CN101296021A

CN101296021A - Multi-channel multiplexing transmission method and device

Info

Publication number: CN101296021A
Application number: CNA2007100741672A
Authority: CN
Inventors: 陈小波
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2007-04-28
Filing date: 2007-04-28
Publication date: 2008-10-29
Anticipated expiration: 2027-04-28
Also published as: CN101296021B

Abstract

The embodiment of the invention provides a launch processing method for communication information. By adopting the method of the invention, different sequence modulations or code mappings of different information multiplexed by a transmitting terminal are carried out by using different modulating sequences, thus resulting in the different constellation point distributions of the different information in a plurality of symbols at a common transmission time interval. The invention also provides a receiving processing method corresponding to the launch process method and further provides a launch processing device and a receiving processing device which adopt the methods. By adopting the methods, as the different constellation point distributions of the different information present in a plurality of the symbols at the common transmission time interval, a receiving terminal can better differentiate the multiplexed information which is transmitted at the same time.

Description

Multi-channel multiplexing transmission method and device

Technical field

The present invention relates to wireless communication field, particularly a kind of multi-channel multiplexing transmission technology.

Background technology

Based on OFDM (OFDM, Orthogonal Frequency DivisionMultiplexing) in the uplink single-carrier frequency division multiple access access to wireless communication system of technology, at uplink direction, be the direction of user terminal to the network side emission, user terminal need transmit different upstream control signalings gives network side.For example, in Long Term Evolution (3GPPLTE, 3 of 3G (Third Generation) Moblie partner program project ^RdGeneration Partnership Project Long Term Evolution) in the system, these upstream control signalings have affirmation/deny (ACK/NACK, ACKnowledgement/Non-ACKnowledgement) information, channel quality indication (CQI, Channel Quality Indicator,) information, multiple-input and multiple-output (MIMO, Multiple Input Multiple Output) relevant aerial information, and uplink scheduling solicited message or the like.

Be that example is carried out specific description hereinafter with CQI information and ACK/NACK information.CQI information is used for the downlink channel quality situation of informing user terminal institute perception, carries out link circuit self-adapting and frequency selective scheduling to help network side (base station).Communication system is carried out the feedback of CQI usually according to the distinctive cycle.ACK/NACK information is used for communicating pair and confirms whether communication is successful.In Frequency Division Duplexing (FDD) (FDD, Frequency Division Duplexing) system, if user terminal once receives only a code word, user terminal only feeds back an ACK/NACK at every turn so; If user terminal has once received a plurality of code words, for example adopted the MIMO technology, user terminal can once feed back a plurality of ACK/NACK so.In time division duplex (TDD, Time Division Duplexing) system, user terminal also can once feed back a plurality of ACK/NACK of the data that receive about a plurality of descending moment a up moment.

Whether send CQI information and ACK/NACK information is independent of transmitting uplink data, whether send also separate between these two upstream control signalings.Usually, when certain user terminal has only CQI information to send or has only the ACK/NACK informational needs to send, will transmit on the specific resource that distributes separately for them, corresponding specific resource is called this user's CQI channel or ack channel.When this user terminal had two or more upstream control signalings to launch simultaneously, in order to keep the uplink single-carrier property of 3GPP LTE communication system, these two or more upstream control signalings should carry out multiplexing sending afterwards.Described single-carrier property can guarantee the lower peak-to-average force ratio that transmits, and information transmitted is sent on the identical frequency resource according to same operating process but need simultaneously.

Generally, communication system has certain transmission quality requirements for various control signalings.For example, in the 3GPPLTE system, when ACK/NACK and CQI are multiplexing, the false dismissal probability of ACK should be no more than 1%, NACK should be no more than 0.01% to the false dismissal probability of ACK, the error probability of CQI should be no more than 1%, and (DTX, DiscontinuousTransmission) flase drop is that the probability of ACK should be no more than 1% in the discontinuous transmission of ACK/NACK when the downlink resource assignment signalling is made mistakes.ACK/NACK DTX flase drop was that ACK refers to following a kind of situation when above-mentioned downlink resource assignment signalling was made mistakes: when descending resource allocation signal is not correctly received by the user, the user can not feed back about the corresponding ACK/NACK signaling of the packet of this scheduling, but the base station and do not know this moment the user lost this resource allocation signal.If there is this moment user's periodicity CQI informational needs to transmit just, then the user has in fact only sent CQI information, yet this moment, the mode that transmits can be mixed by ACK/NACK and CQI in the base station, from the pure CQI information that receives, demodulate ACK/NACK information and CQI information, thereby a part of information of CQI is come out as the ACK/NACK demodulates information, and flase drop has gone out ACK.

Situation at the above-mentioned upstream control signaling that two or more is arranged need be launched has proposed a kind of signal method for transmitting in the prior art.In this launching technique: CQI information adopts the OFDM (DFT-S-OFDM based on discrete Fourier transform (DFT), Discrete Fourier Transform-Spread-Orthogonal Frequency Division Multiplexing) the piece spread spectrum transmission structure of technology, when ACK/NACK and CQI transmit simultaneously, with ACK/NACK and CQI at discrete Fourier transform (DFT) (DFT, Discrete Fourier Transform) it is multiplexing to carry out modulation symbol level before, transmits on the CQI of this user terminal channel resource then.This multiplexing transmission mode provides possibility for satisfying above-mentioned ACK/NACK and CQI transmission quality requirements.But said method is a kind of framework of multiplexing transmission mode, and a kind of concrete multiplexing transmission processing method of modulation symbol level also is not provided, and makes receiving terminal can distinguish these multiple connections information transmitted together the time preferably.

Summary of the invention

The main technical problem to be solved in the present invention provides a kind of emission, receiving handling method and device of signal of communication, transmitting terminal transmits multiple connection different information together simultaneously gives receiving terminal, and receiving terminal can be distinguished preferably for these while information transmitted.

Embodiment of the present invention provides a kind of transmission processing method of the communication information, adopt different modulation sequences to carry out different sequence modulation to the multiplexing different information together of transmitting terminal, make described different information in a plurality of symbols of common Transmission Time Interval, present different constellation point and distribute.

Embodiment of the present invention provides a kind of transmission processing method of the communication information, the multiplexing different information together of transmitting terminal are carried out different code word mappings, make described different information in a plurality of symbols of common Transmission Time Interval, present different constellation point and distribute.

The present invention also provides and the corresponding receiving handling method of above-mentioned transmission processing method, and the emission processing unit, the receiving and processing device that use these methods are provided simultaneously.

By said method, because presenting different constellation point in a plurality of symbols of common Transmission Time Interval, described different information distribute, make receiving terminal can distinguish these multiple connections information transmitted together the time preferably.

Description of drawings

Fig. 1 a is the planisphere after the quarternary phase-shift keying (QPSK) QPSK modulation in the prior art;

Fig. 1 b is the schematic diagram of the short CP uplink frame structure of 3GPP LTE system in the prior art;

Fig. 2 is the method flow diagram that adopts sequence modulation in the specific embodiment of the invention;

Fig. 3 is based on the signal emission process schematic diagram of the expansion OFDM structure of discrete Fourier transform (DFT) in the specific embodiment of the invention;

Fig. 4 is schematic diagram based on piece spread spectrum between the user of frame structure shown in Figure 1 in the specific embodiment of the invention;

Fig. 5 a, 5b, 6,7,8 are respectively a kind of PHASE DISTRIBUTION figure through the information after the sequence modulation in the present embodiment;

Fig. 9,10 is respectively a kind of flow chart that adopts the communication signal emitting method of code word mapping in the embodiment of the present invention;

Figure 11 is for comprising the structural representation of the device of sequence modulation module in the embodiment of the present invention;

Figure 12,13 is respectively the structural representation of the device that comprises the code word mapping block in the embodiment of the present invention;

Figure 14 is a kind of flow chart that receives processing in the embodiment of the present invention;

Figure 15 is the another kind of flow chart of handling that receives in the embodiment of the present invention;

Figure 16 a, 16b are respectively the structural representation of a kind of receiving and processing device in the embodiment of the present invention;

Figure 17 is the structural representation of another kind of receiving and processing device in the embodiment of the present invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.

Embodiment one

Embodiment of the present invention provides a kind of transmission processing method of the communication information, adopt different modulation sequences to carry out different sequence modulation to the multiplexing different information together of transmitting terminal, make described different information in a plurality of symbols of common Transmission Time Interval, present different constellation point and distribute.Constellation point is meant the position of complex signal on complex number plane after the modulation.With reference to figure 1a, be the planisphere after quarternary phase-shift keying (QPSK) (QPSK, the Quadrature Phase Shift Keying) modulation, a stain among Fig. 1 a is exactly a constellation point.

