CN101478808B - Downlink control information sending and detecting method - Google Patents

Abstract

The invention provides a method for sending downlink control information. A base station carries the downlink control information in the physical downlink control channel, sends the channel by component carrier and indicates the component carrier by high-level signal. The information is the first and/or the second category downlink control information. The first category information includes public downlink control information and terminal proprietary downlink control information; the second category information carries the indicating information related to the terminal propriety downlink control information. The invention also provides the detection method of the downlink control information. The terminal is used for receiving the high-level signal, indicating the component carrier according to the high-level signal, detecting the physical channel on the carrier and obtaining the downlink control information.

Description

A kind of transmission of Downlink Control Information and detection method

Technical field

The present invention relates to field of mobile wireless communication, particularly relate to transmission and the detection method of Downlink Control Information in wireless communication system.

Background technology

Fig. 1 shows the frame structure of LTE (Long Term Evolution, Long Term Evolution) system FDD (FrequencyDivision Duplex, Frequency Division Duplexing (FDD)) pattern and TDD (Time Division Duplex, time division duplex) pattern.In the frame structure of fdd mode, the radio frame (radio frames) of a 10ms is 0.5ms by 20 length, and the slot (time slot) of numbering 0～19 forms, and time slot 2i and 2i+1 form subframe (subframe) i that length is 1ms.In the frame structure of tdd mode, the radio frame (radio frames) of a 10ms is long for the half frame (field) of 5ms forms by two, field comprise 5 long be the subframe of 1ms (subframe).Subframe i be defined as 2 long be time slot 2i and the 2i+1 of 0.5ms.In two kinds of frame structures, for Normal CP (Normal Cyclic Prefix, standard cyclic prefix), a time slot comprises the symbol that 7 length are 66.7us, wherein the CP length of first symbol is 5.21us, and the CP length of all the other 6 symbols is 4.69us; For Extended CP (extended cyclic prefix), a time slot comprises 6 symbols, and the CP length of all symbols is 16.67us.

LTE has defined following three kinds of downlink physical control channels:

PCFICH (Physical Control Format Indicator Channel, Physical Control Format Indicator Channel): the indication of control channel form, be used to indicate in a subframe for transmitting PDCCH (Physicaldownlink control channel, the information of number of OFDM Physical Downlink Control Channel) (OFDM) symbol, PCFICH sends on first OFDM symbol of subframe, and place frequency location is determined by system descending bandwidth and community ID.

PHICH (Physical hybrid ARQ indicator channel, physical mixed automatic re-transmission indicating channel): the ACK/NACK feedback information of the H-ARQ of uplink.The number of PHICH, time-frequency position can system message and cell ID (ID) in PBCH determine.

PDCCH: for bearing downlink control information (comprising uplink and downlink schedule information, uplink power control information).The form of Downlink Control Information (Downlink Control Information) is divided into following several: DCI format 0 is for the scheduling of PUSCH (Physical Uplink Shared Channel); DCI format 1,1A, 1B, 1C, 1D is for the different mode of a PDSCH (Physical Downlink Shared Channel) code word scheduling; DCI format 2,2A is for the different mode of space division multiplexing; DCI format 3,3A is for the different mode of the power control instruction of PUCCH (Physical Uplink Control Channel) and PUSCH.

The physical resource of PDCCH transmission is with CCE (Control Channel Element, control channel unit) be unit, the size of a CCE is 9 REG, i.e. 36 Resource Element (Resource Unit), and a PDCCH may take 1,2,4 or 8 CCE.

Four kinds of PDCCH sizes for taking 1,2,4,8 CCE, adopt tree-shaped Aggregation (polymerization), that is: the PDCCH of 1 CCE can be from any CCE position; The PDCCH of 2 CCE is from even number CCE position; The CCE position of the integral multiple of the PDCCH of 4 CCE since four; The CCE position of the integral multiple of the PDCCH of 8 CCE since eight.

PDCCH has 1,2,4 and 8 these polymerization ranks, each Aggregation level (polymerization rank) defines a search space (search volume), comprises the search volume of common (public) and UE specific (UE is proprietary).The OFDM symbolic number that the CCE number of the whole search volume controlled area that PCFICH indicates in each descending sub frame is shared and the group number of PHICH determine.UE carries out blind Detecting by the DCI format of transmission mode of living in to all possible PDCCH code check in search volume.

