CN106304340A - Subscriber equipment, base station and correlation technique - Google Patents

Abstract

The invention provides a kind of method in user equipment (UE), comprise determining that the first subframe received in unlicensed spectrum is to shorten subframe, in described shortening subframe, at least part of symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH；Calculate each number strengthening enhancing resource unit group EREG comprised in control Channel Elements ECCE in the first subframe；Number based on the EREG calculated detects EPDCCH.

Description

Subscriber equipment, base station and correlation technique

Technical field

The present invention relates to wireless communication technology field, more particularly, to a kind of subscriber equipment, base Stand and correlation technique.

Background technology

Modern mobile radio system presents two distinguishing features, and one is broadband high-speed rate, than Bandwidth such as forth generation mobile radio system is up to 1Gbps up to 100MHz, downstream rate； Two is mobile interchange, has promoted the emerging services such as mobile Internet access, mobile video program request, online navigation. The two feature proposes high requirement to wireless mobile telecommunication technology, mainly has: superelevation speed without In line transmission, interregional AF panel, movement at transmitting signal, distributed/centralized signal Reason etc..At following enhancing forth generation (4G) and the 5th generation (5G) mobile radio system In, in order to meet above-mentioned growth requirement, various corresponding key technologies start to be suggested and prove, It is worth researcher in this field's extensive concern.

In October, 2007, International Telecommunication Union (ITU) approval worldwide interoperability for microwave accesses system System (WiMax, Worldwide Interoperability for Microwave Access) becomes the 4th Individual 3G system standard.This generation is in the event in 3G latter stage in epoch, and actually 4G standard is striven Take the preview of war by force.It is true that it is wireless in order to tackle with WLAN and WiMax as representative The challenge of IP technical flow, from the beginning of 2005, third generation 3GPP tissue is just set about carrying out brand-new System upgrade, the i.e. standardization effort of long evolving system (LTE, Long Term Evolution). This be one based on orthogonal frequency division multiplexi (OFDM, Orthogonal Frequency Division Multiplexing) standard four generation system, has released the first edition at the beginning of 2009, and in 2010 years Commercialization is started successively in the whole world.Meanwhile, 3GPP organizes about forth generation wireless mobile communications The standardization formulation work of system (4G) the most starts the first half of the year in 2008, and this system claims For advanced long evolving system (LTE-A, Long Term Evolution Advanced).This is The key standardisation document of the physical layer procedure of system completes at the beginning of 2011.In November, 2011 ITU is organized in Chongqing in China and announces, lte-a system and WiMax system are 4G systems Two official standards.At present, the commercial process of lte-a system is the most progressively launched.

According to the challenge of following 10 years, for the forth generation mobile radio system strengthened, substantially There is some growth requirement following:

-higher WiMAX speed, and the hot spot region, community of emphasis optimization local；

-improve Consumer's Experience further, it is accordingly required in particular to optimize the communication service of cell border areas；

-extension of 1000 times can not be had in view of usable spectrum, therefore need to continue research and can carry The new technique of high spectrum utilization ratio；

The frequency spectrum (5GHz, the highest) of-high band will come into operation, bigger to obtain Communication bandwidth；

The collaborative work of-existing network (2G/3G/4G, WLAN, WiMax etc.), to share Data traffic；

-for different business, application and service certain optimisation；

-strengthening system supports the ability of large-scale machines communication；

-flexible, the intelligent and cheap network planning with arrange net；

-design is to save power consumption and the battery consumption of subscriber equipment of network.

In traditional 3GPP LTE system, data transmission can only authorize (licensed on frequency spectrum Bands/carriers), however as the sharp increase of portfolio, especially at the hot zone in some cities Territory, authorizes frequency spectrum may be difficult to meet the demand of the portfolio of growth.3GPP RAN#62 time is complete A new research topic, i.e. unlicensed spectrum (unlicensed bands/carriers) can be discussed Research (RP-132085), main purpose is the dependent of research and utilization LTE in unlicensed spectrum Disposing (non-standalone deployment), so-called dependent refers to leading in unlicensed spectrum Letter is wanted and authorizes the Serving cell on frequency spectrum to be associated.One direct method is to try to continue to use LTE The mode of the carrier aggregation (carrier aggregation, CA) in system, will authorize frequency spectrum to be deployed as The main carrier (primary component carrier, PCC) of serving BS, disposes unlicensed spectrum Auxiliary carrier wave (secondary component carrier, SCC) for serving BS.

