CN106851822A - Transmission method and user terminal - Google Patents

Abstract

A kind of transmission method and user terminal are the embodiment of the invention provides, is related to mobile communication technology field, it is possible to increase the efficiency of transmission of Autonomous Scheduling uplink.Transmission method includes：User terminal is based on detection and its configured information of public Physical Downlink Control Channel, and Autonomous Scheduling uplink is carried out in the corresponding resource of the configured information using the first parameter.

Description

Transmission method and user terminal

【Technical field】

The present invention relates to mobile communication technology field, more particularly to a kind of transmission method and user terminal.

【Background technology】

GSM refers to service provider by disposing wireless access network equipment (such as base station), and equipment of the core network (such as attaching position register, Home Location Register, HLR) etc., is that user terminal (such as mobile phone) provides communication clothes The system of business.Mobile communication experienced the first generation, the second generation, the third generation, forth generation.First third-generation mobile communication refers to initial mould Plan, the cellular telephony standard for only limiting voice call, mainly use analogue technique and frequency division multiple access (Frequency Division Multiple Access, FDMA) cut-in method；Generation Mobile Telecommunication System introduces digital technology, improves Network capacity, speech quality and confidentiality are improved, with " global system for mobile communications " (Global System for Mobile Communication, GSM) and " CDMA " (Code Division Multiple Access, CDMAIS-95) be generation Table；3G (Third Generation) Moblie refers mainly to CDMA2000, tri- kinds of technologies of WCDMA, TD-SCDMA, is using CDMA as access Technology；The standard of forth generation GSM is relatively uniform in the world, is the length that International Organization for standardization 3GPP is formulated Phase evolution (Long Term Evolution/Long Term Evolution-Advanced, LTE/LTE-A), its is descending to be based on Directly enter (Orthogonal Frequency Division Multiple Access, OFDMA), up base more than orthogonal frequency Directly enter (Single Carrier-Frequency Division Multiple Access, SC- more than the single carrier frequency division FDMA access way), according to flexible bandwidth and the modulation coding mode of self adaptation, has reached downlink peak rates 1Gbps, The high-speed transfer of upstream peak speed 500Mbps.MulteFire is on the basis of LTE R13LAA downlink transmission methods, newly Ascending transmission method is defined, and can be worked independently in the LTE technologies of unauthorized frequency range, i.e. stand-alone LTE-U. In the transmitting procedure of unauthorized frequency range, need to observe the channel access specification of the frequency range, the unauthorized frequency range of such as 5GHz needs Listem-before-talk (Listen Before Talk, LBT) is carried out, that is, needs just to allow hair when first detecting channel for the free time before sending Send.Due to using the centralized scheduling centered on base station in traditional LTE, for the uplink of UE, need first to initiate to adjust Degree request, then waits the uplink scheduling of base station (evolved Node B, eNB), could send, and wherein each sending signal Before, be required for carrying out LBT as the eNB or user terminal (User Equipment, UE) of transport module, therefore no matter from when Prolong, or for the angle of the LBT probability of succesies, uplink in the transmission of unauthorized frequency range meeting of the tradition based on eNB scheduling Cause the hydraulic performance declines such as uplink throughput and time delay, especially when with the Wi-Fi equipment shared channel based on distributed scheduling When.

For above-mentioned uplink shortcoming of the tradition based on base station scheduling, proposed in MulteFire and used based on UE Autonomous Scheduling ascending transmission method, i.e., autonomous uplink (Autonomous UpLink, AUL) or without scheduling of upstream transmissions (Grant-less UpLink, GUL), it is allowed to which UE independently initiates uplink, reduces time delay and LBT number.

In process of the present invention is realized, inventor has found that at least there are the following problems in the prior art：

In the existing transmission based on base station scheduling, Cat-4LBT is carried out by base station, after channel access success, corresponding Maximum channel is taken in duration (MCOT), and eNB transmission of downlink signal and scheduling UE transmit upward signal.And for Autonomous Scheduling Ascending transmission method, after UE can be using Cat-4LBT and successful contention channel, you can obtain present channel access parameter institute right Answer, the uplink that can carry out the UE Autonomous Schedulings within MCOT.Because Autonomous Scheduling uplink is not exclusively received The scheduling controlling of eNB, the subframe that Autonomous Scheduling uplink is configured can not be with the descending sub frames and/or up in other transmission Subframe position it is identical, therefore the available resources of Autonomous Scheduling uplink are limited, so that the biography of Autonomous Scheduling uplink It is defeated less efficient.

【The content of the invention】

In view of this, a kind of transmission method and user terminal be the embodiment of the invention provides, it is possible to increase on Autonomous Scheduling The efficiency of transmission of row transmission.

On the one hand, a kind of transmission method is the embodiment of the invention provides, including：

User terminal is based on detection and its configured information of public Physical Downlink Control Channel, using the first parameter described Autonomous Scheduling uplink is carried out in the corresponding resource of configured information.

Specifically, the user terminal is based on detection and its configured information of public Physical Downlink Control Channel, using the The process that one parameter carries out Autonomous Scheduling uplink in the corresponding resource of the configured information includes：

User terminal carries out Autonomous Scheduling uplink within the upper line duration of base station using the first parameter.

Specifically, first parameter is configured as making on described within line duration, and the Autonomous Scheduling is up Transmission carries out at least one of frequency division multiplexing, time division multiplex and code division multiplexing three or any with base station scheduling uplink Combination.

Specifically, the user terminal is carried out on Autonomous Scheduling within the upper line duration of base station using the first parameter The process of row transmission includes：

The user terminal obtains the configured information by public Physical Downlink Control Channel；

If the user terminal judges that the available subframe of the Autonomous Scheduling uplink is located at according to the configured information Within the upper line duration, then the Autonomous Scheduling uplink is carried out using first parameter.

Specifically, on described within line duration, the Autonomous Scheduling uplink is configured as start bit set After first symbol in each subframe, and/or, the Autonomous Scheduling uplink is configured as end position and is located at often Before the last symbol of individual sub- frame in.