UE (User Equipment, subscriber equipment) by the semi-static a kind of transmission mode (transmission mode) being set to based on following of high-level signaling (semi-statically), according to the indication of the PDCCH of the search volume of UE specific (UE is proprietary), receive PDSCH transfer of data:

1.Single-antenna port; Port 0 (single antenna port; Port 0)

2.Transmit diversity (transmit diversity)

3.Open-loop spatial multiplexing (Open-Loop Spatial Multiplexing)

4.Closed-loop spatial multiplexing (Closed-Loop Spatial Multiplexing)

5.Multi-user MIMO (multiuser MIMO)

6.Closed-loop Rank=1precoding (closed loop Rank=1 precoding)

7.Single-antenna port; Port 5 (single antenna port; Port 5)

If UE is set to (the Cell Radio Network TemporaryIdentifier with C-RNTI by high level, Cell Radio Network Temporary Identifier/Identity, Cell-RNTI number) CRC of scrambling (cyclic redundancy check (CRC)) carries out PDCCH decoding, and UE should be according to the respective sets incompatible decoding PDCCH and all relevant PDSCH that define in table 1-1.

If UE is set to (the semi-persistently Scheduled RadioNetwork Temporary Identifier with SPS-RNTI by high level, semi-persistent scheduling Cell Radio Network Temporary Identifier/Identity, Cell-RNTI number) CRC of scrambling (cyclic redundancy check (CRC)) carries out PDCCH decoding, and UE should be according to the respective sets incompatible decoding PDCCH and all relevant PDSCH that define in table 1-2.

PDCCH and PDSCH that table 1-1:C-RNTI arranges

PDCCH and PDSCH that table 1-2:SPS C-RNTI arranges

UE should be at each non-DRX (non-Discontinuous Reception, non-discontinuous reception) PDCCH that subframe detects one group of candidate is to obtain control information, and detection refers to according to all DCI format to be detected decodes to the PDCCH in group.It is respectively that 4 and 8 common search volume and aggregation level are respectively 1,2,4,8 UE specific search volumes that UE should detect an aggregationlevel.Common and UE specific search volume may be overlapping.The search space of aggregation level definition is as shown in table 1-3.The DCI format that UE should detect depends on the transmission mode arranging above.

LTE Release-8 has defined 6 kinds of bandwidth: 1.4MHz, 3MHz, 5MHz, 10MHz, 15MHz and 20MHz.

LTE-Advanced (Further Advancements for E-UTRA) is the evolution version of LTE Release-8.Except meeting or surpassing 3GPP TR 25.913: all related needs of " Requirements for Evolved UTRA (E-UTRA) and Evolved UTRAN (E-UTRAN) ", also

Table 1-3:UE candidate PDCCH. to be checked

Meet or exceed the demand of the IMT-Advanced of ITU-R proposition.Wherein, refer to the demand of LTE Release-8 backward compatibility: the terminal of LTE Release-8 can be worked in the network of LTE-Advanced; The terminal of LTE-Advanced can be worked in the network of LTE Release-8.In addition, LTE-Advanced should be able to, at the spectrum disposition of different sizes, comprise work under the spectrum disposition wider than LTE Release-8 (as the continuous frequency spectrum resource of 100MHz), to reach higher performance and target peak speed.Consider and the compatibility of LTE Release-8, for the bandwidth that is greater than 20MHz, adopt the mode of Carrier aggregation (carrier aggregation), as shown in Figure 2, that is:

Two or more component carriers (component carriers) assemble to support to be greater than the downstream transmission bandwidth of 20MHz.

Terminal can receive one or more component carriers (component carriers) by its ability simultaneously.

There is the LTE-A terminal that surpasses 20MHz receiving ability can receive the transmission on a plurality of component carriers simultaneously.LTE Rel-8 terminal can only be received the transmission on one-component carrier wave, if the structure of this component carrier is followed Rel-8 standard.

At present, in LTE-Advanced standard, the transmission for Downlink Control Information is the not corresponding description of form of PDCCH.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of transmission and detection method of Downlink Control Information, solve transmission and the test problems of Carrier aggregation Downlink Control Information, the compatibility that is conducive to LTE-Advanced and LTE Release-8, is conducive to the realization of LTE-Advanced system.

In order to address the above problem, the invention provides a kind of sending method of Downlink Control Information, Downlink Control Information is carried in base station in Physical Downlink Control Channel, by component carrier, send described Physical Downlink Control Channel, by the component carrier at high-level signaling indicating terminal Physical Downlink Control Channel place.

Further, said method also can have following characteristics, and described high-level signaling is transmitted in described base station on one or more component carriers.

Further, said method also can have following characteristics, comprises one or more information in the transmission mode on the frequency location of component carrier, the system bandwidth of component carrier and component carrier in described high-level signaling.

Further, said method also can have following characteristics, and described high-level signaling comprises the start/stop that indication component carrier Physical Downlink Control Channel detects, the time span that component carrier detects, one or more information such as time cycle that component carrier detects.

Further, said method also can have following characteristics, goes back inclusion test mode in described high-level signaling, indicates described terminal to detect the mode of Physical Downlink Control Channel.

