CN109995464A

CN109995464A - Method, apparatus, electronic equipment and the storage medium of detection processing

Info

Publication number: CN109995464A
Application number: CN201711485051.8A
Authority: CN
Inventors: 王姗; 池连刚; 冯绍鹏
Original assignee: Putian Information Technology Co Ltd
Current assignee: Potevio Information Technology Co Ltd; Putian Information Technology Co Ltd
Priority date: 2017-12-29
Filing date: 2017-12-29
Publication date: 2019-07-09
Anticipated expiration: 2037-12-29
Also published as: CN109995464B

Abstract

The embodiment of the present invention provides method, apparatus, electronic equipment and the storage medium of a kind of detection processing.The radio frames sent the method includes receiving UE, the attribute of the radio frames are to support PUCCH and PUSCH conflict, and the radio frames include the data of PUSCH；If the data of PUCCH are known the radio frames not and include in judgement, the data of the PUSCH are detected.The method pass through judge the radio frames whether include PUCCH data, when not including the data of PUCCH, the data of detection radio frames all PUSCH for including realize the data for the PUSCH that complete parsing UE is sent, thus correctly progress PUSCH decoding.

Description

Method, apparatus, electronic equipment and the storage medium of detection processing

Technical field

The present embodiments relate to a kind of field of communication technology, especially a kind of method, apparatus of detection processing, electronics are set Standby and storage medium.

Background technique

LTE (Long Term Evolution, long term evolution) is used as 4G (4rd-Generation, forth generation mobile communication Technology) mainstream technology provide the user the data transmission service of high speed.

In some application scenarios based on LTE technology, for example the acquisition of Power System Intelligent electric network data, downlink transfer are adopted Collection instruction, the collected various types data of uplink, the data volume that uplink need to be transmitted is bigger, that is, PUSCH (Physical Uplink Shared Channel, Physical Uplink Shared Channel) needs support the big TB (transport of uplink Block, transmission block), the scene of depth covering, while in order to support downlink PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) HARQ (ask by Hybrid Automatic Repeat request, mixed automatic retransfer Ask), it needs to feed back by PUCCH (Physical Uplink Control Channel, physical uplink control channel) PDSCH decodes result.

In the prior art in order to reduce PDSCH HARQ time delay, frequency domain resource is made full use of, needs support single user/multi-purpose Family PUCCH and PUSCH simultaneous transmission.

In electric power multi-sub-band system, frequency domain resource has multiple subbands, and each subband bandwidth is identical, such as: each subband There are 25KHz bandwidth, 11 subcarriers, multi-sub-band system shares 480 subbands.

For a PDCCH (Physical Downlink Control Channel, physics in electric power multi-sub-band system Down control channel) scheduling PUSCH transmission, in order to support big TB block, single TB block can with resource impact to it is multiple wirelessly On frame, while multiplicating transmission can also be carried out, to support depth to cover.

Wherein, ACK/NACK (Acknowledgement, correct response)/(Negative of PDSCH ACKnowledgment, negative response) information by PUCCH channel to NodeB (base station) feed back.In order to reduce PDSCH HARQ Time delay needs to pass through PUCCH channel in time to NodeB feeding back ACK/nack message when PDSCH decoding result comes out.? When PUCCH transmission and same user or the ongoing PUSCH transmission of other users generate conflict, adjustment PUSCH user's hair Scheme is penetrated, these PUSCH users is made to vacate the running time-frequency resource of PUCCH data occupancy, is avoided because PUCCH and PUSCH data account for Cause the problem of base station PUSCH detection mistake with identical running time-frequency resource.

For example, UE and base station use following scheme in the radio frames that PUCCH and PUSCH conflict in the prior art:

1) during for PUSCH, this is transmitted, there are adjacent duplicate radio frames completely, the subband that UE is distributed according to PUSCH Number carries out rate-matched, but the PUSCH data that should be mapped in the radio frames of the conflict are not sent.

Accordingly, as the detection scheme of the base station of receiving end are as follows: these transmittings of nonjoinder when PUSCH symbol level merges Received soft symbol in the resource not emitted is held, i.e. the merging number of these soft symbols is fewer than other soft symbols once or several times；

2) in this transmission of PUSCH, there is no adjacent duplicate radio frames, UE completely can actually make according to PUSCH Sub-band number carries out rate-matched and resource impact.

Accordingly, as the PUSCH detection scheme of the base station of receiving end are as follows: normally merge after solving rate-matched.

In addition, the radio frames that PUCCH and PUSCH do not conflict then are emitted according to PUSCH normal transmission scheme, I.e. in the radio frames of this PUSCH transmission of UE, base station carries out rate-matched and resource impact according to the sub-band number of distribution.

In the prior art, if the attribute of the radio frames is to support PUCCH and PUSCH conflict.UE in PUCCH and PUSCH adjusts transmission scheme when conflicting, base station can have the following problems when receiving: when UE is in detection dispatching downlink PDSCH In PDCCH licensing process, due to bad channel quality etc., may cause detection failure, UE will not on PUCCH feedback letter Breath, this UE or other UE may normally send PUSCH data in the radio frames and subband that should send PUCCH.From From the perspective of NodeB, such case is exactly DTX (Discontinuous Transmissio, discontinuous transmission).DTX occurs When in the radio frames and subband UE that should send PUCCH be not sent further on PUCCH, according to the dispatch situation of PUSCH, this UE or Other UE may normally send PUSCH data in the radio frames and subband that should send PUCCH.NodeB and do not know at this time Road DTX, therefore NodeB appoints launch scenario when so conflicting according to PUCCH and PUSCH to detect PUSCH and PUCCH.It can drop in this way Low PUSCH detects decoding performance, it is likely that will lead to PUSCH decoding error.

Detection scheme is there are adjacent duplicate radio frames completely, and base station is considered PUCCH data, does not participate in PUSCH number According to merging, only merge except should be lost part by the data of the PUSCH in addition to the occupancy resource of PUCCH, amalgamation result PUSCH data, the part are the occupancy that should be PUCCH, but because the practical data for being PUSCH of DTX situation.

For example, Adjusted Option of the UE when PUCCH and PUSCH conflicts, specially PUCCH occupy the 2nd subframe Preceding 4 SC-FDMA symbols, PUSCH occupy remaining OFDM symbol and remaining sub-frame of uplink of the 2nd subframe.

When UE is due to detection error, the preceding 4 SC-FDMA symbols for the 2nd subframe that PUCCH should be occupied are accounted for by PUSCH With, therefore PUSCH occupies all sub-frame of uplink resources.And the detection mode of base station is by preceding 4 SC- of the 2nd subframe FDMA symbol participates in PUSCH merging as PUCCH, not as the data of PUSCH, is lost this 4 SC-FDMA symbols PUSCH data.

