WO2013104253A1 - 一种控制信道资源映射方法、基站及用户设备 - Google Patents
一种控制信道资源映射方法、基站及用户设备 Download PDFInfo
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- WO2013104253A1 WO2013104253A1 PCT/CN2012/087503 CN2012087503W WO2013104253A1 WO 2013104253 A1 WO2013104253 A1 WO 2013104253A1 CN 2012087503 W CN2012087503 W CN 2012087503W WO 2013104253 A1 WO2013104253 A1 WO 2013104253A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0094—Indication of how sub-channels of the path are allocated
Definitions
- Control channel resource mapping method base station and user equipment
- the present invention relates to the field of communications, and in particular, to a control channel resource mapping method, a base station, and a user equipment. Background technique
- a base station such as an eNB (evolved Node Base, evolved base station), according to the result of the scheduling, is each scheduled user equipment.
- a PDSCH Physical Downlink Shared Channel
- a corresponding PDCCH Physical Downlink Control Channel
- the PDSCH carries data sent by the eNB to the scheduling user equipment, and the PDCCH carries scheduling information corresponding to the PDSCH.
- the scheduling information is mainly used to indicate the transmission format information of the PDSCH corresponding thereto.
- the PDCCH and PDSCH are time division multiplexed in one subframe.
- the PDCCH is transmitted in the first OFDM (Orthogonal Frequency Division Multiplexing) symbols of the subframe, and the remaining OFDM symbols are used to transmit the PDSCH.
- the PDCCHs of all scheduling user equipments are multiplexed together and then transmitted in the PDCCH region, and the PDSCH is transmitted in the PDSCH region.
- Each PDCCH is composed of 1/2/4/8 Control Channel Element (CCE), and the number of CCEs constituting each PDCCH is determined by the size of the PDCCH and the channel of the user equipment corresponding to the PDCCH.
- the number of CCEs that make up each user equipment PDCCH can be different.
- the MU-MIMO Multiple User Multiple Input Multiple Output
- the coordination between multiple cells are required to improve the performance of the system, and these technologies make
- the number of user equipments is increased; however, the capacity of the PDCCH is limited, which limits the number of user equipments that can be scheduled in one subframe.
- the PDCCH is enhanced in the prior art, that is, a part of resources are allocated in the original PDSCH area to transmit an enhanced PDCCH S ⁇ E-PDCCH (Enhanced-Physical Downlink Control Channel), so that the capacity of the PDCCH can be improved and the user equipment can be scheduled at the same time.
- the number of the E-PDCCH is composed of an E-CCE (Enhanced Control Channel Element).
- the resource scheduling of the E-PDCCH is performed in units of RB pair (Resource Block Pair) in the frequency domain resource of the LTE.
- RB pair Resource Block Pair
- Each RB pair occupies 12 subcarriers in the frequency domain, and occupies one subframe in the time domain, and the available resources of the E-PDCCH are REs other than the PDCCH domain and various pilot symbols occupied in each RB pair.
- resource unit the number of REs occupied by the E-PDCCH is greatly affected by factors such as system performance and actual transmission conditions. It is difficult to ensure the number of REs occupied by each E-PDCCH that constitutes the E-PDCCH, which will result in E. -CCE performance is unstable and affects the correct rate of user reception. Summary of the invention
- the embodiment of the present invention provides a control channel resource mapping method, a base station, and a user equipment, which can dynamically determine the number of E-CCEs multiplexed on a resource set to ensure stable performance of the E-CCE, thereby ensuring that the user equipment receives the E. - The correct rate of PDCCH.
- a method for mapping a control channel resource including:
- a method for mapping a control channel resource including:
- E-CCE Determining, by the E-CCE, the number of the E-CCEs that are multiplexed on the resource set, where the E-CCE is transmitted on the resource unit RE in the resource set, where the E-CCE constitutes an enhanced physical downlink control channel.
- E-PDCCH E-PDCCH
- a base station including:
- a determining unit configured to determine a number of enhanced control channel elements E-CCEs multiplexed on a resource set, where the E-CCE is transmitted on a resource unit RE in the resource set, where the E-CCE is configured Enhanced physical downlink control channel E-PDCCH;
- a sending unit configured to send the E-PDCCH to the user equipment according to the number of E-CCEs multiplexed on one resource set determined by the determining unit.