Specifically, the above method also includes：

The configured information includes available symbols in the position of descender stop bits subframe and the stop bits subframe Position；

It is described to carry out the Autonomous Scheduling uplink using first parameter and be specially：In the stop bits subframe Available symbols position and/or carry out the Autonomous Scheduling uplink in next subframe of the stop bits subframe.

Specifically, the above method also includes：

It is up that the user terminal carries out Autonomous Scheduling outside the upper line duration of the base station using the second parameter Transmission；

First parameter is different from second parameter.

Specifically, the corresponding frequency resource quantity of first parameter is m1, the corresponding time-domain resource of first parameter Quantity is n1, and the corresponding frequency resource quantity of second parameter is m2, and the corresponding time-domain resource quantity of second parameter is N2, wherein, m1, m2, n1 and n2 are positive integer, and m1 is less than or equal to m2, and n1 is less than or equal to n2.

Specifically, the corresponding frequency resource of first parameter is the Resource Block group in m1 ascending resource distribution type 3, The corresponding time-domain resource of first parameter is n1 continuous subframes, and the corresponding frequency resource of second parameter is individual up for m2 Resource Block group in resource allocation type 3, the corresponding time-domain resource of second parameter is n2 continuous subframes.

Specifically, the corresponding listem-before-talk configuration of second parameter uses the first specified type, first parameter pair The listem-before-talk configuration answered uses the second specified type, and the channel access priority of second specified type is greater than or equal to institute State the channel access priority of the first specified type.

On the other hand, a kind of transmission method is the embodiment of the invention provides, including：

If user terminal is in the discovery for finding to detect this cell within reference signal time of measuring allocation window with reference to letter Number, then the user terminal carries out Autonomous Scheduling uplink within the discovery reference signal time of measuring allocation window.

Specifically, within the discovery reference signal time of measuring allocation window, the Autonomous Scheduling uplink quilt Original position is configured to after first symbol in each subframe, and/or, the Autonomous Scheduling uplink is configured Before the last symbol being located in each subframe for end position.

On the other hand, a kind of transmission method is the embodiment of the invention provides, including：

User terminal is carried out independently within the periodicity an active non-anchor upstream time based on base station scheduling using the first parameter Scheduling of upstream transmissions, first parameter is used to make within the periodicity an active non-anchor upstream time, on the Autonomous Scheduling During row transmission carries out frequency division multiplexing, three kinds of modes of time division multiplex and code division multiplexing with periodicity an active non-anchor uplink At least one or any combination.

Specifically, the Autonomous Scheduling uplink is configured as original position positioned at the up biography of periodicity an active non-anchor It is defeated send after position or the affiliated subframe in transmission position next subframe；

Or, the Autonomous Scheduling uplink is configured as with periodicity an active non-anchor uplink in same height Frame in realizes frequency division multiplexing using different frequency resources.

On the other hand, a kind of transmission method is the embodiment of the invention provides, including：

If not detected in the continuous Serving cell subframe of specified quantity of the user terminal within paging occasion window The Physical Downlink Control Channel of pager wireless net network temporary mark scrambling, then the user terminal is within the paging occasion window Carry out Autonomous Scheduling uplink.

Specifically, if in the continuous Serving cell subframe of specified quantity of the user terminal within paging occasion window The Physical Downlink Control Channel of pager wireless net network temporary mark scrambling is not detected, then the user terminal is in the paging When aircraft window within carry out the process of Autonomous Scheduling uplink and include：

If not detected in the continuous Serving cell subframe of specified quantity of the user terminal within paging occasion window The Physical Downlink Control Channel of pager wireless net network temporary mark scrambling, then the user terminal is continuous in the specified quantity Serving cell subframe in last subframe in second time slot carry out Autonomous Scheduling uplink, or, the use Next subframe of last subframe of the family terminal in the continuous Serving cell subframe of the specified quantity is carried out independently Scheduling of upstream transmissions.

Specifically, the Autonomous Scheduling uplink is configured as first symbol of the original position in each subframe Afterwards, and/or, the Autonomous Scheduling uplink be configured as last symbol of the end position in each subframe it Before.

On the other hand, a kind of transmission method is the embodiment of the invention provides, including：

If user terminal detects the uplink scheduling authorization of itself, into first mode, in the first mode, in institute State in the available subframe of Autonomous Scheduling uplink with the subframe of the uplink scheduling authorization in overlap sub-frame according on described Row scheduling authorization is transmitted, the subframe in the available subframe of the Autonomous Scheduling uplink in addition to the overlap sub-frame Carry out the Autonomous Scheduling uplink.

Specifically, the above method also includes：

If the user terminal is not detected by the uplink scheduling authorization of itself in Preset Time, into second mode, In the second mode, the Autonomous Scheduling uplink is carried out in the available subframe of the Autonomous Scheduling uplink.

On the other hand, a kind of user terminal is the embodiment of the invention provides, including：

Transport module, for the detection based on public Physical Downlink Control Channel and its configured information, uses the first parameter Autonomous Scheduling uplink is carried out in the corresponding resource of the configured information.

Specifically, the transport module using the first parameter within the upper line duration of base station specifically for being carried out Autonomous Scheduling uplink.

Specifically, first parameter is configured as making on described within line duration, and the Autonomous Scheduling is up Transmission and base station scheduling uplink carry out at least one in frequency division multiplexing, three kinds of modes of time division multiplex and code division multiplexing or Any combination.

Specifically, the transport module includes：

Acquiring unit, for obtaining the configured information by public Physical Downlink Control Channel；

Transmitting element, if for judging that the available subframe of the Autonomous Scheduling uplink is located at according to the configured information Within the upper line duration, then the Autonomous Scheduling uplink is carried out using first parameter.

Specifically, on described within line duration, the Autonomous Scheduling uplink is configured as start bit set After first symbol in each subframe, and/or, the Autonomous Scheduling uplink is configured as end position and is located at often Before the last symbol of individual sub- frame in.

Specifically, the configured information can in including the position of descender stop bits subframe and the stop bits subframe Use character position；

The transmitting element, specifically for the available symbols position in the stop bits subframe and/or in the stop bits Next subframe of subframe carries out the Autonomous Scheduling uplink.

Specifically, the transport module is additionally operable to, and is entered using the second parameter outside the upper line duration of the base station Row Autonomous Scheduling uplink；First parameter is different from second parameter.

