In conjunction with fourth aspect and above-mentioned implementation thereof, in the another kind of implementation of fourth aspect, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

In the embodiment of the present invention, the first physical channel that is greater than the spreading factor of HS-SCCH by spreading factor sends physical layer signaling corresponding to HS-SCCH order, thereby has improved the utilance of code channel.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, to the accompanying drawing of required use in the embodiment of the present invention be briefly described below, apparently, described accompanying drawing is only some embodiments of the present invention below, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Figure 1A is the indicative flowchart of the physical layer signaling sending method of one embodiment of the invention.

Figure 1B is the indicative flowchart of the process of the coding of one embodiment of the present of invention.

Fig. 2 is the indicative flowchart of the physical layer signaling sending method of one embodiment of the invention.

Fig. 3 is the schematic block diagram of the base station of one embodiment of the invention.

Fig. 4 is the schematic block diagram of the subscriber equipment of one embodiment of the invention.

Fig. 5 is the schematic block diagram of the base station of another embodiment of the present invention.

Fig. 6 is the schematic block diagram of the subscriber equipment of another embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is a part of embodiment of the present invention, instead of whole embodiment.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite of not making creative work, should belong to the scope of protection of the invention.

Should understand, technical scheme of the present invention can be applied to various communication systems, for example: global system for mobile telecommunications (Global System of Mobile communication, GSM) system, code division multiple access (Code Division Multiple Access, CDMA) system, Wideband Code Division Multiple Access (WCDMA) (Wideband Code Division Multiple Access, WCDMA) system, GPRS (General Packet Radio Service, GPRS), Long Term Evolution (Long Term Evolution, LTE) system, advanced Long Term Evolution (Advanced long term evolution, LTE-A) system, universal mobile telecommunications system (Universal Mobile Telecommunication System, UMTS) etc.

Will also be understood that, in embodiments of the present invention, subscriber equipment (UE, User Equipment) include but not limited to travelling carriage (MS, Mobile Station), mobile terminal (Mobile Terminal), mobile phone (Mobile Telephone), mobile phone (handset) and portable equipment (portable equipment) etc., this subscriber equipment can be through wireless access network (RAN, Radio Access Network) communicate with one or more core net, for example, subscriber equipment can be mobile phone (or being called " honeycomb " phone), there is the computer of radio communication function etc., subscriber equipment can also be portable, pocket, hand-hold type, built-in computer or vehicle-mounted mobile device.

Figure 1A is the physical layer signaling sending method of one embodiment of the invention.The method of Figure 1A can be carried out by the controller of base station or base station, for example, can refer to NodeB, also can refer to radio network controller (Radio Network Controller, RNC).The method of Figure 1A comprises:

110, the first physical layer signaling is carried in the first physical channel, wherein the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order, and the spreading factor of the first physical channel is greater than the spreading factor of HS-SCCH;

120, utilize the first channel code to carry out spread spectrum to the first physical channel;

130, send the first physical channel after spread spectrum to UE.

In the embodiment of the present invention, the first physical channel that is greater than the spreading factor of HS-SCCH by spreading factor sends physical layer signaling corresponding to HS-SCCH order, thereby has improved the utilance of code channel.

Should be understood that the embodiment of the present invention is not construed as limiting the number of the first physical channel carrying physical layer signaling in 110, can be one, can be also multiple.

Should be understood that the embodiment of the present invention is not construed as limiting the concrete title of the first physical channel in step 110, for example, can be called high speed command channel (High Speed Order Channel, HS-ORCH).

Should be understood that the embodiment of the present invention is not construed as limiting the particular type of the first physical layer signaling in step 110.Particularly, can be at least one in the physical layer signaling being carried in HS-SCCH order, for example, be at least one in activation and the deexcitation signaling of following physical layer procedure: CPC, DC-HSDPA, DC-HSUPA, HS-SCCH less, UL CLTD and standalone HS-DPCCH.

Should be understood that in the embodiment of the present invention, in step 110, the spreading factor of the first physical channel is greater than 128, for example, can be 256, larger spreading factor makes to send the shared code channel resource of same physical layer signaling still less, thereby has improved the utilance of code channel.