- a user equipment including:
- a determining unit configured to determine a number of the E-CCEs multiplexed on the resource set, where the E-CCE is transmitted on a resource unit RE in the resource set, where the E-CCE component is enhanced Physical downlink control channel E-PDCCH;
- the receiving unit is configured to receive an enhanced physical downlink control channel E-PDCCH sent by the base station according to the number of the E-CCEs multiplexed on one of the resource sets determined by the determining unit.
- the base station sends an E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set, and the user equipment receives and according to the E-PDCCH.
- the number of E-CCEs multiplexed on a determined resource set is obtained.
- the user equipment Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE
- the number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- FIG. 1 is a schematic flowchart of a method for mapping a control channel resource according to an embodiment of the present invention
- FIG. 2 is a schematic diagram of a time division multiplexing and frequency division multiplexing structure of a resource set according to an embodiment of the present invention
- FIG. 3 is a schematic flowchart of another control channel resource mapping method according to an embodiment of the present disclosure
- FIG. 4 is a schematic flowchart of still another control channel resource mapping method according to an embodiment of the present invention
- FIG. 5 is a schematic flowchart of still another control channel resource mapping method according to an embodiment of the present invention
- FIG. 7 is a schematic structural diagram of a base station according to an embodiment of the present invention.
- FIG. 8 is a schematic structural diagram of a user equipment according to an embodiment of the present invention. detailed description
- the control channel resource mapping method provided by the embodiment of the present invention as shown in FIG. 1 , the method steps include: S101.
- the base station determines the number of E-CCEs multiplexed on one resource set, and the E-CCE is carried in the resource set.
- the resource unit RE is transmitted, and the E-CCE constitutes an E-PDCCH;
- S102 sends, according to the determined number of E-CCEs multiplexed on one resource set, to the user equipment
- the resource set is a resource block RB pair.
- the number of E-CCEs multiplexed in one RB pair in the prior art is fixed, in system configuration and/or actual transmission.
- the foregoing system configuration and/or the actual transmission situation may include: a subframe type, a OFDM symbol number occupied by the PDCCH, a type of a pilot configuration, and a data transmission layer number, which may affect the remaining E-bearing
- the number of REs (Resource Element) of the CCE is such that the RE occupied by the E-CCE and the RE occupied by the CCE of the PDCCH are greatly different, and it is difficult to ensure the performance of the E-CCE.
- the base station dynamically sets the number of E-CCEs multiplexed in one RB pair according to different system configurations and/or actual transmission conditions, the above problem can be effectively solved, wherein the setting may be according to the base station and the user.
- the well-known rules are set, and can also be negotiated during communication.
- the RB pair is used to perform resource scheduling for the E-PDCCH in units of 20, and the RB pair accounts for the frequency domain.
- 12 subcarriers 201 occupy one subframe in the time domain. Since the PDCCH, the E-PDCCH, and the PDSCH are time division multiplexed in one subframe, when a universal cyclic prefix subframe is used, the subframe has two slots (slot). As shown in FIG. 2, there are 7 OFDM symbols in each slot, such as 203 in FIG. 2. In this embodiment, the PDCCH is the first 3 OFDM symbols 203 occupying the first slot. 2, 204, E-PDCHH, as shown in FIG.
- the number of OFDM symbols occupied by 204 is 3, and the DMRS is as shown in FIG.
- the number of REs occupied by 207 in 2 is 24, and the number of REs occupied by 208 in Figure 2 is 16, and the number of REs occupied by 209 in CSI-RS is 4, in order to avoid CSI-RS transmission to neighboring cells.
- the position of the static RE (Zero Power CSI-RS) that generates interference without sending any signal is 48, you can see
- the number of REs available for the E-PDCCH field 205 is 40.
- the number of fixed E-CCEs in the prior art is used, for example, two, the number of REs occupied by the E-CCE is 20, which is much smaller than the CCE of the PDCCH, which occupies 36 REs. If the E-CCEs are actually used, If the number is set to one, the number of REs occupied by each E-CCE is 40, which is close to 36 REs occupied by the CCE of the PDCCH, which can ensure the performance of the E-CCE is stable.