But, traditional LTE system is applied in unlicensed spectrum, it is understood that there may be problems with. Authorize may being taken by WiFi signal of frequency spectrum, and the working method of WiFi is the shape of a kind of burst Formula busy channel, taking when not being the most long, but frequently the taking of short time.Therefore, LTE Base station will detect whether to there is non-LTE (such as WiFi) transmission, this mistake in unlicensed spectrum Journey is referred to as efficient channel assessment (CCA), the part OFDM symbol that CCA will take in some subframes Number.Such as, in the first subframe and odd amount in addition to the round number frame of a downlink transmission process (i.e. burst), because The existence of CCA, can take the part OFDM symbol of the starting position of first subframe, and odd amount in addition to the round number The part OFDM symbol of tail position.Therefore in such as first subframe and the such subframe of odd amount in addition to the round number frame When carrying out strengthening Physical Downlink Control Channel (EPDCCH) transmission, the distribution of its resource and resource are reflected Penetrate mode, distribute from traditional EPDCCH resource in normal sub-frames and resource maps different.

Accordingly, it would be desirable to new Resource Allocation Formula, in order to send in unlicensed spectrum and receive EPDCCH。

Summary of the invention

It is an object of the invention to provide a kind of subscriber equipment, base station and correlation technique, it is simple to award non- Send on power frequency spectrum and receive EPDCCH.

According to the first aspect of the invention, it is provided that a kind of method in user equipment (UE), including: Determine that the first subframe received in unlicensed spectrum is to shorten subframe, in described shortening subframe at least Partial symbols cannot be used for strengthening Physical Downlink Control Channel EPDCCH；Calculate in the first subframe every The individual number strengthening enhancing resource unit group EREG comprised in control Channel Elements ECCE；Base In the number of the EREG calculated to detect EPDCCH.

In an embodiment, described at least part of symbol is used for efficient channel assessment CCA.

In an embodiment, described detection includes: obtain in the first subframe configuration for EPDCCH Physical Resource Block to the number of Physical Resource Block pair of instruction in group and frequency domain position；According to physics Number and the frequency domain position of Resource Block pair detect EPDCCH.

In an embodiment, described method also includes: receive EPDCCH group configuration information, described EPDCCH group configuration information includes that Physical Resource Block is to group.

In an embodiment, described shortening subframe is only to comprise descending pilot frequency time slot DwPTS or descending The special subframe of physical channel.

In an embodiment, each Physical Resource Block is to comprising 16 EREG.

According to the second aspect of the invention, it is provided that a kind of user equipment (UE), list is comprised determining that Unit, determines that the first subframe received in unlicensed spectrum is to shorten subframe, in described shortening subframe At least partly symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH；Computing unit, meter Calculate each enhancing in the first subframe and control the enhancing resource unit group comprised in Channel Elements ECCE The number of EREG；Detector unit, number based on the EREG calculated detects EPDCCH.

In an embodiment, described at least part of symbol is used for efficient channel assessment CCA.

In an embodiment, described detector unit is configured to: obtain in the first subframe being used for of configuration The number of the Physical Resource Block of the EPDCCH Physical Resource Block pair to indicating in group and frequency domain position； Number and frequency domain position according to Physical Resource Block pair detect EPDCCH.

In an embodiment, described UE also includes: receive unit, receives EPDCCH and assembles confidence Breath, described EPDCCH group configuration information includes that Physical Resource Block is to group.

In an embodiment, described shortening subframe is only to comprise descending pilot frequency time slot DwPTS or descending The special subframe of physical channel.

In an embodiment, each Physical Resource Block is to comprising 16 EREG.

According to the third aspect of the invention we, it is provided that a kind of method in base station, comprising determining that will The first subframe sent in unlicensed spectrum is to shorten subframe, in described shortening subframe at least partly Symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH；Calculate each increasing in the first subframe The number of strong enhancing resource unit group EREG controlling to comprise in Channel Elements ECCE；Based on institute The number of the EREG calculated sends EPDCCH.

In an embodiment, described at least part of symbol is used for efficient channel assessment CCA.

In an embodiment, described transmission includes: according in the first subframe configuration for EPDCCH Physical Resource Block the number of Physical Resource Block pair and the frequency domain position of instruction in group are sent EPDCCH。

In an embodiment, described method also includes: send EPDCCH group configuration information, described EPDCCH group configuration information includes that Physical Resource Block is to group.