The situation of launching simultaneously with 3GPP LTE system and ACK/NACK information and CQI informational needs is an example below, is introduced.

The uplink frame structure of 3GPP LTE system is: when short Cyclic Prefix (CP, Cyclic Prefix), constitute the time slot of a long 0.5ms by 7 continuous OFDM symbols, two continuous time slot constitute the subframe of a long 1ms.OFDM symbol on the frequency domain by wide for the frequency-region signal on the subcarrier of 15kHz constitutes, on time domain, constitute by a plurality of time sampling signals.In this specific embodiment, upstream control signaling takies the running time-frequency resource of N OFDM symbol and M continuous subcarrier in a subframe.Take M continuous subcarrier and mean that upstream control signaling through after the coded modulation, is made of M modulation symbol in the OFDM symbol.

Under the short CP uplink frame structure of above-mentioned 3GPP LTE system, M=12 usually, N=14.With reference to figure 1, be the schematic diagram of a frame structure in this case.Among Fig. 1, comprise the white box of digital i, i is 0 to 11 natural number, represents the OFDM symbol of i non-pilot tone; The grey square frame, expression is as the OFDM symbol of pilot tone; The white box that comprises digital Sj, j is 0 to 11 natural number, represents j modulation symbol in the OFDM symbol.Can see that upstream control signaling is made up of 14 OFDM symbols in a subframe, 2 OFDM symbols are wherein arranged as pilot tone, and each OFDM symbol be made up of 12 modulation symbols.

Provide signal transmission processing method below at above-mentioned frame structure.In the present embodiment, to a certain subscriber equipment, when having only CQI information to send or to have only the ACK/NACK informational needs to send, will in system the proprietary CQI channel or the ack channel transmitted over resources of its distribution; When having ACK/NACK and CQI information to send at the same time, ACK/NACK and CQI adopt the multiplexing back of modulation symbol level to transmit on the CQI of this subscriber equipment channel resource.Like this, to the proprietary CQI channel resource of subscriber equipment, wherein the modulation symbol of some position sends CQI information when this subscriber equipment has only CQI information; When this subscriber equipment has ACK/NACK and CQI information to send simultaneously, the ACK/NACK information behind transmission and the CQI information multiplexing.At both of these case, the ACK/NACK information to same subscriber equipment on the modulation symbol of these positions provides enough discriminations with the CQI transmission of Information by different sequence modulation.

In the process of actual transmissions, the CQI transmission of Information has following two kinds of situations, and a kind of situation is that CQI information original bit is fewer, and after coding and rate-matched, an OFDM symbol that can take in a subframe has been uploaded.Another kind of situation is that CQI information original bit number is more, after coding and rate-matched module, need be divided into a plurality of parts, has uploaded at a plurality of OFDM symbols.This embodiment will be introduced at first kind of situation.

In the description process below, m represents the modulation symbol number that ACK/NACK information takies in an OFDM symbol, and CQI information has taken remaining M-m; N represents the number of the coded information bits that a modulation symbol carries, and promptly ACK/NACK information and CQI information adopt the mode of n contrast system; L represents to be used for the number of the OFDM symbol of pilot transmission, and remaining N-L OFDM symbol is used for ACK/NACK information and CQI transmission of Information.With reference to figure 2, its detailed process is as follows:

Step 101, coding and rate-matched.Wherein, rate-matched is to carry out according to actual conditions are optional.

Concrete, ACK/NACK encoded back output is long for the encoding block of m*n, is designated as A _b={ a _b(0), a _b(1) ..., a _b(m*n-1) }; Output length is the encoding block of M*n bit after CQI information via coding and the rate-matched.

Step 102, punching

Concrete, the length of exporting after CQI process coding and the rate-matched is the encoding block of M*n bit, output is long for the encoding block of (M-m) * n bit after punching again, is designated as C _b={ c _b(0), c _b(1) ..., c _b((M-m) * n-1) }.Hole knockout can be according to the difference of coded system and different, and for example, if adopt convolution code, punching can be that the CQI coded-bit is evenly disperseed punching.

Step 103, modulation.

Concrete, the ACK/NACK information behind the aforementioned process coding is carried out n contrast system, forms m ACK/NACK modulation symbol, is designated as A _s={ a _s(0), a _s(1) ..., a _s(m-1) }; Aforementioned CQI information through punching is carried out n contrast system, forms (M-m) individual CQI modulation symbol, is designated as C _s={ c _s(0), c _s(1) .., c _s(M-m-1) }.

Step 104, sequence modulation.

Concrete, above-mentioned sequence modulation process is: with length is that the sequence of N-L is carried out the operation of similar spread spectrum respectively, the different modulation sequence of modulation symbol employing of different information, the identical modulation sequence of different modulating symbol employing of same information to each modulation symbol.More specifically, to each ACK/NACK modulation symbol a _s(j), j=0,1 ..., m-1 is the modulation sequence P of N-L with length _a={ p _a(0), p _a(1) ..., p _a(N-L-1) } modulate, obtain PA ^j={ p _a(0) a _s(j), p _a(1) a _s(j) ..., p _a(N-L-1) a _s(j) }.This sequence modulation is with each element of modulation sequence and this ACK/NACK modulation symbol and multiplies each other.

Same, to each CQI modulation symbol c _s(j), j=0,1 ..., M-m-1 is the modulation sequence P of N-L with length _c={ p _c(0), p _c(1) ..., p _c(N-L-1) } modulate, obtain PC ^j={ p _c(0) c _s(j), p _c(1) c _s(j) ..., p _c(N-L-1) c _s(j) }

Thereby the sequence modulation module has been exported the individual new modulation symbol of m* (N-L), and wherein, the new modulation symbol of the ACK/NACK of k OFDM symbol is designated as PA ⁰(k), PA ¹(k) ..., PA ^M-1(k), 0≤k≤N-L-1; Exported the new modulation symbol of the individual CQI of (M-m) * (N-L) simultaneously, wherein, the new modulation symbol of the CQI of k OFDM symbol is designated as PC ⁰(k), PC ¹(k) ..., PC ^M-m-1(k), 0≤k≤N-L-1.

Preferable, in the present embodiment, can distinguish aforementioned modulation sequence P at receiver side better in order to make ACK/NACK information and CQI information _aAnd P _cSatisfy mutually orthogonal relation.Below several groups of modulation sequences be exactly the example that satisfies mutually orthogonal relation:

First group of modulation sequence: the sequence of ACK/NACK information correspondence is P _a=1,1,1,1,1,1 ,-1 ,-1 ,-1 ,-1 ,-1, and-1}, the sequence of CQI information correspondence is P _c=1,1,1,1,1,1,1,1,1,1,1,1}.

Second group of modulation sequence: the sequence of ACK/NACK information correspondence is P _a=1 ,-1,1 ,-1,1 ,-1,1 ,-1,1 ,-1,1, and-1}, the sequence of CQI information correspondence is P _c=1,1,1,1,1,1,1,1,1,1,1,1}.

The 3rd group of modulation sequence: the sequence of ACK/NACK information correspondence is P _a=1,1,1 ,-1 ,-1 ,-1 ,-1 ,-1 ,-1,1,1, and 1}, the sequence of CQI information correspondence is P _c=1,1,1,1,1,1,1,1,1,1,1,1}.

The 4th group of modulation sequence: the sequence of ACK/NACK information correspondence is P _a=1,1,1 ,-1 ,-1 ,-1,1,1,1 ,-1 ,-1, and-1}, the sequence of CQI information correspondence is P _c=1,1,1,1,1,1,1,1,1,1,1,1}.

As the sequence such as the P that use one complete 1 _c={ 1,1,1,1,1,1,1,1,1,1,1,1} modulates the modulation symbol of input, is equivalent to one group of modulation symbol of input is carried out repetition, and this moment, this sequence modulation processing procedure can replace with " repetition " in reality realizes.

For dissimilar control signalings, be ACK/NACK information and the CQI information in the present embodiment, between their modulation sequence during mutually orthogonal, can regard dissimilar control signalings to same subscriber equipment as and be on the N-L of mutually orthogonal spreading code in the subframe OFDM symbol of N-L and carry out the spread spectrum operation with length.

Step 105, multiple connection.

Concrete, modulated sequence P _aM the ACK/NACK modulation symbol and the modulated sequence P of same element interaction _cM-m the CQI modulation symbol multiple connection in sequence of that element interaction of same position get up, form a M modulation symbol that the OFDM symbol is required.This certain sequence is meant the order of the modulation symbol position that multiplexing back ACK/NACK and CQI take.

That is the new modulation symbol PA of above-mentioned ACK/NACK, ⁰(k), PA ¹(k) ..., PA ^M-1(k) and the new modulation symbol PC of CQI ⁰(k), PC ¹(k) ..., PC ^M-m-1(k) carry out multiple connection, form M modulation symbol of k OFDM symbol, wherein 0≤k≤N-L-1.