- the base station sends an E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set. Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE The number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- the resource set is used as a resource block to illustrate the RB pair, but is not limited thereto.
- a control channel resource mapping method provided by another embodiment of the present invention is shown in FIG. The steps include:
- the base station determines the number of E-CCEs multiplexed on a resource set, and the E-CCE is carried on the resource unit RE in the resource set, and the E-CCE constitutes an E-PDCCH;
- S202 Send the E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set.
- the number of E-CCEs multiplexed on one RB pair can be set according to the total number of REs used to transmit the E-PDCCH in one RB pair.
- the number of REs that can send the E-PDCCH on the RB pair corresponds to the size group in the table 1 to determine the corresponding number of E-CCEs.
- the number of REs that can actually send E-PDCCHs in one RB pair is L.
- the number of E-CCEs multiplexed in one RB pair is determined according to the level group to which the size of L belongs.
- the number of REs occupied by each E-CCE is the number of REs occupied by each E-CCE.
- N and M may be determined by : when a total number of REs for transmitting the E-PDCCH in one of the resource sets is L, and one of the resource sets is multiplexed When the number of E-CCEs is N, and when the N includes at least two values, the value of L is obtained for each value of the N, and the quotient of dividing L by N is taken downward. And determining, by the entire obtained at least two first values, a first value that is closest to the second value among the at least two first values as the number M of REs occupied by the E-CCE.
- the second value includes 36.
- the formula argmm
- the value of M can be determined, that is, the number of eCCEs in a PRB pair is determined.
- the number M of REs occupied by the E-CCE may be determined as follows:
- the number of the E-CCEs multiplexed on one of the resource sets is N
- the N includes at least two values
- the value of the N is determined according to the correspondence between the value of L and the value of N, and the quotient of the value of L and the value of N is rounded down to obtain an E-CCE occupation.
- the number of REs is M.
- Both the base station and the user equipment can determine the M by applying the method described in this embodiment.
- the number of REs that can transmit the E-PDCCH on one RB pair is L, according to
- the level group to which the L size belongs determines the number of E-CCEs multiplexed in one RB pair, and the number of REs occupied by the E-CCE is calculated according to the number of L and E-CCEs.
- the RE may be allocated according to the set rules, such as according to the E-CCE scheduling information: including the allocation of resources, the size of the transport block, the modulation and coding mode, the transmission rank, and the precoding matrix information, etc., and may be distributed to the remaining One or two of the two E-CCEs may also be assigned to any one or assigned to other information for carrying other information.
- the number of E-CCEs multiplexed in one RB pair is set according to the total number of REs used for transmitting the E-PDCCH in one RB pair, and the setting may be in advance according to the base station and the user equipment. It is also known that it can be negotiated during communication.
- the base station may also send a notification to the user equipment, where the notification is used to indicate the number of E-CCEs multiplexed on the RB pair.
- the notification may be notified through high layer signaling or through physical layer signaling.
- the base station sends an E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set.
- the user equipment Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE
- the number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- the S30 K base station determines the number of E-CCEs multiplexed on one resource set, and the E-CCE is carried on the resource unit RE in the resource set, and the E-CCE constitutes an E-PDCCH;
- the number N of E-CCEs multiplexed on one RB pair is set according to the total number L of REs for transmitting the E-PDCCH in one RB pair and the number M of REs occupied by the preset E-CCE.
- the base station sets the RE occupied by the PDCCH according to the number of REs of the E-PDCCHs actually transmitted in the RB pair and the number of REs occupied by the E-CCEs in different system configurations and/or actual transmission conditions. If the number of REs used to transmit the E-PDCCH in an RB pair is L, and the number of REs occupied by the E-CCE is M, it is set to be multiplexed in one RB pair. The number of E-CCEs is the largest integer not greater than L/M. This algorithm can be set according to the base station and the user equipment, or can be negotiated and set during communication.
- the number of REs and the calculation method of the E-CCE in this embodiment are for illustrative purposes only, and are not limited thereto.
- 26 REs are assigned to other information to transmit other information.
- the base station may send a notification to the user equipment, and the notification is used to indicate the number of E-CCEs multiplexed in one RB pair of the user equipment. And this notification can be notified through high-level signaling or through physical layer signaling.