Specifically, the corresponding frequency resource quantity of first parameter is m1, the corresponding time-domain resource of first parameter Quantity is n1, and the corresponding frequency resource quantity of second parameter is m2, and the corresponding time-domain resource quantity of second parameter is N2, wherein, m1, m2, n1 and n2 are positive integer, and m1 is less than or equal to m2, and n1 is less than or equal to n2.

Specifically, the corresponding frequency resource of first parameter is the Resource Block group in m1 ascending resource distribution type 3, The corresponding time-domain resource of first parameter is n1 continuous subframes, and the corresponding frequency resource of second parameter is individual up for m2 Resource Block group in resource allocation type 3, the corresponding time-domain resource of second parameter is n2 continuous subframes.

Specifically, the corresponding listem-before-talk configuration of second parameter uses the first specified type, first parameter pair The listem-before-talk configuration answered uses the second specified type, and the channel access priority of second specified type is greater than or equal to institute State the channel access priority of the first specified type.

On the other hand, a kind of user terminal is the embodiment of the invention provides, including：

Transport module, if for joining in the discovery for finding to detect this cell within reference signal time of measuring allocation window Signal is examined, then carries out Autonomous Scheduling uplink within the discovery reference signal time of measuring allocation window.

Specifically, within the discovery reference signal time of measuring allocation window, the Autonomous Scheduling uplink quilt Original position is configured to after first symbol in each subframe, and/or, the Autonomous Scheduling uplink is configured Before the last symbol being located in each subframe for end position.

On the other hand, a kind of user terminal is the embodiment of the invention provides, including：

Transport module, for being carried out using the first parameter within the periodicity an active non-anchor upstream time based on base station scheduling Autonomous Scheduling uplink, first parameter is used to make within the periodicity an active non-anchor upstream time, described from homophony Degree uplink carries out frequency division multiplexing, three kinds of modes of time division multiplex and code division multiplexing with periodicity an active non-anchor uplink In at least one or any combination.

Specifically, the Autonomous Scheduling uplink is configured as original position positioned at the up biography of periodicity an active non-anchor It is defeated send after position or the affiliated subframe in transmission position next subframe；

Or, the Autonomous Scheduling uplink is configured as with periodicity an active non-anchor uplink in same height Frame in realizes frequency division multiplexing using different frequency resources.

On the other hand, a kind of user terminal is the embodiment of the invention provides, including：

Transport module, if for no inspection in the continuous Serving cell subframe of specified quantity within paging occasion window The Physical Downlink Control Channel of pager wireless net network temporary mark scrambling is measured, is then carried out within the paging occasion window autonomous Scheduling of upstream transmissions.

Specifically, the transport module is specifically for if the continuous service of specified quantity within paging occasion window The Physical Downlink Control Channel of pager wireless net network temporary mark scrambling is not detected in cell subframe, then in the specified number Second time slot in last subframe in the continuous Serving cell subframe of amount carries out Autonomous Scheduling uplink, or Person, next subframe of last subframe of the user terminal in the continuous Serving cell subframe of the specified quantity Carry out Autonomous Scheduling uplink.

Specifically, the Autonomous Scheduling uplink is configured as first symbol of the original position in each subframe Afterwards, and/or, the Autonomous Scheduling uplink be configured as last symbol of the end position in each subframe it Before.

On the other hand, a kind of user terminal is the embodiment of the invention provides, including：

Mode switch module, if for detecting the user terminal uplink scheduling authorization of itself, into the first mould Formula；

Transport module, in the first mode, in the available subframe of the Autonomous Scheduling uplink with it is described Overlap sub-frame in the subframe of uplink scheduling authorization is transmitted according to the uplink scheduling authorization, up in the Autonomous Scheduling Subframe in the available subframe of transmission in addition to the overlap sub-frame carries out the Autonomous Scheduling uplink.

Specifically, the mode switch module is additionally operable to, if being not detected by the user terminal itself in Preset Time Uplink scheduling authorization, then into second mode；

The transport module is additionally operable to, in the second mode, in the available subframe of the Autonomous Scheduling uplink Carry out the Autonomous Scheduling uplink.

On the other hand, the embodiment of the present invention additionally provides a kind of user terminal, including：At least one processor；And, with The memory of at least one processor communication connection；Wherein, the memory storage has can be processed by described at least one The instruction that device is performed, the instruction is arranged to be used for performing the above-mentioned transmission method of the application.

Transmission method and user terminal that the present invention is provided, when Autonomous Scheduling uplink coexists with other transmission means When, Autonomous Scheduling uplink can be carried out using the available resources in other transmission means, so as to improve Autonomous Scheduling The efficiency of transmission of uplink.

【Brief description of the drawings】

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below will be attached to what is used needed for embodiment Figure is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for this area For those of ordinary skill, without having to pay creative labor, can also obtain other attached according to these accompanying drawings Figure.

Fig. 1 is a kind of schematic flow sheet of transmission method in the embodiment of the present invention；

Fig. 2 is a kind of structured flowchart of user terminal in the embodiment of the present invention；

Fig. 3 is the hardware architecture diagram of the user terminal of each transmission method of execution that the present embodiment is provided.

【Specific embodiment】

In order to be better understood from technical scheme, the embodiment of the present invention is retouched in detail below in conjunction with the accompanying drawings State.

It will be appreciated that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained under the premise of creative work is not made it is all its Its embodiment, belongs to the scope of protection of the invention.

The term for using in embodiments of the present invention is the purpose only merely for description specific embodiment, and is not intended to be limiting The present invention." one kind ", " described " and " being somebody's turn to do " of singulative used in the embodiment of the present invention and appended claims It is also intended to include most forms, unless context clearly shows that other implications.

It should be appreciated that term "and/or" used herein is only a kind of incidence relation for describing affiliated partner, represent There may be three kinds of relations, for example, A and/or B, can represent：Individualism A, while there is A and B, individualism B these three Situation.In addition, character "/" herein, typicallys represent forward-backward correlation pair as if a kind of relation of "or".