In an embodiment, described shortening subframe is only to comprise descending pilot frequency time slot DwPTS or descending The special subframe of physical channel.

In an embodiment, each Physical Resource Block is to comprising 16 EREG.

According to the fourth aspect of the invention, it is provided that a kind of base station, comprise determining that unit, determine The first subframe to send in unlicensed spectrum is to shorten subframe, at least portion in described shortening subframe Symbol is divided to cannot be used for strengthening Physical Downlink Control Channel EPDCCH；Computing unit, calculates first Enhancing resource unit group EREG comprised in each enhancing control Channel Elements ECCE in subframe Number；Transmitting element, number based on the EREG calculated sends EPDCCH.

In an embodiment, described at least part of symbol is used for efficient channel assessment CCA.

In an embodiment, described transmitting element is configured to: according to being used for of configuring in the first subframe The number of the Physical Resource Block of the EPDCCH Physical Resource Block pair to indicating in group and frequency domain position Send EPDCCH.

In an embodiment, described transmitting element is also configured to send EPDCCH group configuration information, Described EPDCCH group configuration information includes that Physical Resource Block is to group.

In an embodiment, described shortening subframe is only to comprise descending pilot frequency time slot DwPTS or descending The special subframe of physical channel.

In an embodiment, each Physical Resource Block is to comprising 16 EREG.

According to embodiments of the invention, (such as accounted for by CCA at unlicensed spectrum upper part symbol With) cannot be used in the subframe (i.e. shortening subframe) of EPDCCH, it is possible to correct transmission and connecing Receive EPDCCH.

Accompanying drawing explanation

By the preferred embodiments of the present invention are described below in conjunction with the accompanying drawings, by make the present invention on address Other objects, features and advantages are clearer, wherein:

Fig. 1 is the block diagram of UE according to embodiments of the present invention；

Fig. 2 is the flow chart of the method in UE according to embodiments of the present invention；

Fig. 3 is the block diagram of base station according to embodiments of the present invention；

Fig. 4 is the flow chart of the method in base station according to embodiments of the present invention.

Detailed description of the invention

Below with reference to the drawings and specific embodiments, embodiments of the invention are described in detail. It should be noted that, the present invention should not be limited to specific embodiments described below.It addition, for simplicity For the sake of, eliminate the detailed description to the known technology not having direct correlation with the present invention, to prevent The understanding of the present invention causes to be obscured.

Hereafter using LTE mobile communication system and follow-up evolution version thereof as example applied environment, Specifically describe the multiple embodiments according to the present invention.It should be noted, however, that the present invention is not It is limited to following example, and can be applied to other wireless communication system more, the most from now on 5G cellular communication system.

Fig. 1 shows the block diagram of UE 100 according to embodiments of the present invention.As it can be seen, UE 100 Comprise determining that unit 110, computing unit 120 and detector unit 130.Those skilled in the art should Understanding, UE 100 also includes realizing its function other functional units necessary, as various processors, Memorizer etc..

Determine that unit 110 determines that the first subframe received in unlicensed spectrum is to shorten subframe.Contracting In short subframe, at least part of symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH.Example As, shortening subframe is the first subframe in downlink burst or odd amount in addition to the round number frame.

In one example, described at least part of symbol is used for efficient channel assessment CCA.

In one example, described shortening subframe be only comprise descending pilot frequency time slot DwPTS or under The special subframe of row physical channel, does not the most comprise uplink pilot time slot UpPTS (by such as CCA Take).

Computing unit 120 calculates each enhancing in the first subframe and controls to comprise in Channel Elements ECCE The number of enhancing resource unit group EREG.

Specifically, with reference to following two example, the calculating that computing unit 120 performs is described.

Example A

When the first subframe is normal CP configuration:

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K (K is from 1 meter to 14) of the descending transmission after the OFDM symbol that CCA takies Meet K ＜=4, then, in this subframe, each ECCE comprises 4 EREG.

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K of the descending transmission after the OFDM symbol that CCA takies meets 4 ＜ K ＜=7, Then in this subframe, each ECCE comprises 8 EREG.

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K of the descending transmission after the OFDM symbol that CCA takies meets 7 ＜ K ＜=11, Then in this subframe, each ECCE comprises 12 EREG.

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＞ 11, then In this subframe, each ECCE comprises 16 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＞=11, Then in this subframe, each ECCE comprises 4 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets 8 ＜=K ＜ 11, Then in this subframe, each ECCE comprises 8 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets 4 ＜=K ＜ 8, Then in this subframe, each ECCE comprises 12 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＜ 4, then In this subframe, each ECCE comprises 16 EREG.

