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Method, system, user equipment and base station for transmitting uplink control information. RU patent 2517679.

IPC classes for russian patent Method, system, user equipment and base station for transmitting uplink control information. RU patent 2517679. (RU 2517679):

H04L1/00 - Arrangements for detecting or preventing errors in the information received (correcting synchronisation H04L0007000000; arrangements in the transmission path H04B)

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FIELD: information technology.

SUBSTANCE: method includes sorting uplink control information (UCI) of each downlink carrier in X downlink carriers according to a preset sorting rule, where X is a positive integer, and the X downlink carriers belong to a downlink component carrier set of user equipment; calculating the number of modulation symbols occupied by UCI according to a first carrier set; calculating the number of bits after channel coding of UCI according to the number of modulation symbols occupied by UCI; performing channel coding for the sorted UCI of the X downlink carriers according to the number of bits after channel coding of UCI, mapping the channel coded UCI of the X downlink carriers to a physical channel, and transmitting the mapped UCI of the X downlink carriers.

EFFECT: fewer errors when encoding uplink control information.

20 cl, 15 dwg

The technical field to which the invention relates

The present invention relates to the field of communication technologies and, in particular, to the way the system, subscriber equipment and base station transmission rising control information.

The level of technology

LTE-A (Long term evolution-advanced) is further developed and improved on the basis of the 3GPP LTE (Long term evolution of the partnership Project of the third generation). In the LTE system-A technology is used IT (Association of bearing), also called incorporation spectra of frequencies or technology bandwidth expansion. In the merge scenario carrier frequency spectrum of two or more KN (bearing component) are combined for more bandwidth.

When performing decoding requires that PEL (the developed site In, a base station) received the total number of bits of the initial information of the joint channel coding IUI (ascending control information), adopted JSC (subscriber equipment), that is, to ensure that the PEL and JSC reached a sustainable agreement in the total number of bits of the initial information of the joint-encoding VUI many descending bearing to correctly decode. However, the existing transfer method prenatal causes PEL correctly decodes together encrypted IUI.

Summary of the invention

Embodiments of the present invention provides a method, system, subscriber equipment and base station transmission rising control information, to avoid the problem of incorrect decoding PEL together coded IUI.

In the same object, a method for transmitting rising control information, including the time that:

sort of subscriber equipment ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sorting,

when this X is a positive integer, X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment contains at least two top-down component carriers and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment;

calculate subscriber equipment number modulation characters involved IUI, in accordance with the first set of bearing;

thus the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, maximum set descending-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment;

calculate subscriber equipment number modulation of characters produced channel coding IUI, in accordance with the number of modulation of the characters involved IUI; and

perform the subscriber equipment of the channel coding sorted IUI for X descending-bearing in accordance with the number of bits produced channel encoding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing on the base station.

In the same object, a method for transmitting rising control information, including the time that:

sort of subscriber equipment ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer and X descending bearing belong to the set descending activated bearing subscriber equipment;

and

perform subscriber equipment channel coding sorted VUI in accordance with the number of bits produced channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing on the base station.

This pre-defined sorting rule is that the sort is performed in the order activation descending bearing.

However, when IUI for X descending-bearing and request planning (RFP) is reported in one podkata, pre-defined sorting rule is ordering RFP first, and then organize IUI after the CW in order activation descending bearing.

If multiple descending carrying out X descending bearing activated simultaneously, IUI multiple descending bearing activated at the same time, sorted in accordance with the properties of the descending bearing.

This properties descending bearing are the indices of the carrier or the carrier frequency.

In the same object, a method for transmitting rising control information, including the time that:

calculate the number of modulation of the characters involved ascending control information (VUI), in accordance with the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment, and a set of top-down component supporting subscriber equipment contains at least two top-down component bearing;

allocate transferred IUI subscriber equipment in accordance with the number of modulation of the characters involved VUI, and calculate the number of bits produced channel coding, the relevant transferred IUI; and

perform channel decoding transferred VUI in accordance with the number of bits produced channel coding, the relevant transferred VUI, and determine transferred IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

In one object proposed to customer equipment including:

the first module of the processing rising control information, made with the possibility to sort ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment contains at least two top-down component carriers, and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment;

the first module to get the number modulation characters, made with the possibility to calculate the number modulation characters involved IUI, in accordance with the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment;

the first module to get the number of bits after channel coding, made with the possibility after the first module to get the number modulation characters will receive a number of modulation of the characters involved VUI, calculate the number of bits produced channel coding IUI, in accordance with the number of modulation of the characters involved IUI;

the first module for encoding and transfer made with the possibility after the first module to get the number of bits after channel coding will get the number of bits produced channel coding VUI, run channel coding sorted IUI for X descending-bearing in accordance with the number of bits produced channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing on the base station.

In one object of the proposed terminal equipment, including:

the second module of the processing rising control information, made with the possibility to sort ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sort, where X is an integer a positive number and X descending bearing belong to the set descending activated bearing subscriber equipment; and

the second module for encoding and transfer made with the possibility after the second module of the processing ascending management information sorts IUI for X descending bearing, run channel coding IUI for X descending-bearing in accordance with a preset number of bits produced channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending-carrying on base station.

The second module of the processing ascending management data contains:

fourth sorting unit, made so that sort IUI for X descending bearing in order activation descending bearing.

The second module of the processing ascending management data contains:

fifth sorting unit, made so that when IUI for X descending-bearing and request planning (RFP) is reported in one podkata, first arrange the CW, and then arrange IUI for X descending bearing after the CW in order activation descending bearing.

If multiple descending bearing activated simultaneously, IUI multiple descending bearing activated at the same time, sorted in accordance with the properties of the descending bearing, and the properties of the descending bearing are the indices of the carrier or the carrier frequency.

In one object proposed base station, including:

the first module to get the number modulation characters VUI, made with the possibility to calculate the number modulation characters involved ascending control information (VUI), in accordance with the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment, and a set of top-down component supporting subscriber equipment contains at least two top-down component bearing;

the first module to get the number of bits after channel coding VUI, made with the possibility after the first module to get the number modulation characters IUI will receive a number of modulation of the characters involved VUI, select IUI transferred to a subscriber's equipment, in accordance with the number of modulation of the characters involved VUI, and calculate the number of bits produced channel coding, the relevant transferred IUI; and

the first module definition VUI, made with the possibility after the first module to get the number of bits produced channel coding IUI will get the number of bits after channel coding, the relevant transferred VUI, run channel decoding transferred VUI in accordance with the number of bits produced channel coding, the relevant transferred VUI, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

In one object of the proposed transmission system ascending control information, including:

subscriber equipment and base station, where

subscriber equipment includes:

the first module of the processing rising control information, made with the possibility to sort the VUI for X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment contains at least two top-down component carriers and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment;

the first module to get the number of bits after channel coding, made with the possibility after the first module to get the number modulation characters will receive a number of modulation of the characters involved VUI, calculate the number of bits produced channel coding VUI in accordance with the number of modulation of the characters involved IUI; and

the first module for encoding and transfer made with the possibility after the first module to get the number of bits after channel coding will get the number of bits produced channel coding VUI, to perform channel coding sorted IUI for X descending-bearing in accordance with the number of bits after channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing to the base station;

the base station includes:

the first module to get the number of bits after channel coding, made with the possibility after the first module to get the number modulation of characters IUI will receive a number of modulation of the characters involved VUI, select transferred to the subscriber's equipment VUI in accordance with the number of modulation of the characters involved VUI, and calculate the number of bits produced channel coding, the relevant transferred IUI; and

the first module definition VUI, made with the possibility after the first module to get the number of bits after channel coding IUI will get the number of bits after channel coding, the relevant transferred VUI, run channel decoding transferred VUI in accordance with the number of bits after channel coding, the relevant transferred VUI, and determine transferred IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

This pre-defined sorting rule includes one of the following rules:

sorting in ascending signs descending bearing, appropriate prenatal descending bearing, where properties descending bearing are the indices of the carrier or the carrier frequency;

sorting in descending order properties descending bearing, appropriate prenatal descending bearing, where properties descending bearing are the indices of the carrier or the carrier frequency;

sorting in order of activation descending bearing.

Transmission system ascending management information, which includes :

subscriber equipment and base station, where

subscriber equipment includes:

the second module of the processing rising control information, made with the possibility to sort ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer and X descending bearing belong to the set descending activated bearing subscriber equipment; and

the second module for encoding and transfer made with the possibility, after the second module of the processing ascending management information sorts IUI for X descending bearing, run channel coding sorted IUI for X descending-bearing in accordance with a preset number of bits after channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing to the base station;

the base station includes:

the second module definition VUI, made with the possibility to discover the VUI, transferred to the subscriber's equipment, in accordance with a preset number of bits produced channel encoding appropriate prenatal and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Subscriber equipment performs channel coding VUI in accordance with the number of bits after channel coding IUI and passes VUI to the base station, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between subscriber equipment and base station views about the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, subscriber equipment sorts VUI many descending-bearing in accordance with a pre-defined rule sort, so that the base station can determine IUI corresponding to each descending carrier.