It will be appreciated that though XXX may be described using term first, second, third, etc. in embodiments of the present invention, but These XXX should not necessarily be limited by these terms.These terms are only used for being distinguished from each other open XXX.For example, not departing from implementation of the present invention In the case of example scope, an XXX can also be referred to as the 2nd XXX, and similarly, the 2nd XXX can also be referred to as an XXX.

Depending on linguistic context, word as used in this " if " can be construed to " ... when " or " when ... When " or " in response to determining " or " in response to detection ".Similarly, depending on linguistic context, phrase " if it is determined that " or " if detection (condition or event of statement) " can be construed to " when it is determined that when " or " in response to determine " or " when the detection (condition of statement Or event) when " or " in response to detection (condition or event of statement) ".

Mobile communication particular technique described in the present invention is not limited, can for WCDMA, CDMA2000, TD-SCDMA, WiMAX, LTE/LTE-A, LAA, MulteFire and follow-up the 5th generation, the 6th generation, the N-Generation mobile communication skill being likely to occur Art

Terminal described in the present invention, refers to the end side product of the communication protocol that can support land mobile communication system, The modem module (Wireless Modem) of communication is refered in particular to, it can be various types of by mobile phone, panel computer, data card etc. The terminal form of type is integrated so as to complete communication function

For convenience of describing, below using forth generation GSM LTE/LTE-A and its derivative MulteFire conducts Citing, wherein mobile communication terminal is expressed as UE (User Equipment), hereinafter referred to as user terminal.

Embodiment one

The embodiment of the present invention provides a kind of transmission method, including：User terminal UE is based on public Physical Downlink Control Channel The detection of C-PDCCH (that is, the PDCCH of CC-RNTI scramblings) and its configured information, it is corresponding in configured information using the first parameter Autonomous Scheduling uplink is carried out in resource.It is utilizable comprising Autonomous Scheduling uplink in the configured information of C-PDCCH Resource, Autonomous Scheduling uplink can be carried out only when C-PDCCH is detected using the corresponding resource of its configured information, In this manner it is possible to carry out Autonomous Scheduling uplink using the available resources in other transmission means.

Transmission method in the present embodiment, the detection by C-PDCCH and the corresponding resource of the configured information in C-PDCCH On carry out Autonomous Scheduling uplink, it is up therefore, it is possible to carry out Autonomous Scheduling using the available resources in other transmission means Transmission, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, above-mentioned user terminal UE is based on the detection of public Physical Downlink Control Channel C-PDCCH and its indicates letter Breath, the process that Autonomous Scheduling uplink is carried out in the corresponding resource of configured information using the first parameter includes：

User terminal UE is within the upper line duration (UpLink duration, UL duration) of base station eNB In Autonomous Scheduling uplink available resources Autonomous Scheduling uplink is carried out using the first parameter.

Specifically, the first parameter is configured as making within upper line duration UL duration, the up biography of Autonomous Scheduling It is defeated to carry out frequency division multiplexing (Frequency Division with base station scheduling up (Scheduled UpLink, SUL) transmission Multiplexing, FDM), time division multiplex (Time Division Multiplexing, TDM) and code division multiplexing (Code Division Multiplexing, CDM or Orthogonal Cover Code, OCC) at least one in three kinds of modes or appoint Meaning combination.

Transmission method in the present embodiment, by making Autonomous Scheduling uplink and base station scheduling in UL duration Up (Scheduled UpLink, SUL) transmission carries out frequency division multiplexing FDM, time division multiplexing tdm and code division multiplexing CDM/OCC At least one or any combination in three kinds of modes, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, as shown in figure 1, above-mentioned user terminal UE is within the upper line duration UL duration of base station eNB The process for carrying out Autonomous Scheduling uplink using the first parameter includes：

Step 101, user terminal UE carry out public Physical Downlink Control Channel (Common Physical Downlink Control Channel, CPDCCH) detection, judge whether to detect CPDCCH, if detecting CPDCCH, into step 102, if not detecting CPDCCH, into step 105；

Step 102, user terminal UE obtain above-mentioned configured information by public Physical Downlink Control Channel CPDCCH；

Step 103, user terminal UE according to above-mentioned configured information judge Autonomous Scheduling uplink available subframe whether Within upper line duration UL duration, if so, then into step 104, using the first parameter carrying out on Autonomous Scheduling Row transmission, if it is not, then entering step 105.It should be noted that above-mentioned configured information is except including UL duration, can be with It is used to indicate whether to carry out the information of Autonomous Scheduling uplink including other.

Specifically, within upper line duration UL duration, Autonomous Scheduling uplink is configured as original position After first symbol in each subframe, and/or, Autonomous Scheduling uplink is configured as end position positioned at each Before last symbol in subframe.So, the time can be reserved for LBT, to prevent the up biography to being dispatched based on eNB Defeated interference.

Specifically, above-mentioned configured information can in including the position of descender stop bits subframe and above-mentioned stop bits subframe With character position, such as vacant character position or up original position, vacant character position and up original position are and can enter The available symbols position of row Autonomous Scheduling uplink；Above-mentioned steps 104, to carry out the Autonomous Scheduling using the first parameter up Transmission is specially：Available symbols position and/or next subframe carry out Autonomous Scheduling uplink in above-mentioned stop bits subframe.

Specifically, the above method also includes：User terminal UE the upper line duration UL duration of base station eNB it It is outer to carry out Autonomous Scheduling uplink using the second parameter；First parameter is different from the second parameter.I.e. in step 103, if inspection Measure Autonomous Scheduling uplink available subframe be located at upper line duration UL duration outside, then into step 105, Autonomous Scheduling uplink is carried out using the second parameter.

Specifically, the corresponding frequency resource quantity of the first parameter is m1, and the corresponding time-domain resource quantity of the first parameter is n1, The corresponding frequency resource quantity of second parameter be m2, the corresponding time-domain resource quantity of the second parameter be n2, wherein, m1, m2, n1 and N2 is positive integer, and m1 is less than or equal to m2, and n1 is less than or equal to n2.

Specifically, the corresponding frequency resource of the first parameter is the Resource Block group in m1 ascending resource distribution type 3, first The corresponding time-domain resource of parameter is n1 continuous subframes, and the corresponding frequency resource of the second parameter is m2 ascending resource distribution type Resource Block group in 3, the corresponding time-domain resource of the second parameter is n2 continuous subframes.