Example B

When the first subframe is extension CP configuration:

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＜=4, then In this subframe, each ECCE comprises 8 EREG.

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K of the descending transmission after the OFDM symbol that CCA takies meets 4 ＜ K ＜=8, Then in this subframe, each ECCE comprises 12 EREG.

If it is first subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Primary sign sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＞ 8, then In this subframe, each ECCE comprises 16 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＞=9, then In this subframe, each ECCE comprises 8 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets 5 ＜=K ＜ 9, Then in this subframe, each ECCE comprises 12 EREG.

If it is last subframe in downlink transfer of unlicensed spectrum, and this subframe is removed Terminating symbol sequence number K of the descending transmission after the OFDM symbol that CCA takies meets K ＜ 5, then In this subframe, each ECCE comprises 16 EREG.

Detector unit 130 number based on the EREG calculated detects EPDCCH.

In one example, detector unit 130 is configured to: obtain the use of configuration in the first subframe The Physical Resource Block pair of the Physical Resource Block instruction middle to group (PRB Pair Set) in EPDCCH The number of (PRB Pair) and frequency domain position；Number according to Physical Resource Block pair and frequency domain position Detect EPDCCH.

In one example, group is received by above-mentioned Physical Resource Block from base station.Such as, UE 100 Also include: receive unit, receive EPDCCH group (EPDCCH Set) configuration information, described EPDCCH group configuration information includes that Physical Resource Block is to group.

Such as, EPDCCH group configuration information can be by IE newly-increased in 3GPP TS 36.331 EPDCCH-SetConfig-r13 realizes:

NumberPRB-Pairs-r13 ENUMERATED{n2, n4, n8, n12, n16},

Wherein n12 and n16 is newly-increased, the number of instruction Physical Resource Block pair.

Furthermore, it is possible to the IE of the frequency domain position of the newly-increased Physical Resource Block pair representing EPDCCH group:

resourceBlockAssignment-r13 BIT STRING(SIZE(4..64))

In one example, each Physical Resource Block is to comprising 16 EREG (labelling EREG 0 To EREG 15).

Fig. 2 is the flow chart of the method 200 in UE according to embodiments of the present invention.It should be noted that The all features described that combine with the embodiment of above-mentioned UE 100 are also applied for following methods and implement Example.Method 200 can be performed by above-mentioned UE 100, and comprises the following steps.

In step S210, determine that the first subframe received in unlicensed spectrum is to shorten subframe, institute State at least part of symbol in shortening subframe to cannot be used for strengthening Physical Downlink Control Channel EPDCCH.

In one example, described at least part of symbol is used for efficient channel assessment CCA.

In one example, described shortening subframe be only comprise descending pilot frequency time slot DwPTS or under The special subframe of row physical channel.

In step S220, calculate each enhancing in the first subframe and control Channel Elements ECCE comprises The number of enhancing resource unit group EREG.

Calculating in step S220 can according to the example A described above in association with UE 100 and/ Or B performs.

In step S230, number based on the EREG calculated detects EPDCCH.

In one example, described detecting step S230 includes: obtain configuration in the first subframe For the Physical Resource Block of EPDCCH to the number of Physical Resource Block pair of instruction in group and frequency domain Position；Number and frequency domain position according to Physical Resource Block pair detect EPDCCH.

In one example, method 200 also includes: receive EPDCCH group configuration information, described EPDCCH group configuration information includes that Physical Resource Block is to group.

In one example, each Physical Resource Block is to comprising 16 EREG.

Fig. 3 shows the block diagram of base station 300 according to embodiments of the present invention.As it can be seen, base station 300 comprise determining that unit 310, computing unit 320 and transmitting element 330.People in the art Member should be understood that base station 300 also includes realizing its function other functional units necessary, as various Processor, memorizer etc..

Determine that unit 310 determines that the first subframe to send in unlicensed spectrum is to shorten subframe, In described shortening subframe, at least part of symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH。

In one example, described at least part of symbol is used for efficient channel assessment CCA.

In one example, described shortening subframe be only comprise descending pilot frequency time slot DwPTS or under The special subframe of row physical channel.

Computing unit 320 calculates each enhancing in the first subframe and controls to comprise in Channel Elements ECCE The number of enhancing resource unit group EREG.