It is understood that no matter base station is detected in which way, be all unable to get the practical data sent of UE, i.e., it is all PUSCH data, if there are adjacent duplicate radio frames completely by this radio frames PUSCH, because base station do not know DTX feelings Condition, which has abandoned part, can participate in the data transmitted on combined PUSCH SC-FDMA symbol；If this radio frames PUSCH is not deposited A part of PUSCH SC-FDMA has directly been abandoned then because base station does not know DTX situation in adjacent duplicate radio frames completely The data transmitted on symbol.Both of which reduces PUSCH detection performance, so as to will lead to PUSCH decoding error.

Currently, there are no corresponding methods to solve the above problems for the prior art.

Summary of the invention

In view of the drawbacks of the prior art, the embodiment of the present invention provide the method, apparatus of detection processing a kind of, electronic equipment and Storage medium.

On the one hand, the embodiment of the present invention provides a kind of method of detection processing, which comprises

The radio frames that UE is sent are received, the attribute of the radio frames is to support PUCCH and PUSCH conflict, the radio frames Data including PUSCH；

If the data of PUCCH are known the radio frames not and include in judgement, the data of the PUSCH are detected.

On the other hand, the embodiment of the present invention provides a kind of device of detection processing, and described device includes:

Receiving module, for receiving the radio frames of UE transmission, the attribute of the radio frames is to support PUCCH and PUSCH punching Prominent, the radio frames include the data of PUSCH；

Detection module, if for judge to know the radio frames not include PUCCH data, detect the PUSCH's Data.

On the other hand, the embodiment of the present invention also provides a kind of electronic equipment, including memory, processor, bus and deposits The computer program that can be run on a memory and on a processor is stored up, the processor is realized when executing described program with top The step of method.

On the other hand, the embodiment of the present invention also provides a kind of storage medium, is stored thereon with computer program, described program The step of method as above is realized when being executed by processor.

As shown from the above technical solution, it the method, apparatus of detection processing provided in an embodiment of the present invention, electronic equipment and deposits Storage media, the method pass through judge the radio frames whether include PUCCH data, when not including the data of PUCCH, examine The data for all PUSCH that radio frames include are surveyed, the data for the PUSCH that complete parsing UE is sent are realized, to correctly carry out PUSCH decoding.

Detailed description of the invention

Fig. 1 is a kind of flow diagram of the method for detection processing provided in an embodiment of the present invention；

Resource when Fig. 2 is a kind of PUCCH non-duplicate transmission for the method for detection processing that further embodiment of this invention provides Map schematic diagram；

Fig. 3 is that resource is reflected when a kind of PUCCH of the device for detection processing that further embodiment of this invention provides repeats to send Penetrate schematic diagram；

Fig. 4 is a kind of resource impact when sending without PUCCH of the method for detection processing that further embodiment of this invention provides Schematic diagram；

Fig. 5 is a kind of flow diagram of the method for detection processing that further embodiment of this invention provides；

Fig. 6 is a kind of flow diagram of the method for detection processing that further embodiment of this invention provides；

Fig. 7 is a kind of flow diagram of the method for detection processing that further embodiment of this invention provides；

Fig. 8 is a kind of flow diagram of the method for detection processing that further embodiment of this invention provides；

Fig. 9 is a kind of being calculated using demodulated reference signal for the method for detection processing that further embodiment of this invention provides PUSCH/PUCCH equivalent signal-to-noise ratio flow diagram；

Figure 10 is the portion of the detection conflict user PUSCH of the method for detection processing that further embodiment of this invention provides a kind of Split flow figure；

Figure 11 is a kind of structural schematic diagram of the device for detection processing that further embodiment of this invention provides；

Figure 12 is the structural schematic diagram for a kind of electronic equipment that further embodiment of this invention provides.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical solution in the embodiment of the present invention is explicitly described, it is clear that described embodiment is the present invention Embodiment a part of the embodiment, instead of all the embodiments.

Fig. 1 shows a kind of flow diagram of the method for detection processing provided in an embodiment of the present invention.

As shown in Figure 1, method provided in an embodiment of the present invention specifically includes the following steps:

Step 11 receives the radio frames that UE is sent, and the attribute of the radio frames is to support PUCCH and PUSCH conflict, described Radio frames include the data of PUSCH；

Optionally, the configuration information and UE that UE is sent in advance according to base station know radio frames to the testing result of PDCCH Attribute, UE send the radio frames of the attribute of corresponding radio frames to base station.

Optionally, the attribute of radio frames includes supporting PUCCH and PUSCH conflict, and PUCCH and PUSCH is not supported to rush It is prominent.

Optionally, PUCCH is used for feeding back ACK/nack message, and PUSCH is used for uplink TB block, in certain application scenarios In, in order to reduce PDSCH HARQ time delay, need to pass through PUCCH channel in time when PDSCH decoding result comes out anti-to base station ACK/NACK information is presented, PUCCH transmission may generate conflict with the ongoing PUSCH transmission of same UE or other UE.

When PUCCH and PUSCH conflicts, the UE launch scenario of adjustment transmission PUSCH makes the UE for transmitting PUSCH wireless The time-frequency domain resources that PUCCH data occupancy is vacated in frame avoid because PUCCH and PUSCH data occupy identical running time-frequency resource The problem for causing PUSCH detection mistake will be the attribute for the radio frames that PUCCH vacates resource from the time-frequency domain resources of PUSCH Referred to as support PUCCH and PUSCH conflict.

Optionally, it is the scene for supporting PUCCH and PUSCH conflict that the embodiment of the present invention, which is applied to the attribute of radio frames, That is the attribute of radio frames is to support PUCCH and PUSCH conflict in the configuration information that base station is sent to UE.

The radio frames that UE is sent are received in base station, determine the attribute of the radio frames to support PUCCH and PUSCH conflict Afterwards, following operation is executed.

Optionally, UE adjusts the transmission scheme of PUSCH, from PUSCH in the radio frames for supporting PUCCH and PUSCH conflict Time-frequency domain resources in vacate PUCCH occupancy time-frequency domain resources.Correspondingly, base station predefines the Adjusted Option to resource, And take the detection scheme of corresponding Adjusted Option.

For the UE when sending radio frames, there may be two kinds of situations for the data that the radio frames include.

Resource when transmission non-duplicate Fig. 2 shows a kind of PUCCH of the method for detection processing provided in an embodiment of the present invention Map schematic diagram.

Resource is reflected when the PUCCH that Fig. 3 shows a kind of method of detection processing provided in an embodiment of the present invention repeats to send Penetrate schematic diagram.

As shown in Figures 2 and 3, one of situation is, the radio frames include the data of PUCCH and the data of PUSCH, That is UE had both passed through PUCCH and had fed back to base station transmission, sent data block also by PUSCH.