Specifically, the corresponding listem-before-talk LBT configurations of the second parameter use the first specified type, such as the second parameter to use The up channel access process of type 2 (one shot LBT), the corresponding listem-before-talk LBT configurations of the first parameter are specified using second Type, the up channel access process (cat-4LBT) of such as the first parameter usage type 1, the priority of the second specified type is higher than Or equal to the priority of the first specified type.

Embodiment two

The embodiment of the present invention provides a kind of transmission method, including：If user terminal is finding reference signal (Discovery Reference Signal, DRS have found signal also known as Discovery signal) time of measuring configuration (Discovery Signals Measurement Timing Configuration, DMTC) hair of this cell is detected within window window Referring now to signal DRS, then user terminal UE find to be carried out within reference signal time of measuring allocation window DMTC window from Master scheduling uplink.

Specifically, DMTC window are used for eNB to UE transmission DRS, when UE is after DMTC window receive DRS, Both can be with Autonomous Scheduling uplink have been carried out in subframe, to utilize DMTC in the GUL in remaining DMTC window The resource of window.

Transmission method in the present embodiment, Autonomous Scheduling is carried out after UE receives the DRS of this cell in DMTC window Uplink, makes full use of the resource of DMTC window, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, finding within reference signal time of measuring allocation window DMTC window, Autonomous Scheduling uplink Original position is configured as after first symbol in each subframe, and/or, Autonomous Scheduling uplink is configured as Before end position is located at the last symbol in each subframe.If the synchronous adjacent cell eNB of identical DMTC configurations needs Send DRS, then LBT is carried out before first symbol that can be in subframe and DRS is sent in first sign-on, then the subframe In the corresponding LBT of follow-up Autonomous Scheduling uplink will not succeed, therefore can avoid disturbing the DRS of adjacent cell.

Embodiment three

The embodiment of the present invention provides a kind of transmission method, including：User terminal UE is in the periodicity dispatched based on base station eNB An active non-anchor up (periodic non-anchor UpLink) carries out the up biography of Autonomous Scheduling within the time using the first parameter Defeated, the first parameter is used to make within the periodicity an active non-anchor up periodic non-anchor UpLink times, from homophony The up periodic non-anchor UpLink transmission of degree uplink and periodicity an active non-anchor carry out frequency division multiplexing FDM or when Divide multiplexing TDM.Periodicity an active non-anchor up (periodic non-anchor UpLink) transmission is up also known as pseudo-periodicity (pseudo periodic UpLink) is transmitted.

Transmission method in the present embodiment, Autonomous Scheduling is made by within the periodic non-anchor UpLink times Uplink and periodic non-anchor UpLink transmission carry out frequency division multiplexing FDM, time division multiplexing tdm and code division and answer With at least one or any combination in three kinds of modes, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, Autonomous Scheduling uplink is configured as original position positioned at the up periodic of periodicity an active non-anchor Non-anchor UpLink transmission send position after or send the affiliated subframe in position next subframe；

Or, Autonomous Scheduling uplink is configured as periodic non-anchor up with periodicity an active non-anchor UpLink transmission realizes frequency division multiplexing FDM in same subframe using different frequency resources.

Here transmission position refers to the whole uplink position in a cycle, by Autonomous Scheduling uplink configuration For original position is located at after the transmission position of periodic non-anchor UpLink transmission or sends son belonging to position Next subframe of frame, can preferentially ensure that periodic non-anchor UpLink are transmitted, and surplus resources are carried out independently again Scheduling of upstream transmissions.

Example IV

The embodiment of the present invention provides a kind of transmission method, including：

If specified quantities of the user terminal UE within paging occasion window (paging occasion window, POW) Pager wireless net network temporary mark (paging-Radio Network are not detected in continuous Serving cell subframe Tempory Identity, P-RNTI) scrambling Physical Downlink Control Channel (Physical Downlink Control Channel, PDCCH), then user terminal carries out Autonomous Scheduling uplink within POW.Here specified quantity can be Unite the number of subframes PagelessSfsToMonitor for not detecting paging for notifying.

Transmission method in the present embodiment, judges to be carried out in POW in UE by detecting the PDCCH of P-RNTI scramblings During downlink transfer, the resource of POW is made full use of, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, if the continuous Serving cell subframe of specified quantities of the user terminal UE within paging occasion window POW The physical downlink control channel PDCCH of pager wireless net network temporary mark P-RNTI scramblings is not detected inside, then user terminal The process that UE carries out Autonomous Scheduling uplink within paging occasion window POW includes：

If without inspection in the continuous Serving cell subframe of specified quantities of the user terminal UE within paging occasion window POW The PDCCH of pager wireless net network temporary mark P-RNTI scramblings is measured, then user terminal UE is in the continuous service of specified quantity Second slot s lot in last subframe in cell subframe carries out Autonomous Scheduling uplink, or, user terminal It is up that next subframe of last subframes of the UE in the continuous Serving cell subframe of specified quantity carries out Autonomous Scheduling Transmission.

Assuming that eNB can send multiple Paging signals in POW, Autonomous Scheduling uplink is configured as start bit set After first symbol in each subframe, and/or, Autonomous Scheduling uplink is configured as end position and is located at per height Before the last symbol of frame in.To ensure that Autonomous Scheduling uplink does not interfere with the transmission of follow-up Paging signals.

Assuming that eNB can only send a paging signal to same UE in POW, when UE detects the paging letters of the UE After number, Autonomous Scheduling uplink can be carried out in follow-up subframe, multiple Paging can be sent in POW and is believed with eNB is assumed Number situation compare, the restriction at this point for the original position and end position of Autonomous Scheduling uplink is looser.

Assuming that eNB can only send a paging signal to all cell UE in POW, add when UE detects P-RNTI After the PDCCH for disturbing, Autonomous Scheduling uplink can be carried out in follow-up subframe, can be sent in POW repeatedly with eNB is assumed The situation of Paging signals is compared, and the restriction at this point for the original position and end position of Autonomous Scheduling uplink is more widened Pine.