It should be noted that, the first channel code in step 120 can belong to the next stage branch of the channel code of HS-SCCH in code tree, and for example, the code Taoist monastic name of HS-SCCH is C _{ch, 128,127}, the channel code of the first physical channel can be the C of branch under same code tree so _{ch, 256,254}and C _{ch, 256,255}.Which channel code UE, in the time receiving this channel code, can specifically utilize receive the first physical layer signaling according to CRC judgement, thereby simplify the reception of UE.

Alternatively, as an embodiment, the information bit that carries the first physical layer signaling in the first physical channel in step 110 is 6, indicate different physical layer signalings by the different values of 6 information bits, but the value of the embodiment of the present invention to 6 information bits and the corresponding relation of physical layer signaling are not done concrete restriction.

Alternatively, as an embodiment, 3 information bits in 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in 6 information bits are corresponding to the command field of HS-SCCH order., 6 information bits can adopt 3 information bit command type territories, the indicating mode of 3 information bit command field.

Further, concrete corresponding relation also can be identical with HS-SCCH order, for instance, in UMTS R7-R9, in the time that 6 information bit values are 010111, the corresponding physical layer signaling A of HS-SCCH order, the first physical channel is continued to use identical corresponding relation so, also corresponding physical layer signaling A.

Alternatively, as another embodiment, a group of many groups signaling that the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.Particularly, version after UMTS R9, HS-SCCH order adopts 8 information bits to indicate different physical layer signalings, and wherein 2 information bits are used to indicate explosion command type field, 3 information bits are used to indicate command type territory, and 3 information bits are used to indicate command field.One group of signaling that the each value of explosion command type field is corresponding, for example, in the time that the explosion command type field value of HS-SCCH order is 01, HS-SCCH order can be used for bearing activation or the discontinuous transmission of deexcitation (Discontinuous Transmission, DTX), discontinuous reception (Discontinuous Reception, DRX), the order of HS-SCCH less, DC-HSPA, part 4C-HSPA and part 8C-HSPA.Because the first physical channel adopts 6 information bits carryings physical layer signalings, so in can indication extension command type territory 4 group commands one group of the first physical channel, remaining order can continue to be carried by HS-SCCH order.

Alternatively, as another embodiment, the pre-configured N of a first physical channel channel code, and N channel code be one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and the first channel code is in N channel code.Particularly, base station can be 4 channel codes of the first physical channel configuration in advance, and a value of explosion command type field in the corresponding HS-SCCH order of each channel code has been indicated the explosion command type of 2 information bits by different channel codes.By the combination of N channel code and 6 bit informations, increase the quantity of the physical layer signaling that 6 bit informations can indicate.

In the time that the first physical channel adopts 6 information bits to carry the first physical layer signaling, the cataloged procedure of this first physical channel can be identical with the cataloged procedure of absolute grant channel (E-DCH Absolute Grant Channel, E-AGCH).By adopting the cataloged procedure identical with E-AGCH, can continue to use encoder and the decoder of existing E-AGCH, simplify the design of the first physical channel.

Alternatively, the information bit that carries the first physical layer signaling in the first physical channel can be 8, the physical layer signaling that the different values of 8 information bits can be corresponding different, and the present invention does not do concrete restriction to the corresponding relation of 8 information bits and physical layer signaling.

For example, the first physical channel is used for carrying the corresponding all signalings of HS-SCCH order, and 2 information bits in 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in 8 information bits are corresponding to the command field of HS-SCCH order.In other words, the first physical channel of 8 information bits can be continued to use the indicating mode of HS-SCCH order.

In the time that the first physical channel adopts 8 bit informations to carry the first physical layer signaling, its cataloged procedure can be similar with the cataloged procedure of E-AGCH, different is in punching process, E-AGCH destroys 30 bits, and the first physical channel can be destroyed 6 bits on this basis again, also can redefine the punching process in the cataloged procedure of the first physical channel, redefine 36 bits need to destroying.Particularly, as shown in Figure 1B, the cataloged procedure of 8 bit informations is as follows:

Input original 8 bit informations: x _eodt1, x _eodt2, x _odt1, x _odt2, x _odt3, x _ord1, x _ord2, x _ord3.

140, on original input bit Information base, add ID particular cycle redundancy check (Cyclic Redundancy Check, CRC) check code.