Computing unit 320 can come according to the example A described above in association with UE 100 and/or B Perform calculating.

Transmitting element 330 number based on the EREG calculated sends EPDCCH.

In one example, transmitting element 330 is configured to: according to the use of configuration in the first subframe The number of the Physical Resource Block pair of instruction and frequency domain position in the Physical Resource Block of EPDCCH is to group Put and send EPDCCH.

In one example, transmitting element 330 is also configured to send EPDCCH and assembles confidence Breath, described EPDCCH group configuration information includes that Physical Resource Block is to group.Here, EPDCCH Group configuration information can be as described in above in association with UE 100.

In one example, each Physical Resource Block is to comprising 16 EREG.

Fig. 4 is the flow chart of the method 400 in base station according to embodiments of the present invention.It should be noted that The all features described that combine with the embodiment of above-mentioned base station 300 are also applied for following methods and implement Example.Method 400 can be performed by above-mentioned base station 300, and comprises the following steps.

In step S410, determine that the first subframe to send in unlicensed spectrum is to shorten subframe, In described shortening subframe, at least part of symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH。

In one example, described at least part of symbol is used for efficient channel assessment CCA.

In one example, described shortening subframe be only comprise descending pilot frequency time slot DwPTS or under The special subframe of row physical channel.

In step S420, calculate each enhancing in the first subframe and control Channel Elements ECCE comprises The number of enhancing resource unit group EREG.

Calculating in step S420 can according to the example A described above in association with UE 100 and/ Or B performs.

In step S430, number based on the EREG calculated sends EPDCCH.

In one example, forwarding step S430 includes: according to being used for of configuring in the first subframe The number of the Physical Resource Block of the EPDCCH Physical Resource Block pair to indicating in group and frequency domain position Send EPDCCH.

In one example, method 400 also includes: send EPDCCH group configuration information, described EPDCCH group configuration information includes that Physical Resource Block is to group.

In one example, each Physical Resource Block is to comprising 16 EREG.

According to embodiments of the invention, (such as accounted for by CCA at unlicensed spectrum upper part symbol With) cannot be used in the subframe (i.e. shortening subframe) of EPDCCH, it is possible to correct transmission and connecing Receive EPDCCH.

It should be understood that the above embodiment of the present invention can pass through software, hardware or software and hard Being implemented in combination in of both parts.Such as, the base station in above-described embodiment and each within subscriber equipment Planting assembly to be realized by multiple device, these devices include but not limited to: analog circuit device Part, digital circuit device, Digital Signal Processing (DSP) circuit, programmable processor, special Integrated circuit (ASIC), field programmable gate array (FPGA), PLD (CPLD), Etc..

In this application, " base station " refers to have bigger transmitting power and the movement of wider area coverage Communication data and control switching point (CSP), the function such as including resource allocation scheduling, data receiver transmission. " subscriber equipment " refers to customer mobile terminal, such as, include that mobile phone, notebook etc. can be with Base station or micro-base station carry out the terminal unit of radio communication.

Additionally, embodiments of the invention disclosed herein can realize on computer program. More specifically, this computer program is following a kind of product: have computer-readable medium, On computer-readable medium, coding has computer program logic, when performing on the computing device, and should Computer program logic provides relevant operating with the technique scheme realizing the present invention.When at meter When performing at least one processor of calculation system, computer program logic makes processor perform basis Operation (method) described in inventive embodiments.This set of the present invention typically be provided as arrange or Encode the computer-readable medium at such as light medium (such as CD-ROM), floppy disk or hard disk etc. On software, code and/or other data structures or the most one or more ROM or RAM Or in firmware on PROM chip or other media of microcode or one or more module can The software image of download, shared data bank etc..Software or firmware or this configuration may be installed calculating On equipment, so that the one or more processors in calculating equipment perform the embodiment of the present invention and are retouched The technical scheme stated.

The present invention is shown already in connection with the preferred embodiments of the present invention although above, but this area Skilled person will appreciate that, without departing from the spirit and scope of the present invention, can be right The present invention carries out various amendment, replaces and change.Therefore, the present invention should not come by above-described embodiment Limit, and should be limited by claims and equivalent thereof.

Claims (24)

1. the method in user equipment (UE), including:

Determine that the first subframe received in unlicensed spectrum is to shorten subframe, in described shortening subframe At least partly symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH；

Calculate each enhancing in the first subframe and control the enhancing resource list comprised in Channel Elements ECCE The number of tuple EREG；

Number based on the EREG calculated detects EPDCCH.