Optionally, the running time-frequency resource of PUCCH is to be vacated by PUSCH for it, and PUSCH occupies the remaining SC- of this subframe FDMA symbol and remaining sub-frame of uplink.

Fig. 4 shows a kind of resource impact when sending without PUCCH of the method for detection processing provided in an embodiment of the present invention Schematic diagram.

As shown in figure 4, another situation is that, the radio frames only include the data of PUSCH, that is to say, that UE does not pass through PUCCH sends feedback signal to base station, only sends PUSCH data.

Optionally, when UE is in the PDCCH licensing process of detection dispatching downlink PDSCH, due to bad channel quality etc., May cause detection failure, at this time UE will not on PUCCH feeding back ACK/nack message, that is to say, that the radio frames may In the presence of the situation for the data for only including PUSCH.

Optionally, base station receives and detects the radio frames of UE transmission.

If step 12, judgement know the radio frames not and include the data of PUCCH, the data of the PUSCH are detected.

Optionally, when the attribute of the radio frames is that PUCCH and PUSCH is supported to conflict, it is understood that there may be two kinds of situations, In the present embodiment, base station first judges to belong to any situation, i.e., the described radio frames whether include PUCCH data.

Optionally, judge whether radio frames include that the prior art can be used in the mode of data of PUCCH.

It optionally, only include the data of PUSCH, then if the data of PUCCH are known the radio frames not and include in base station judgement For the radio frames, base station is detected according to independent PUSCH launch scenario, and detection radio frames include all described The data of PUSCH.

Optionally, the detection mode of base station is all PUSCH data of combining data detection, then carries out PUSCH decoding.

It is understood that in the embodiment of the present invention by judge the radio frames whether include PUCCH data, and When not including the data of PUCCH, the data for all PUSCH that radio frames include are detected, compared to the prior art middle base station Attribute for radio frames is the radio frames for supporting PUCCH and PUSCH conflict, the detection to conflict without exception according to PUCCH and PUSCH Scheme is detected, and the data of the time-frequency domain resources position of PUCCH specified in Adjusted Option are examined as the data of PUCCH It surveys, the data of the time-frequency domain resources position of defined PUSCH is detected as the data of PUSCH, but do not including PUCCH's When data, only the data of the time-frequency domain resources position of PUSCH specified in Adjusted Option are detected as the data of PUSCH, The PUSCH data for actually having abandoned the time-frequency domain resources position of the PUCCH in Adjusted Option will lead to as defined in base station only detects On the time-frequency domain resources position of PUSCH and the data of incomplete PUSCH.

Radio frames do not include the data of PUCCH in the embodiment of the present invention, are not detected according to the attribute of radio frames, but complete The data of PUSCH are detected in face, i.e. the data for all PUSCH in radio frames that UE is sent, and realize what correct parsing UE was sent The data of PUSCH, to correctly carry out PUSCH decoding.

For example, Adjusted Option of the UE when PUCCH and PUSCH conflicts, the resource allocation of sub-frame of uplink are specially PUCCH occupies preceding 4 SC-FDMA symbols of the 2nd subframe, PUSCH occupy the 2nd subframe remaining SC-FDMA symbol and Remaining sub-frame of uplink.

When UE is due to PDCCH detection error, preceding 4 SC-FDMA symbols of the 2nd subframe that PUCCH should be occupied by PUSCH is occupied, therefore PUSCH occupies all sub-frame of uplink resources.And the detection mode of base station is to detect whether that there are PUCCH Data then merge the data of all sub-frame of uplink if it does not exist, as the data of PUSCH, compared to the prior art in abandon PUSCH data before the 2nd sub-frame of uplink that PUCCH should be occupied on 4 SC-FDMA symbols, can completely detect all The data of PUSCH.

The method of detection processing provided in this embodiment, at least has following technical effect that

By judge the radio frames whether include PUCCH data, when not including the data of PUCCH, detection is wireless The data for all PUSCH that frame includes, realize the data for the PUSCH that complete parsing UE is sent, and translate to correctly carry out PUSCH Code.

Fig. 5 shows a kind of flow diagram of the method for detection processing provided in an embodiment of the present invention.

As shown in figure 5, on the basis of the above embodiments, the method for the detection processing that further embodiment of this invention provides, The data of PUCCH are known the radio frames not and include in judgement in the method, specifically:

The equivalent signal-to-noise ratio of the PUCCH of step 13, the acquisition radio frames and the equivalent signal-to-noise ratio of PUSCH；

Step 14 is the same UE for PUSCH and PUCCH, if judgement knows that the equivalent signal-to-noise ratio of the PUCCH is less than One pre-determined threshold of equivalent signal-to-noise ratio of the PUSCH determines the radio frames not and includes the data of PUCCH；

The radio frames are determined not according to the equivalent signal-to-noise ratio of PUCCH and PUCCH DTX detection threshold for different UE Data including PUCCH.

Optionally, judgement knows the radio frames not and includes that the present embodiment is there are many modes of the data of PUCCH with wherein It is illustrated for a kind of mode.

Optionally, step 13 obtains the side of the equivalent signal-to-noise ratio of the PUCCH of the radio frames and the equivalent signal-to-noise ratio of PUSCH The prior art can be used in formula.

Optionally, the equivalent signal-to-noise ratio of the PUCCH is compared with the equivalent signal-to-noise ratio of the PUSCH, determines ratio Relatively result.

Optionally, Signal to Noise Ratio (SNR) (SIGNAL-NOISE RATIO) refers to the ratio of signal and noise in UE.What signal referred to It is the electronic signal for needing to be handled by eNB from device external, noise refers to not existing random in original signal Extra, and this kind of signal does not change with the variation of original signal, it is to be understood that the higher expression letter of signal-to-noise ratio Number quality is better.

Optionally, be the same user (UE) for PUSCH and PUCCH, the equivalent signal-to-noise ratio of the PUCCH with it is described The equivalent signal-to-noise ratio of PUSCH is linear value, and size is compared by the way of asking quotient, obtains comparison result.

Optionally, using the equivalent signal-to-noise ratio of the PUCCH as divisor, using the equivalent signal-to-noise ratio of the PUSCH as dividend, It carries out asking quotient.

Optionally, comparison result is compared again with pre-determined threshold, determine the radio frames whether include PUCCH number According to.

Optionally, thresholding can be adjusted setting according to system emulation result.

Optionally, if the equivalent signal-to-noise ratio of the PUCCH is less than one pre-determined threshold of equivalent signal-to-noise ratio of the PUSCH, Then indicate the signal quality of the PUCCH can not show a candle to PUSCH signal quality it is good, it may be determined that the radio frames be not present PUCCH Signal, that is, do not include the data of PUCCH.

Optionally, if judgement knows that the equivalent signal-to-noise ratio of the PUCCH is more than or equal to the equivalent signal-to-noise ratio institute of the PUSCH The pre-determined threshold stated determines that the radio frames include the data of PUCCH.