After adding CRC check code, obtain 24 intermediate bit: y ₁, y ₂..., y ₂₄.

150,24 bit informations that add after CRC check code are carried out to chnnel coding.

After chnnel coding, obtain 96 intermediate bit: z ₁, z ₂..., z ₉₆.

160, carry out rate-matched to obtaining 96 bit informations after chnnel coding;

The punching process of rate-matched is destroyed 36 bit informations, and existing E-AGCH destroys z ₁, z ₂, z ₅, z ₆, z ₇, z ₁₁, z ₁₂, z ₁₄, z ₁₅, z ₁₇, z ₂₃, z ₂₄, z ₃₁, z ₃₇, z ₄₄, z ₄₇, z ₆₁, z ₆₃, z ₆₄, z ₇₁, z ₇₂, z ₇₅, z ₇₇, z ₈₀, z ₈₃, z ₈₄, z ₈₅, z ₈₇, z ₈₈, z ₉₀, can destroy again on this basis 6 bits, as destroyed again z ₉₁, z ₉₂, z ₉₃, z ₉₄, z ₉₅, z ₉₆; Also can redefine 36 bits need to being struck off.

170, remaining 60 bit informations after rate-matched are carried out to physical channel mapping.

Shine upon by physical channel, original 8 bit informations are carried in the first physical channel.

Alternatively, as another embodiment, the design of above-mentioned the first physical channel aspect feedback and timing can be as follows:

UE receives the first physical channel, the same with reception HS-SCCH order, need feeding back ACK, and ACK is carried on HS-DPCCH channel.

The timing of the first physical channel is identical with existing HS-SCCH, sends by subframe, aligns with the subframe timing of HS-SCCH.

The physical layer signaling entry-into-force time that the first physical channel carries is also identical with HS-SCCH order, as for activating deexcitation DRX, auxiliary carrier wave etc., after 12 or 18 time slots of activation deactivating operation after the first physical channel subframe of physical layer for transmission signaling finishes, come into force.

Certainly, except continuing to use the method for HS-SCCH order in above-mentioned feedback, timing and entry-into-force time aspect, feedback channel, timing and the entry-into-force time that can also make new advances for the first physical channel design.

Above, in conjunction with Figure 1A, describe the physical layer signaling sending method according to the embodiment of the present invention in detail from the angle of base station, below in conjunction with Fig. 2, describe according to the physical layer signaling sending method of the embodiment of the present invention from the angle of UE.

Should be understood that the UE of UE side description is corresponding with the description of base station side with mutual and correlation properties, the function etc. of base station, for simplicity, suitably omit the description repeating.

Fig. 2 is the physical layer signaling sending method of one embodiment of the invention.The method of Fig. 2 can be carried out by UE, for example, can be mobile phone or terminal.The method of Fig. 2 can comprise:

210, receive the first physical channel, wherein the spreading factor of the first physical channel is greater than the spreading factor of HS-SCCH;

220, utilize the first channel code to carry out despreading to the first physical channel;

230, obtain the first physical layer signaling in the first physical channel being carried on after despreading, wherein the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

In the embodiment of the present invention, the first physical channel that is greater than the spreading factor of HS-SCCH by spreading factor sends physical layer signaling corresponding to HS-SCCH order, thereby has improved the utilance of code channel.

Alternatively, as an embodiment, the spreading factor of HS-SCCH is that the spreading factor of 128, the first physical channels can be 256.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel can be 6, and obtaining the first physical layer signaling being carried in the first physical channel can comprise: determine the first physical layer signaling according to the value of 6 information bits.

Alternatively, as another embodiment, 3 information bits in 6 information bits can be corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in 6 information bits can be corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, the first physical channel can be used for carrying a group in many groups signaling of explosion command type field instruction of HS-SCCH order.

Alternatively, as another embodiment, the first physical channel can be pre-configured N channel code, and N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, the first channel code is in N channel code, obtains the first physical layer signaling being carried in the first physical channel and comprises: determine the first physical layer signaling according to the value of signaling corresponding to the first channel code and 6 information bits.