The order of two kinds of information multiple connections can be undertaken by the order that system needs, for example, ACK/NACK information can multiple connection before CQI information, also can multiple connection after, can also multiple connection in the middle of a plurality of modulation symbol sequences of CQI.

For the sake of simplicity, the processing procedure that does not comprise pilot signal in the flow process shown in Figure 2.

The modulation symbol that the process of process above-mentioned steps 101-105 forms is handled according to other signal processing method of the prior art and is formed armed signal, and launches.

For example, in the present embodiment, can adopt the signal emission process of the expansion OFDM based on discrete Fourier transform (DFT) (DFT-S-OFDM, Discrete Fourier Transform-Spread-Orthogonal Frequency Division Multiplexing) structure as shown in Figure 3.This process can be summarized as:

The information via coding and the modulation of step 11, user terminal obtain modulation symbol.

Step 12, this modulation symbol and pilot frequency sequence obtain frequency-region signal through discrete Fourier transform (DFT) (DFT, DiscreteFourier Transform) earlier.

Step 13, by subcarrier mapping will output frequency-region signal be placed on the correspondent frequency resource, obtain frequency band that this correspondent frequency resource of frequency-region signal in the effective system bandwidth promptly forms by continuous subcarrier or the frequency resource that forms of subcarrier uniformly-spaced.

In the aforementioned subcarrier mapping process, for the control signaling, the subcarrier mapping block can be realized the resource occupation mode of upstream control signaling in last lower sideband frequency hopping; For data-signal, the subcarrier mapping block is placed into it on the data resource of system's this moment to this user terminal distribution.

Step 14, form frequency-region signal in the whole transmitted bandwidth by adding empty subcarrier.

Step 15, convert frequency-region signal to time-domain signal by contrary fast fourier transform (IFFT, Inverse Fast Fourier Transform).

Step 16, by adding behind the Cyclic Prefix again by becoming frame module promptly to obtain transmitting of subscriber equipment.The process of step 11-16 is a prior art, thereby does not give unnecessary details at this.

That is to say that in implementation process, after step 101-105 was finished, the modulation symbol that obtains continued execution in step 12-16 again as the described modulation symbol in the above-mentioned steps 12.

Above-described is the signal emission process based on the DFT-S-OFDM structure of a subscriber equipment.In real system, the upstream control signaling that a plurality of subscriber equipmenies can be arranged is multiplexed in the identical upstream control signaling Resource Unit in the mode of code division multiplex.Under upstream control signaling transmission structure, when a plurality of subscriber equipmenies transmit upstream control signaling simultaneously, can realize between the user multiplexing by the mode of piece spread spectrum based on DFT-S-OFDM.With reference to figure 4, provided a schematic diagram based on piece spread spectrum between the user of frame structure shown in Figure 1.Among Fig. 4, represent i non-pilot tone OFDM symbol with the white box of digital i, the grey square frame is with Sk as the OFDM symbol of pilot tone, and the white box of l is represented the 1st element, wherein 1≤l≤6 of the piece spreading code of user k.The length of the piece spreading code of subscriber equipment is 6 among Fig. 4, as can see from Figure 4, piece spread spectrum operation is actually and allows M the modulation symbol of upstream control signaling in an OFDM symbol of subscriber equipment multiply by the piece spreading code element of this subscriber equipment in this OFDM character position correspondence simultaneously between the user.Piece spread spectrum between above-mentioned a plurality of subscriber equipment also is a prior art, thereby does not give unnecessary details at this.

That is to say, in the actual process of transmitting, when a plurality of users are multiplexing, carry out the processing procedure of step 101-105 earlier, carry out the piece spread spectrum operation of the described a plurality of subscriber equipmenies of Fig. 4 again, launch according to the described DFT-S-OFDM emission process of Fig. 3 then.

Previously described is ACK/NACK information and the CQI informational needs situation during multiplexing transmission together, when not having ACK/NACK information, is CQI message processing flow among Fig. 2 at CQI information processing flow process, but does not comprise punching and this two steps processing of multiple connection.

Preferable, to the different values with a kind of information, for example ACK/NACK can use different sequences to modulate when value is respectively ACK and NACK; Modulation symbol to the different values of output after a kind of information via modulation also can use different sequences to modulate.

Provide the method for a concrete example below to explain that above-mentioned signal emission is handled.With reference to the time-domain signal structure chart of upstream control signaling in a subframe shown in Figure 1, M=12, N=14, L=2 in this instantiation, and m=2, n=2.Be that ACK/NACK information after multiplexing takies the 0th and the 1st modulation symbol, and adopt the QPSK modulation.The process of above-mentioned steps 101-105 is specially the process of following step 201-205:

In step 201, coding and the rate-matched module, output length is the encoding block of 4 bits after the encoded and rate-matched of ACK/NACK; Output length is the encoding block of 24 bits after the encoded and rate-matched of CQI.

Step 202, because CQI wants and ACK/NACK is multiplexed on 12 modulation symbol positions, so the punching module is punched into 20 bits of encoded pieces with CQI according to the occupancy mode of ACK/NACK.

Step 203, process modulation module form 2 ACK/NACK modulation symbols and are designated as A _s={ a _s(0), a _s(1) } and 10 CQI modulation symbols, is designated as and C _s={ c _s(0), c _s(1) ..., c _s(9) }.

Step 204, sequence modulation module are carried out sequence modulation.

Concrete, to each ACK/NACK modulation symbol, with length 12 sequence P _a={ 1,1,1,1,1,1 ,-1 ,-1 ,-1 ,-1 ,-1 ,-1} modulation is also promptly multiplied each other with each element and the ACK/NACK modulation symbol of modulation sequence.Like this, phase place and phase place latter half in of the new modulation symbol of each ACK/NACK in the first half of whole subframe is the upset relation, and promptly phase difference is π.To each CQI modulation symbol, with length 12 sequence P _c=1,1,1,1,1,1,1,1,1,1,1, the 1} modulation.The phase place of each new CQI modulation symbol in the first half of whole subframe is identical with phase place in the latter half like this.Thereby sequence modulation module 24 new modulation symbols of ACK/NACK of output and 120 new modulation symbols of CQI constitute the useful information in 12 OFDM symbols in the subframe.

Step 205, by sequence P _a Same element interaction 2 ACK/NACK modulation symbols and by sequence P _cThe order multiple connection of the modulation symbol position that takies by multiplexing back ACK/NACK and CQI of 10 CQI modulation symbols of that element interaction of same position, form 12 modulation symbols that the OFDM symbol is required.

After the processing of present embodiment step 201-205, obtain the PHASE DISTRIBUTION figure in all the available OFDM symbols in the subframe shown in Fig. 5 (a).Available OFDM symbol is meant ..., for example the 0th～2,4～9,11～13 among Fig. 1, totally 12 OFDM symbols.If what this subframe was carried is CQI information, then the modulation symbol constellation point of certain position of all the available OFDM symbols in this subframe has identical phase place and amplitude.Shown in Fig. 5 (a), the phase place of carrying CQI information is

Modulation symbol phase place after sequence modulation all be

When adopting the QPSK modulation,

But value π/4,3 π/4,5 π/4,7 π/4.If what carry is ack/nack signal, then the modulation symbol constellation point phase place of this position of all the OFDM symbols within the first half in this subframe is identical, the modulation symbol constellation point phase place of this position of all the OFDM symbols within the latter half is identical, but the phase overturn that has π between first half and the latter half, i.e. phase phasic difference ± π.

To carrying the 0th and the 1st modulation symbol of ACK/NACK information, their θ value can be identical, also can be different.Suppose identical and θ=π/4 of θ value, ACK/NACK is output as 0000 for ACK behind the time coding in value so, is output as 1111 behind the coding in value during for NACK.With reference to figure 5a, the modulation symbol of certain position is carrying respectively under ACK/NACK information or the CQI information both of these case, when

Or

The time, 6 phase place differences on the modulation symbol are arranged, when

And 12 phase place differences on the modulation symbol are arranged.Among this Fig. 5 a with other upstream control signaling information representation CQI information.

Similarly, Fig. 5 b is that the sequence of ACK/NACK information correspondence is P _a=1,1,1 ,-1 ,-1 ,-1,1,1,1 ,-1 ,-1, and-1}, the sequence of CQI information correspondence is P _c=1,1,1,1,1,1,1,1,1,1,1, the PHASE DISTRIBUTION figure of the information after the modulation during 1}.

Can know by above-mentioned analysis; phase place difference on the modulation symbol; so just between ACK/NACK and other upstream control signaling (as CQI information), provide enough guard spaces, can be fairly simplely when receiver side realizes that the downlink resource assignment signalling is made mistakes ACK/NACK DTX flase drop be that the probability of ACK is less.