Embodiment five

The embodiment of the present invention provides a kind of transmission method, including：If user terminal detects the uplink scheduling authorization of itself (UpLink grant, UL grant), then into first mode, in first mode, in the available son of Autonomous Scheduling uplink It is transmitted according to uplink scheduling authorization UL grant with the overlap sub-frame in the subframe of uplink scheduling authorization in frame, from homophony Spending the subframe in the available subframe of uplink in addition to above-mentioned overlap sub-frame carries out Autonomous Scheduling uplink.

Transmission method in the present embodiment, when the subframe of UL grant and the available subframe of Autonomous Scheduling uplink are Chong Die When, overlap sub-frame is transmitted according to UL grant, make the non-overlapped subframe in the available subframe of Autonomous Scheduling uplink Autonomous Scheduling uplink is carried out, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, the above method also includes：If user terminal UE is not detected by the uplink scheduling of itself in Preset Time UL grant are authorized, then into second mode, in second mode, is carried out in the available subframe of Autonomous Scheduling uplink autonomous Scheduling of upstream transmissions.

Embodiment six

As shown in Fig. 2 being based on embodiment one, the present embodiment provides a kind of user terminal UE, including：Transport module 1, is based on The detection of public Physical Downlink Control Channel C-PDCCH and its configured information, using the first parameter in the corresponding money of configured information Autonomous Scheduling uplink is carried out on source.

The specific work process and principle of the transport module 1 are identical with above-described embodiment one, will not be repeated here.

User terminal UE in the present embodiment, the detection by C-PDCCH and the corresponding money of the configured information in C-PDCCH Autonomous Scheduling uplink is carried out on source, therefore, it is possible to be carried out on Autonomous Scheduling using the available resources in other transmission means Row transmission, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Transport module 1 is specifically on the Autonomous Scheduling within the upper line duration UL duration of base station eNB In row transmission available resources Autonomous Scheduling uplink is carried out using the first parameter.

Specifically, the first parameter is configured as making within upper line duration UL duration, the up biography of Autonomous Scheduling It is defeated carry out with base station eNB scheduling of upstream transmissions SUL in frequency division multiplexing, three kinds of modes of time division multiplex and code division multiplexing at least one Plant or be combined.

User terminal in the present embodiment, Autonomous Scheduling uplink and SUL are made same by UL duration At least one or any combination in frequency division multiplexing, three kinds of modes of time division multiplex and code division multiplexing are carried out in subframe, so as to carry The efficiency of transmission of Autonomous Scheduling uplink high.

Specifically, above-mentioned transport module 1 includes：Acquiring unit 11, for by public Physical Downlink Control Channel CPDCCH obtains above-mentioned configured information；Transmitting element 12, if for judging Autonomous Scheduling uplink according to above-mentioned configured information Available subframe be located at upper line duration UL duration within, then carry out Autonomous Scheduling uplink using the first parameter.

Specifically, within upper line duration UL duration, Autonomous Scheduling uplink is configured as original position After first symbol in each subframe, and/or, Autonomous Scheduling uplink is configured as end position positioned at each Before last symbol in subframe.

Specifically, above-mentioned configured information includes that in the position of descender stop bits subframe and stop bits subframe symbol can be used Number position；Transmitting element 12, specifically for the available symbols position in stop bits subframe and/or in the next of stop bits subframe Subframe carries out Autonomous Scheduling uplink.

Specifically, transport module 1 is additionally operable to, and the second ginseng is used outside the upper line duration UL duration of base station Number carries out Autonomous Scheduling uplink；First parameter is different from the second parameter.

Specifically, the corresponding frequency resource quantity of the first parameter is m1, and the corresponding time-domain resource quantity of the first parameter is n1, The corresponding frequency resource quantity of second parameter be m2, the corresponding time-domain resource quantity of the second parameter be n2, wherein, m1, m2, n1 and N2 is positive integer, and m1 is less than or equal to m2, and n1 is less than or equal to n2.

Specifically, the corresponding frequency resource of the first parameter is the Resource Block group in m1 ascending resource distribution type 3, first The corresponding time-domain resource of parameter is n1 continuous subframes, and the corresponding frequency resource of the second parameter is m2 ascending resource distribution type The corresponding time-domain resource of the parameter of Resource Block group second in 3 is n2 continuous subframes.

Specifically, the corresponding listem-before-talk LBT configurations of the second parameter use the first specified type, the corresponding elder generation of the first parameter Say that LBT configurations use the second specified type after listening, the priority of the second specified type is excellent greater than or equal to the first specified type First level.

It should be noted that the specific transmitting procedure and principle of UE are identical with embodiment one in the present embodiment, herein no longer Repeat.

Embodiment seven

Based on embodiment two, the present embodiment provides a kind of user terminal UE, including：Transport module, if for finding to join The discovery reference signal DRS that this cell is detected within signal measurement time allocation window DMTC window is examined, is then finding to join Examine and carry out Autonomous Scheduling uplink within signal measurement time allocation window DMTC window.

Specifically, DMTC window are used for eNB to UE transmission DRS, when UE is after DMTC window receive DRS, Both Autonomous Scheduling uplink can be carried out in remaining DMTC window, with using the resource of DMTC window.

User terminal UE in the present embodiment, is carried out from homophony after UE receives the DRS of this cell in DMTC window Degree uplink, makes full use of the resource of DMTC window, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, finding within reference signal time of measuring allocation window DMTC window, Autonomous Scheduling uplink Original position is configured as after first symbol in each subframe, and/or, Autonomous Scheduling uplink is configured as Before end position is located at the last symbol in each subframe.If eNB needs to send the UE of DRS to adjacent cell, then Can first symbol in subframe carry out LBT, then the corresponding LBT of follow-up Autonomous Scheduling uplink will not be into the subframe Work(, therefore can avoid disturbing the DRS of adjacent cell.

Embodiment eight

Based on embodiment three, the present embodiment provides a kind of user terminal, including：Transport module, for being adjusted based on base station Carried out from homophony using the first parameter within the periodicity an active non-anchor up periodic non-anchor UpLink times of degree Degree uplink, the first parameter be used for make the periodicity an active non-anchor up periodic non-anchor UpLink times it Interior, Autonomous Scheduling uplink periodic non-anchor UpLink transmission up with periodicity an active non-anchor carries out frequency division and answers With at least one or any combination in, three kinds of modes of time division multiplex and code division multiplexing.