Brief description of drawings

Figure 1 is a block diagram of the transfer method ascending management information under variant of the implementation of the present invention.

Figure 2 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Figure 3 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Figure 4 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Figure 5 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

6 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Fig.7 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Fig is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Figure 9 is a block diagram other transmission of a rising control information under variant of the implementation of the present invention.

Figure 10 is a block diagram of subscriber equipment under variant of the implementation of the present invention.

11 is a block diagram of another subscriber equipment under variant of the implementation of the present invention.

Fig is a structural scheme of the other base station according to the variant of the implementation of the present invention.

Fig is a structural scheme of the transmission system ascending management information under variant of the implementation of the present invention.

In scenario combining bearing PEL configures and parkonfiguret planned set of supporting, for example, set ICH JSC (set top-down component supporting subscriber equipment), for subscriber equipment LTE-A through prostatico signal URR (radio resource management). Thus to save energy is used the mechanism of activation (namely, enable)or disable (namely, off) carrier-based prostatico configured set ICH JSC. Except the main descending carrier, the other component carrier (other component bearing) can be activated or deactivated in accordance with operational requirements. If the current rate of service JSC (user equipment) increases, PEL can activate one or more of the bearing, is not activated in the set ICH JSC, to perform data transfer. If the current rate of service JSC is reduced, PEL can deactivate one or more already activated bearing, except the main descending carrier, set ICH JSC. Activation-deactivation is performed by tier data UDS (access control). Each fragment command activation-deactivation tier carrier DCP can activate or deactivate one or more carrier, except the main carrier in the set ICH JSC. After delivery level signal OVC PEL can get information about the fact that you have successfully passed the team activation-deactivation by means of feedback, positive-negative acknowledgment (hereinafter PP-OP) (ACK-NACK). As the kill command to optimize further introduces the mechanism of internal deactivation, it is entered the internal timer is disabled. The timer starts when you receive a particular signal, and when the timer expires, the corresponding carrying deactivated.

The LTE-A to support technologies such as dynamic scheduling downward transfer of Muhmuuh (multiple input, multiple output) and hybrid automatic retransmission, JSC need to pass IUI descending bearing on PEL through FWUC (physical control of the upward channel) and (or) FSC (physical joint rising channel), JSC also need to pass VUI many descending bearing on PEL scenario Association of bearing. In the system LTE-A prenatal you want to upload JSC, usually include data confirmation (PP-OP) the CLAIM (information on the state channel) and GASP (hybrid automatic repeat request). The CLAIM is usually involves internal state data channel, such as DCC (quality data channels), PC (indicator categories), INK (indicator matrix preliminary coding) and data on the status of the direct channel, such as channel matrix and the covariance matrix of the channel.

Currently, in the scenario of Association of the bearing when the PP-OP or CLAIM many descending bearing transferred to one FWUC or one FSK, usually JSC must perform joint channel coding towards PP-OP or CLAIM many descending bearing. PEL does the decoding according to the way of channel coding, adopted by the JSC.

When performing decoding PEL need to get the total number of bits of the initial information IUI (ascending control information) joint channel coding, adopted JSC, that is, to ensure that prenatal and JSC reached a sustainable agreement in the total number of bits of the initial information of the joint-encoding VUI many descending bearing to correctly decode. However, the existing transfer method prenatal causes PEL correctly decodes together encrypted IUI.

Illustrated in figure 1 variant of the implementation of the present invention provides a method transfer ascending management information, which includes the following stages.

101 Subscriber equipment sort ascending control this VUI each descending carrier of X descending bearing defined sorting rule, where X is a positive integer, X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment at least includes two descending bearing component and at least one descending, the carrying out of X descending bearing belongs to set descending activated bearing subscriber equipment.

102 Subscriber equipment calculates according to the first set of bearing the number modulation characters involved VUI, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment.

103 Subscriber equipment computes the number of bits after channel coding VUI in accordance with the number of modulation of the characters involved IUI.

104 Subscriber equipment performs channel coding for sorted IUI for X descending-bearing in accordance with the number of bits after channel coding VUI, displays impeller encrypted IUI for X descending bearing on the physical channel and transmits displayed IUI for X descending bearing on the base station.

Further, when the VUI is information confirmation hybrid automatic repeat request (GASP), X descending bearing are all descending bearing set descending activated bearing.

Further, when the VUI is information about the status of the channel (the CLAIM), X descending bearing determined in accordance with the configuration of the CLAIM, configured the highest levels, and reported whether the non-periodic case, X descending bearing belong to the set descending activated bearing subscriber equipment.

Further, pre-defined sorting rule includes one of the following rules:

sorting in ascending signs descending bearing, appropriate prenatal descending bearing;

sorting in descending order properties descending bearing, appropriate prenatal descending bearing;

sorting in order of activation descending bearing.

Further, when the VUI each descending carrier of X descending bearing in numerical order of activation descending-bearing, if multiple descending bearing activated simultaneously, VUI many descending bearing activated at the same time, sorted in ascending or descending order properties descending bearing.

Further, the property descending carrier is the index of the carrier or the carrier frequency.

Further, when the VUI is information channel status LAWSUIT, the calculation using the subscriber's equipment in accordance with the first set of bearing, the number modulation characters involved IUI, in particular, is:

the calculation using the subscriber's equipment number modulation characters involved the CLAIM, in accordance with the first set of bearing, with the configuration of the CLAIM, configured the highest levels, and reported whether residual CLAIM.

In the way of ascending management information under variant of the implementation of the present invention subscriber equipment performs channel coding IUI for X descending-bearing in accordance with the number of bits after channel coding IUI and passes IUI for X descending bearing on the base station, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between subscriber equipment and base station views about the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, subscriber equipment sorts VUI many descending-bearing in accordance with a pre-defined rule sort, so that the base station can determine IUI corresponding to each descending carrier.

An illustrated in figure 2 variant of the implementation of the present invention provides another way to transfer a rising control information, which includes the following stages.

201 Subscriber equipment sort ascending control information IUI each descending bearing on X descending bearing defined sorting rule, where X is an integer a positive number and X descending bearing belong to the set top-down component supporting subscriber equipment.

202 Subscriber equipment performs channel coding for sorted IUI for X descending bearing according to the number of bits after channel coding VUI, displays impeller encrypted IUI for X descending bearing on the physical channel and transmits displayed IUI for X descending bearing on the base station.

Further, when the VUI is information confirmation hybrid automatic repeat request (GASP), X descending bearing are all descending bearing set descending activated bearing.

Further, pre-defined sorting rule is that the sort is performed in the order activation descending bearing.

Further, when IUI for X descending-bearing and request planning (RFP) is reported in one podkate-defined sorting rule is that the sort is performed first in order ordering the CW, and then in the order of organizing IUI each descending carrier X descending bearing after RFP based on the order of activation of the descending bearing.

Further, when the VUI each descending carrier of X descending bearing in numerical order of activation descending-bearing, if multiple descending bearing activated simultaneously, VUI many descending bearing activated at the same time, sorted in accordance with the properties of the descending bearing.

Further, the property descending carrier is the index of the carrier or the carrier frequency.

An illustrated in figure 3 variant of the implementation of the present invention provides another way to transfer a rising control information, which includes the following stages.

301: Calculate the number of modulation of the characters involved ascending control information (VUI) according to the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, maximum set descending-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment, and a set of top-down component supporting subscriber equipment includes at least two top-down component bearing.

302: In accordance with the number of modulation of the characters involved VUI, extract IUI transferred to a subscriber's equipment, and calculate the number of bits after channel coding, the relevant transferred IUI.

303: Run channel decoding transferred VUI in accordance with the number of bits after channel coding, the relevant transferred VUI, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Further, when the VUI is information about the status of the channel (the CLAIM), the calculation of the number of modulation of the characters involved IUI, in accordance with the first set of supporting, in particular, is:

the calculation of the number of modulation of the characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

Further, pre-defined sorting rule includes one of the following rules:

the sort order is ascending properties descending bearing, appropriate prenatal descending bearing;

the sort order is descending properties descending bearing, appropriate prenatal descending bearing;

sorting is performed in the order activation descending bearing.

Further, when a pre-defined sorting rule is that the sort is performed in the order activation descending-bearing, if multiple descending carriers are activated simultaneously, VUI many descending bearing activated at the same time, sorted in ascending or descending order properties descending bearing.

Further, the property descending carrier is the index of the carrier or the carrier frequency.

In the way of ascending management information under variant of the implementation of the present invention, the base station receives, in accordance with the first set of bearing, the number modulation characters involved VUI, allocates in accordance with the number of modulation of the characters involved prenatal, prenatal, transferred to the subscriber's equipment, and retrieves the number of bits after channel coding, the relevant transferred VUI, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between the base station and subscriber equipment representation on the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, the base station can determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Variant of the implementation of the present invention provides another way to transfer a rising control information, including:

in accordance with a preset number of bits after channel coding, relevant rising control information (VUI), discovery performance in relation to prenatal transferred to a subscriber's equipment, and the definition of prenatal and corresponding downward carrier, in accordance with a pre-defined sorting rule.