The nothing is determined according to the equivalent signal-to-noise ratio of PUCCH and PUCCH DTX detection threshold for different user (UE) Line frame does not include the data of PUCCH.

Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.

The same user for PUSCH and PUCCH, by judge PUCCH equivalent signal-to-noise ratio and the PUSCH etc. The size of signal-to-noise ratio is imitated, and is less than one pre- gating of equivalent signal-to-noise ratio of the PUSCH in the equivalent signal-to-noise ratio of the PUCCH Limit determines the radio frames not and includes the data of PUCCH, can in radio frames described in accurate judgement whether include PUCCH data.

The radio frames are determined according to the equivalent signal-to-noise ratio of PUCCH and PUCCH DTX detection threshold for different user It does not include the data of PUCCH.

Fig. 6 shows a kind of flow diagram of the method for detection processing provided in an embodiment of the present invention.

As shown in fig. 6, on the basis of the above embodiments, the method for the detection processing that further embodiment of this invention provides, The step 13 of the method, specifically:

According to the mean power of the mean power of the noise sequence of the PUCCH obtained in advance and the signal of PUCCH, obtain The equivalent signal-to-noise ratio of PUCCH, and according to the flat of the signal of the mean power and PUSCH of the noise sequence of the PUSCH obtained in advance Equal power obtains the equivalent signal-to-noise ratio of PUSCH.

Optionally, the mode for obtaining the equivalent signal-to-noise ratio of the PUCCH of the radio frames and the equivalent signal-to-noise ratio of PUSCH can have A variety of, the present embodiment is illustrated by taking one way in which as an example.

Optionally, the mean power of the noise sequence of PUCCH indicates the effective power of noise, similarly, the signal of PUCCH Mean power indicate signal effective power.

Optionally, the mode for obtaining the mean power of the mean power of the noise sequence of PUCCH and the signal of PUCCH can adopt Use the prior art.

Optionally, the mode for obtaining the mean power of the mean power of the noise sequence of PUSCH and the signal of PUSCH can adopt Use the prior art.

Equivalent signal-to-noise ratio optionally, the mean power of mean power and signal based on noise sequence, according to the following formula (1) equivalent signal-to-noise ratio SNR is obtained.

In formula, Pn indicates the mean power of noise sequence, and Ps indicates the mean power of signal.

Optionally, the mean power that will acquire the mean power of the noise sequence of PUCCH and the signal of PUCCH substitutes into respectively Above-mentioned formula (1), can be obtained the equivalent signal-to-noise ratio of PUCCH.

Correspondingly, the mean power that will acquire the mean power of the noise sequence of PUSCH and the signal of PUSCH substitutes into respectively Above-mentioned formula (1), can be obtained the equivalent signal-to-noise ratio of PUSCH.

By obtaining the mean power of the mean power of the noise sequence of PUCCH and the signal of PUCCH, obtain PUCCH's Equivalent signal-to-noise ratio, and the mean power of the mean power of the noise sequence of PUSCH and the signal of PUSCH is obtained, obtain PUSCH Equivalent signal-to-noise ratio, the equivalent signal-to-noise ratio of PUCCH and the equivalent signal-to-noise ratio of PUSCH are obtained, to judge the radio frames in next step In whether including PUCCH data provide basis.

Fig. 7 shows a kind of flow diagram of the method for detection processing provided in an embodiment of the present invention.

As shown in fig. 7, on the basis of the above embodiments, the method for the detection processing that further embodiment of this invention provides, Between the step 11 of the method and 13, further includes:

The approximate noise sequence for the PUCCH that step 15, basis obtain in advance, obtains the average function of the noise sequence of PUCCH Rate, and according to the average channel estimation value of the PUCCH obtained in advance, obtain the mean power of PUCCH signal；It is obtained according to preparatory PUSCH approximate noise sequence, obtain the mean power of the noise sequence of PUSCH, and according to the flat of the PUSCH obtained in advance Equal channel estimation value obtains the mean power of the signal of PUSCH.

Optionally, the mode of the mean power of the mean power of the noise sequence of the PUCCH and the signal of PUCCH is obtained Can there are many, the present embodiment is illustrated by taking one way in which as an example.

Optionally, the mode of the mean power of the mean power of the noise sequence of the PUSCH and the signal of PUSCH is obtained Can there are many, the present embodiment is illustrated by taking one way in which as an example.

Optionally, obtain the approximate noise sequence of PUCCH and the average channel estimation value of PUCCH mode can be used it is existing Technology.

Optionally, obtain the approximate noise sequence of PUSCH and the average channel estimation value of PUSCH mode can be used it is existing Technology.

Optionally, the sample data for the noise that approximate noise sequence is, average channel estimation value are channel estimation value Mean value.

Optionally, it is based on approximate noise sequence(2) obtain the average function of the noise sequence of PUCCH according to the following formula Rate Pn.

In formula, symb is PUCCH demodulation reference mark index, and the upper bound is 2 or 4, and sc indicates sub-carrier indices, N_sc_RB For the number of the PUCCH symbol occupied, abs indicates signed magnitude arithmetic(al), and () indicates modulus.

Optionally, the demodulated reference signal of PUCCH is discontinuous, as shown in Fig. 2, having altogether when the non-duplicate transmission of PUCCH There is the demodulated reference signal of 2 PUCCH, then the upper bound of symb is 2.

Optionally, as shown in figure 3, when PUCCH repeats to send, each subframe one shares the demodulation reference letter of 4 PUCCH Number, then the upper bound of symb is 4.

For example, the subcarrier number N_sc_RB that PUCCH is occupied can refer to agreement to determine.

Optionally, the average function of the noise sequence of the acquisition modes and PUCCH of the mean power Pn of the noise sequence of PUSCH The acquisition modes of rate Pn are identical, and this embodiment is not repeated.

Optionally, it is based on average channel estimation value(3) obtain the mean power Ps of PUCCH signal according to the following formula.

Optionally, the acquisition side of the mean power of the signal of the acquisition modes and PUCCH of the mean power of the signal of PUSCH Formula is identical, and this embodiment is not repeated.

By obtaining the mean power of noise sequence according to approximate noise sequence, and according to average channel estimation value, obtain The mean power of signal obtains the equivalent signal-to-noise ratio of PUCCH and the equivalent signal-to-noise ratio of PUSCH, described wireless to judge in next step Whether the data including PUCCH provide basis in frame.

Fig. 8 shows a kind of flow diagram of the method for detection processing provided in an embodiment of the present invention.