Further, said method also can have following characteristics,

Described detection mode is triggering mode, indicates described terminal to start according to high-level signaling and stops at the Physical Downlink Control Channel detection on component carrier;

Or described detection mode is timing mode, the Physical Downlink Control Channel of indicating described terminal to start on component carrier according to high-level signaling detects, and continues to stop after the fixed time;

Or described detection mode is periodic mode, indicates the beginning of described terminal periodic and stop at the Physical Downlink Control Channel detection on component carrier.

The present invention proposes a kind of detection method of Downlink Control Information, terminal receives high-level signaling, component carrier according to the Physical Downlink Control Channel place of described high-level signaling indication detects Physical Downlink Control Channel on described component carrier, obtains Downlink Control Information.

Further, said method also can have following characteristics, described Downlink Control Information is first kind Downlink Control Information and/or Equations of The Second Kind Downlink Control Information, described first kind Downlink Control Information comprises publicly-owned Downlink Control Information and the proprietary Downlink Control Information of terminal, carries the relevant indication information of the proprietary Downlink Control Information of first kind terminal in described Equations of The Second Kind Downlink Control Information.

Further, said method also can have following characteristics, in the relevant indication information of the proprietary Downlink Control Information of first kind terminal carrying in described Equations of The Second Kind Downlink Control Information, comprise following one or more information: whether several component carriers have the proprietary Downlink Control Information transmission of terminal, the proprietary descending control information format of terminal on component carrier, the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal is in the control channel unit of the proprietary search volume of terminal original position, the control channel unit polymerization rank of the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal.

Further, said method also can have following characteristics, when described terminal detects the Physical Downlink Control Channel of a plurality of component carriers in a subframe, detects first kind Downlink Control Information and Equations of The Second Kind Downlink Control Information; When described terminal only detects the Physical Downlink Control Channel of one-component carrier wave in a subframe, only detect first kind Downlink Control Information.

Further, said method also can have following characteristics, described terminal on the component carrier at Equations of The Second Kind Downlink Control Information place, first blind Detecting Equations of The Second Kind Downlink Control Information, then blind Detecting first kind Downlink Control Information.

Further, said method also can have following characteristics, described terminal on the component carrier at non-Equations of The Second Kind Downlink Control Information place, the publicly-owned Downlink Control Information of the first blind Detecting first kind, the more proprietary Downlink Control Information of blind Detecting first kind terminal.

Further, said method also can have following characteristics, described terminal detects PDCCH and obtains Equations of The Second Kind Downlink Control Information, and the existing result of first kind Downlink Control Information that wherein the relevant indication information of the proprietary Downlink Control Information of first kind terminal of carrying obtains with detection PDCCH conforms to, and described terminal obtains the proprietary Downlink Control Information of first kind terminal according to the relevant indication information decoding of the proprietary Downlink Control Information of first kind terminal carrying in Equations of The Second Kind Downlink Control Information PDCCH.

Further, said method also can have following characteristics, described terminal does not detect Equations of The Second Kind Downlink Control Information, or the existing result of first kind Downlink Control Information that the relevant indication information of the proprietary Downlink Control Information of first kind terminal that Equations of The Second Kind Downlink Control Information detected but wherein carry obtains with detection PDCCH does not conform to, described terminal, on the component carrier at non-Equations of The Second Kind Downlink Control Information place, continues blind Detecting first kind Downlink Control Information until search for complete.

Further, said method also can have following characteristics, described terminal is on the component carrier at non-Equations of The Second Kind Downlink Control Information place, the publicly-owned Downlink Control Information of the first blind Detecting first kind, according to Equations of The Second Kind Downlink Control Information blind Detecting result, determine whether the proprietary Downlink Control Information of blind Detecting first kind terminal again.

Further, said method also can have following characteristics, when terminal detects Equations of The Second Kind Downlink Control Information, on the component carrier at non-Equations of The Second Kind Downlink Control Information place, according to the proprietary Downlink Control Information of the relevant indication information decoding PDCCH blind Detecting first kind terminal of the proprietary Downlink Control Information of first kind terminal carrying in Equations of The Second Kind Downlink Control Information.

Further, said method also can have following characteristics, when terminal does not detect Equations of The Second Kind Downlink Control Information, and on the component carrier at non-Equations of The Second Kind Downlink Control Information place, the proprietary Downlink Control Information of blind Detecting first kind terminal not.

The invention provides a kind of sending method of Downlink Control Information, Downlink Control Information is carried in base station in Physical Downlink Control Channel, by component carrier, send described Physical Downlink Control Channel, described Downlink Control Information is first kind Downlink Control Information and/or Equations of The Second Kind Downlink Control Information, described first kind Downlink Control Information comprises publicly-owned Downlink Control Information and the proprietary Downlink Control Information of terminal, carries the relevant indication information of the proprietary Downlink Control Information of first kind terminal in described Equations of The Second Kind Downlink Control Information.