Further, pre-defined sorting rule is that the sort is performed in the order activation descending bearing; when simultaneously activated many descending bearing, VUI many descending bearing activated at the same time, sorted in ascending or descending order properties descending bearing.

Further, when IUI and request planning (RFP) is reported in one podkata, the definition of prenatal and corresponding downward carrier, in accordance with a pre-defined sorting rule, in particular, is:

In the way of ascending management information under variant of the implementation of the present invention base station discovers in relation to prenatal transferred to a subscriber's equipment, in accordance with a preset number of bits after channel coding, relevant rising control information (VUI), thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between the base station and subscriber equipment representation on the total number of bits of the initial information of the joint coding VUI many descending bearing. In addition, the base station can determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

For a better understanding of option implementation of the present invention as an example for further clarification taken way for the version of the implementation of the present invention used in scripts to combine frequencies, where the PP-OP one or more top-down load-bearing transmitted to FSC.

An illustrated in figure 4 variant of the implementation of the present invention provides another way to transfer ascending management information, which includes the following stages.

401: JSC sorts PP-OP each descending bearing on X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set top-down component bearing JSC, set top-down component supporting subscriber equipment at least includes two top-down component supporting at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment, and X descending bearing here are all descending bearing set descending activated bearing JSC.

Pre-defined rule sort may be the execution of the sort in the order of activation of the descending bearing. In addition, when simultaneously activated multiple top-down load-bearing, PP-OP many descending bearing activated simultaneously, can be sorted in accordance with the properties of the descending bearing, the relevant PP-OP descending bearing. Property descending carrier can be the index of the carrier (index carrier, ID carrier) or descending frequency carrier. In particular, PP-OP activated at the same time many descending bearing can be sorted in ascending or descending order properties descending bearing.

In particular, for each descending carrier of X descending-bearing, if requested feedback in the form of PP-OP and PP-OP supports spatial grouping, each downward bearing single-bit corresponds PP or OP; if the requested feedback in the form of PP-OP and PP-OP does not support spatial grouping, each downward carrier corresponds dvuhmestnoe PP or OP. If not requested feedback in the form of PP-OP and PP-OP supports spatial grouping, each downward carrier corresponds OP single-bit; if not requested feedback in the form of PP-OP and PP-OP does not support spatial grouping, each downward carrier corresponds dvuhmestnoe OP. A request for feedback in the form of PP-OP refers to the fact that information about the request feedback in the form of PP-OP, such as data or signal transmission FNUC marking the release of the descending resources Subcommittee (semi-permanent planning), found on the carrier.

JSC identifies the origin PP-OP each descending carrier of X descending-bearing in accordance with the above method, so that the total number O PP bit of initial information in the X descending bearing the same: O PP =X or O PP =2X. X corresponds to the scenario where PP-OP supports spatial grouping, and 2X corresponds to a scenario where PP-OP does not support spatial grouping.

402: JSC calculates the number modulation characters (coded character or modulation characters)employed PP-OP JSC, in accordance with the first set bearing (set KN).

The first collection bearing can be set descending component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment or less among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported JSC. In particular, the number of modulation of the characters involved PP-OP subscriber equipment is calculated in accordance with the first set of bearing with the help of Formula (1).

Q ' = min ( ⌈ O x M s c P U S C H - i n i t i a l x N s y m b P U S C H - i n i t i a l x N l a y e r x β o f f s e t P U S C H ∑ r = 0 C - 1 K r ⌉ , 4 x M s c P U S C H ) ( 1 )

Q' denotes the number of modulation of the characters involved PP-OP subscriber equipment. On indicates the total number of data bits all the PP-OP, corresponding to the first set of bearing, where in case of PP-OP each descending carrier supports spatial grouping, O=M, and in case of PP-OP each descending carrier does not support spatial grouping, O=2M. M indicates the number of bearing included in the first set of bearing. N layer represents the total number of levels, corresponding code words, which are tied PP-OP.

M s c P U S C H - i n i t i a l

indicates bandwidth FSC during the initial transfer of a single block transmission.

M s c P U S C H

indicates bandwidth FSC corresponding to the current podkata.

N s y m b P U S C H - i n i t i a l

indicates the number of characters IT FDMA equipment (single multiple access carrier frequency division), employed in one block transfer during the initial transmission.

β o f f s e t P U S C H

indicates the offset of the PP-OP relative to the data of the QMS (modulation schemes and coding),

β o f f s e t . P U S C H = β o f f s e t H A R Q - A C K

where the value

β o f f s e t . H A R Q - A C K

it is reported by way of signal transmission URR (radio resource management) of the highest level. With denotes the number of code blocks. K r is the sum of the number of data bits r-th of the code block, and the number of check-bit ICC (CRC).

403: JSC calculates the number of bits after channel coding PP-OP JSC in accordance with the number Q' modulation of the characters involved PP-JSC OP.

In particular, the number of bits after channel coding PP-OP JSC is calculated in accordance with the number Q' modulation of the characters involved PP-OP JSC obtained at the stage 402, and using equation (2).

Q = Q m x Q ' , ( 2 )

where Q' is the number modulation characters involved PP-OP JSC, Q denotes the number of bits after channel coding PP-OP JSC, and Q m denotes the order modulation.

404: JSC performs channel coding for sorted PP-OP for X descending-bearing in accordance with the number of bits after channel coding PP-OP JSC, impeller seals encoded PP-OP for X descending bearing on FSK data and transmits sealed PP-OP on PEL.

For example, if the source data is sorted from PP-OP for X descending bearing obtained at the stage 401, have 3 bits, and the number of bits after channel coding PP-OP JSC obtained at the stage 403, is 20, then at this stage, when channel coding sorted PP-OP X descending bearing, a 3-bit PP-OP must be coded in 20 bits. Additionally, for example, in the embodiment of the present invention is applied coding of the Republic of Moldova (reed-Muller), and in actual applications can be applied to any other expedient way channel coding in accordance with the special conditions that are not specifically defined.

405: PEL calculates the number modulation characters involved PP-OP, in accordance with the first set of bearing.

At this stage, the first set of bearing coincides with the first set of bearing on the stage 402. If the first set of bearing on the stage 402 is a set of top-down component bearing the subscriber, the first set of bearing at this stage is also set descending bearing component of the subscriber. PEL calculates the number modulation characters involved PP-OP, in accordance with the first collection bearing the same way as on the stage 402, and here he is not described again.

406: In accordance with the number of modulation of the characters involved PP-OP, PEL allocates PP-OP passed JSC, and calculates the number of bits after channel coding, the relevant PP-OP, transferred to JSC.

As PEL gets the number of bits after channel coding, the relevant PP-OP passed JSC, in the same way as JSC, the number of bits after channel coding, which corresponds PP-OP passed JSC, and received PEL, corresponds to the number of bits after channel coding PP-OP JSC received JSC.

407: PEL performs channel decoding transferred PP-OP in accordance with the number of bits after channel coding, the relevant PP-OP passed JSC, and determines PP-OP appropriate to each descending carrier, in accordance with a pre-defined sorting rule.

In particular, channel decoding can be done in relation to the transferred PP-OP by applying the method of decoding, the corresponding channel coding applied at the stage 404; or decoding can be done in any other suitable way, not specifically defined. In addition, a preset rule sort at this stage coincides with the pre-defined rule sort on stage 401. If a preset rule sort on stage 401 is sorting PP-OP many descending bearing in order activation descending bearing, pre-defined rule sort at this stage is definition of PP-OP corresponding to each descending carrier, in order activation descending bearing.

It should be noted that in this embodiment, when the PEL you must deactivate descending bearing, PEL deactivates the descending carrier included in the set descending activated bearing, in order, according to which the carrier activated later deactivated before (for example, when PP-OP X descending bearing sorted in the order in which the descending carrier activated earlier, is ahead, and falling carrier activated later, is located behind, PEL starts deactivation recent downward carrier in the set descending activated bearing). Then JSC repeats steps 401-404 to transfer PP-OP X descending-bearing in accordance with the updated set descending activated bearing.

It should be noted that when the PP-OP X descending bearing sorted in the order in which the descending carrier activated earlier, is ahead, and falling carrier activated later, is located behind, PP-OP descending carrier, activated last, is located on the last place. Descending carrier activated last for an indefinite period of time, usually an OP, and, according to the characteristics of the encoding of the Republic of Moldova, OP, situated on the last place, is not among the encoded bits PP-OP. Therefore, even if performed PEL decoding is assumed that the number of bits GASP-PP, transferred to JSC greater or less than the number of bits GASP PP, which really need to pass through JSC, it is still possible to ensure the correctness of PP-OP, which really must be passed. For example, in the set descending activated bearing there are three activated bearing where the last descending carrier is descending carrier activated later all, and each downward bearing supports spatial grouping PP-OP. Therefore, the total number of bits PP-OP, together coded in accordance with the encoding of the Republic of Moldova, is 3. Suppose that the first two downward bearing need to pass PM, and the last descending carrier passes OP, since she has just been activated and is not planning data. Then three bits transmitted on FSC is 110, and in accordance with the characteristics of the encoding of the Republic of Moldova, 110 bits after encoding corresponding to bits 11 after encoding. Therefore, even if PEL not established that JSC successfully detected activation command descending carrier 3 and updated the total number of bits together encoded PP-OP, and yet decodes transferred PP-OP in accordance with two bits, there is a guarantee that the first two bits are decoded correctly.