Explained later above-mentioned when receiver side realizes that the downlink resource assignment signalling is made mistakes ACK/NACK DTX flase drop be the less detailed process of probability of ACK.At receiver side, the current upstream control signaling kind that sends from a certain subscriber equipment is at first judged in the base station, is ACK/NACK information if this upstream control signaling kind is judged in the base station, then receives this ACK/NACK information on the ack channel resource of this subscriber equipment; If it is CQI information that this upstream control signaling kind is judged in the base station, then on the CQI of this subscriber equipment channel resource, receive this CQI information; ACK/NACK and CQI information be to receive simultaneously if the base station is judged, then ACK/NACK and CQI information received respectively on the channel resource after this subscriber equipment ACK/NACK and CQI are multiplexing.For the reception of multiplexing back ACK/NACK and CQI information, the base station at first will extract the modulation symbol that carries ACK/NACK information and carry CQI information respectively from the time-domain signal of separating out; For the modulation symbol of those positions of carrying ACK/NACK information, the base station need judge whether its constellation point distribution meets the constellation point distribution rule that transmitting terminal is set.Only judge think that these position modulation symbols carry be ACK/NACK information and just think the ACK information that has received feedback from this subscriber equipment when successfully solving ACK in the base station, the constellation point distribution rule when if the base station finds that information that these position modulation symbols carry does not satisfy ACK/NACK information and sends, think that then the ACK/NACK message transmission makes mistakes, even the base station can judge in view of the above that this information may be CQI information, and draws user terminal and receive the conclusion that the downlink resource assignment signalling is made mistakes.When sequence modulation adopt be orthogonal sequence the time, the base station to each information whether meet constellation point respectively the judgement of rule can realize with despreading.

Simultaneously, ACK and the NACK phase place on correspondence position is all inequality, also can guarantee the receptivity of ACK/NACK well.Simultaneously, the modulation symbol that carries certain position of ACK/NACK information all has identical phase place and amplitude in the first half inside of subframe respectively with latter half inside, when the piece spread spectrum of multiuser multiplexing occurs within subframe first half and the latter half, just can not destroy the orthogonality between a plurality of subscriber equipmenies behind the subsequent block spreading code spread spectrum.

Embodiment two

As previously mentioned, in fact the process of the sequence modulation in execution mode one is equal to ACK/NACK modulation symbol and CQI modulation symbol is carried out the phase/amplitude adjustment respectively.This phase/amplitude adjustment makes a certain modulation symbol when carrying two kinds of information respectively, in N-L available OFDM symbol of whole subframe, present different constellation point and distribute, and the distribution of this different constellation point makes receiver side to carry out enough differentiations to two kinds of information.

This embodiment provides a kind of transmission processing method of the communication information, and the different information of transmitting terminal are carried out different code word mappings, makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval and distributes.Be that example describes it in detail with ACK/NACK information, CQI information below.

If aforementioned embodiments one is through satisfying after the sequence modulation: to each ACK/NACK modulation symbol a _s(j), j=0,1 .., m-1 is with its modulation sequence P _aIn any one element p _a(i), i=0,1, K, after the N-L-1 effect, the new modulation symbol p that obtains _a(i) a _s(j) modulation constellation points of the n contrast system that all belongs to ACK/NACK and adopted; To each CQI modulation symbol c _s(j), j=0,1 ..., M-m-1 is with its modulation sequence P _cIn any one element p _c(i), i=0,1 ..., after the N-L-1 effect, the new modulation symbol p that obtains _c(i) c _s(j) modulation constellation points of the n contrast system that all belongs to CQI and adopted.This moment for reach with aforementioned embodiments one in the effect same of sequence modulation, also can before carrying out n contrast system, carry out the code word mapping of coded-bit.A kind of communication signal emitting method that adopts the code word mapping just is provided below, and with reference to figure 9, its process is:

Step 301, coding and rate-matched.Wherein, rate-matched is to carry out according to actual conditions are optional.Identical with step 101, do not give unnecessary details at this.

Step 302, punching.Identical with step 102, do not give unnecessary details at this.

Step 303, code word mapping.

Concrete, the length that the code word mapping will be imported is the ACK/NACK encoding block A of m*n _b={ a _b(0), a _b(1) ..., a _b(m*n-1) } be mapped to the individual long new encoding block A of ACK/NACK of m*n of being of N-L _b ⁰, A _b ¹, K, A _b ^N-L-1With the length of input is the CQI encoding block C of (M-m) * n bit _b={ c _b(0), c _b(1) ..., c _b((M-m) * n-1) } be mapped to that N-L is long to be the new encoding block C of CQI of (M-m) * n bit _b ⁰, C _b ¹, K, C _b ^N-L-1

Wherein, the new encoding block A of ACK/NACK _b ⁱ, i=0,1, K, N-L-1 satisfies: m ACK/NACK modulation symbol A in execution mode one _s={ a _s(0), a _s(1) .., a _s(m-1) } i element p of its modulation sequence of process _a(i), i=0,1, K, the m after the N-L-1 effect new ACK/NACK modulation symbol PA ⁰(i), PA ¹(i) ..., PA ^M-1(i) encoding block is before the modulation of Dui Ying n contrast system constellation point

A_{b}^{i^{'}} = {a_{b}^{i^{'}} (0), a_{b}^{i^{'}} (1), . . ., a_{b}^{i^{'}} (m * n - 1)},

New ACK/NACK encoding block A after code word mapping so _b ⁱBe above-mentioned encoding block A _b ⁱ'.

The new encoding block C of CQI _b ⁱ, i=0,1, K, N-L-1 satisfies: M-m CQI modulation symbol C in execution mode one _s={ c _s(0), c _s(1) ..., c _s(M-m-1) } i element p of its modulation sequence of process _c(i), i=0,1, K, the M-m after the N-L-1 effect new CQI modulation symbol PC ⁰(i), PC ¹(i) ..., PC ^M-m-1(i) encoding block is before the modulation of Dui Ying n contrast system constellation point

C_{b}^{i^{'}} = {c_{b}^{i^{'}} (0), c_{b}^{i^{'}} (1), . . ., c_{b}^{i^{'}} ((M - m) * n - 1)},

New CQI encoding block C after code word mapping so _b ⁱBe above-mentioned encoding block C _b ⁱ'.

For example, in the QPSK modulation of Fig. 1 a, constellation point is carried out the rotation of π phase place can be realized for-1 by the modulation sequence element that is provided with in the execution mode one, also can be in the present embodiment " 00 " bit before the modulation be mapped as " 11 " by code word, " 01 " bit is mapped as " 10 " etc. by code word.

Step 304, modulation.

Concrete, aforementioned through the new encoding block A of ACK/NACK after the code word mapping _b ⁰, A _b ¹, K, A _b ^N-L-1Carry out n contrast system, form the individual ACK/NACK modulation symbol of m* (N-L), wherein by i encoding block A _b ⁱ, i=0,1, K, m the modulation symbol of exporting after the N-L-1 process n contrast system is designated as

A_{s}^{i} = {a_{s}^{i} (0), a_{s}^{i} (1), . . ., a_{s}^{i} (m - 1)};

Aforementioned through the new encoding block C of CQI after the code word mapping _b ⁰, C _b ¹, K, C _b ^N-L-1Carry out n contrast system, form the individual CQI modulation symbol of (M-m) * (N-L), wherein by i encoding block C _b ⁱ, i=0,1, K, (M-m) individual modulation symbol of exporting after the N-L-1 process n contrast system is designated as

C_{s}^{i} = {c_{s}^{i} (0), c_{s}^{i} (1), . . ., c_{s}^{i} (M - m - 1)} .

Step 305, multiple connection.

Concrete, by i ACK/NACK encoding block A _b ⁱ, i=0,1, K, the m that N-L-1 exports after n contrast system ACK/NACK modulation symbol and by i CQI encoding block C _b ⁱ, i=0,1, (M-m) individual modulation symbol multiple connection in sequence that K, N-L-1 export after n contrast system forms i M required modulation symbol of non-pilot tone OFDM symbol.

This certain sequence is the order of the modulation symbol position that takies of multiplexing back ACK/NACK and CQI.Specifically, according to the modulation symbol position that they take, ACK/NACK information can multiple connection before CQI information, also can multiple connection after CQI information, can also multiple connection in the middle of a plurality of modulation symbol sequences of CQI.

Optionally, when the employed modulator approach of step 304 was identical, said method can also replace with, with reference to Figure 10:

Carry out the process of step 305 multiple connection earlier, promptly earlier with i ACK/NACK encoding block A _b ⁱ, i=0,1, K, the m*n of a N-L-1 coded-bit and i CQI encoding block C _b ⁱ, i=0,1, K, n coded-bit multiple connection in sequence of (M-m) * of N-L-1 got up, and carries out the process of step 304 modulation again, obtains i M required modulation symbol of non-pilot tone OFDM symbol.