- the base station sends an E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set. Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE The number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- control channel resource mapping method includes:
- the base station determines the number of E-CCEs multiplexed on one resource set, and the E-CCE is carried on the resource unit RE in the resource set, and the E-CCE constitutes an E-PDCCH;
- S402 Send the E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set.
- system configuration and/or actual transmission conditions such as the subframe type of the subframe in which the E-PDCCH is located, the number of OFDM symbols occupied by the PDCCH, the CRS pilot configuration, the CSI-RS pilot configuration, the DMRS pilot configuration, and the data transmission layer.
- the numbers the number of E-CCEs multiplexed on one RB pair.
- the system configuration includes: a subframe type, a number of OFDM symbols occupied by the PDCCH, and a CRS.
- the actual transmission situation includes: DMRS (Demodulation Reference Signal) configuration, and at least one of the number of data transmission layers.
- the subframe Determining, according to whether the subframe is a special subframe or a normal subframe or an MBSFN subframe, the number of the E-CCEs multiplexed on one of the resource sets; or
- the number of the E-CCEs multiplexed on one of the resource sets is determined according to whether the subframe is a time division multiplexed TDD subframe or a frequency division multiplexed FDD subframe.
- the PDCCH in an RB pair and the REs occupied by various reference symbols (RS) are different, and the RS includes the DMRS, the CRS, and the C CSI-RS, which may result in the remaining available REs.
- the difference is very large.
- the number of OFDM symbols occupied by the PDCCH is different, where n can take 0, 1, 2, 3 or 4;
- the configuration may also take 1, 2 or 4 to occupy 8, 16 or 24 REs in one subframe respectively;
- the CSI-RS port number configuration respectively take 1, 2, 4 or 8 will result in separate occupation in one subframe.
- the base station sets the number of E-CCEs according to the subframe type in the system configuration and the number of OFDM symbols occupied by the PDCCH. It should be noted that the system configurations of the subframe type and the number of OFDM symbols used by the PDCCH in this embodiment are merely exemplary, and are not limited thereto.
- the sub-frame type includes two types: a normal cyclic prefix sub-frame and an extended cyclic prefix sub-frame.
- the number of OFDM symbols occupied by the PDCCH may be 0, 1, 2, 3 or 4.
- Table 3 different subframe types and the number of OFDM symbols occupied by the PDCCH are different, and the number of E-CCEs can be directly obtained from the table.
- the subframe type is a normal cyclic prefix subframe
- the number of OFDM symbols occupied by the PDCCH is 0, the number of E-CCEs multiplexed in one RB pair is 4;
- the subframe type is an extended cyclic prefix
- the number of OFDM symbols occupied by the PDCCH is 2, the number of E-CCEs multiplexed in one RB pair is 2.
- the base station sends an E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set. Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE The number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- control channel resource mapping method provided by the embodiment of the present invention is as shown in FIG. 6, and the method steps include:
- S501 Determine the number of the E-CCEs that are multiplexed on the resource set, where the E-CCE is transmitted on a resource unit RE in the resource set, and the E-CCE constitutes an enhanced physical downlink.
- the user equipment may also determine the number of E-CCEs multiplexed on one RB pair according to the received notification.
- This embodiment provides a method for the user equipment to determine the number of E-CCEs through a well-known policy. .
- the user equipment determines that the number of E-CCEs constituting one E-PDCCH may be one according to one
- the total number of E-PDCCHs to be transmitted in the RB pair, and the number of E-CCEs multiplexed in one RB pair is determined, for example, in the level table to which the preset total number size belongs.
- the number of E-CCEs multiplexed on one RB pair is obtained to determine the number of E-CCEs.
- the L/M is determined to be not greater than the total number of REs in the RB pair for the E-PDCCH to be transmitted in the RB pair, and the number of REs occupied by each E-CCE is M.
- the maximum integer of L/M is the number of E-CCEs multiplexed on one RB pair. If L/M cannot be removed, the remaining REs are in one or more E according to the scheduling requirements of E-CCE.
- - CCE joins these remaining REs or does not join, or determines that these remaining REs transmit other information, or join these remaining REs in the E-CCE according to other preset rules of the system or do not join, or determine these remaining REs Transmission Is the other information.