501: JSC sorts SUIT every carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing, for example, belong to the set descending activated bearing JSC, X descending bearing can be determined in accordance with a set descending activated bearing JSC, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

Pre-defined rule of sorting can be sorting in order of activation descending-bearing, and, when simultaneously activated many descending carrier, the CLAIM is simultaneously activated many descending bearing can be sorted in accordance with the properties of the descending bearing. Property descending carrier can be the index of the carrier or the carrier frequency. In particular, the CLAIM is simultaneously activated many descending bearing can be sorted in ascending or descending order properties descending bearing. Or a preset rule of sorting can be sorting in ascending or descending order properties descending bearing, the relevant CLAIM and property descending carrier can be the index of the carrier or descending frequency carrier.

In particular, the Corporation may determine the source data LAWSUIT for X descending bearing in set top-down load-bearing in accordance with the set descending activated bearing. Or, for example, OA can further specify whether to inform the SUIT each descending carrier, in accordance with a set descending activated bearing, configuration LAWSUIT, configured the highest levels, and whether to inform non-recurrent SUIT. If you want to inform residual CLAIM, the following defines the appropriate mode of the message, thereby determining the source data LAWSUIT for X descending bearing in set top-down load-carrying and special descending bearing. For example, assume that an updated set descending activated bearing includes three top-down load-bearing, namely CC1, CC2 and CC3 (assume that CC3 - falling carrier activated last). In accordance with the configuration of the CLAIM, configured the highest levels, at this point CC1 and CC3 must report the CLAIM, and, according to their respective configuration parameter of the upper level, CC1 must inform

O 1 And With To

bits and CC3 must inform

O 3 And With To

the bit. Then the number of bits of the source of information LAWSUIT X descending bearing set descending bearing is

O And With To = O 1 And With To + O 3 And With To

. Descending the carriers are specifically CC1 and CC3.

502: JSC calculates the number of modulation of the characters involved, the CLAIM JSC, in accordance with the first set of bearing.

The first collection bearing can be set descending bearing component of the subscriber, the maximum set of top-down load-bearing supported JSC, or a smaller set from the set of top-down component bearing the subscriber and maximum of a set of top-down load-bearing supported JSC. In particular, the Corporation may calculate the number of modulation of the characters involved, the CLAIM JSC, in accordance with the first set of bearing. Or, for example, the Corporation may calculate the number of modulation of the characters involved, the CLAIM JSC, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and whether to inform non-periodic case, by the Formula (3).

Q ' = min ( ⌈ ( O + L ) x M s c P U S C H - i n i t i a l x N s y m b P U S C H - i n i t i a l x N l a y e r x β o f f s e t P U S C H ∑ r = 0 C - 1 K r ⌉ , M s c P U S C H x N s y m b P U S C H x N l a y e r - Q R I Q m ) ( 3 )

Q' denotes the number of modulation of the characters involved the CLAIM of JSC. On indicates the total number of data bits all the ACTION, corresponding to the first set of bearing, and is calculated based on the configuration of the CLAIM, configured the highest levels, the reported whether residual CLAIM, and message mode LAWSUIT configured upper level for descending carrier, the CLAIM which you want to report. N layer represents the total number of levels, corresponding code words to which you are attached to the CLAIM.

M s c P U S C H - i n i t i a l

indicates bandwidth FSC taken in one block transfer during the initial transmission.

M s c P U S C H

indicates bandwidth FSC corresponding to the current podkata.

N s y m b P U S C H - i n i t i a l

indicates the number of characters IT FDMA equipment employed in one block transfer during the initial transmission.

N s y m b P U S C H

indicates the number of characters IT FDMA equipment employed by the current podkatom. L denotes the number of bits ICC, where the value of L is equal to 0 during the encoding of the Republic of Moldova DCC and the value of L is equal to 8 during the convolutional coding DCC.

β o f f s e t . P U S C H

indicates the offset of the COMPLAINT relative to the data of the QMS, where

β o f f s e t . P U S C H = β o f f s e t . C S I

and the value

β o f f s e t . C S I

503: JSC calculates the number of bits after channel coding LAWSUIT JSC in accordance with the number of modulation of the characters involved the CLAIM of JSC.

In particular, the number of bits after channel coding LAWSUIT JSC is calculated in accordance with the number Q' modulation of the characters involved the CLAIM of JSC obtained at the stage 502, and with the help of Formula (4).

Q = Q m x Q ' , ( 4 )

where Q' is the number modulation of the characters involved, the CLAIM JSC, Q denotes the number of bits after channel coding LAWSUIT JSC, Q m denotes the order modulation.

504: JSC performs channel coding for sorted LAWSUIT X descending-bearing in accordance with the number of bits after channel coding LAWSUIT JSC, impeller seals encrypted CLAIM for X descending-bearing and data on FSC and passes concentration on PEL.

In particular, for example, in the embodiment of the present invention, if the number O LAWSUIT (O CSI ) bits of the source of information LAWSUIT X descending bearing less than or equal to 11 bits used to encode the Republic of Moldova, the increase of more than 11 applies convolutional coding. Can be set to any other expedient way of coding in accordance with the actual conditions of use that are not specifically defined.

505: PEL calculates the number modulation characters involved the CLAIM, in accordance with the first set of bearing.

At this stage, the first set of bearing coincides with the first set of bearing on the stage 502. If the first set of bearing on the stage 502 is a set of top-down component bearing the subscriber, the first set of bearing at this stage is also set descending bearing component of the subscriber. PEL calculates the number modulation characters involved the CLAIM, in accordance with the first collection bearing the same way as on the stage 502, and here he is not described again.

506: In accordance with the number modulation characters engaged in a LAWSUIT, PEL allocates the CLAIM submitted JSC, and calculates the number of bits after channel coding, the relevant CLAIM is transferred to the JSC.

As PEL gets the number of bits after channel coding, the relevant CLAIM is transferred to the JSC, in the same way as JSC, the number of bits after channel coding, which corresponds to the CLAIM submitted JSC, and received PEL, corresponds to the number of bits after channel coding the CLAIM of JSC received JSC.

507: PEL performs channel decoding submitted the CLAIM in accordance with the number of bits after channel coding, the relevant CLAIM is transferred to the JSC, and determines the CLAIM corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

In particular, by way channel decoding can be blind detection. How blind detection applies to the following: after receiving the transferred data LAWSUIT, PEL can perform blind decoding the CLAIM in accordance with possible change of the set of activated bearing before or after activation-deactivation of bearing, i.e. to define multiple sets of activated bearing in line with possible variations of the set of activated bearing before or after activation-deactivation of bearing, calculate the number of bits of the initial information of the joint encoding in compliance with each of the certain sets of activated bearing and on the basis of the method for phase 501, then run channel decoding in combination with computed by the number of bits SUIT after joint channel coding and determine decoding with the correct checking the ICC or the maximum likelihood function as output output signal decoding.

In the way of ascending management information under variant of the implementation of the present invention JSC performs channel coding CLAIM for X descending-bearing in accordance with the number of bits after channel coding LAWSUIT JSC and submits a CLAIM for X descending bearing on PEL, thus solving the problem of incorrect decoding PEL together coded SUED because of an inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-coding the CLAIM of many descending bearing. In addition, JSC sorts CLAIM many descending-bearing in accordance with a pre-defined rule sort, so PEL can determine IUI corresponding to each descending carrier. Through the blind detection PEL can continue to solve the problem of incorrect decoding PEL together coded SUED because of an inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-coding the CLAIM of many descending bearing. JSC calculates the number of modulation of the characters involved, the CLAIM JSC, in accordance with the first set of bearing to physical resources available to the CLAIM on FSK not changed with the set descending activated bearing, thereby ensuring that data which is summarized from the COMPLAINT on FSC, normally decoded, and reducing the impact on the quality of data that, in addition, is equivalent to allocating a greater physical resources to the COMPLAINT, transferable, and to improve the transfer rate of the CLAIM.

It should be noted that the steps or 501 401 and stages 402 or 502 can be modified on the basis of option exercise, shown in figure 4, or option exercise, shown in Figure 5, to solve incorrect decoding PEL IUI after joint channel coding because of inconsistent between JSC and PEL idea about the number of bits of the initial information of the joint channel coding VUI many descending bearing resulting from reconfiguration of a set of top-down component bearing the subscriber by sending a signal URR. Modified phase 401 or 501 is as follows:

When JSC detects a reconfiguration of signal transmission URR set HCH, JSC updates the set descending activated bearing; JSC sorts IUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set descending activated bearing, updated JSC, and X descending bearing here are all descending bearing set descending bearing, updated JSC.