User terminal in the present embodiment, Autonomous Scheduling is made by within the periodic non-anchor UpLink times Uplink and periodic non-anchor UpLink transmission carry out frequency division multiplexing FDM or time division multiplexing tdm, so as to improve The efficiency of transmission of Autonomous Scheduling uplink.

Specifically, Autonomous Scheduling uplink is configured as original position positioned at the up periodic of periodicity an active non-anchor Non-anchor UpLink transmission send position after or send the affiliated subframe in position next subframe；

Or, Autonomous Scheduling uplink is configured as periodic non-anchor up with periodicity an active non-anchor UpLink transmission realizes frequency division multiplexing FDM in same subframe using different frequency resources.

Here transmission position refers to the whole uplink position in a cycle, by Autonomous Scheduling uplink configuration For original position is located at after the transmission position of periodic non-anchor UpLink transmission or sends son belonging to position Next subframe of frame, can preferentially ensure that periodic non-anchor UpLink are transmitted, and surplus resources are carried out independently again Scheduling of upstream transmissions.

Embodiment nine

Based on example IV, the present embodiment provides a kind of user terminal, including：Transport module, if in paging occasion Pager wireless net network temporary mark P-RNTI is not detected in the continuous Serving cell subframe of specified quantity within window POW The physical downlink control channel PDCCH of scrambling, then carry out Autonomous Scheduling uplink within the paging occasion window POW.

User terminal UE in the present embodiment, judges to enter in POW in UE by detecting the PDCCH of P-RNTI scramblings During row downlink transfer, the resource of POW is made full use of, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Transport module is specifically for if the continuous Serving cell subframe of specified quantity within paging occasion window POW The physical downlink control channel PDCCH for exhaling Radio Network Temporary Identifier P-RNTI to scramble is not detected inside, then in specified quantity Second slot s lot in last subframe in individual continuous Serving cell subframe carries out Autonomous Scheduling uplink, or Person, it is up that next subframe of last subframe in the continuous Serving cell subframe of specified quantity carries out Autonomous Scheduling Transmission.

Assuming that eNB can send multiple Paging signals in POW, Autonomous Scheduling uplink is configured as start bit set After first symbol in each subframe, and/or, Autonomous Scheduling uplink is configured as end position and is located at per height Before the last symbol of frame in.To ensure that Autonomous Scheduling uplink does not interfere with the transmission of follow-up Paging signals.

Assuming that eNB can only send a paging signal to same UE in POW, when UE detects the paging letters of the UE After number, Autonomous Scheduling uplink can be carried out in follow-up subframe, multiple Paging can be sent in POW and is believed with eNB is assumed Number situation compare, the restriction at this point for the original position and end position of Autonomous Scheduling uplink is looser.

Assuming that eNB can only send a paging signal to all cell UE in POW, add when UE detects P-RNTI After the PDCCH for disturbing, multiple Paging can be sent in POW with eNB is assumed in follow-up subframe Autonomous Scheduling uplink The situation of signal is compared, and the restriction at this point for the original position and end position of Autonomous Scheduling uplink is looser.

Embodiment ten

Based on embodiment five, the present embodiment provides a kind of user terminal UE, including：Mode switch module, if for detecting To the uplink scheduling authorization (UpLink grant, UL grant) of the user terminal itself, then into first mode,

Transport module, in first mode, with uplink scheduling authorization in the available subframe of Autonomous Scheduling uplink Subframe in overlap sub-frame be transmitted according to uplink scheduling authorization UL grant, in the available son of Autonomous Scheduling uplink Subframe in frame in addition to above-mentioned overlap sub-frame carries out Autonomous Scheduling uplink.

User terminal UE in the present embodiment, when the subframe and the available subframe weight of Autonomous Scheduling uplink of UL grant When folded, overlap sub-frame is transmitted according to UL grant, make the non-overlapped son in the available subframe of Autonomous Scheduling uplink Frame carries out Autonomous Scheduling uplink, so as to improve the efficiency of transmission of Autonomous Scheduling uplink.

Specifically, mode switch module is additionally operable to, if being not detected by the up tune of user terminal itself in Preset Time Degree authorizes UL grant, then into second mode；Transport module is additionally operable to, in second mode, in Autonomous Scheduling uplink Can be with carrying out Autonomous Scheduling uplink in subframe.

Embodiment 11

As shown in figure 3, the present embodiment provides a kind of user terminal, the user terminal includes：One or more processors 610 And memory 620, in Fig. 3 by taking a processor 610 as an example.

The electronic equipment can also include：Input unit 630 and output device 640.

Processor 610, memory 620, input unit 630 and output device 640 can be by bus or other modes Connection, in Fig. 3 as a example by being connected by bus.

Memory 620 can be used to storing non-transient software program, non-as a kind of non-transient computer readable storage medium storing program for executing The corresponding programmed instruction of transmission method/module (example in transient computer executable program and module, such as the embodiment of the present application Such as, the acquiring unit 11 and transmitting element 12 shown in accompanying drawing 2).Processor 610 is non-in memory 620 by running storage Transient state software program, instruction and module, so that the various function application of execute server and data processing, that is, realize above-mentioned Transmission method in any means embodiment.

Memory 620 can include storing program area and storage data field, wherein, storing program area can store operation system Application program required for system, at least one function；And necessary data etc..Additionally, memory 620 can be included at a high speed at random Access memory, can also include non-transient memory, for example, at least one disk memory, flush memory device or other are non- Transient state solid-state memory.The example of above-mentioned network includes but is not limited to internet, intranet, LAN, mobile communication Net and combinations thereof.

Input unit 630 can receive the numeral or character information of input, and produce with the user of user terminal set with And the relevant key signals input of function control.Output device 640 may include the display devices such as display screen.

One or more of modules are stored in the memory 620, when by one or more of processors During 610 execution, the transmission method in above-mentioned any means embodiment is performed.