As shown in figure 8, on the basis of the above embodiments, the method for the detection processing that further embodiment of this invention provides, Further include step 16 between the step 11 of the method and 15, the step 16 specifically includes:

The channel estimation in frequency domain for multiple PUCCH that step 161, basis obtain in advance is as a result, obtain being averaged for the PUCCH Channel estimation value, and according to the channel estimation in frequency domain of the multiple PUSCH obtained in advance as a result, obtaining the average letter of the PUSCH Road estimated value；

Step 162, according to the channel estimation in frequency domain result of the PUCCH and the average channel estimation value of the PUCCH, obtain To the approximate noise sequence of the PUCCH, and according to the channel estimation in frequency domain result of the PUSCH and being averaged for the PUSCH Channel estimation value obtains the approximate noise sequence of the PUSCH.

Optionally, obtain the average channel estimation value and approximate noise sequence mode can there are many, the present embodiment with It is illustrated for one way in which.

Optionally, the channel estimation in frequency domain result of PUCCH is averaging processing, the average channel that PUCCH can be obtained is estimated Evaluation.

Optionally, the prior art can be used in the mode for obtaining the channel estimation in frequency domain result of PUCCH.

Optionally, the prior art can be used in the mode for obtaining the channel estimation in frequency domain result of PUSCH.

Optionally, the sample data for the noise that the approximate noise sequence of the PUCCH is.

Optionally, channel estimation in frequency domain resultSubtract average channel estimation valueObtain approximate noise sequence

Optionally, the acquisition modes phase of the approximate noise sequence of the acquisition modes and PUCCH of the approximate noise sequence of PUSCH Together, this embodiment is not repeated.

By the way that channel estimation in frequency domain as a result, be averaging processing, obtained average channel estimation value, is estimated according to frequency domain channel Result and average channel estimation value are counted, approximate noise sequence is obtained.Obtain the average channel estimation value of PUCCH and putting down for PUSCH The approximate noise sequence of the approximate noise sequence and PUSCH of equal channel estimation value and PUCCH, to obtain noise sequence in next step The mean power of column and the mean power of signal provide basis.

As shown in figure 8, on the basis of the above embodiments, the method for the detection processing that further embodiment of this invention provides, The radio frames include the demodulated reference signal (Demodulation reference Signal) and extremely of at least one PUCCH The demodulated reference signal of a few PUSCH.

Correspondingly, before the step 161 of the method, the method also includes steps 17 out not shown:

The local demodulation reference of step 17, the PUCCH obtained according to the received demodulated reference signal of the PUCCH and in advance Signal obtains the channel estimation in frequency domain result of the PUCCH；It obtains according to the received demodulated reference signal of the PUSCH and in advance The local demodulated reference signal of the PUSCH taken obtains the channel estimation in frequency domain result of the PUSCH.

Optionally, the channel estimation in frequency domain result of the PUCCH and the channel estimation in frequency domain result of the PUSCH are obtained Mode can there are many, the present embodiment is illustrated by taking one way in which as an example.

Optionally, the effect of uplink demodulation reference signal is mainly uplink channel estimation, is that base station carries out relevant detection solution The basis of tune, uplink demodulation reference signal and upstream data occupy identical frequency domain resource.

Optionally, uplink reference signals include the reference signal of PUCCH and the reference signal of PUSCH.

Optionally, UE adjusts the transmission scheme of PUSCH, from PUSCH in the radio frames for supporting PUCCH and PUSCH conflict Time-frequency domain resources in vacate time-frequency domain resources for PUCCH occupy.

Correspondingly, base station can predefine the Adjusted Option, and take the detection scheme of corresponding Adjusted Option.

Optionally, base station obtains the received demodulated reference signal of PUCCH and the received demodulated reference signal of PUSCH respectively, The present embodiment is first illustrated by taking the demodulated reference signal of PUCCH as an example.

As shown in figure 3, the demodulated reference signal of PUCCH occupies 4 SC-FDMA symbols in subframe 2, accorded with using this 4 Reception signal on number carries out PUCCH channel estimation.

Correspondingly, if UE sends the data of PUSCH, there are the demodulated reference signals of PUSCH.

As shown in Fig. 2, utilizing this to the 5th SC-FDMA symbol that the demodulated reference signal of PUSCH in subframe 2 occupies Reception signal on a symbol carries out PUSCH channel estimation.

Optionally, for the demodulated reference signal of a PUCCH, base station obtains local demodulated reference signal, and is based on The received demodulated reference signal of PUCCH and local demodulated reference signal, (4) obtain channel estimation in frequency domain result according to the following formula

In formula,Indicate that the received demodulated reference signal of PUCCH, LocalRS indicate local demodulated reference signal.

Optionally, the received demodulated reference signal of PUCCH and local demodulation on each subcarrier in subband are occupied to PUCCH Reference signal carries out the calculating of formula (4), obtains channel estimation in frequency domain result

Optionally, base station is according to as a result, be averaging processing, obtaining average channel estimation value to channel estimation in frequency domain To eliminate influence of noise.

For the demodulated reference signal of a PUCCH, according to the local of the demodulated reference signal of the PUCCH and PUCCH Demodulated reference signal obtains the channel estimation in frequency domain result of a PUCCH；For the demodulated reference signal of a PUSCH, according to The demodulated reference signal of the PUSCH and the local demodulated reference signal of PUSCH, obtain the channel estimation in frequency domain of a PUSCH As a result.

For the demodulated reference signal of multiple PUCCH, the channel estimation in frequency domain of the PUCCH is obtained as a result, and for more The demodulated reference signal of a PUSCH obtains the channel estimation in frequency domain result of the PUSCH.

Optionally, the channel estimation in frequency domain results of the acquisition modes and PUCCH of the channel estimation in frequency domain result of PUSCH obtains Take mode identical, this embodiment is not repeated.

By as a result, be averaging processing, obtaining average channel estimation value to channel estimation in frequency domain,；According to frequency domain channel Estimated result and average channel estimation value, obtain approximate noise sequence, and the average channel estimation value and PUSCH of PUCCH can be obtained Average channel estimation value and PUCCH approximate noise sequence and PUSCH approximate noise sequence, P, in next step obtain The mean power of noise sequence and the mean power of signal provide basis.

As shown in Figure 1, on the basis of the above embodiments, the method for the detection processing that further embodiment of this invention provides, The method also includes:

If judgement know that the radio frames include the data of PUCCH, detect the PUCCH data and the PUSCH Data.

Optionally, when PUCCH and PUSCH conflicts, the UE launch scenario of adjustment transmission PUSCH makes the UE for transmitting PUSCH The time-frequency domain resources that PUCCH data occupancy is vacated in radio frames avoid because when PUCCH and PUSCH data occupy identical Frequency resource causes the problem of PUSCH detection mistake, will vacate the radio frames of resource for PUCCH from the time-frequency domain resources of PUSCH The radio frames of referred to as PUCCH and PUSCH conflict, when PUCCH in radio frames and PUSCH is conflicted, adjustment PUSCH launch scenario UE is known as supporting the UE of PUCCH and PUSCH conflict PUSCH launch scenario.