For the sake of simplicity, the processing procedure that does not comprise pilot signal in Fig. 9 and the flow process shown in Figure 10.

Embodiment three

In the above-mentioned execution mode, a modulation symbol Transmission Time Interval of two kinds of information is isometric, such as all transmitting in a subframe.When every kind of information modulation symbol Transmission Time Interval separately is not isometric, can all press the two modulation sequence of minimum transmission time Design of length at interval, also can all press the two modulation sequence of maximum transmission time Design of length at interval, also can be respectively by the Design of length modulation sequence of modulation symbol Transmission Time Interval separately, in the common Transmission Time Interval of two kinds of information, can carry out enough differentiations as long as guarantee with constellation point.Present embodiment has promptly been described when every kind of information modulation symbol Transmission Time Interval separately is not isometric respectively by the processing mode of the Design of length modulation sequence of modulation symbol Transmission Time Interval separately.

What previous embodiment one, two was introduced is that CQI information original bit is fewer, after coding and rate-matched, and M the situation that continuous subcarrier has passed of an OFDM symbol that can in a subframe, take with upstream control signaling; Present embodiment will be more at CQI information original bit number, after coding and rate-matched module, need be divided into a plurality of parts and it could have been passed, cause ACK/NACK and the CQI information not isometric situation of modulation symbol Transmission Time Interval separately to be introduced at a plurality of OFDM symbols.At this moment, a CQI modulation symbol only transmits on the available OFDM symbol of the part of a frame, and the modulation symbol of ACK/NACK still transmits on the whole available OFDM symbol of a frame.Here, suppose to export the long K that is after CQI information via coding and the rate-matched _c* the encoding block of M*n bit is exported the long K that is after punching _c* the encoding block of (M-m) * n bit, wherein 1＜K _c≤ N-L.

The key step of a specific embodiment of the present invention is identical with the key step 101-103 of aforementioned embodiments one.Be that with the main distinction step 104 replaces with based on the execution mode one of sequence modulation:

Consider that the CQI modulation symbol number that can carry on each OFDM symbol of multiplexing back all is M-m, thereby will be through the K that exports after the n contrast system _c* (M-m) individual modulation symbol C _s={ c _s(0), c _s(1) ..., c _s(K _c* (M-m)-1) } be divided into K _cThe group modulation symbol, every group comprises M-m CQI modulation symbol, and M-m CQI modulation symbol of i group is designated as

C_{s}^{i} = {c_{s}^{i} (0), c_{s}^{i} (1), . . ., c_{s}^{i} (M - m - 1)},

I=0 wherein, 1, K, K _c-1.To M-m CQI modulation symbol C of i group _s ⁱ, suppose that it has taken K at N-L non-pilot tone OFDM symbol that is used for the upstream control signaling transmission of subframe at last _c ⁱIndividual OFDM symbol then has

1 \leq K_{c}^{i} < N - L

And

Σ_{i = 0}^{K_{c} - 1} K_{c}^{i} = N - L .

When doing the sequence modulation,,, be designated as p on all available OFDM symbols of whole subframe so its modulation sequence length is N-L still because the modulation symbol of ACK/NACK is to carry _a(i), i=0,1, K, N-L-1.For CQI, its i organizes M-m CQI modulation symbol

C_{s}^{i} = {c_{s}^{i} (0), c_{s}^{i} (1), . . ., c_{s}^{i} (M - m - 1)}

Only at certain K _c ⁱCarrying on the individual OFDM symbol, is K with length _c ⁱModulation sequence

{P^{i}}_{c} = {{p^{i}}_{c} (0), {p^{i}}_{c} (1), . . ., {p^{i}}_{c} (K_{c}^{i} - 1)}

Modulate, obtain M-m the new modulation symbol of CQI that transmits in each corresponding OFDM symbol.

Step 105 replaces with: according to the position of the OFDM symbol of CQI every group of M-m new modulation symbol of carrying, respectively with corresponding OFDM symbol on the ACK sequence modulation after new modulation symbol multiple connection.

Although two kinds of information this moment modulation sequence length separately is inequality, but still need make two kinds of information of the interior transmission of a subframe to distinguish by the difference of constellation point after the sequence modulation, special, can distinguish by not isometric orthogonal sequence modulation.

Provide a concrete example below to explain above-mentioned signal method for transmitting.

Step 501, coding and rate-matched.The encoding block of output 4 bits after the encoded and rate-matched of ACK/NACK; Different with the encoding block that is output as long 24 bits after the encoded and rate-matched of CQI in the step 201, because the original information bits of CQI information is more, coding and rate-matched module output length 48 bits of encoded pieces.

Step 502, punching.With in the step 202 be with CQI information coded bit punching 20 bits different be to be 40 bits with the punching of CQI information coded bit in this step.

Step 503, modulation.ACK/NACK information is 2 modulation symbols of output after the QPSK modulation; CQI information is 20 modulation symbols of output after the QPSK modulation.

According to the example of different modulation sequences, step 504 sequence modulation afterwards and the process of step 505 multiple connection are described below:

Example one: 20 modulation symbols of step 5041, CQI information are divided into two groups, and 10 every group, first group of interior modulation symbol need be carried on the 0th～2,6～8 the OFDM symbol, and second group of interior modulation symbol need be carried on the 3rd～5,9～11 the OFDM symbol.Every group is all used length is 6 sequence P _c={ 1,1,1,1,1,1} modulates, and obtains 120 new modulation symbols of CQI altogether, 60 every group; 2 modulation symbols use length of ACK information are 12 sequence P _a={ 1,1,1,1,1,1 ,-1 ,-1 ,-1 ,-1 ,-1 ,-1} modulates in whole subframe, obtains 24 new modulation symbols of ACK/NACK.

Step 5051, CQI first group and second group each 10 are placed on the 0th～2,6～8 and the 3rd～5,9～11 the OFDM symbol of subframe respectively and are carried out multiple connection through the new modulation symbol of ACK/NACK that obtains after the sequence modulation on the corresponding OFDM symbol through the new modulation symbol that obtains after the sequence modulation.Can obtain the dissimilar upstream control signaling information shown in Figure 6 PHASE DISTRIBUTION schematic diagram on each OFDM symbol in a subframe this moment, and wherein CQI information informational needs behind modulating-coding could pass with two OFDM symbols.The main feature of PHASE DISTRIBUTION shown in Figure 6 is the modulation symbol for certain position, if what carry is CQI information, then subframe latter half content is the repetition of subframe first half content; If what carry is ACK/NACK information, then has phase phasic difference ± π between identical phase place, subframe first half and the subframe latter half within subframe first half and the latter half.In Fig. 6, the modulation symbol of certain position is carrying respectively under ACK/NACK information and the CQI information both of these case, no matter

With θ value how, still has the phase place difference of 6 modulation symbols at least.

Example two: 20 modulation symbols of step 5042, CQI information are divided into two groups, and 10 every group, first group of interior modulation symbol need be carried on the 0th～5 the OFDM symbol, and second group of interior modulation symbol need be carried on the 5th～11 the OFDM symbol.Every group is all used length is 6 sequence P _c={ 1,1,1,1,1,1} modulates, and obtains 120 new modulation symbols of CQI altogether, 60 every group; 2 modulation symbols use length of ACK information are 12 sequence P _a=1,1,1 ,-1 ,-1 ,-1 ,-1 ,-1 ,-1,1,1,1} or P _a={ 1,1,1 ,-1 ,-1 ,-1,1,1,1 ,-1 ,-1 ,-1} modulates.

Step 5052, CQI first group and second group 10 are placed on the first half of subframe and the latter half respectively through the new modulation symbol that obtains after the sequence modulation and are carried out multiple connection through the new modulation symbol of ACK/NACK that obtains after the sequence modulation on the corresponding OFDM symbol.Just can obtain the PHASE DISTRIBUTION of modulation symbol when carrying dissimilar upstream control signaling of certain position shown in Fig. 7,8 after the multiple connection.