Further, said method also can have following characteristics, in the relevant indication information of the proprietary Downlink Control Information of first kind terminal carrying in described Equations of The Second Kind Downlink Control Information, comprise following one or more information: whether several component carriers have the proprietary Downlink Control Information transmission of terminal, the proprietary descending control information format of terminal on component carrier, the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal is in the control channel unit of the proprietary search volume of terminal original position, the control channel unit polymerization rank of the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal.

Further, said method also can have following characteristics, also carries the proprietary Downlink Control Information of terminal in its place component carrier in described Equations of The Second Kind Downlink Control Information.

Further, said method also can have following characteristics, and the component carrier position at the form of described Equations of The Second Kind Downlink Control Information and place thereof is indicated by high-level signaling.

The invention provides a kind of transmission and detection method of Downlink Control Information, solve transmission and the test problems of Carrieraggregation Downlink Control Information, the compatibility that is conducive to LTE-Advanced and LTERelease-8, is conducive to the realization of LTE-Advanced system.

Accompanying drawing explanation

Fig. 1 is the frame structure schematic diagram of LTE system FDD/TDD pattern;

Fig. 2 is the transmission flow schematic diagram of Downlink Control Information of the present invention;

Fig. 3 is the first kind/Equations of The Second Kind DCI schematic diagram of the present invention.

Embodiment

Below with reference to embodiment, describe embodiments of the present invention in detail, to the present invention, how application technology means solve technical problem whereby, and the implementation procedure of reaching technique effect can fully understand and implement according to this.

DCI of the present invention comprises two class DCI:

The corresponding Downlink Control Information of first kind DCI carrying component carrier, wherein, first kind DCI comprises publicly-owned DCI and the proprietary DCI of terminal, comprises the publicly-owned DCI of the first kind and the proprietary DCI of first kind terminal.

The relevant indication information of the Equations of The Second Kind DCI carrying proprietary DCI of first kind terminal.Equations of The Second Kind DCI also can carry the proprietary Downlink Control Information of terminal in its place component carrier.It is the relevant indication information of the proprietary DCI of first kind terminal that Equations of The Second Kind DCI carries the proprietary DCI of one or more first kind terminals and all the other all (or parts), or Equations of The Second Kind DCI only carries the relevant indication information of the proprietary DCI of first kind terminal of all the other all (or parts).

Wherein, the relevant indication information of the proprietary DCI of first kind terminal of Equations of The Second Kind DCI carrying specifically comprises: whether several component carriers have the proprietary DCI transmission of terminal, the proprietary DCI form of terminal, the PDCCH of the proprietary DCI of carrying terminal is in the CCE original position of UE specific search volume, one or more information such as CCE aggregation level of carrying the PDCCH of the proprietary DCI of terminal.

Wherein, when Equations of The Second Kind DCI only carries the relevant indication information of the proprietary DCI of first kind terminal of all the other all (or parts), this indication information can be the relevant indication information of uplink scheduling, or the relevant indication information of descending scheduling, or the relevant indication information of up-downgoing scheduling.The corresponding a kind of DCI form (DCI format) of each relevant indication information.

Wherein, when Equations of The Second Kind DCI also carries the proprietary Downlink Control Information of terminal in its place component carrier, if this Downlink Control Information is uplink scheduling information, the relevant indication information of the proprietary DCI of first kind terminal carrying is also the relevant indication information of uplink scheduling, the corresponding a kind of DCI form (DCI format) of combination of each uplink scheduling information and the relevant indication information of uplink scheduling; If this Downlink Control Information is down dispatch information, the relevant indication information of the proprietary DCI of first kind terminal carrying is also the relevant indication information of descending scheduling, the corresponding a kind of DCI form (DCI format) of combination of each down dispatch information and the relevant indication information of descending scheduling.

The component carrier position at the form of Equations of The Second Kind DCI and place is indicated by high-level signaling.

The present invention proposes a kind of sending method of Downlink Control Information, Downlink Control Information is carried in base station in Physical Downlink Control Channel, by component carrier, sends to terminal.This Downlink Control Information is first kind Downlink Control Information and/or Equations of The Second Kind Downlink Control Information.

The sending method that the invention allows for a kind of Downlink Control Information, comprises: Downlink Control Information is carried in base station in PDCCH, by component carrier, sends to terminal, by component carrier and the detection mode at PDCCH place described in high-level signaling indicating terminal.

Described Downlink Control Information is first kind DCI and/or Equations of The Second Kind DCI.