Optionally, the radio frames that the UE of adjustment PUSCH launch scenario is sent to base station when supporting PUCCH and PUSCH to conflict.

Optionally, for the UE when sending radio frames, there may be two kinds of situations for the data that the radio frames include.Fig. 2 The case where indicating that there are the data of PUCCH with Fig. 3.

As shown in Figures 2 and 3, the radio frames include the data of PUCCH and the data of PUSCH, and base station is for described wireless Frame, PUSCH launch scenario is detected when base station coexists according to PUCCH with PUSCH.

Optionally, the detection mode of base station is respectively to the data of the data of PUCCH and PUSCH, according to respective channel Carry out respective detection decoding.

It is understood that in the embodiment of the present invention by judge the radio frames whether include PUCCH data, and When data including PUCCH, detection decoding is carried out according to the radio frames that PUCCH and PUSCH conflicts, the embodiment of the present invention can be comprehensive Detect all upstream datas.

By judge know the radio frames whether include PUCCH data, in data and PUSCH number including PUCCH According to when, detection radio frames all upstream datas for including, to correctly be decoded.

In order to more fully understand technology contents of the invention, on the basis of the above embodiments, the present embodiment is described in detail The method of the detection processing of offer.

In the prior art in the radio frames that PUCCH and PUSCH conflicts, PUSCH user needs to adjust radiation scheme, makes this The PUSCH user to conflict a bit vacates the running time-frequency resource of PUCCH data occupancy, avoids because PUCCH and PUSCH data occupancy is identical Running time-frequency resource cause PUSCH detection mistake problem.If adjustment is sent when UE transmitting terminal supports PUCCH and PUSCH to conflict Scheme, the receiving end NodeB there is a problem in that, UE in the PDCCH licensing process of detection dispatching downlink PDSCH, due to The problems such as bad channel quality, may cause detection failure, and UE will not feeding back ACK/nack message on uplink at this time.From From the perspective of NodeB, such case is exactly DTX (discontinuous transmission).In the radio frames that should send PUCCH when generation DTX It is not sent further on PUCCH with subband UE, according to the dispatch situation of PUSCH, this UE or other UE may should sent PUSCH data are normally sent in the radio frames and subband of PUCCH.NodeB is not aware that DTX, thus NodeB appoint so according to Launch scenario when PUCCH and PUSCH conflicts detects PUSCH and PUCCH.PUSCH detection decoding performance can be reduced in this way, very may be used PUSCH decoding error can be will lead to.

It is examined thus in the receiving end NodeB using the different demodulated reference signal sequences that PUCCH user and PUSCH user emit It surveys and whether there is PUCCH.

Such as in Power System Intelligent electric network data acquisition system, the resource impact scheme of PUCCH is as shown in figs 2-4.

PUCCH demodulated reference signal occupies 4 SC-FDMA symbols in subframe 2, is believed using the reception on this 4 symbols Number PUCCH channel estimation and other processing are carried out, calculates the equivalent signal-to-noise ratio of PUCCH signal.PUSCH in subframe 2 is led simultaneously The reception signal for the 5th SC-FDMA symbol that frequency occupies carries out PUSCH channel estimation and other processing, calculates PUSCH signal Equivalent signal-to-noise ratio.

Fig. 9 is that a kind of utilization demodulated reference signal of method of detection processing provided in an embodiment of the present invention calculates PUSCH/ PUCCH equivalent signal-to-noise ratio flow diagram.

Step 1: the reference signal that PUCCH or PUSCH are receivedLS channel estimation is carried out with local reference signal, is obtained To channel estimation in frequency domain result

Wherein, LocalRS indicates local reference signal,

Step 2: averagely disappearing to RS channel estimation value on each subcarrier in a subband and each frequency pilot sign Except influence of noise, average channel estimation value is obtained

Step 3: the channel estimation value of each subcarrier on each frequency pilot sign before that will be averagedAverage channel is subtracted to estimate EvaluationObtain approximate noise sequence

Step 4: according to approximate noise sequenceCalculate the mean power of noise sequence.

In formula, symb is frequency pilot sign index, and the upper bound is 2 or 4, and sc indicates sub-carrier indices, and N_sc_RB accounts for for PUCCH The number of symbol, abs indicate signed magnitude arithmetic(al), and () indicates modulus.

Optionally, the reference signal of PUCCH is discontinuous, as shown in Fig. 2, one sharing 2 PUCCH when non-duplicate transmission Reference signal (uplink reference signals between two PUCCH), then the upper bound of symb be 2.

Optionally, as shown in figure 3, each subframe one shares the reference signal of 4 PUCCH when repeating to send, then symb The upper bound is 4.

For example, the number N_sc_RB for the OFDM symbol that PUCCH is occupied can refer to agreement to determine.

Step 5: (3) obtain the mean power Ps of the signal of PUCCH according to the following formula.

Step 6: (1) obtains equivalent signal-to-noise ratio SNR according to the following formula.

Step 7: be the same user for PUSCH and PUCCH, by by the equivalent equivalent signal-to-noise ratio of PUCCH pilot tone with The quotient of the equivalent equivalent signal-to-noise ratio of PUSCH pilot tone is compared with pre-determined threshold, to determine whether transmitting PUCCH.

Figure 10 shows the portion of the detection conflict user PUSCH of the method for detection processing provided in an embodiment of the present invention a kind of Split flow figure.

It optionally, is the same user for PUSCH and PUCCH, equivalent signal-to-noise ratio and PUSCH based on PUCCH etc. Signal-to-noise ratio is imitated, comparison result is obtained according to formula (5).

Optionally, it is compared according to comparison result with thresholding, base station can determine the detection mode for the radio frames.

Optionally, if judgement knows that comparison result is more than or equal to preset thresholding, it is determined that exist in the radio frames The data of PUCCH.

Correspondingly, if judgement knows that comparison result is less than preset thresholding, it is determined that PUCCH is not present in the radio frames Data, the data of Quan Shi PUSCH.

That is, according to above-mentionedThe detection mode of PUSCH user of conflicting is determined with thresholding comparison result. IfMore than or equal to thresholding, then PUSCH launch party when the PUSCH user that conflicts coexists according to PUCCH and PUSCH Case is detected；IfPUSCH launch party less than thresholding, then when the PUSCH user that conflicts is according to no PUCCH Case is detected.

In the radio frames that PUCCH and PUSCH conflicts, in the receiving end NodeB, up channel pilot reception signal is utilized LS channel estimation results, calculate separately out signal power and noise power, find out equivalent signal-to-noise ratio, obtain PUCCH and PUSCH etc. After imitating signal-to-noise ratio, the quotient of the two is found out, compared with thresholding, when coexisting respectively according to PUCCH and PUSCH according to comparison result PUSCH launch scenario or individual PUSCH launch scenario are detected.