Modified phase 402 or 502 is as follows:

JSC calculates the number modulation characters involved IUI JSC, in accordance with the first set of bearing, where the first set of bearing is a maximum set descending-bearing supported JSC, or less among maximum set descending-bearing supported JSC, and the maximum set descending bearing currently supported PEL.

Other processing stages are similar to those in the fifth and sixth variants of implementation, which are not described here again.

601: JSC sorts PP-OP every carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set descending activated bearing JSC and X descending bearing are all descending bearing set descending activated bearing JSC.

Pre-defined rule of sorting can be sorting in order of activation descending-bearing, and, when simultaneously activated multiple top-down load-bearing, PP-OP many descending bearing activated simultaneously, can be sorted in accordance with the properties of the descending bearing, the relevant PP-OP descending bearing. Property descending carrier can be the index of the carrier or descending frequency carrier. In particular, PP-OP activated at the same time many descending bearing can be sorted in ascending or descending order properties descending bearing.

if the requested feedback in the form of PP-OP and PP-OP does not support spatial grouping, each downward carrier corresponds dvuhmestnoe PP or OP. If not requested feedback in the form of PP-OP and PP-OP supports spatial grouping, each downward carrier corresponds OP single-bit; if not requested feedback in the form of PP-OP and PP-OP does not support spatial grouping, each downward carrier corresponds dvuhmestnoe OP. A request for feedback in the form of PP-OP refers to the fact that information about the request feedback in the form of PP-OP, such as data or signal transmission FNUC marking the release of the descending resources Subcommittee found on the carrier.

602: JSC performs channel coding sorted PP-OP for X descending-bearing in accordance with a preset number of bits after channel coding PP-OP JSC, displays impeller encoded PP-OP X descending bearing to the channel FWUC and passes bound PP-OP X descending bearing on PEL.

Pre-defined number of bits after channel coding PP-OP JSC is an integer positive number that can be set, for example, 20. Additionally, this embodiment of the present invention for channel coding is used, for example, the encoding of the Republic of Moldova, and in actual applications can be applied to any other expedient way channel coding in accordance with special conditions, which are not specifically defined.

603: PEL discovers in relation to the transferred PP-OP through the detection of FWUC and determines PP-OP appropriate to each descending carrier, in accordance with a pre-defined sorting rule.

Pre-defined sorting rule at this stage coincides with the pre-defined rule sort on stage 601. Besides, in particular, by way channel decoding during the discovery process transferred PP-OP PEL may be:

implementation channel decoding transferred PP-OP by applying a method that matches the encoding at the stage 602, and in accordance with a preset number of bits after channel coding; or perform decoding by way of a blind decoding, where the way of a blind decoding refers to the following: after taking the data transferred PP-OP PEL can perform blind decoding PP-OP in accordance with possible changes set descending activated bearing before or after activation-deactivation of bearing, i.e. to define multiple sets descending activated bearing in line with possible variations of the set descending activated bearing before or after activation-deactivation of bearing, run channel decoding in accordance with each of the specific sets descending activated bearing in combination with a preset number of bits after channel coding and determine decoding with the maximum likelihood function as output signal decoding.

It should be noted that, if the PEL does not apply a blind decoding to decode the transmitted PP-OP, when the PEL you must deactivate the descending carrier, PEL deactivates the carrier included in the set descending activated bearing, in order, according to which the carrier activated later deactivated before. Then, in accordance with the updated set descending activated bearing JSC, repeat steps 601 and 602 for transmission PP-OP X descending bearing.

It should be noted that when the PP-OP X descending bearing sorted in the order in which the descending carrier activated earlier, is ahead, and falling carrier activated later, is located behind, PP-OP descending carrier, activated last, is located on the last place. Descending carrier activated last for an indefinite period of time, usually an OP, and, according to the characteristics of the encoding of the Republic of Moldova, OP, situated on the last place, is not among the encoded bits PP-OP. Therefore, even if the PEL does the decoding on the basis of a smaller or larger number of bits, it is still possible to ensure the correctness of PP-OP, which really must be passed. For example, in the set descending activated bearing there are three top-down load-bearing where the last descending carrier is descending carrier activated later all, and each downward bearing supports spatial grouping PP-OP. Therefore, the total number of bits PP-OP, together coded in accordance with the encoding of the Republic of Moldova, is 3. Suppose that the first two downward bearing need to pass PM, and the last descending carrier passes OP, since she has just been activated and is not planning data. Then three bits transmitted on FSC is 110, and in accordance with the characteristics of the encoding of the Republic of Moldova, 110 bits after encoding corresponding to bits 11 after encoding. Therefore, even if PEL not established that JSC successfully detected activation command descending carrier 3 and updated the total number of bits together encoded PP-OP, and yet decodes transferred PP-OP on the basis of 2 bits, there is a guarantee that the first two bits are decoded correctly.

In the way of ascending management information under variant of the implementation of the present invention JSC performs channel coding PP-OP X descending-bearing in accordance with a preset number of bits after channel coding PP-OP JSC and passes PP-OP X descending bearing on PEL, thus solving the problem of incorrect decoding PEL together encoded PP-OP due to the inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-encoding PP-OP many descending bearing. In addition, JSC sorts PP-OP many descending-bearing in accordance with a pre-defined rule sort, so PEL can determine PP-OP corresponding to each descending carrier. Furthermore, when the PEL does not apply blind decoding, JSC sorts PP-OP every carrier using the characteristics of the encoding of the Republic of Moldova and in the order activation descending-bearing, and PEL deactivates the descending carrier included in the set descending activated bearing in order, according to which the carrier activated later deactivated before, thereby ensuring the correct decoding PP-OP, which really want to send, even if PEL and JSC inconsistent representation about the total number of data bits together encoded PP-OP, and solving the problem of incorrect decoding PEL together encoded PP-OP due to the inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-encoding PP-OP many descending bearing. If PEL applies blind detection, deactivation of the bearing does not need to be restricted, and the problem of incorrect decoding PEL together encoded PP-OP due to the inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-encoding PP-OP many descending bearing can be removed next.

When JSC has a bottom-up data that you want to send, but has no upstream resources, JSC sends RFP (request planning) PEL, to request the assignment of resources. In scenario associations carrying out specific rising bearing JSC prostatico configured to send the CW and PP-OP. When the CW and PP-OP X descending bearing reported in one ascending frame simultaneously, the CW and PP-OP X descending bearing can be joint channel coding before transmission. Based on the above scenario, related to 7, a variant of the implementation of the present invention provides another way to transfer a rising control information, where the method involves the following stages.

701: JSC sorts RFP and PP-OP for X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set descending activated bearing JSC, and X descending bearing here are all descending bearing set descending bearing JSC.

JSC identifies the origin PP-OP each descending carrier of X descending-bearing in accordance with the method above so that the total number O PP bit of initial information in the X descending bearing the same: O PP =X or O PP =2X. X corresponds to the scenario where PP-OP supports spatial grouping, and 2 corresponds to a scenario where PP-OP does not support spatial grouping. The total number of bits of the initial information of the joint encoding is obtained in accordance with the total number of bits of the initial information in the X descending bearing and the initial data of the RFP.

702: JSC performs channel coding sorted and PP PO OP X descending-bearing in accordance with a preset number of bits after channel coding PP-OP JSC, displays impeller coded and PP PO OP to the channel FWUC and passes attached RFP and PP-OP on PEL.

Stage 702 similar stage 602 and is not described in detail again.

703: PEL discovers transferred to the CW and PP-OP through the detection of FWUC and determines the salary and PP-OP corresponding to each descending carrier.

Stage 703 similar stage 603 and is not described in detail again.

A transfer method ascending management information under variant of the implementation of the present invention is not only solves the problem similar to the problem of option exercise, shown in Fig.6, but also guarantees correct transmission of the RFP.

Illustrated on Fig variant of the implementation of the present invention provides another way to transfer a rising control information, which includes the following stages.

801: JSC takes an activation command-deactivate the carrier and determines whether to activate or deactivate the carrier; in the case of activated carrier adds the newly activated carrier to the initial set descending activated supporting and executing a step 802; in the case of inactive carrier performs 807.

802: JSC sorts PP-OP for each carrier of X descending-bearing in accordance with a pre-defined sorting rule.

Stage 802 similar stage 401 and is not described in detail again.

803: JSC calculates in accordance with the first collection bearing the number modulation characters involved PP-OP JSC, and JSC calculates the number of bits after channel coding PP-OP JSC in accordance with the number of modulation of the characters involved PP-JSC OP.

Stage 802 similar stage 402 and phase 403 and is not described in detail again.

804: JSC performs channel coding sorted PP-OP for X descending-bearing in accordance with the number of bits after channel coding PP-OP JSC, impeller seals encoded PP-OP X descending bearing data on FSC and passes sealed PP-OP X descending bearing on PEL. Stage 804 similar stage 404 not described in detail again.

805: PEL calculates in accordance with the first collection bearing the number modulation characters involved PP-OP, and PEL highlights in accordance with the number of modulation of the characters involved PP-VP, PP-OP passed JSC, and calculates the number of bits after channel coding, the relevant PP-OP, transferred to JSC.