The detection that has a LTE-A terminal PDCCH on each component carrier that simultaneously receives a plurality of component carrier abilities whether (or whether receiving) and the mode that detects (reception) can independently be arranged by high-level signaling.

This high-level signaling can transmit on one or more component carriers of appointment.

In high-level signaling, can comprise the frequency location of each component carrier, one or more information such as transmission mode of the system bandwidth of each component carrier, each component carrier.

In high-level signaling, can comprise that each component carrier PDCCH of indication detects the start/stop of (reception), (reception) time span that each component carrier detects, one or more information such as time cycle of (reception) that each component carrier detects.

Can be set to triggering mode, timing mode or periodic mode by high-level signaling detection mode, wherein:

Triggering mode refers to the beginning of LTE-A terminal detection of PDCCH on each component carrier and stops being notified by high-level signaling;

Timing mode refers to that the beginning of LTE-A terminal detection of PDCCH on each component carrier notified by high-level signaling, and stops after certain time.This duration can be notified by high-level signaling;

Periodic mode refers to that the detection of LTE-A terminal PDCCH on each component carrier starts periodically and stops by the setting of high-level signaling.

The detection method that the invention allows for a kind of Downlink Control Information, comprises: terminal receives high-level signaling, and component carrier and detection mode by the PDCCH place of indicating in high-level signaling, detect PDCCH, obtains the Downlink Control Information carrying in PDCCH.

Described Downlink Control Information is first kind Downlink Control Information and/or Equations of The Second Kind Downlink Control Information.

When LTE-A terminal only detects the PDCCH of one-component carrier wave in a subframe, only detect first kind DCI; When LTE-A terminal detects the PDCCH of a plurality of component carriers in a subframe, detect first kind DCI and Equations of The Second Kind DCI.

Carry PDCCH of Equations of The Second Kind DCI in the proprietary search volume of terminal, or in publicly-owned and proprietary search volume.

The terminal PDCCH blind Detecting DCI mode of decoding on first kind DCI and Equations of The Second Kind DCI respective components carrier wave is:

On the component carrier at Equations of The Second Kind DCI place, first blind Detecting Equations of The Second Kind DCI, then blind Detecting first kind DCI;

On the component carrier at non-Equations of The Second Kind DCI place, the publicly-owned DCI of the first blind Detecting first kind, the more proprietary DCI of blind Detecting first kind terminal.

When decoding, PDCCH detects Equations of The Second Kind DCI, and when indication information wherein conforms to the existing result of decoding PDCCH blind Detecting first kind DCI, on the component carrier at non-Equations of The Second Kind DCI place, by the indication information carrying in Equations of The Second Kind DCI, the proprietary DCI of decoding PDCCH blind Detecting first kind terminal.

When decoding, PDCCH does not detect Equations of The Second Kind DCI, or decoding PDCCH detects Equations of The Second Kind DCI but the existing result of the first kind DCI that indication information wherein measures with the PDCCH blind check of decoding while not conforming to, the PDCCH blind Detecting of first kind DCI is proceeded until search for complete.

Or

The terminal PDCCH blind Detecting DCI mode of decoding on two class DCI respective components carrier waves is:

On the component carrier at Equations of The Second Kind DCI place, first blind Detecting Equations of The Second Kind DCI, then blind Detecting first kind DCI;

On the component carrier at non-Equations of The Second Kind DCI place, the publicly-owned DCI of the first blind Detecting first kind, then according to Equations of The Second Kind DCI blind Detecting result, determine whether the proprietary DCI of blind Detecting first kind terminal.

When decoding PDCCH detects Equations of The Second Kind DCI, on the component carrier at non-Equations of The Second Kind DCI place, by the indication information carrying in Equations of The Second Kind DCI, the proprietary DCI of decoding PDCCH blind Detecting first kind terminal.

When decoding PDCCH is not while Equations of The Second Kind DCI being detected, on the component carrier at non-Equations of The Second Kind DCI place, the proprietary DCI of blind Detecting first kind terminal not.

Below by specific embodiment, further illustrate the present invention.

The number of up-downgoing component carrier (component carrier) of system of setting up departments is all 3.Dotted line in Fig. 2 refers to the pair relationhip of up-downgoing component carrier.

Embodiment 1

The transmission flow of Downlink Control Information

As shown in Fig. 2 (a).LTE-Advanced terminal initial has only distributed downlink component carrier DLCarrier#1.At subframe N, receive the high-level signaling of PDSCH carrying.This high-level signaling indicates this terminal at downlink component carrier DL Carrier#1, and DL Carrier#2 on DL Carrier#3, detect PDCCH, and Equations of The Second Kind DCI is on DL Carrier#1.In this high-level signaling, can also comprise the frequency location of each component carrier, the system bandwidth of each component carrier, the transmission mode of each component carrier, each component carrier PDCCH detects the start/stop of (reception), (reception) time span that each component carrier detects, one or more information such as time cycle of (reception) that each component carrier detects.