That shown in Figure 7 is P _a={ 1,1,1,-1 ,-1 ,-1,-1 ,-1 ,-1,1,1, the PHASE DISTRIBUTION figure during 1}, main feature is the modulation symbol to certain position, if what carry is ACK/NACK information, then saltus step is arranged and phase overturn between subframe first half and latter half in phase place within subframe first half and the latter half; If what carry is CQI information, what then subframe latter half and first half carried is different modulation symbols.That shown in Figure 8 is P _a={ 1,1,1,-1 ,-1 ,-1,1,1,1,-1,-1, the PHASE DISTRIBUTION figure during-1}, the main feature of PHASE DISTRIBUTION is the modulation symbol to certain position, if what carry is ACK/NACK information, then there is between saltus step and subframe latter half and the first half phase place identical in phase place within subframe first half and the latter half; If what carry is CQI information, what then subframe latter half and first half carried is different modulation symbols.In Fig. 7, Fig. 8, the modulation symbol of certain position is carrying respectively under ACK/NACK information and the CQI information both of these case, no matter

The key step 301,302,304,305 of the key step of another embodiment of the present invention and aforementioned embodiments two is identical.Be that with the main distinction of the execution mode two that shines upon based on code word step 303 replaces with:

Consider that the CQI modulation symbol number that can carry on each OFDM symbol of multiplexing back all is M-m, thereby output length is K after punching _c* the encoding block of (M-m) * n bit is divided into K _cIndividual sub-encoding block, every group all is the long sub-encoding block of (M-m) * n bit that is, and the CQI encoding block of i long (M-m) * n bit is designated as

C_{b}^{i} = {c_{b}^{i} (0), c_{b}^{i} (1), . . ., c_{b}^{i} ((M - m) * n - 1)},

I=0 wherein, 1, K, K _c-1.CQI encoding block C to long (M-m) * n of i bit _b ⁱ, suppose that it has taken K at N-L non-pilot tone OFDM symbol that is used for the upstream control signaling transmission of subframe at last _c ⁱIndividual OFDM symbol then has

1 \leq K_{c}^{i} < N - L

And

Σ_{i = 0}^{K_{c} - 1} K_{c}^{i} = N - L .

When doing the code word mapping, with sub-encoding block C _b ⁱBe mapped to K _c ⁱIndividual long be the new encoding block of CQI of (M-m) * n bit

K,

CQI encoding block C _b ⁱNew encoding block after the code word mapping

I=0,1, K, K _c ⁱ-1 satisfies: M-m CQI modulation symbol of i group in based on the execution mode of sequence modulation

C_{s}^{i} = {c_{s}^{i} (0), c_{s}^{i} (1), . . ., c_{s}^{i} (M - m - 1)}

Through its modulation sequence

{P^{i}}_{c} = {{p^{i}}_{c} (0), {p^{i}}_{c} (1), . . ., {p^{i}}_{c} (K_{c}^{i} - 1)}

Encoding block is before the modulation of the n contrast system constellation point of the M-m after the effect new CQI modulation symbol correspondence

C_{b}^{i^{'}} = {c_{b}^{i^{'}} (0), c_{b}^{i^{'}} (1), . . ., c_{b}^{i^{'}} ((M - m) * n - 1)},

New CQI encoding block after code word mapping so

Be above-mentioned encoding block C _b ⁱ'.

Above method mainly all be that situation at an ACK/NACK of each feedback is introduced.Can have following three kinds of methods to support for the situation that has a plurality of ACK/NACK to feed back simultaneously:

First method be with the K rank or more the different modulating constellation point after the high order modulation represent the different conditions of K ACK/NACK; Second method is to use the some locational modulation symbol after multiplexing to represent at least to each ACK/NACK, means that K ACK/NACK will take the modulation symbol of K diverse location after multiplexing with other upstream control signaling at least this moment; The third method is that above-mentioned two kinds of schemes are combined use.Introduce process under the situation of dibit ACK/NACK with the example of abovementioned steps 501-505 below:

First method is to have four different phase places after the QPSK modulation, and dibit ACK/NACK has four kinds of possible values, and four kinds of possible values are mapped to four outs of phase respectively.Second method is that the 0th modulation symbol carries one bit ACK/NACK raw information, and the 1st modulation symbol carries another bit ACK/NACK raw information.

Embodiment four

The execution mode of front is the process that transmitting terminal such as user terminal are launched, and correspondingly, provides receiver side to receive the process of processing in the present embodiment.In the present embodiment, multiplexing different information together to transmitting terminal adopt different modulation sequences to carry out the solution sequence modulation, the element of described different modulation sequence is the complex conjugate of correspondence position element of the modulation sequence of transmitting terminal, and the modulation sequence of described transmitting terminal makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval to distribute.Still be that example is introduced with ACK/NACK information and CQI channel in the 3GPP LTE system.

To receiver side, the current upstream control signaling kind that will receive from a certain user terminal is at first judged in the base station.Need receive ACK/NACK information from this user terminal if the base station is only judged, then on the ack channel resource of this user terminal, receive ACK/NACK information; Receive CQI information if the base station is judged from this user terminal, then on the CQI of this user terminal channel resource, receive CQI information; To receive ACK/NACK and CQI information simultaneously from this user terminal if the base station is judged, then to receive ACK/NACK and CQI information on the channel resource after this user terminal A CK/NACK and CQI are multiplexing.When needing only reception ACK/NACK information or CQI information, the processing procedure of receiver side is same as the prior art, does not repeat them here.

To the multiplexing back ACK/NACK and the CQI information that receive, receiver side carries out the inverse operation of DFT-S-OFDM operating process shown in Figure 3 earlier, carries out the inverse operation of piece spread spectrum operation between user shown in Figure 4 again, obtains the interior time-domain signal of subframe of multiple connection as shown in Figure 1.The inverse operation of piece spread spectrum operation all is a prior art between the inverse operation of DFT-S-OFDM operating process and user, also repeats no more at this.What introduce below mainly is that receiver side is to the processing procedure through the time-domain signal in the subframe that obtains multiple connection behind the aforesaid operations.The receiver side handling process corresponding with the emission process of execution mode one as shown in figure 14, detailed process is as follows:

Step 1401, separate multiple connection.

Concrete, from the individual modulation symbol of M* (N-L) of N-L OFDM symbol of a subframe, isolate individual CQI modulation symbol of (M-m) * (N-L) and the individual ACK/NACK modulation symbol of m* (N-L) according to the order of multiple connection.

Step 1402, solution sequence modulation.

Concrete, the process of solution sequence modulation is corresponding with the process of transmitting terminal sequence modulation.To the individual CQI modulation symbol of separating of (M-m) * (N-L), the solution sequence modulation module is used with transmitting terminal and is used sequence P _cComplex conjugate sequence p _c ^*Come the solution sequence modulation to obtain M-m CQI modulation symbol.To the individual ACK/NACK modulation symbol of separating of m* (N-L), the solution sequence modulation module is used with transmitting terminal and is used sequence P _aComplex conjugate sequence P _a ^*Come the solution sequence modulation to obtain m ACK/NACK modulation symbol.

To the individual ACK/NACK modulation symbol of separating of m* (N-L), the solution sequence modulation module will judge also whether its constellation point distribution pattern mates the constellation point distribution pattern of the ACK/NACK of transmitting terminal after the sequence modulation operation.If the match is successful, receiver side thinks that m the ACK/NACK modulation symbol that the solution sequence modulation obtains is effective ACK/NACK modulation symbol, continues subsequent operation.If it fails to match, receiver side thinks that m the ACK/NACK modulation symbol that solution sequence modulation obtains is not effective ACK/NACK modulation symbol, and that can stop that subsequent operation and judgement receive is NACK; Perhaps, receiver side thinks and user terminal this moment do not send ACK/NACK, and then judges user terminal and do not receive the corresponding downstream resource allocation signal and this partial information is carried out the solution sequence modulation again as CQI information.

Step 1403, demodulation.

Concrete, ACK/NACK modulation symbol and the CQI modulation symbol through the solution sequence modulation that receive are separated n contrast system.

Step 1404, filling.

Concrete, be filled to the inverse operation of punching, be used to recover the coded-bit of destroying.

Rate-matched is conciliate in step 1405, decoding.Separating rate-matched is to carry out according to actual conditions are optional.

Concrete, the inverse operation of rate-matched for coding and rate-matched conciliate in decoding, ACK/NACK information and CQI information that output receives.

Further illustrate below by a solution sequence modulated process corresponding with step 104 in the embodiment one.

To the individual CQI modulation symbol of separating of (M-m) * (N-L), be the modulation sequence of N-L with length

P_{c}^{*} = {p_{c}^{*} (0), p_{c}^{*} (1), . . ., p_{c}^{*} (N - L - 1)}

Come the solution sequence modulation, wherein sequence P _c ^*Element be the modulation sequence P that transmitting terminal adopts _c={ p _c(0), p _c(1) ..., p _c(N-L-1) } complex conjugate of correspondence position element; The process of solution sequence modulation is with P _c ^*All elements multiply each other with the CQI modulation symbol of separating from the same position of N-L OFDM symbol one by one, addition more just obtains the CQI modulation symbol of a reception.This operation repeats M-m time and just obtains M-m CQI modulation symbol that receives.