The method that the executable the embodiment of the present application of the said goods is provided, possesses the corresponding functional module of execution method and has Beneficial effect.Not ins and outs of detailed description in the present embodiment, reference can be made to the method that the embodiment of the present application is provided.

The user terminal of the embodiment of the present invention exists in a variety of forms, including but not limited to:

(1) mobile communication equipment:The characteristics of this kind equipment is that possess mobile communication function, and to provide speech, data It is main target to communicate.This Terminal Type includes:Smart mobile phone (such as iPhone), multimedia handset, feature mobile phone, and it is low End mobile phone etc..

(2) super mobile personal computer equipment:This kind equipment belongs to the category of personal computer, there is calculating and treatment work( Can, typically also possess mobile Internet access characteristic.This Terminal Type includes:PDA, MID and UMPC equipment etc., such as iPad.

(3) portable entertainment device:This kind equipment can show and play content of multimedia.The kind equipment includes:Audio, Video player (such as iPod), handheld device, e-book, and intelligent toy and portable car-mounted navigation equipment.

(4) other have the electronic installation of data interaction function.

It is apparent to those skilled in the art that, for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, may be referred to the corresponding process in preceding method embodiment, will not be repeated here.

In several embodiments provided by the present invention, it should be understood that disclosed system, apparatus and method can be with Realize by another way.For example, device embodiment described above is only schematical, for example, the unit Divide, only a kind of division of logic function there can be other dividing mode when actually realizing, for example, multiple units or group Part can be combined or be desirably integrated into another system, or some features can be ignored, or not performed.It is another, it is shown Or the coupling each other that discusses or direct-coupling or communication connection can be by some interfaces, device or unit it is indirect Coupling is communicated to connect, and can be electrical, mechanical or other forms.

The unit that is illustrated as separating component can be or may not be it is physically separate, it is aobvious as unit The part for showing can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be according to the actual needs selected to realize the mesh of this embodiment scheme 's.

In addition, during each functional unit in each embodiment of the invention can be integrated in a processing unit, it is also possible to It is that unit is individually physically present, it is also possible to which two or more units are integrated in a unit.Above-mentioned integrated list Unit can both be realized in the form of hardware, it would however also be possible to employ hardware adds the form of SFU software functional unit to realize.

The above-mentioned integrated unit realized in the form of SFU software functional unit, can store and be deposited in an embodied on computer readable In storage media.Above-mentioned SFU software functional unit storage is in a storage medium, including some instructions are used to so that a computer Device (can be personal computer, server, or network equipment etc.) or processor (Processor) perform the present invention each The part steps of embodiment methods described.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage (Read- Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disc or CD etc. it is various Can be with the medium of store program codes.

Presently preferred embodiments of the present invention is the foregoing is only, is not intended to limit the invention, it is all in essence of the invention Within god and principle, any modification, equivalent substitution and improvements done etc. should be included within the scope of protection of the invention.

Claims (10)

1. a kind of transmission method, it is characterised in that including：

User terminal is based on detection and its configured information of public Physical Downlink Control Channel, using the first parameter in the instruction Autonomous Scheduling uplink is carried out in the corresponding resource of information.

2. a kind of transmission method, it is characterised in that including：

If user terminal detects the discovery reference signal of this cell within discovery reference signal time of measuring allocation window, The user terminal carries out Autonomous Scheduling uplink within the discovery reference signal time of measuring allocation window.

3. a kind of transmission method, it is characterised in that including：

User terminal carries out Autonomous Scheduling within the periodicity an active non-anchor upstream time based on base station scheduling using the first parameter Uplink, first parameter is used to make within the periodicity an active non-anchor upstream time, the up biography of Autonomous Scheduling It is defeated to carry out frequency division multiplexing and/or time division multiplex and/or code division multiplexing with periodicity an active non-anchor uplink.

4. a kind of transmission method, it is characterised in that including：

If not detecting paging in the continuous Serving cell subframe of specified quantity of the user terminal within paging occasion window Radio Network Temporary Identifier scrambling Physical Downlink Control Channel, then the user terminal carried out within the paging occasion window Autonomous Scheduling uplink.

5. a kind of transmission method, it is characterised in that including：

If user terminal detects the uplink scheduling authorization of itself, into first mode, in the first mode, it is described from In the available subframe of master scheduling uplink with the subframe of the uplink scheduling authorization in overlap sub-frame according to the up tune Degree mandate is transmitted, and the subframe in the available subframe of the Autonomous Scheduling uplink in addition to the overlap sub-frame is carried out The Autonomous Scheduling uplink.

6. a kind of user terminal, it is characterised in that including：

Transport module, for the detection based on public Physical Downlink Control Channel and its configured information, using the first parameter in institute State and carry out Autonomous Scheduling uplink in the corresponding resource of configured information.

7. a kind of user terminal, it is characterised in that including：

Transport module, if for detecting the discovery of this cell within discovery reference signal time of measuring allocation window with reference to letter Number, then carry out Autonomous Scheduling uplink within the discovery reference signal time of measuring allocation window.

8. a kind of user terminal, it is characterised in that including：

Transport module, for being carried out independently using the first parameter within the periodicity an active non-anchor upstream time based on base station scheduling Scheduling of upstream transmissions, first parameter is used to make within the periodicity an active non-anchor upstream time, on the Autonomous Scheduling During row transmission carries out frequency division multiplexing, three kinds of modes of time division multiplex and code division multiplexing with periodicity an active non-anchor uplink At least one or any combination.

9. a kind of user terminal, it is characterised in that including：

Transport module, if for not detected in the continuous Serving cell subframe of specified quantity within paging occasion window The Physical Downlink Control Channel of pager wireless net network temporary mark scrambling, then carry out Autonomous Scheduling within the paging occasion window Uplink.

10. a kind of user terminal, it is characterised in that including：

Mode switch module, if for detecting the user terminal uplink scheduling authorization of itself, into first mode；

Transport module, it is up with described in the available subframe of the Autonomous Scheduling uplink in the first mode Overlap sub-frame in the subframe of scheduling authorization is transmitted according to the uplink scheduling authorization, in the Autonomous Scheduling uplink Available subframe in subframe in addition to the overlap sub-frame carry out the Autonomous Scheduling uplink.