Alternatively, as another embodiment, the cataloged procedure of the first physical channel can be identical with the cataloged procedure of E-AGCH.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 8, and obtaining the first physical layer signaling being carried in the first physical channel can comprise: determine the first physical layer signaling according to the value of 8 information bits.

Alternatively, as another embodiment, the first physical channel is used for carrying the corresponding all signalings of HS-SCCH order, and 2 information bits in 8 information bits can be corresponding to the explosion command type field of HS-SCCH order, 3 information bits in 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in 8 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, the punching process that the first physical channel is corresponding can be destroyed 36 bits, and 36 bits can be on the basis of 30 bits destroying in punching process corresponding to E-AGCH and destroy 6 bits again.

Alternatively, as another embodiment, the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Above, in conjunction with Figure 1A to Fig. 2, describe the physical layer signaling sending method according to the embodiment of the present invention in detail, below in conjunction with Fig. 3 to Fig. 6, describe in detail according to the base station of the embodiment of the present invention and subscriber equipment.

Fig. 3 is the block diagram of the base station of one embodiment of the invention.The base station of Fig. 3 comprises: load bearing unit 310, spectrum-spreading unit 320 and transmitting element 330.

Each step of being carried out by base station in Figure 1A to Fig. 2 can be realized in the base station that should be understood that Fig. 3, for avoiding repetition, is not described in detail.

Load bearing unit 310, for the first physical layer signaling is carried on to the first physical channel, wherein the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order, and the spreading factor of the first physical channel is greater than the spreading factor of HS-SCCH; Spectrum-spreading unit 320, for utilizing the first channel code to carry out spread spectrum to the first physical channel; Transmitting element 330, for sending the first physical channel after spread spectrum to UE.

In the embodiment of the present invention, be greater than the first physical channel of 128 by spreading factor and send physical layer signaling corresponding to HS-SCCH order, thereby improved the utilance of code channel.

Alternatively, as an embodiment, the spreading factor of HS-SCCH is that the spreading factor of 128, the first physical channels is 256.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 6.

Alternatively, as another embodiment, 3 information bits in 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in 6 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, a group of many groups signaling that the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

Alternatively, as another embodiment, the first physical channel is pre-configured N channel code, and N channel code be one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and the first channel code is in N channel code.

Alternatively, as another embodiment, the cataloged procedure of the first physical channel is identical with the cataloged procedure of E-AGCH.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 8.

Alternatively, as another embodiment, the first physical channel is used for carrying the corresponding all signalings of HS-SCCH order, and 2 information bits in 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in 8 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, the punching process that the first physical channel is corresponding has been destroyed 36 bits, on the basis that 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

Alternatively, as another embodiment, the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Fig. 4 is the block diagram of the subscriber equipment of one embodiment of the invention.The subscriber equipment of Fig. 4 comprises receiving element 410, despread unit 420 and acquiring unit 430.

The subscriber equipment that should be understood that Fig. 4 can be realized each step of being carried out by subscriber equipment in Figure 1A to Fig. 2, for avoiding repetition, is not described in detail.

Receiving element 410, for receiving the first physical channel, wherein the spreading factor of the first physical channel is greater than the spreading factor of HS-SCCH; Despread unit 420, for utilizing the first channel code to carry out despreading to the first physical channel; Acquiring unit 430, for obtaining the first physical layer signaling that is carried on the first physical channel after despreading, wherein the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

In the embodiment of the present invention, the first physical channel that is greater than the spreading factor of HS-SCCH by spreading factor sends physical layer signaling corresponding to HS-SCCH order, thereby has improved the utilance of code channel.

Alternatively, as an embodiment, the spreading factor of HS-SCCH is that the spreading factor of 128, the first physical channels is 256.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 6, and acquiring unit 430 is specifically for determining the first physical layer signaling according to the value of 6 information bits.

Alternatively, as another embodiment, 3 information bits in 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in 6 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, a group of many groups signaling that the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

Alternatively, as another embodiment, the first physical channel is pre-configured N channel code, and N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, the first channel code is in N channel code, and acquiring unit 430 is specifically for determining the first physical layer signaling according to the value of signaling corresponding to the first channel code and 6 information bits.