Terminal starts to carry out the PDCCH blind check of first kind DCI and Equations of The Second Kind DCI at subframe N+n, wherein n is determined by high-level signaling.High-level signaling can be indicated different working methods, as:

1, triggering mode

As shown in Fig. 2 (b), the subframe M of terminal after subframe N+n receives the high-level signaling of PDSCH carrying.This high-level signaling indicating terminal stops downlink component carrier DL Carrier#1, and the PDCCH of DL Carrier#3 detects.Terminal starts no longer to carry out the PDCCH blind check of Equations of The Second Kind DCI at subframe M+k, only at downlink component carrier DL Carrier#2, carry out first kind DCI PDCCH blind Detecting, and wherein k is determined by high-level signaling.

2, timing mode

As shown in Fig. 2 (c), terminal stops the PDCCH blind check of Equations of The Second Kind DCI at subframe N+n+T, only on the downlink component carrier DL of high-level signaling appointment Carrier#2, carries out first kind DCI PDCCH blind Detecting.Wherein T is the number of sub frames of high-level signaling appointment.

3, periodic mode

As shown in Fig. 2 (d), terminal stops the PDCCH blind Detecting of Equations of The Second Kind DCI at subframe N+n+T, only on the downlink component carrier DL of high-level signaling appointment Carrier#2, carries out first kind DCIPDCCH blind Detecting.At subframe N+n+T+D, again start to carry out the PDCCH blind Detecting of first kind DCI and Equations of The Second Kind DCI.T wherein, D is determined by high-level signaling.This detection mode is carried out periodically, until there is high-level signaling indication to stop.

Embodiment 2

First kind DCI and Equations of The Second Kind DCI

The relevant indication information of the proprietary DCI of first kind terminal comprising in Equations of The Second Kind DCI can comprise following one or more information:

in indication component carrier, the proprietary DCI of UE has or not

One-component carrier wave represents with 1bit.As there is no the proprietary DCI of UE in this component carrier of 0 expression; 1 represents that this component carrier has the proprietary DCI of UE.

indication DCI form

One-component carrier wave represents with 2bit.As there is no the proprietary DCI of UE in this component carrier of 00 expression; 01 represents there is a kind of DCI form in this component carrier; 10 represent there is another kind of DCI form in this component carrier; 11 represent there are two kinds of DCI forms in this component carrier.

indication DCI format and CCE aggregation level

On one-component carrier wave, the proprietary a kind of DCI form of terminal represents with 3bit.Wherein 1bit represents in this component carrier, there is no/have this DCI form with 0/1; 2bit represents the CCEaggregation level of this DCI form, as 00,01,10,11 respectively corresponding CCE aggregation level be 1,2,4,8.

indication CCE original position

On one-component carrier wave, the proprietary a kind of DCI form of terminal represents with 3bit.Wherein 000 represents there is no/have this DCI form in this component carrier; The CCE deviation post of 001～110 difference corresponding 1～6.

The concrete method for expressing of above-mentioned each indication information is only example, and the present invention is not construed as limiting this.

The indication information of a plurality of component carriers can be combined by the indication information of each component carrier.

As shown in Figure 3, the PDCCH of carrying Equations of The Second Kind DCI is on downlink component carrier DL Carrier#1, wherein the information of this PDCCH carrying comprises the Downlink Control Information (being the proprietary Downlink Control Information of terminal) of the DL Carrier#1 at place, and downlink component carrier DL Carrier#2, the relevant indication information of the proprietary DCI of first kind UE of DL Carrier#3.The relevant indication information of the proprietary DCI of UE in XX respective components carrier wave DL Carrier#2 wherein, the indication information of the proprietary DCI of UE in YY respective components carrier wave DL Carrier#3.

Embodiment 3

The detection mode of first kind DCI and Equations of The Second Kind DCI

As shown in Figure 3, the PDCCH blind Detecting DCI mode of decoding on two class DCI respective components carrier waves is:

1) on component carrier DL Carrier#1, first blind Detecting Equations of The Second Kind DCI, then blind Detecting first kind DCI;

2) on component carrier DL Carrier#2 and component carrier DL Carrier#3, the publicly-owned DCI of the first blind Detecting first kind, the more proprietary DCI of blind Detecting first kind terminal;

Carry the PDCCH of Equations of The Second Kind DCI in the proprietary search volume of terminal, or in search volume publicly-owned and that terminal is proprietary.