In the radio frames that PUCCH and PUSCH conflicts, the receiving end NodeB receives pilot signal inspection according to PUCCH user It surveys and whether there is PUCCH, the PUSCH user of conflict is detected according to two schemes respectively, in this way in practical DTX and non- In the case of DTX, the receiving end NodeB can be detected according to the launch scenario being consistent, so that the receiving end NodeB is correctly detected The upstream data that UE is sent.

Figure 11 shows a kind of structural schematic diagram of the device of detection processing of further embodiment of this invention offer.

Referring to Fig.1 1, on the basis of the above embodiments, the device of detection processing provided in this embodiment, described device packet Include receiving module 111 and detection module 112, in which:

Receiving module 111 is used to receive the radio frames of UE transmission, and the attribute of the radio frames is to support PUCCH and PUSCH Conflict, the radio frames include the data of PUSCH；If detection module 112 knows that the radio frames do not include PUCCH for judging Data, then detect the data of the PUSCH.

Optionally, for UE when sending radio frames, there may be two kinds of situations for the data that radio frames include.

Optionally, receiving module 111 receives and detects the radio frames of UE transmission.

Optionally, detection module 112 first judges to belong to any situation, i.e., the described radio frames whether include PUCCH number According to.

Optionally, judge the radio frames whether include PUCCH data mode using the prior art.

Optionally, if the data of PUCCH are known the radio frames not and include in the judgement of detection module 112, only including PUSCH Data are then directed to the radio frames, and detection module 112 is detected according to independent PUSCH launch scenario, and detection radio frames include All PUSCH data.

Optionally, the detection mode of detection module 112 is all PUSCH data of combining data detection, then carries out PUSCH and translate Code.

Radio frames described in the embodiment of the present invention do not include the data of PUCCH, are not detected according to the attribute of radio frames, and It is the data of complete detection PUSCH, i.e. the data for all PUSCH in radio frames that UE is sent realize correct parsing UE hair The data of the PUSCH sent.

The device of detection processing provided in this embodiment can be used for executing the method for above method embodiment, this implementation is not It repeats again.

The device of detection processing provided in this embodiment, at least has following technical effect that

By detection module judge the radio frames whether include PUCCH data, when not including the data of PUCCH, The data for all PUSCH that detection radio frames include realize the data for the PUSCH that complete parsing UE is sent, to correctly carry out PUSCH decoding.

Figure 12 shows the structural schematic diagram of a kind of electronic equipment of further embodiment of this invention offer.

Refering to fig. 12, electronic equipment provided in an embodiment of the present invention, the electronic equipment includes memory (memory) 121, processor (processor) 122, bus 123 and it is stored in the calculating that can be run on memory 121 and on a processor Machine program.Wherein, the memory 121, processor 122 complete mutual communication by the bus 123.

The processor 122 is used to call the program instruction in the memory 121, realizes such as when executing described program Fig. 1, figure 5-8 method the step of.

In another embodiment, following method is realized when the processor executes described program:

If the data of PUCCH are known the radio frames not and include in the judgement, specifically:

Obtain the equivalent signal-to-noise ratio of the PUCCH of the radio frames and the equivalent signal-to-noise ratio of PUSCH；

It is the same UE for PUSCH and PUCCH, if judgement knows the equivalent signal-to-noise ratio of the PUCCH less than described One pre-determined threshold of equivalent signal-to-noise ratio of PUSCH determines the radio frames not and includes the data of PUCCH；

The equivalent signal-to-noise ratio of the PUCCH for obtaining the radio frames and the equivalent signal-to-noise ratio of PUSCH, specifically:

According to the mean power of the mean power of the signal of the PUCCH obtained in advance and the noise sequence of PUCCH, institute is obtained The equivalent signal-to-noise ratio of PUCCH is stated, and according to the noise sequence of the mean power and PUSCH of the signal of the PUSCH obtained in advance Mean power obtains the equivalent signal-to-noise ratio of the PUSCH.

The mean power of the noise sequence of the mean power and PUCCH of the signal for the PUCCH that the basis obtains in advance, obtains To the equivalent signal-to-noise ratio of the PUCCH, and according to the noise sequence of the mean power of the signal of the PUSCH obtained in advance and PUSCH The mean power of column, before obtaining the equivalent signal-to-noise ratio of the PUSCH, the method also includes:

According to the average channel estimation value of the PUCCH obtained in advance, the mean power of the signal of the PUCCH is obtained, and According to the approximate noise sequence of the PUCCH obtained in advance, the mean power of the noise sequence of the PUCCH is obtained；According to preparatory The average channel estimation value of the PUSCH of acquisition, obtain the mean power of the signal of the PUSCH, and according to obtaining in advance The approximate noise sequence of PUSCH, obtains the mean power of the noise sequence of the PUSCH.

The method also includes:

According to the channel estimation in frequency domain of the PUCCH obtained in advance as a result, obtaining the average channel estimation value of the PUCCH, And according to the channel estimation in frequency domain of the PUSCH obtained in advance as a result, obtaining the average channel estimation value of the PUSCH；

According to the average channel estimation value of the channel estimation in frequency domain result of the PUCCH and the PUCCH, obtain described The approximate noise sequence of PUCCH, and estimated according to the channel estimation in frequency domain result of the PUSCH and the average channel of the PUSCH Evaluation obtains the approximate noise sequence of the PUSCH.

The radio frames include at least one PUCCH demodulated reference signal and at least one PUSCH demodulated reference signal, phase The channel estimation in frequency domain of Ying Di, the PUCCH that the basis obtains in advance as a result, obtain the average channel estimation value of the PUCCH, And according to the channel estimation in frequency domain of the PUSCH obtained in advance as a result, before obtaining the average channel estimation value of the PUSCH, institute State method further include:

The local demodulated reference signal of the PUCCH obtained according to the received demodulated reference signal of the PUCCH and in advance, obtains To the channel estimation in frequency domain result of the PUCCH；It obtains according to the received demodulated reference signal of the PUSCH and in advance The local demodulated reference signal of PUSCH obtains the channel estimation in frequency domain result of the PUSCH.

Electronic equipment provided in this embodiment can be used for executing the corresponding program of method of above method embodiment, this reality It applies and repeats no more.

Electronic equipment provided in this embodiment, at least has following technical effect that

By the processor execute described program when realize judge the radio frames whether include PUCCH data, When not including the data of PUCCH, the data for all PUSCH that detection radio frames include realize the PUSCH that complete parsing UE is sent Data, thus correctly carry out PUSCH decoding.

A kind of storage medium that further embodiment of this invention provides is stored with computer program on the storage medium, institute It states when program is executed by processor and realizes following methods:

In one embodiment, the step of such as method of Fig. 1, figure 5-8 is realized when described program is executed by processor.