Alternatively, as another embodiment, the cataloged procedure of the first physical channel is identical with the cataloged procedure of E-AGCH.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 8, and acquiring unit 430 is specifically for determining the first physical layer signaling according to the value of 8 information bits.

Alternatively, as another embodiment, the first physical channel is used for carrying the corresponding all signalings of HS-SCCH order, and 2 information bits in 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in 8 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, the punching process that the first physical channel is corresponding has been destroyed 36 bits, on the basis that 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

Alternatively, as another embodiment, the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Fig. 5 is the block diagram of the base station of another embodiment of the present invention.The base station of Fig. 5 comprises: processor 510 and transmitter 520.

Each step of being carried out by base station in Figure 1A to Fig. 2 can be realized in the base station that should be understood that Fig. 5, for avoiding repetition, is not described in detail.

Processor 510, for the first physical layer signaling is carried on to the first physical channel, wherein the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order, and the spreading factor of the first physical channel is greater than the spreading factor of HS-SCCH; Utilize the first channel code to carry out spread spectrum to the first physical channel; Transmitter 520, for sending the first physical channel after spread spectrum to UE.

In the embodiment of the present invention, the first physical channel that is greater than the spreading factor of HS-SCCH by spreading factor sends physical layer signaling corresponding to HS-SCCH order, thereby has improved the utilance of code channel.

Alternatively, as an embodiment, the spreading factor of HS-SCCH is that the spreading factor of 128, the first physical channels is 256.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 6.

Alternatively, as another embodiment, 3 information bits in 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in 6 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, a group of many groups signaling that the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

Alternatively, as another embodiment, the first physical channel is pre-configured N channel code, and N channel code be one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and the first channel code is in N channel code.

Alternatively, as another embodiment, the cataloged procedure of the first physical channel is identical with the cataloged procedure of E-AGCH.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 8.

Alternatively, as another embodiment, the first physical channel is used for carrying the corresponding all signalings of HS-SCCH order, and 2 information bits in 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in 8 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, the punching process that the first physical channel is corresponding has been destroyed 36 bits, on the basis that 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

Alternatively, as another embodiment, the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Fig. 6 is the block diagram of the subscriber equipment of another embodiment of the present invention.The subscriber equipment of Fig. 6 comprises receiver 610, processor 620.

The subscriber equipment that should be understood that Fig. 6 can be realized each step of being carried out by subscriber equipment in Figure 1A to Fig. 2, for avoiding repetition, is not described in detail.

Receiver 610, for receiving the first physical channel, wherein the spreading factor of the first physical channel is greater than the spreading factor of HS-SCCH; Processor 620, for utilizing the first channel code to carry out despreading to the first physical channel; Obtain the first physical layer signaling in the first physical channel being carried on after despreading, wherein the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

In the embodiment of the present invention, the first physical channel that is greater than the spreading factor of HS-SCCH by spreading factor sends physical layer signaling corresponding to HS-SCCH order, thereby has improved the utilance of code channel.

Alternatively, as an embodiment, the spreading factor of HS-SCCH is that the spreading factor of 128, the first physical channels is 256.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 6, and processor 620 is specifically for determining the first physical layer signaling according to the value of 6 information bits.

Alternatively, as another embodiment, 3 information bits in 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in 6 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, a group of many groups signaling that the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

Alternatively, as another embodiment, the first physical channel is pre-configured N channel code, and N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, the first channel code is in N channel code, and processor 620 is specifically for determining the first physical layer signaling according to the value of signaling corresponding to the first channel code and 6 information bits.

Alternatively, as another embodiment, the cataloged procedure of the first physical channel is identical with the cataloged procedure of E-AGCH.

Alternatively, as another embodiment, the information bit that carries the first physical layer signaling in the first physical channel is 8, and processor 620 is specifically for determining the first physical layer signaling according to the value of 8 information bits.

Alternatively, as another embodiment, the first physical channel is used for carrying the corresponding all signalings of HS-SCCH order, and 2 information bits in 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in 8 information bits are corresponding to the command field of HS-SCCH order.