Stage 805 similar stage 405 and stage 406 not described in detail again.

806: PEL performs channel decoding transferred PP-OP in accordance with the number of bits after channel coding, the relevant PP-OP passed JSC, and determines PP-OP appropriate to each descending carrier, in accordance with a pre-defined sorting rule.

Stage 806 similar stage 407 and is not described in detail again.

807: JSC determines expire or at least one internal timer is deactivated carrier; if at least one internal timer is deactivated carrier has expired, performs 808, otherwise performs 802.

808: JSC updates the set descending activated bearing to set descending activated bearing subjected to deactivate, and performs 802.

In the way of ascending management information under variant of the implementation of the present invention in case of activation of bearing JSC using characteristics encoding RM sorts PP-OP each descending carrier in order activation of bearing and always begins deactivation bearing with the last in the set of activated bearing to ensure that even if the base station and JSC have an inconsistent view about the total number of data bits together encoded PP-VP, PP-OP that really want to send, also is decoded correctly, thereby solving the problem of incorrect decoding base station together encoded PP-OP due to the inconsistent between JSC and PEL views about the total number of data bits joint encoding PP-OP many descending bearing. Thus JSC calculates in accordance with the first collection bearing the number modulation characters involved PP-OP X descending bearing to physical resources PP-OP on FSK not changed with the set descending activated bearing to ensure that the data summarized with PP-OP on FSC, decoded correctly, and the impact on the data rate is reduced, which, in addition, is equivalent to allocating a greater physical resources subject to the transfer PP-OP and improve transfer speed PP-OP. If you deactivate the carrier in combination with an internal mechanism deactivation of bearing the problem of incorrect decoding base station together encoded PP-OP due to the inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-encoding PP-OP many descending bearing.

Illustrated figure 9 variant of the implementation of the present invention provides another way to transfer a rising control information, which includes the following stages.

901: JSC accepts the command activation-deactivation carrier in descending podkate n; JSC uses a set descending activated bearing to reception team activation-deactivation of the bearing as the current set descending activated bearing; JSC sorts IUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer and X descending-bearing part of the current set descending activated bearing JSC.

In particular, when the VUI is PP-OP, X outgoing bearing are all descending bearing set descending bearing JSC; when IUI is the LAWSUIT, X descending bearing can be determined in accordance with a set descending activated bearing JSC, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

The process of sorting JSC VUI each descending carrier of X descending-bearing in accordance with a pre-defined sorting rule is similar to phase 401, when IUI is PP-OP, and stage 501, when IUI is the LAWSUIT, and will not be explained here again.

902: JSC passes IUI for X descending bearing on PEL, and PEL processes adopted IUI for X descending bearing.

In particular, when the VUI is PP-OP, stage 902 can be performed by applying the method by stages 502-507.

It should be noted that when JSC applies the way, is similar to phase 402 or 502, to calculate the number of modulation characters involved IUI JSC at this stage, the first set of bearing can then be set down activated bearing before the team activation-deactivation of bearing sent on a downward podkat n; when PEL applies the way, is similar to phase 405 or 505, to calculate the number of modulation of the characters involved IUI at this stage, the first set of bearing can then be set down activated bearing before PEL sends a command to activate-deactivate bearing in descending podkate n.

903: Starting with the first effective rising podkata n+k, JSC uses updated set descending activated bearing (that is, the set down of activated bearing, updated once JSC took command activation-deactivation bearing in descending podkate n) as the current set descending activated bearing, and JSC sorts IUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer and X descending bearing belong to the current set of descending activated bearing JSC. k denotes the number of deferred podkatov, and k is an integer positive number.

The first effective bottom-up podkat n+k refers to the first rising podkata, which shall report to the VUI, and which detects JSC through k podkatov after podkata n, where OA accepts the command activation-deactivation of bearing. The concrete value of k can be chosen in accordance with the actual situation, for example, K greater than or equal to 5.

In particular, when the VUI is PP-OP, X descending bearing are all descending bearing set descending bearing JSC; when IUI is the LAWSUIT, X descending bearing can be determined in accordance with a set descending activated bearing JSC, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

It should be noted that at this stage, starting with the first effective rising podkata n+k, JSC uses the updated set descending activated bearing (that is, the set down of activated bearing, updated once JSC took command activation-deactivation bearing in descending podkate n) as the current set descending activated bearing, as long as there is no need to re-run the update in accordance with the new team activation-deactivation of bearing.

904: JSC passes IUI for X descending bearing on PEL, and PEL processes adopted IUI for X descending bearing.

In particular, when the VUI is PP-OP, stage 904 can be performed by applying the method by stages 401-407 or stages 601-603. When IUI is the CLAIM stage 904 can be performed by applying the method by stages 501-507.

In the way of ascending management information under variant of the implementation of the present invention, when JSC informs VUI, by postponing the execution time of the team activation-deactivation of bearing the problem of incorrect decoding base station together coded IUI because of inconsistent between JSC and PEL view of the number of bits of the initial information of the joint-encoding VUI many descending bearing.

Illustrated figure 10 variant of the implementation of the present invention provides another subscriber equipment, which includes:

the first module 1001 processing rising control information, made with the possibility to sort the VUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set descending activated bearing subscriber equipment, a set of top-down component supporting subscriber equipment at least includes two downstream component of the bearing, and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment;

the first module 1002 to get the number modulation characters, made with the possibility to calculate the number modulation characters involved VUI in accordance with the primary set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and less of a set of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment;

the first module 1003 to get the number of bits after channel coding, made with the possibility, after the first module 1002 to get the number modulation characters will receive a number of modellazione characters involved VUI, calculate the number of bits after channel coding VUI in accordance with the number of modulation of the characters involved IUI; and

the first module 1004 encoding and transmission made with the possibility, after the first module 1003 to get the number of bits after channel coding will get the number of bits after channel coding VUI, run channel coding for sorted IUI for X descending-bearing in accordance with the number of bits after channel coding VUI, display sorted IUI for X descending bearing on the physical channel and transmit sorted IUI for X descending bearing on PEL.

Next, the first module 1001 processing ascending management information is made, in particular, with the possibility, when IUI is information confirmation hybrid automatic repeat request (GASP), sort IUI for all descending bearing set descending activated bearing in accordance with a pre-defined sorting rule.

Next, the first module 1001 processing ascending management information is made, in particular, with the possibility, when IUI is information about the status of the channel (the CLAIM), sorted according to pre-defined rule sort IUI each descending carrier of X descending-bearing, which are determined according to the configuration LAWSUIT over high levels, and if it is reported aperiodic LAWSUIT, where X descending bearing belong to the set descending activated bearing subscriber equipment.

Next, the first module 1001 processing ascending management information includes one the following blocks:

the first sorting unit, made with the possibility to sort the VUI each descending carrier of X descending-bearing in accordance with the ascending order of the properties descending bearing, appropriate prenatal descending bearing where the property descending carrier is the index of the carrier or the carrier frequency;

the second sorting unit, made with the possibility to sort the VUI each descending carrier of X descending-bearing in accordance with the descending ordering properties descending bearing, appropriate prenatal descending bearing where the property descending carrier is the index of the carrier or carrier frequency;

Next, third sorting unit is made, in particular, with the possibility, when IUI each descending carrier of X descending bearing is sorted in accordance with the sequence of activation of nihoyatda bearing, if many descending bearing is activated at the same time, sort VUI many descending bearing activated at the same time, in accordance with the ascending or descending ordering properties of nihoyatda bearing where the property nihoyatda carrier is the index of the carrier or the carrier frequency.

Next, the first module 1002 to get the number modulation of characters includes:

unit for calculating the number of modulation characters, made with the possibility when IUI is information about the status of the channel (the CLAIM), to calculate the number modulation characters involved the CLAIM, in accordance with the first set of bearing, the configuration of the CLAIM, made higher levels, and if it is reported residual CLAIM.

In the subscriber equipment under variant of the implementation of the present invention subscriber equipment performs channel coding IUI for X descending-bearing in accordance with the number of bits after channel coding VUI, and passes IUI for X descending bearing on the base station, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between subscriber equipment and base station views about the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, subscriber equipment sorts VUI many descending-bearing in accordance with a pre-defined rule sort, so that the base station can determine IUI corresponding to each descending carrier.

Illustrated figure 11 variant of the implementation of the present invention provides another subscriber equipment, which includes:

the second module of the processing 1101 rising control information, made with the possibility to sort the VUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is an integer a positive number X descending bearing belong to the set descending activated bearing subscriber equipment;

the second module 1102 encoding and transmission made with the possibility, after the first module of the processing ascending management information sorts IUI each descending carrier of X descending bearing, run channel coding sorted IUI for X descending-bearing in accordance with a preset number of bits after channel coding subscriber equipment, display sorted IUI for X descending bearing on the physical channel and send sorted IUI for X descending bearing on the base station.

Further, when the VUI is information confirmation hybrid automatic repeat request (GASP), X descending bearing are all descending bearing set descending activated bearing subscriber equipment.