To the individual ACK/NACK modulation symbol of separating of m* (N-L), be the modulation sequence of N-L with length

P_{a}^{*} = {p_{a}^{*} (0), p_{a}^{*} (1), . . ., p_{a}^{*} (N - L - 1)}

Carry out the solution sequence modulation, wherein sequence P _a ^*Element be that transmitting terminal adopts modulation sequence P _a={ p _a(0), p _a(1) ..., p _a(N-L-1) } complex conjugate of correspondence position element.The process of solution sequence modulation is: with P _a ^*All elements multiply each other with the ACK/NACK modulation symbol of separating from the same position of N-L OFDM symbol one by one, addition more just obtains the ACK/NACK modulation symbol of a reception.This operation repeats m time and just obtains m ACK/NACK modulation symbol that receives.

If user terminal receives the failure of downlink resource assignment signalling and has sent a pure CQI information, receiver side thinks that user terminal has sent ACK/NACK and CQI information simultaneously, thereby in separating the multiple connection process the individual CQI modulation symbol of m* (N-L) is separated as the ACK/NACK modulation symbol.As sequence P _aAnd P _cWhen mutually orthogonal, after the ACK/NACK modulation symbol of separating being carried out the solution sequence modulation,, can obtain m amplitude and approach 0 modulation symbol if the ACK/NACK modulation symbol that separates is actually the CQI modulation symbol; If in fact the ACK/NACK modulation symbol that separates is exactly the ACK/NACK modulation symbol, can obtain m the modulation symbol that amplitude is very strong so.

If an amplitude thresholding is set for the modulation symbol that receives, only all then thinks effective ACK/NACK modulation symbol, otherwise think invalid ACK/NACK modulation symbol greater than this thresholding in the amplitude of the m that a receives modulation symbol.The probability that the discontinuous transmission flase drop of ACK/NACK is ACK when receiver side just can reduce the downlink resource assignment signalling effectively and makes mistakes like this.

Embodiment five

This embodiment provides the receiver side handling process corresponding with emission process shown in the execution mode two.In the present embodiment, different information to transmitting terminal adopt different decoded word mappings, described decoded word is mapped as the inverse mapping of the mapping ruler that uses in the code word mapping of transmitting terminal, and the code word of described transmitting terminal is shone upon and made described different information present different constellation point distributions in a plurality of symbols of common Transmission Time Interval.Detailed process is as follows:

Step 1501, separate multiple connection.Identical with step 1401, do not give unnecessary details at this.

Step 1502, demodulation.

Concrete, the ACK/NACK modulation symbol and the CQI modulation symbol that receive are separated n contrast system.

Step 1503, decoded word mapping.

Concrete, the decoded word mapping block is the inverse mapping of the mapping ruler that uses in the transmitting terminal code word mapping block, and CQI information after the demodulation of separating and ACK/NACK information are exported CQI coded-bit and the ACK/NACK coded-bit that receives respectively.The decoded word mapping block is to the ACK/NACK information of input, to judge also whether its code word distribution pattern mates the code word distribution pattern of the ACK/NACK of transmitting terminal behind the code word map operation, if the match is successful, receiver side can think that just the ACK/NACK coded-bit that the decoded word mapping obtains is effective ACK/NACK coded-bit, continues subsequent operation; If it fails to match, receiver side thinks that the ACK/NACK coded-bit that the decoded word mapping obtains is not effective ACK/NACK coded-bit, can stop subsequent operation and judge that receive is NACK, even can think that user terminal does not send ACK/NACK and then judges that user terminal does not receive the corresponding downstream resource allocation signal and this partial information is carried out the decoded word mapping again as CQI information this moment.

Step 1504, filling.Identical with step 1404, do not give unnecessary details at this.

Rate-matched is conciliate in step 1505, decoding.Separating rate-matched is to carry out according to actual conditions are optional.Identical with step 1405, do not give unnecessary details at this.

Preferable, if user terminal adopts identical modulation system to ACK/NACK with CQI information, can exchange in the order of receiver side step 1501 and step 1502 so.

By aforesaid execution mode, can realize that ACK/NACKDTX flase drop when the downlink resource assignment signalling is made mistakes is that the probability of ACK satisfies system requirements.

Embodiment six

In this embodiment, provide a kind of transmission signal processing equipment, this device may be user terminal in communication.This device comprises the sequence modulation module, be used for adopting different modulation sequences to carry out different sequence modulation, make described different information in a plurality of symbols of common Transmission Time Interval, present different constellation point and distribute the multiplexing different information together of transmitting terminal.

Described different sequence modulation is specially: adopt mutually orthogonal sequence to carry out described sequence modulation.

In the real work, described sequence modulation module is to cooperate other existing signal processing modules to carry out work, is described in detail below.With reference to Figure 11, Figure 11 is the structure chart that comprises sequence modulation module and other existing modules.Wherein, coding, rate-matched module, be used for to armed unlike signal encode, the processing of rate-matched, a kind of signal in the above-mentioned unlike signal is sent to the punching module, other signals send to modulation module.The punching module is used for processing that the signal that receives is punched, sends to modulation module.Modulation module is used for the processing of modulating for the signal that receives, and sends to described sequence modulation module afterwards.Described sequence modulation module sends to the multiple connection module with signal after handling through sequence modulation.The multiple connection module, the signal multiplexing that is used for handling through sequence modulation gets up to send.

In this embodiment, also provide a kind of emission processing unit of the communication information, this device may be user terminal in communication.This device comprises the code word mapping block, is used for the multiplexing different information together of transmitting terminal are carried out different code word mappings, makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval and distributes.

In the real work, described code word mapping block is to cooperate other existing signal processing modules to carry out work, is described in detail below.With reference to Figure 12, this device comprises: coding, rate-matched module, be used for to armed unlike signal encode, the processing of rate-matched, a kind of signal in the above-mentioned unlike signal is sent to the punching module, other signals send to described code word mapping block.The punching module is used for processing that the signal that receives is punched, sends to the code word mapping block.After signal after described code word mapping block will be handled is issued modulation module and carried out modulation treatment, issue the multiple connection module again and handle.Under the identical situation of the modulation system that different signal is adopted,, after the signal after also the code word mapping block can being handled be issued the multiple connection module earlier and carries out multiple connection and handle, issue modulation module again and carry out modulation treatment with reference to Figure 13.

Through the signal after the above-mentioned resume module, launch after other the existing resume module via emitter again.In practical work process, described signal be based on the uplink single-carrier frequency division multiple access access to wireless communication system of OFDM technology in up control signaling, the for example relevant aerial information of ACK/NACK information, CQI information, MIMO, and uplink scheduling solicited message etc.

Embodiment seven

In this embodiment, provide a kind of signal receiving and processing device, for example the base station.Comprise: the solution sequence modulation module, this module is used for adopting different modulation sequences to carry out the solution sequence modulation to the multiplexing different information together of transmitting terminal, the element of described different modulation sequence is the complex conjugate of correspondence position element of the modulation sequence of transmitting terminal, and the modulation sequence of described transmitting terminal makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval to distribute.

In reality communication, this solution sequence modulation mould and other existing module are worked together, finish receiving course, with reference to figure 16a, be the structural representation of sort signal receiving and processing device, wherein, separate the multiple connection module, be used for separating to the received signal multiple connection, send to described solution sequence modulation module afterwards.Demodulation module is used for the different information that described solution sequence modulation module sends out are carried out demodulation, and partial information sends to packing module, and other information sends to decoding and conciliates the rate-matched module.Packing module is used for the partial information of demodulation module output is recovered the coded-bit of destroying, and sends to decoding and conciliates the rate-matched module.The rate-matched module is conciliate in decoding, is used for the information that the receives reconciliation rate-matched of decoding is obtained the different information of transmitting terminal output.

Be that ACK/NACK information and CQI information are example in the 3GPP LTE system with described different information below, this signal receiving and processing device further comprises, with reference to figure 16b: judge module, be connected with the solution sequence modulation module, be used to judge whether the constellation point distribution pattern of the ACK/NACK information of solution sequence modulation module output mates the constellation point distribution pattern of the ACK/NACK of transmitting terminal after the sequence modulation operation, if the match is successful, then send the instruction that continues subsequent operation; If it fails to match, then send and stop subsequent operation and judge that what receive is the instruction of NACK, perhaps, sends the instruction of this partial information being carried out again the solution sequence modulation as CQI information.

In this embodiment, also provide a kind of receiving and processing device of the communication information, for example the base station.This device comprises the decoded word mapping block, this module is used for the multiplexing different information together of transmitting terminal are adopted different decoded word mappings, described decoded word is mapped as the inverse mapping of the mapping ruler that uses in the code word mapping of transmitting terminal, and the code word of described transmitting terminal is shone upon and made described different information present different constellation point distributions in a plurality of symbols of common Transmission Time Interval.