Alternatively, as another embodiment, the punching process that the first physical channel is corresponding has been destroyed 36 bits, on the basis that 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

Alternatively, as another embodiment, the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

Those of ordinary skill in the art can recognize, unit and the algorithm steps of each example of describing in conjunction with embodiment disclosed herein, can realize with the combination of electronic hardware or computer software and electronic hardware.These functions are carried out with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can realize described function with distinct methods to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the specific works process of the system of foregoing description, device and unit, can, with reference to the corresponding process in preceding method embodiment, not repeat them here.

In the several embodiment that provide in the application, should be understood that disclosed system, apparatus and method can realize by another way.For example, device embodiment described above is only schematic, for example, the division of described unit, be only that a kind of logic function is divided, when actual realization, can have other dividing mode, for example multiple unit or assembly can in conjunction with or can be integrated into another system, or some features can ignore, or do not carry out.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, indirect coupling or the communication connection of device or unit can be electrically, machinery or other form.

The described unit as separating component explanation can or can not be also physically to separate, and the parts that show as unit can be or can not be also physical locations, can be positioned at a place, or also can be distributed in multiple network element.Can select according to the actual needs some or all of unit wherein to realize the object of the present embodiment scheme.

In addition, the each functional unit in each embodiment of the present invention can be integrated in a processing unit, can be also that the independent physics of unit exists, and also can be integrated in a unit two or more unit.

If described function realizes and during as production marketing independently or use, can be stored in a computer read/write memory medium using the form of SFU software functional unit.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words or the part of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprise that some instructions (can be personal computers in order to make a computer equipment, server, or the network equipment etc.) carry out all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: various media that can be program code stored such as USB flash disk, portable hard drive, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CDs.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with the protection range of claim.

Claims (44)

1. a sending method for physical layer signaling, is characterized in that, comprising:

The first physical layer signaling is carried in the first physical channel, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to high-speed shared control channel command HS-SCCH order, and the spreading factor of described the first physical channel is greater than the spreading factor of HS-SCCH;

Utilize the first channel code to carry out spread spectrum to described the first physical channel;

Send the first physical channel after described spread spectrum to subscriber equipment.

2. the method for claim 1, is characterized in that, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

3. method as claimed in claim 1 or 2, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 6.

4. method as claimed in claim 3, is characterized in that, 3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

5. method as claimed in claim 4, is characterized in that,

One group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

6. method as claimed in claim 4, it is characterized in that, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and described the first channel code is in a described N channel code.

7. the method as described in any one in claim 3-6, is characterized in that, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of absolute grant channel E-AGCH.

8. method as claimed in claim 1 or 2, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 8.

9. method as claimed in claim 8, it is characterized in that, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

10. method as claimed in claim 8 or 9, is characterized in that, the punching process that described the first physical channel is corresponding has been destroyed 36 bits, on the basis that described 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

11. methods as described in any one in claim 1-10, is characterized in that, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

The sending method of 12. 1 kinds of physical layer signalings, is characterized in that, comprising:

Receive the first physical channel, the spreading factor of wherein said the first physical channel is greater than the spreading factor of HS-SCCH;

Utilize the first channel code to carry out despreading to described the first physical channel;

Obtain the first physical layer signaling in the first physical channel being carried on after described despreading, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

13. methods as claimed in claim 12, is characterized in that, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

14. methods as described in claim 12 or 13, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 6, described in obtain the first physical layer signaling being carried in described the first physical channel and comprise:

Determine described the first physical layer signaling according to the value of described 6 information bits.

15. methods as claimed in claim 14, is characterized in that,

3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

16. methods as claimed in claim 15, is characterized in that, a group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

17. methods as claimed in claim 15, it is characterized in that, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, described the first channel code is in a described N channel code, described in obtain the first physical layer signaling being carried in described the first physical channel and comprise:

Determine described the first physical layer signaling according to the value of signaling corresponding to described the first channel code and described 6 information bits.

18. methods as described in any one in claim 14-17, is characterized in that, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of absolute grant channel E-AGCH.

19. methods as described in claim 12 or 13, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 8, described in obtain the first physical layer signaling being carried in described the first physical channel and comprise:

Determine described the first physical layer signaling according to the value of described 8 information bits.