Next, the second module of the processing 1101 ascending management information includes:

fourth sorting unit, made with the possibility to sort the VUI each descending carrier of X descending bearing in order activation descending bearing.

Next, fourth sorting unit, in particular, is made so that when IUI for X descending-bearing and request planning (RFP) communicate in one podkata, organize the CW at first, and then arrange prenatal each descending carrier of X descending bearing after the CW in order activation descending bearing.

Further, when the VUI each descending carrier of X descending bearing sorted in the order activation descending-bearing, if multiple descending bearing activated simultaneously, VUI simultaneously activated many descending bearing is sorted in accordance with the properties of the descending of the bearing where the property descending carrier is the index of the carrier or the carrier frequency.

In the subscriber equipment under variant of the implementation of the present invention subscriber equipment performs channel coding source of information IUI for X descending-bearing in accordance with the General initial data IUI for X descending bearing defined on the basis of a set descending activated bearing and pre-specified number of bits of the source of information after channel coding IUI for X descending-bearing, and passes the source of this IUI for X descending bearing on the base station, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between subscriber equipment and base station views about the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, subscriber equipment sorts VUI many descending-bearing in accordance with a pre-defined rule sort, so that the base station can determine IUI corresponding to each descending carrier.

Illustrated on Fig variant of the implementation of the present invention provides another base station, which includes the following:

the first module 1201 get the number modulation characters VUI, made with the possibility to calculate in accordance with the first collection bearing the number modulation characters involved ascending control information (VUI), where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment, and a set of top-down component supporting subscriber equipment at least includes two top-down component bearing;

the first module 1202 get the number of bits after channel coding VUI, made with the possibility after the first module 1201 get the number modulation characters IUI will receive a number of modulation of the characters involved VUI, to select, in accordance with the number of modulation of the characters involved prenatal, prenatal, transferred JSC, and calculate the number of bits after channel coding, the relevant transferred to vertical drainage system; and

the first module 1203 definition VUI, made with the possibility after the first module 1202 get the number of bits after channel coding IUI will get the number of bits after channel coding, the relevant transferred VUI, run channel decoding transferred VUI in accordance with the number of bits after channel coding, the relevant transferred VUI, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Next, the first module 1201 get the number modulation characters IUI includes:

the first block get the number modulation of the symbols of the CLAIM, made with the possibility when IUI is information about the status of the channel (the CLAIM), to calculate the number modulation characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

Further, pre-defined sorting rule includes one of the following rules:

sorting in ascending order properties descending bearing, appropriate prenatal descending bearing where the property descending carrier is the index of the carrier or the carrier frequency;

sorting in descending order properties descending bearing, appropriate prenatal descending bearing where the property descending carrier is the index of the carrier or the carrier frequency;

sorting in order of activation descending bearing.

Further, when a pre-defined sorting rule is that the sort is performed in the order activation descending-bearing, if multiple descending bearing activated simultaneously, VUI many descending bearing activated at the same time, sorted in ascending or descending order properties descending bearing where the property descending carrier is the index of the carrier or the carrier frequency.

In the base station according to the variant of the implementation of the present invention, the base station receives in accordance with the first collection bearing the number modulation characters involved VUI, highlights in according to the number modulation characters involved prenatal, prenatal, transferred to the subscriber's equipment, and retrieves the number of bits after channel coding, the relevant transferred VUI, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between the base station and subscriber equipment representation on the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, the base station can determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Illustrated on Fig variant of the implementation of the present invention provides another base station, which includes the following:

the second module 1301 determine VUI, made with the possibility, in accordance with a preset number of bits after channel coding, relevant rising control information (VUI), you can detect IUI passed JSC, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Next, the second module 1301 determine IUI includes:

the second module 13 01 and determine VUI, made with the possibility when IUI and request planning (RFP) is reported in one podkata, to determine the salary and IUI corresponding to each descending carrier, in order, according to which the salary is first, and then IUI for X descending bearing is positioned after the CW in order activation descending bearing.

In the base station according to the variant of the implementation of the present invention base station discovers IUI transferred to a subscriber's equipment, in accordance with a preset number of bits after channel coding, relevant rising control information (VUI), thus solving the problem of incorrect decoding PEL together coded IUI because of inconsistent between the base station and subscriber equipment representation on the total number of bits of the initial information of the joint-encoding VUI many descending bearing. IUI corresponding to each descending carrier may determine in accordance with a pre-defined sorting rule.

Illustrated on Fig variant of the implementation of the present invention provides a system for the transmission of the rising control information, which includes subscriber equipment 1401 and base station 1402.

Subscriber equipment 1401 includes:

the first module 1401 and processing rising control information, made with the possibility to sort the VUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment at least includes two descending bearing component and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment;

the first module 1402b get the number modulation characters, made with the possibility, in accordance with the first set of bearing to calculate the number modulation characters involved VUI, where the first collection bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment;

the first module 1401c get the number of bits after channel coding, made with the possibility after the first module 1002 get the number modulation characters will receive a number of modulation of the characters involved IUI, to calculate the number of bits after channel coding VUI in accordance with the number of modulation of the characters involved IUI; and

the first module 1401d encoding and transmission made with the possibility after the first module 1003 get the number of bits after channel coding will get the number of bits after channel coding VUI, run channel coding sorted IUI for X descending-bearing in accordance with the number of bits after channel coding VUI, display sorted IUI for X descending bearing on the physical channel and transmit sorted IUI for X descending bearing to the base station 1402.

The base station 1402 includes:

the first module 1402a get the number modulation characters VUI, made with the possibility, in accordance with the first set of bearing to calculate the number modulation characters involved ascending control information (VUI), where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and maximum set descending-bearing supported subscriber equipment, and a set of top-down component supporting subscriber equipment at least includes two top-down component bearing;

the first module 1402b get the number of bits after channel coding, made with the possibility after the first module 1201 get the number modulation characters IUI will receive a number of modulation of the characters involved VUI, to select, in accordance with the number of modulation of the characters involved prenatal, prenatal, transferred JSC, and calculate the number of bits after channel coding, relevant transferred IUI; and

the first module 1402 with definitions VUI, made with the possibility after the first module 1202 get the number of bits after channel coding IUI will get the number of bits after channel coding, the relevant transferred VUI, run channel decoding transferred VUI in accordance with the number of bits after channel coding, the relevant transferred VUI, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

the second sorting unit, made with the possibility to sort the VUI each descending carrier of X descending bearing in descending order properties descending bearing, appropriate prenatal descending bearing where the property descending carrier is the index of the carrier or the carrier frequency;

third sorting unit, made with the possibility to sort the VUI each descending carrier of X descending bearing in order activation descending bearing.

Next, third sorting unit, in particular, is made so that when IUI each descending carrier of X descending bearing sorted in the order activation descending-bearing, if multiple descending bearing activated simultaneously, sort VUI many descending bearing activated at the same time, in ascending or descending order properties descending bearing where the property descending carrier is the index of the carrier or the carrier frequency.

Next, the first module 1402b get the number modulation of characters includes:

the evaluation unit number modulation characters, made with the possibility when IUI is information about the status of the channel (the CLAIM), to calculate the number modulation characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

Next, the first set of bearing can be set descending component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment or less among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment.

Next, the first module 1402a includes:

In the transmission of ascending management information under variant of the implementation of the present invention subscriber equipment performs channel coding VUI in accordance with the number of bits after channel coding IUI and passes VUI to the base station, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between subscriber equipment and base station views about the total number of bits of the initial information of the joint-encoding VUI many descending bearing. In addition, subscriber equipment sorts VUI many descending-bearing in accordance with a pre-defined rule sort, so that the base station can determine IUI corresponding to each descending carrier.

Illustrated on Fig variant of the implementation of the present invention provides a different transmission system ascending management information, which includes subscriber equipment 1501 and base station 1502.

Subscriber equipment 1501 includes:

the second module a processing rising control information, made with the possibility to sort the VUI each descending carrier of X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer and X descending bearing belong to the set descending activated bearing subscriber equipment; and

the second module 1501b encoding and transmission made with the possibility after the second module 1501a processing ascending management information sorts IUI each descending carrier of X descending bearing, run channel coding sorted IUI for X descending-bearing in accordance with a preset number of bits after channel coding VUI, display sorted IUI for X descending bearing on the physical channel and transmit sorted IUI for X descending bearing on the base station 1502.

The base station 1502 includes:

the second module a determine VUI, made with the possibility, in accordance with a preset number of bits after channel coding, relevant rising control information (VUI), you can detect IUI transferred to a subscriber's equipment 1501, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

Next, the second module 1501 and processing ascending management information includes:

fourth sorting unit, made with the possibility to sort the VUI each descending carrier of X descending bearing in order activation descending bearing.

Next, the second module 1501 and processing ascending management information includes:

fifth sorting unit, made with the possibility when IUI for X descending-bearing and request planning (RFP) is reported in one podkata, first arrange the CW, and then arrange prenatal each descending carrier of X descending bearing after the CW in order activation descending bearing.