When Equations of The Second Kind DCI being detected at component carrier DL Carrier#1 decoding PDCCH, and when the existing result of indication information wherein and component carrier DL Carrier#2 and decoding PDCCH blind Detecting first kind DCI on component carrier DL Carrier#3 conforms to, as the DCI format on Equations of The Second Kind DCI indication component carrier DL Carrier#2 and component carrier DL Carrier#3, CCE aggregation level, during detected coming to the same thing on the information such as CCE original position and respective components carrier wave, on component carrier DLCarrier#2 and component carrier DL Carrier#3, by the indication information carrying in the Equations of The Second Kind DCI proprietary DCI of PDCCH blind Detecting first kind terminal that decodes.

When Equations of The Second Kind DCI not detected at component carrier DL Carrier#1 decoding PDCCH, or decoding PDCCH detects Equations of The Second Kind DCI but the existing result of the first kind DCI that indication information wherein and component carrier DL Carrier#2 detect with the PDCCH that decodes on component carrier DL Carrier#3 while not conforming to, be DCI format, CCE aggregation level, when the indication informations such as CCE original position are not identical with detected result on respective components carrier wave, the PDCCH blind check of first kind DCI is proceeded until search for complete.

Or

The PDCCH blind Detecting DCI mode of decoding on two class DCI respective components carrier waves is:

1) on component carrier DL Carrier#1, first blind Detecting Equations of The Second Kind DCI, then blind Detecting first kind DCI;

2) on component carrier DL Carrier#2 and component carrier DL Carrier#3, the publicly-owned DCI of the first blind Detecting first kind, then according to Equations of The Second Kind DCI blind Detecting result on component carrier DL Carrier#1, determine whether the proprietary DCI of blind Detecting first kind terminal;

Carry PDCCH of Equations of The Second Kind DCI in the proprietary search volume of terminal, or in search volume publicly-owned and that terminal is proprietary.

When component carrier DL Carrier#1 decoding PDCCH detects Equations of The Second Kind DCI, on component carrier DL Carrier#2 and component carrier DL Carrier#3, by the indication information carrying in Equations of The Second Kind DCI, the proprietary DCI of decoding PDCCH blind Detecting first kind terminal.

When component carrier DL Carrier#1 decoding PDCCH does not detect Equations of The Second Kind DCI,, on component carrier DL Carrier#2 and component carrier DL Carrier#3, do not continue the proprietary DCI of blind Detecting first kind terminal.

Claims (20)

1. the sending method of a Downlink Control Information, it is characterized in that, Downlink Control Information is carried in base station in Physical Downlink Control Channel, by component carrier, sends described Physical Downlink Control Channel, by the component carrier at high-level signaling indicating terminal Physical Downlink Control Channel place;

Wherein, one or more information in the frequency location that comprises component carrier in described high-level signaling, the system bandwidth of component carrier and the transmission mode on component carrier.

2. the method for claim 1, is characterized in that, described high-level signaling is transmitted in described base station on one or more component carriers.

3. the method for claim 1, it is characterized in that, described high-level signaling comprises the start/stop that indication component carrier Physical Downlink Control Channel detects, the time span that component carrier detects, one or more information such as time cycle that component carrier detects.

4. the method for claim 1, is characterized in that, goes back inclusion test mode in described high-level signaling, indicates described terminal to detect the mode of Physical Downlink Control Channel.

5. method as claimed in claim 4, is characterized in that,

Described detection mode is triggering mode, indicates described terminal to start according to high-level signaling and stops at the Physical Downlink Control Channel detection on component carrier;

Or described detection mode is timing mode, the Physical Downlink Control Channel of indicating described terminal to start on component carrier according to high-level signaling detects, and continues to stop after the fixed time;

Or described detection mode is periodic mode, indicates the beginning of described terminal periodic and stop at the Physical Downlink Control Channel detection on component carrier.

6. the detection method of a Downlink Control Information, it is characterized in that, terminal receives high-level signaling, according to the component carrier at the Physical Downlink Control Channel place of described high-level signaling indication, on described component carrier, detect Physical Downlink Control Channel, obtain Downlink Control Information;

Wherein, one or more information in the frequency location that comprises component carrier in described high-level signaling, the system bandwidth of component carrier and the transmission mode on component carrier.

7. method as claimed in claim 6, it is characterized in that, described Downlink Control Information is first kind Downlink Control Information and/or Equations of The Second Kind Downlink Control Information, described first kind Downlink Control Information comprises publicly-owned Downlink Control Information and the proprietary Downlink Control Information of terminal, carries the relevant indication information of the proprietary Downlink Control Information of first kind terminal in described Equations of The Second Kind Downlink Control Information.