20. methods as claimed in claim 19, it is characterized in that, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

21. methods as described in claim 19 or 20, it is characterized in that, the punching process that described the first physical channel is corresponding has been destroyed 36 bits, on the basis that described 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

22. methods as described in any one in claim 12-21, is characterized in that, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

23. 1 kinds of base stations, is characterized in that, comprising:

Load bearing unit, for the first physical layer signaling is carried on to the first physical channel, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to high-speed shared control channel command HS-SCCH order, and the spreading factor of described the first physical channel is greater than the spreading factor of HS-SCCH;

Spectrum-spreading unit, for utilizing the first channel code to carry out spread spectrum to described the first physical channel;

Transmitting element, for sending the first physical channel after described spread spectrum to UE.

24. base stations as claimed in claim 23, is characterized in that, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

25. base stations as described in claim 23 or 24, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 6.

26. base stations as claimed in claim 25, is characterized in that, 3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

27. base stations as claimed in claim 26, is characterized in that,

One group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

28. base stations as claimed in claim 26, it is characterized in that, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, and described the first channel code is in a described N channel code.

29. base stations as described in any one in claim 25-28, is characterized in that, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of absolute grant channel E-AGCH.

30. base stations as described in claim 23 or 24, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 8.

31. base stations as claimed in claim 30, it is characterized in that, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

32. base stations as described in claim 30 or 31, it is characterized in that, the punching process that described the first physical channel is corresponding has been destroyed 36 bits, on the basis that described 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

33. base stations as described in any one in claim 23-32, is characterized in that, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.

34. 1 kinds of subscriber equipmenies, is characterized in that, comprising:

Receiving element, for receiving the first physical channel, the spreading factor of wherein said the first physical channel is greater than the spreading factor of HS-SCCH;

Despread unit, for utilizing the first channel code to carry out despreading to described the first physical channel;

Acquiring unit, for obtaining the first physical layer signaling that is carried on the first physical channel after described despreading, wherein said the first physical layer signaling is at least one in physical layer signaling corresponding to HS-SCCH order.

35. subscriber equipmenies as claimed in claim 34, is characterized in that, the spreading factor of HS-SCCH is 128, and the spreading factor of described the first physical channel is 256.

36. subscriber equipmenies as described in claim 34 or 35, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 6,

Described acquiring unit is specifically for determining described the first physical layer signaling according to the value of described 6 information bits.

37. subscriber equipmenies as claimed in claim 36, is characterized in that,

3 information bits in described 6 information bits are corresponding to the command type territory of HS-SCCH order, and all the other 3 information bits in described 6 information bits are corresponding to the command field of HS-SCCH order.

38. subscriber equipmenies as claimed in claim 37, is characterized in that, a group of many groups signaling that described the first physical channel is indicated for carrying the explosion command type field of HS-SCCH order.

39. subscriber equipmenies as claimed in claim 37, it is characterized in that, described the first physical channel is pre-configured N channel code, and a described N channel code is one by one corresponding to the indicated N group signaling of the explosion command type field of HS-SCCH order, described the first channel code is in a described N channel code

Described acquiring unit is specifically for determining described the first physical layer signaling according to the value of signaling corresponding to described the first channel code and described 6 information bits.

40. subscriber equipmenies as described in any one in claim 36-39, is characterized in that, the cataloged procedure of described the first physical channel is identical with the cataloged procedure of absolute grant channel E-AGCH.

41. subscriber equipmenies as described in claim 34 or 35, is characterized in that, the information bit that carries described the first physical layer signaling in described the first physical channel is 8,

Described acquiring unit is specifically for determining described the first physical layer signaling according to the value of described 8 information bits.

42. subscriber equipmenies as claimed in claim 41, it is characterized in that, 2 information bits in described 8 information bits are corresponding to the explosion command type field of HS-SCCH order, 3 information bits in described 8 information bits are corresponding to the command type territory of HS-SCCH order, and 3 information bits in described 8 information bits are corresponding to the command field of HS-SCCH order.

43. subscriber equipmenies as described in claim 41 or 42, it is characterized in that, the punching process that described the first physical channel is corresponding has been destroyed 36 bits, on the basis that described 36 bits are 30 bits destroying in punching process corresponding to E-AGCH, destroys 6 bits again.

44. subscriber equipmenies as described in any one in claim 34-43, is characterized in that, described the first channel code belongs to the next stage branch of the channel code of HS-SCCH in code tree.