In another embodiment, following method is realized when described program is executed by processor: the radio frames include The demodulated reference signal of at least one PUCCH and the demodulated reference signal of at least one PUSCH, correspondingly, the basis is preparatory The channel estimation in frequency domain of the PUCCH of acquisition is as a result, obtain the average channel estimation value of the PUCCH, and according to obtaining in advance Before the channel estimation in frequency domain of PUSCH is as a result, obtain the average channel estimation value of the PUSCH, the method also includes:

In another embodiment, following method is realized when described program is executed by processor: the method also includes:

Storage medium provided in this embodiment realizes the side of above method embodiment when described program is executed by processor Method, this implementation repeat no more.

Storage medium provided in this embodiment, at least has following technical effect that

When described program is executed by processor realize judge the radio frames whether include PUCCH data, do not including When the data of PUCCH, the data for all PUSCH that detection radio frames include realize the number for the PUSCH that complete parsing UE is sent According to correctly carry out PUSCH decoding.

It will be appreciated by those of skill in the art that although some embodiments described herein include other embodiments is wrapped Certain features for including rather than other feature, but the combination of the feature of different embodiments mean in the scope of the present invention it It is interior and form different embodiments.

It will be understood by those skilled in the art that each step in embodiment can be implemented in hardware, or at one or The software module run on the multiple processors of person is realized, or is implemented in a combination thereof.Those skilled in the art should manage Solution, can be used in practice microprocessor or digital signal processor (DSP) to realize according to an embodiment of the present invention one The some or all functions of a little or whole components.The present invention is also implemented as executing method as described herein Some or all device or device programs (for example, computer program and computer program product).

Although the embodiments of the invention are described in conjunction with the attached drawings, but those skilled in the art can not depart from this hair Various modifications and variations are made in the case where bright spirit and scope, such modifications and variations are each fallen within by appended claims Within limited range.

Claims

1. a kind of method of detection processing, which is characterized in that the described method includes:

The radio frames that UE is sent are received, the attribute of the radio frames is to support PUCCH and PUSCH conflict, and the radio frames include The data of PUSCH；

2. according to the method described in claim 1, it is characterized by: the judgement knows that the radio frames do not include PUCCH's The step of data specifically:

It is the same UE for PUSCH and PUCCH, if judgement knows the equivalent signal-to-noise ratio of the PUCCH less than the PUSCH's One pre-determined threshold of equivalent signal-to-noise ratio determines the radio frames not and includes the data of PUCCH；

For different UE, according to the equivalent signal-to-noise ratio of PUCCH and PUCCH DTX detection threshold, determine that the radio frames do not include The data of PUCCH.

3. according to the method described in claim 2, it is characterized by: the equivalent noise of the PUCCH for obtaining the radio frames The step of than equivalent signal-to-noise ratio with PUSCH specifically:

According to the mean power of the mean power of the signal of the PUCCH obtained in advance and the noise sequence of PUCCH, obtain described The equivalent signal-to-noise ratio of PUCCH, and according to the flat of the noise sequence of the mean power and PUSCH of the signal of the PUSCH obtained in advance Equal power obtains the equivalent signal-to-noise ratio of the PUSCH.

4. according to the method described in claim 3, it is characterized by: the signal for the PUCCH that the basis obtains in advance is averaged The mean power of the noise sequence of power and PUCCH, obtain the equivalent signal-to-noise ratio of the PUCCH, and according to obtaining in advance The mean power of the noise sequence of the mean power and PUSCH of the signal of PUSCH, before obtaining the PUSCH equivalent signal-to-noise ratio, The method also includes:

According to the average channel estimation value of the PUCCH obtained in advance, the mean power of the signal of the PUCCH is obtained, and according to The approximate noise sequence of the PUCCH obtained in advance, obtains the mean power of the noise sequence of the PUCCH；It is obtained according to preparatory PUSCH average channel estimation value, obtain the mean power of the signal of the PUSCH, and according to the PUSCH's obtained in advance Approximate noise sequence obtains the mean power of the noise sequence of the PUSCH.

5. according to the method described in claim 4, it is characterized by: the average channel for the PUCCH that the basis obtains in advance is estimated Evaluation obtains the mean power of the signal of the PUCCH, and according to the approximate noise sequence of the PUCCH obtained in advance, obtains institute State the mean power of the noise sequence of PUCCH；According to the average channel estimation value of the PUSCH obtained in advance, the PUSCH is obtained The mean power of signal obtain the noise sequence of the PUSCH and according to the approximate noise sequence of the PUSCH obtained in advance Mean power before, the method also includes:

According to the channel estimation in frequency domain of the multiple PUCCH obtained in advance as a result, obtaining the average channel estimation value of the PUCCH, And according to the channel estimation in frequency domain of the multiple PUSCH obtained in advance as a result, obtaining the average channel estimation value of the PUSCH；

According to the average channel estimation value of the channel estimation in frequency domain result of the PUCCH and the PUCCH, the PUCCH is obtained Approximate noise sequence, and according to the average channel estimation value of the channel estimation in frequency domain result of the PUSCH and the PUSCH, Obtain the approximate noise sequence of the PUSCH.

6. according to the method described in claim 5, it is characterized by: the radio frames include the demodulation ginseng of at least one PUCCH The demodulated reference signal of signal He at least one PUSCH is examined, correspondingly, the frequency domain for multiple PUCCH that the basis obtains in advance Channel estimation results obtain the average channel estimation value of the PUCCH, and are believed according to the frequency domain of the multiple PUSCH obtained in advance Road estimated result, before obtaining the average channel estimation value of the PUSCH, the method also includes:

The local demodulated reference signal of the PUCCH obtained according to the received demodulated reference signal of the PUCCH and in advance, obtains institute State the channel estimation in frequency domain result of PUCCH；The PUSCH's obtained according to the received demodulated reference signal of the PUSCH and in advance Local demodulated reference signal obtains the channel estimation in frequency domain result of the PUSCH.

7. method according to claim 1-6, it is characterised in that: the method also includes:

If judgement knows that the radio frames include the data of PUCCH, the data of the PUCCH and the number of the PUSCH are detected According to.

8. a kind of device of detection processing, which is characterized in that described device includes:

Receiving module, for receiving the radio frames of UE transmission, the attribute of the radio frames is to support PUCCH and PUSCH conflict, institute State the data that radio frames include PUSCH；

Detection module, if for judge to know the radio frames not include PUCCH data, detect the data of the PUSCH.

9. a kind of electronic equipment, which is characterized in that on a memory and can be including memory, processor, bus and storage The computer program run on processor, the processor are realized when executing described program such as claim 1-7 any one Step.

10. a kind of storage medium, is stored thereon with computer program, it is characterised in that: real when described program is executed by processor Now such as the step of claim 1-7 any one.