8. method as claimed in claim 7, it is characterized in that, in the relevant indication information of the proprietary Downlink Control Information of first kind terminal carrying in described Equations of The Second Kind Downlink Control Information, comprise following one or more information: whether several component carriers have the proprietary Downlink Control Information transmission of terminal, the proprietary descending control information format of terminal on component carrier, the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal is in the control channel unit of the proprietary search volume of terminal original position, the control channel unit polymerization rank of the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal.

9. method as claimed in claim 7, is characterized in that, when described terminal detects the Physical Downlink Control Channel of a plurality of component carriers in a subframe, detects first kind Downlink Control Information and Equations of The Second Kind Downlink Control Information; When described terminal only detects the Physical Downlink Control Channel of one-component carrier wave in a subframe, only detect first kind Downlink Control Information.

10. method as claimed in claim 7, is characterized in that, described terminal on the component carrier at Equations of The Second Kind Downlink Control Information place, first blind Detecting Equations of The Second Kind Downlink Control Information, then blind Detecting first kind Downlink Control Information.

11. methods as claimed in claim 10, is characterized in that, described terminal on the component carrier at non-Equations of The Second Kind Downlink Control Information place, the publicly-owned Downlink Control Information of the first blind Detecting first kind, the more proprietary Downlink Control Information of blind Detecting first kind terminal.

12. methods as claimed in claim 11, it is characterized in that, described terminal detects PDCCH and obtains Equations of The Second Kind Downlink Control Information, and the existing result of first kind Downlink Control Information that wherein the relevant indication information of the proprietary Downlink Control Information of first kind terminal of carrying obtains with detection PDCCH conforms to, and described terminal obtains the proprietary Downlink Control Information of first kind terminal according to the relevant indication information decoding of the proprietary Downlink Control Information of first kind terminal carrying in Equations of The Second Kind Downlink Control Information PDCCH.

13. methods as claimed in claim 11, it is characterized in that, described terminal does not detect Equations of The Second Kind Downlink Control Information, or the existing result of first kind Downlink Control Information that the relevant indication information of the proprietary Downlink Control Information of first kind terminal that Equations of The Second Kind Downlink Control Information detected but wherein carry obtains with detection PDCCH does not conform to, described terminal, on the component carrier at non-Equations of The Second Kind Downlink Control Information place, continues blind Detecting first kind Downlink Control Information until search for complete.

14. methods as claimed in claim 10, it is characterized in that, described terminal is on the component carrier at non-Equations of The Second Kind Downlink Control Information place, the publicly-owned Downlink Control Information of the first blind Detecting first kind, according to Equations of The Second Kind Downlink Control Information blind Detecting result, determine whether the proprietary Downlink Control Information of blind Detecting first kind terminal again.

15. methods as claimed in claim 14, it is characterized in that, when terminal detects Equations of The Second Kind Downlink Control Information, on the component carrier at non-Equations of The Second Kind Downlink Control Information place, according to the proprietary Downlink Control Information of the relevant indication information decoding PDCCH blind Detecting first kind terminal of the proprietary Downlink Control Information of first kind terminal carrying in Equations of The Second Kind Downlink Control Information.

16. methods as claimed in claim 14, is characterized in that, when terminal does not detect Equations of The Second Kind Downlink Control Information, and on the component carrier at non-Equations of The Second Kind Downlink Control Information place, the proprietary Downlink Control Information of blind Detecting first kind terminal not.

The sending method of 17. 1 kinds of Downlink Control Information, it is characterized in that, Downlink Control Information is carried in base station in Physical Downlink Control Channel, by component carrier, send described Physical Downlink Control Channel, described Downlink Control Information is first kind Downlink Control Information and/or Equations of The Second Kind Downlink Control Information, described first kind Downlink Control Information comprises publicly-owned Downlink Control Information and the proprietary Downlink Control Information of terminal, carries the relevant indication information of the proprietary Downlink Control Information of first kind terminal in described Equations of The Second Kind Downlink Control Information.

18. methods as claimed in claim 17, it is characterized in that, in the relevant indication information of the proprietary Downlink Control Information of first kind terminal carrying in described Equations of The Second Kind Downlink Control Information, comprise following one or more information: whether several component carriers have the proprietary Downlink Control Information transmission of terminal, the proprietary descending control information format of terminal on component carrier, the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal is in the control channel unit of the proprietary search volume of terminal original position, the control channel unit polymerization rank of the Physical Downlink Control Channel of the proprietary Downlink Control Information of carrying terminal.

19. methods as described in claim 17 or 18, is characterized in that, also carry the proprietary Downlink Control Information of terminal in its place component carrier in described Equations of The Second Kind Downlink Control Information.

20. methods as described in claim 17 or 18, is characterized in that, the component carrier position at the form of described Equations of The Second Kind Downlink Control Information and place thereof is indicated by high-level signaling.

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