In reality communication, this decoded word mapping block and other existing module are worked together, finish receiving course, do not give unnecessary details at this.

Be that ACK/NACK information and CQI information are example in the 3GPP LTE system with described different information below, this signal receiving and processing device further comprises,: judge module, be connected with the decoded word mapping block, be used to judge the code word distribution pattern whether the code word distribution pattern of input ACK/NACK information mates the ACK/NACK of transmitting terminal behind the code word map operation, if the match is successful, then send the instruction that continues subsequent operation; If it fails to match, then send and stop subsequent operation and judge that what receive is the instruction of NACK, perhaps, sends the instruction of this partial information being carried out again the solution sequence modulation as CQI information.

Though pass through with reference to some of the preferred embodiment of the invention, the present invention is illustrated and describes, but those of ordinary skill in the art should be understood that and can do various changes to it in the form and details, and without departing from the spirit and scope of the present invention.For example, the information that same user needs to send simultaneously or receive is not limited to two kinds, and multiplexing to more than two kinds of information also can be adopted similar foregoing mode; Also for example, the above-mentioned information that needs to send can be different upstream control signalings, except that ACK/NACK information, CQI information, also has the relevant aerial information of MIMO, and the uplink scheduling solicited message or the like.

Claims

1, a kind of transmission processing method of the communication information, it is characterized in that, adopt different modulation sequences to carry out different sequence modulation to the multiplexing different information together of transmitting terminal, make described different information in a plurality of symbols of common Transmission Time Interval, present different constellation point and distribute.

2, method according to claim 1 is characterized in that, described different information are the upstream control signaling that terminal is issued the base station.

3, method according to claim 2 is characterized in that, described upstream control signaling is specially confirms/deny ACK/NACK information, channel quality indicator (CQI) information, resource request information.

4, method according to claim 1 is characterized in that, described different modulation sequence is specially: mutually orthogonal modulation sequence.

5, method according to claim 1 is characterized in that, this method further comprises:

When described different information modulation symbol tti length separately was identical, the length of described modulation sequence was consistent with the length of described modulation symbol Transmission Time Interval.

6, method according to claim 1 is characterized in that, this method further comprises:

When described different information modulation symbol tti length separately was inequality, the length of described modulation sequence was consistent with the length of the shortest modulation symbol Transmission Time Interval; Perhaps, the length of the length of described modulation sequence and the longest modulation symbol Transmission Time Interval is consistent; Perhaps, the length of described different information described modulation sequence separately and described different information modulation symbol tti length unanimity separately.

7, method according to claim 1 is characterized in that, this method further comprises:

A kind of modulation sequence in the described different modulation sequence directly carries out repetition to prime information when being 1 sequence entirely with element.

8, method according to claim 1 is characterized in that, described different information present different constellation point distributions and are specially in a plurality of symbols of common Transmission Time Interval:

A kind of described constellation point of information is distributed as in a plurality of symbols of described common Transmission Time Interval has identical phase place and amplitude; The described constellation point of another kind of information is distributed as in the forward part symbol of a plurality of symbols of described common Transmission Time Interval with in the symbol of rear section has identical phase place and amplitude, has the phase overturn of π between described forward part symbol and described rear section symbol.

9, method according to claim 1 is characterized in that, this method further comprises:

When a kind of information in the described different information has different value, adopt different sequences to modulate to described different values.

10, method according to claim 1 is characterized in that, the processing method of this information emission also comprises:

Before the step of described sequence modulation, described different information are encoded, punched and modulate;

After the step of described sequence modulation, the different information through sequence modulation are carried out multiple connection.

11, a kind of transmission processing method of the communication information is characterized in that, the different information of transmitting terminal are carried out different code word mappings, makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval and distributes.

12, method according to claim 11 is characterized in that, described different information are the upstream control signaling that terminal is issued the base station.

13, method according to claim 12 is characterized in that, described upstream control signaling is specially confirms/deny ACK/NACK information, channel quality indicator (CQI) information, resource request information.

14, method according to claim 11 is characterized in that, described different information present different constellation point distributions and are specially in a plurality of symbols of common Transmission Time Interval:

15, method according to claim 11 is characterized in that, the processing method of this information emission also comprises:

Before described code word mapping steps, described different information are encoded, punched;

After described code word mapping steps, to the different information through code word mapping modulate, multiple connection.

16, a kind of emission processing unit of the communication information, it is characterized in that, this device comprises the sequence modulation module, is used for the different information of transmitting terminal are carried out different sequence modulation, makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval and distributes.

According to the emission processing unit of claim 16, it is characterized in that 17, described different sequence modulation is specially: adopt mutually orthogonal sequence to carry out described sequence modulation.

18, a kind of emission processing unit of the communication information, it is characterized in that, this device comprises the code word mapping block, is used for the different information of transmitting terminal are carried out different code word mappings, makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval and distributes.

19, a kind of receiving handling method of the communication information, it is characterized in that, adopt different modulation sequences to carry out the solution sequence modulation to the multiplexing different information together of transmitting terminal, the element of described different modulation sequence is the complex conjugate of correspondence position element of the modulation sequence of transmitting terminal, and the modulation sequence of described transmitting terminal makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval to distribute.

20, method according to claim 19 is characterized in that,

When described different information are ACK/NACK information, CQI information, after the solution sequence modulation, this method further comprises, judges whether the constellation point distribution pattern of the ACK/NACK information of solution sequence modulation module output mates the constellation point distribution pattern of the ACK/NACK of transmitting terminal after the sequence modulation operation; If the match is successful, then continue subsequent operation;

If it fails to match, then stop subsequent operation and judge that receive is NACK, perhaps, carries out this partial information as CQI information the process of above-mentioned solution sequence modulation again.

21, a kind of receiving and processing device of the communication information, it is characterized in that, this device comprises: the solution sequence modulation module, this module is used for adopting different modulation sequences to carry out the solution sequence modulation to the multiplexing different information together of transmitting terminal, the element of described different modulation sequence is the complex conjugate of correspondence position element of the modulation sequence of transmitting terminal, and the modulation sequence of described transmitting terminal makes described different information present different constellation point in a plurality of symbols of common Transmission Time Interval to distribute.

22, receiving and processing device according to claim 21 is characterized in that,

When described different information are ACK/NACK information, CQI information, this signal receiving and processing device further comprises: judge module, be connected with described solution sequence modulation module, be used to judge whether the constellation point distribution pattern of the ACK/NACK information of solution sequence modulation module output mates the constellation point distribution pattern of the ACK/NACK of transmitting terminal after the sequence modulation operation, if the match is successful, then send the instruction that continues subsequent operation; If it fails to match, then send and stop subsequent operation and judge that what receive is the instruction of NACK, perhaps, sends the instruction of this partial information being carried out again the solution sequence modulation as CQI information.

23, a kind of receiving handling method of the communication information, it is characterized in that, multiplexing different information together to transmitting terminal adopt different decoded word mappings, described decoded word is mapped as the inverse mapping that institute in the code word mapping of transmitting terminal uses mapping, and the code word of described transmitting terminal is shone upon and made described different information present different constellation point distributions in a plurality of symbols of common Transmission Time Interval.

24, method according to claim 23 is characterized in that,

When described different information are ACK/NACK information, CQI information, after the process of described decoded word mapping, this method further comprises, the code word distribution pattern whether the code word distribution pattern of judgement input ACK/NACK information mates the ACK/NACK of transmitting terminal behind the code word map operation; If the match is successful, then continue subsequent operation;

If it fails to match, then stop subsequent operation and judge that receive is NACK, perhaps, carries out this partial information as CQI information the process of above-mentioned decoded word mapping again.

25, a kind of receiving and processing device of the communication information, it is characterized in that, this device comprises: the decoded word mapping block, this module is used for the multiplexing different information together of transmitting terminal are adopted different decoded word mappings, described decoded word is mapped as the inverse mapping that institute in the code word mapping of transmitting terminal uses mapping, and the code word of described transmitting terminal is shone upon and made described different information present different constellation point distributions in a plurality of symbols of common Transmission Time Interval.

26, receiving and processing device according to claim 25 is characterized in that, when described different information were ACK/NACK information, CQI information, this device further comprised:

Judge module, be connected with the decoded word mapping block, be used to judge the code word distribution pattern whether the code word distribution pattern of the ACK/NACK information of decoded word mapping block input mates the ACK/NACK of transmitting terminal behind the code word map operation,, then send the instruction that continues subsequent operation if the match is successful; If it fails to match, then send and stop subsequent operation and judge that what receive is the instruction of NACK, perhaps, sends the instruction of this partial information being carried out again the decoded word mapping as CQI information.