Further, when the VUI each descending carrier of X descending bearing sorted in the order activation descending-bearing, if multiple descending bearing activated simultaneously, VUI many descending bearing activated at the same time, sorted in accordance with the properties of the descending of the bearing where the property descending carrier can be the index of the carrier or the carrier frequency.

Next, the second module a determine IUI contains:

the second block definition VUI, made with the possibility when IUI and request planning (RFP) is reported in one podkata, to determine the salary and IUI corresponding to each descending carrier, in order, according to which is located in the beginning OT, and then IUI for X descending bearing is positioned after the CW in order activation descending bearing.

In the transmission of ascending management information under variant of the implementation of the present invention subscriber equipment performs channel coding source of information IUI for X descending bearing via a common source of information IUI for X descending bearing defined in accordance with a set descending activated bearing, and through the pre-specified number of bits after channel coding IUI for X descending-bearing, and passes this General IUI for X descending bearing on the base station, thus solving the problem of incorrect decoding base station together coded IUI because of inconsistent between subscriber equipment and base station views about the total number of bits of the initial information of the joint-encoding VUI many descending the bearing. In addition, subscriber equipment sorts VUI many descending-bearing in accordance with a pre-defined rule sort, so that the base station can determine IUI corresponding to each descending carrier.

All contents of the technical solutions presented in the above variants of implementation, or part of it can be implemented with the help of software products and software are stored in readable recording media, such as hard disk, CD-ROM or floppy disk.

The above describes only approximate embodiments of the present invention, and is not intended to limit the present invention. Any modifications equivalent replacements or improvements made in the spirit and principles of the present invention, not depart from the scope of legal protection of the present invention.

1. A transfer method ascending management information containing phases in which: sort (101) subscriber equipment ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sort, while X is an integer a positive number X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment contains at least two top-down component carriers and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment; calculate (102) subscriber equipment number modulation characters involved IUI, in accordance with the first set of bearing; the first set of bearing is one of the following sets: set top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment; calculate (103) subscriber equipment number modulation of characters produced channel coding IUI, in accordance with the number of modulation of the characters involved IUI; and perform (104) subscriber equipment channel coding sorted IUI for X descending bearing in according to the number of bits produced channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing on the base station.

2. The method according to claim 1, wherein, when IUI is information confirmation hybrid automatic repeat request (GASP), X descending bearing are all descending bearing set descending activated bearing.

3. The method according to claim 1, wherein, when IUI is information about the status of the channel (the CLAIM), X descending bearing determined in accordance with the configuration of the CLAIM, configured the highest levels, and reported whether the non-periodic case, X descending bearing belong to the set descending activated bearing subscriber equipment.

4. The method according to claim 1, wherein the predefined rule sorting contains one of the following rules: sorting in ascending order properties descending bearing corresponding IUI; sorting in descending order properties descending bearing corresponding IUI; sorting in order of activation of prenatal.

6. The method according to claim 4, which properties descending bearing are the indices of the carrier or the carrier frequency.

7. The method according to claim 1, wherein, when IUI is information about the status of the channel (the CLAIM), calculation (102) subscriber equipment in the number modulation characters involved IUI, in accordance with the first set of supporting, in particular, contains a stage at which: calculate subscriber equipment number modulation characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

8. A transfer method ascending management information containing phases in which: calculate (301) number modulation characters involved ascending control information (VUI), in accordance with the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment, and set descending component supporting subscriber equipment contains at least two top-down component bearing; emit (302) IUI transferred to a subscriber's equipment, in accordance with the number of modulation of the characters involved VUI, and calculate the number of bits produced channel coding, the relevant transferred IUI; and perform (303) channel decoding transferred VUI in accordance with the number of bits produced channel coding, the relevant transferred VUI, and determine transferred IUI corresponding to each descending carrier, in accordance with a preset the sorting rule.

9. The method of claim 8, wherein, when IUI is information about the status of the channel (the CLAIM), calculated (301) number modulation characters involved IUI, in accordance with the first set of bearing is, in particular: the calculation of the number of modulation of the characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

10. The method of claim 8, in which pre-defined sorting rule contains one of the following rules: sorting in ascending order properties descending bearing corresponding IUI; sorting in descending order properties descending bearing corresponding IUI; sorting in order of activation of prenatal.

11. The method of claim 10, wherein, if multiple descending carrying out X descending bearing activated simultaneously, VUI many descending bearing activated at the same time, sorted in ascending or descending order properties descending bearing.

12. The method according to claim 10, in which properties descending bearing are the indices of the carrier or the carrier frequency.

13. Subscriber equipment that contains: the first module (1001) processing rising control information, made with the possibility to sort ascending control information (VUI) for X descending-bearing in accordance with a pre-defined rule sort, where X is a positive integer, X descending bearing belong to the set top-down component supporting subscriber equipment, a set of top-down component supporting subscriber equipment contains at least two top-down component carriers, and at least one descending, the carrying out of X descending bearing belongs to the set descending activated bearing subscriber equipment; the first module (1002) to get the number modulation characters, made with the possibility to calculate the number modulation characters involved IUI, in accordance with the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among the set top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment; the first module (1003) to get the number of bits after channel coding, made with the possibility after the first module (1002) to get the number modulation characters will receive a number of modulation of the characters involved VUI, calculate the number of bits produced channel coding IUI, in accordance with the number of modulation of the characters involved IUI; the first module (1004) encoding and transmission made with the possibility after the first module (1003) to get the number of bits after channel coding will get the number of bits produced channel coding VUI, run channel coding sorted IUI for X descending-bearing in accordance with the number of bits produced channel coding VUI, display impeller encrypted IUI for X descending bearing on the physical channel and transmit displayed IUI for X descending bearing on the base station.

14. Subscriber equipment indicated in paragraph 13, in which: the first module (1001) processing ascending management information is made, in particular, that when the VUI is information confirmation hybrid automatic repeat request (GASP), sort IUI all down carrying in a set descending activated bearing in accordance with a pre-defined sorting rule.

15. Subscriber equipment indicated in paragraph 13, in which the first module (1001) processing ascending management information is made, in particular, that when the VUI is information about the status of the channel (the CLAIM), sorted according to pre-defined rule sort IUI of X descending-bearing, which is defined based on the configuration of the CLAIM, configured the highest levels, and reported whether residual CLAIM, where X descending bearing belong to the set descending activated bearing subscriber equipment.

16. Subscriber equipment indicated in paragraph 13, in which the first module (1001) processing ascending management information contains one of the following blocks: the first sorting unit, made with the possibility to sort the VUI for X descending bearing in ascending order properties descending bearing, appropriate prenatal descending bearing, where properties descending bearing are the indices of the carrier or the carrier frequency; the second sorting unit, made with the possibility to sort the VUI for X descending bearing in descending order properties descending bearing, appropriate prenatal descending bearing, where properties descending bearing are the indices of the carrier or the carrier frequency; the third sorting unit, made with the possibility to sort the VUI for X descending bearing in order activation descending bearing.

17. Subscriber equipment according to article 16, in which the third sorting unit, in particular, is made so that when IUI for X descending bearing sorted in the order activation descending-bearing, if multiple descending bearing X descending bearing activated simultaneously, sort VUI many descending bearing activated at the same time, in ascending or descending order properties descending bearing, where properties descending bearing are the indices of the carrier or the carrier frequency.

18. Subscriber equipment indicated in paragraph 13, in which the first module to get the number modulation characters contains: a unit of calculating the modulation of characters, made with the possibility when IUI is information about the status of the channel (the CLAIM), to calculate the number modulation characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.

19. Base station that contains: the first module (1201) to get the number modulation characters VUI, made with the possibility to calculate the number modulation of characters employed rising control information (VUI), in accordance with the first set of bearing, where the first set of bearing is one of the following sets: the set of top-down component supporting subscriber equipment, the maximum set of top-down load-bearing supported subscriber equipment, and lower among a host of top-down component supporting subscriber equipment and a maximum set of top-down load-bearing supported subscriber equipment, and a set of top-down component supporting subscriber equipment contains at least two top-down component bearing; the first module (1202) to get the number of bits after channel coding VUI, made with the possibility after the first module (1201) to get the number modulation characters IUI will receive a number of modulation of the characters involved VUI, select IUI transferred to a subscriber's equipment, in accordance with the number of modulation of the characters involved VUI, and calculate the number of bits produced channel coding, the relevant transferred IUI; and the first module (1203) determine the VUI, made with the possibility after the first module (1202) to get the number of bits produced channel coding IUI will get the number of bits after channel coding, the relevant transferred VUI, run channel decoding transferred VUI in accordance with the number of bits produced channel coding, the relevant transferred VUI, and determine IUI corresponding to each descending carrier, in accordance with a pre-defined sorting rule.

20. The base station on p.19, in which the first module (1201) to get the number modulation characters IUI contains: the first block get the number modulation of the symbols of the CLAIM, made with the possibility when IUI is information about the status of the channel (the CLAIM), to calculate the number modulation characters involved the CLAIM, in accordance with the first set of bearing, configuration LAWSUIT, configured the highest levels, and reported whether residual CLAIM.