Method the most according to claim 1, wherein, described at least part of symbol has been used for Effect channel estimating CCA.

Method the most according to claim 1 and 2, described detection includes:

Obtain the Physical Resource Block for EPDCCH configured in the first subframe to instruction in group The number of Physical Resource Block pair and frequency domain position；

Number and frequency domain position according to Physical Resource Block pair detect EPDCCH.

Method the most according to claim 3, also includes:

Receiving EPDCCH group configuration information, described EPDCCH group configuration information includes that physics provides Source block is to group.

Method the most according to claim 1, wherein, described shortening subframe be only comprise descending Pilot time slot DwPTS or the special subframe of down physical channel.

Method the most according to claim 1, wherein, each Physical Resource Block is to comprising 16 Individual EREG.

7. a user equipment (UE), including:

Determine unit, determine that the first subframe received in unlicensed spectrum is to shorten subframe, described Shorten at least part of symbol in subframe to cannot be used for strengthening Physical Downlink Control Channel EPDCCH；

Computing unit, calculates each enhancing in the first subframe and controls to comprise in Channel Elements ECCE Strengthen the number of resource unit group EREG；

Detector unit, number based on the EREG calculated detects EPDCCH.

UE the most according to claim 7, wherein, described at least part of symbol has been used for Effect channel estimating CCA.

9., according to the UE described in claim 7 or 8, described detector unit is configured to:

Obtain the Physical Resource Block for EPDCCH configured in the first subframe to instruction in group The number of Physical Resource Block pair and frequency domain position；

Number and frequency domain position according to Physical Resource Block pair detect EPDCCH.

UE the most according to claim 9, also includes:

Receive unit, receive EPDCCH group configuration information, described EPDCCH group configuration information Including Physical Resource Block to group.

11. UE according to claim 7, wherein, described shortening subframe be only comprise descending Pilot time slot DwPTS or the special subframe of down physical channel.

12. UE according to claim 7, wherein, each Physical Resource Block is to comprising 16 Individual EREG.

Method in 13. 1 kinds of base stations, including:

Determine that the first subframe to send in unlicensed spectrum is to shorten subframe, described shortening subframe In at least partly symbol cannot be used for strengthening Physical Downlink Control Channel EPDCCH；

Calculate each enhancing in the first subframe and control the enhancing resource list comprised in Channel Elements ECCE The number of tuple EREG；

Number based on the EREG calculated sends EPDCCH.

14. methods according to claim 13, wherein, described at least part of symbol is used for Efficient channel assessment CCA.

15. include according to the method described in claim 13 or 14, described transmission:

According to the Physical Resource Block for EPDCCH of configuration in the first subframe to instruction in group Number and the frequency domain position of Physical Resource Block pair send EPDCCH.

16. methods according to claim 15, also include:

Sending EPDCCH group configuration information, described EPDCCH group configuration information includes that physics provides Source block is to group.

17. methods according to claim 13, wherein, described shortening subframe be only comprise under Row pilot time slot DwPTS or the special subframe of down physical channel.

18. methods according to claim 13, wherein, each Physical Resource Block is to comprising 16 Individual EREG.

19. 1 kinds of base stations, including:

Determine unit, determine that the first subframe to send in unlicensed spectrum is to shorten subframe, institute State at least part of symbol in shortening subframe to cannot be used for strengthening Physical Downlink Control Channel EPDCCH；

Computing unit, calculates each enhancing in the first subframe and controls to comprise in Channel Elements ECCE Strengthen the number of resource unit group EREG；

Transmitting element, number based on the EREG calculated sends EPDCCH.

20. base stations according to claim 19, wherein, described at least part of symbol is used for Efficient channel assessment CCA.

21. are configured to according to the base station described in claim 19 or 20, described transmitting element:

According to the Physical Resource Block for EPDCCH of configuration in the first subframe to instruction in group Number and the frequency domain position of Physical Resource Block pair send EPDCCH.

22. base stations according to claim 21, described transmitting element is also configured to

Sending EPDCCH group configuration information, described EPDCCH group configuration information includes that physics provides Source block is to group.

23. base stations according to claim 19, wherein, described shortening subframe be only comprise under Row pilot time slot DwPTS or the special subframe of down physical channel.

24. base stations according to claim 19, wherein, each Physical Resource Block is to comprising 16 Individual EREG.