- the user equipment may also obtain the number of E-CCEs multiplexed on one RB pair according to a common system configuration and/or an actual transmission situation, such as an E-PDCCH multiplexed subframe type and When the number of symbols of the OFDM occupied by the PDCCH is used, the number of E-CCEs multiplexed on one RB pair may be searched according to a table set by the experimental statistics of those skilled in the art.
- the number of said E-CCEs multiplexed on one of said sets of resources is determined based on system configuration and/or actual transmission conditions.
- Determining the number of the E-CCEs multiplexed on one of the resource sets according to a system configuration and/or an actual transmission situation including:
- At least one of the number of OFDM symbols, the cell pilot signal CRS pilot configuration, the channel state indication pilot symbol CSI-RS pilot configuration, the demodulation pilot symbol DMRS pilot configuration, and the data transmission layer number are determined in one The number of the E-CCEs multiplexed on the resource set.
- the subframe Determining, according to whether the subframe is a special subframe or a normal subframe or an MBSFN subframe, the number of the E-CCEs multiplexed on one of the resource sets; or
- the number of the E-CCEs multiplexed on one of the resource sets is determined according to whether the subframe is a time division multiplexed TDD subframe or a frequency division multiplexed FDD subframe.
- the user equipment determines the number of E-CCEs in the subframes sent by the base station by using a policy known to the base station or using communication negotiation, the method for determining the number of E-CCEs and the base station are determined.
- the method of dynamic setting is the same and will not be described here.
- the E-PDCCH obtains the determined number of E-CCEs multiplexed on one resource set. Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE The number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- the determining unit 601 is configured to determine the number of E-CCEs multiplexed on one resource set, where the E-CCE is carried on the RE in the resource set, and the E-CCE constitutes an E-PDCCH.
- the determining unit 601 may set the number of E-CCEs according to the total number of REs occupied by the E-PDCCH sent in the RB pair according to different system configurations and/or actual transmission conditions, such as the size of the total number.
- the number of E-CCEs in the common table is set to the number of E-CCEs multiplexed in one RB pair. The specific setting method is described in detail in the above embodiment. Narration.
- the determining unit 601 is configured to: when the number of REs occupied by the E-PDCCH transmitted in one RB pair is L, and the number of REs occupied by the E-CCE is M, set the E-CCE constituting one E-PDCCH.
- the number of the number is not greater than the maximum integer of L/M, and when there is a remainder, the remaining REs are set into one or more E-CCEs according to the scheduling requirements of the E-CCE, or the remaining REs carry other information.
- the determining unit 601 is configured according to one of a subframe type of the E-CCE multiplex subframe, an OFDM symbol number occupied by the PDCCH, a CRS pilot configuration, a CSI-RS pilot configuration, a DMRS pilot configuration, and a data transmission layer number.
- the number of E-CCEs multiplexed in one RB pair such as a normal cyclic prefix subframe or an extended cyclic subframe according to the E-PDCCH multiplexed subframe type, and an OFDM occupied by the PDCCH
- the number of symbols such as occupying 0 to 4 OFDM symbols in a normal cyclic prefix subframe, or occupying 0 to 2 OFDM symbols in an extended cyclic subframe, and corresponding to a table according to experimental statistics of those skilled in the art Set the number of E-CCEs multiplexed on one RB pair.
- the sending unit 602 is configured to send the E-PDCCH to the user equipment according to the number of E-CCEs multiplexed on one resource set determined by the determining unit 601.
- the sending unit 602 is further configured to send the PDSCH and the corresponding PDCCH and the E-PDCCH; wherein the PDSCH, the PDCCH, and the E-PDCCH are multiplexed in one subframe.
- the determining unit 601 is specifically configured to determine, according to whether the subframe is a special subframe or a general subframe or an MBSFN subframe, the number of the E-CCEs multiplexed on one of the resource sets, or Determining, according to whether the subframe is a time division multiplexed TDD subframe or a frequency division multiplexed FDD subframe, the number of the E-CCEs multiplexed on one of the resource sets;
- the sending unit 602 is specifically configured to send the PDCCH and the PDCCH to the user equipment according to the number of the E-CCEs multiplexed on one of the resource sets determined by the determining unit.
- E-PDCCH, the PDCCH and the P E-PDCCH are multiplexed in one subframe.
- the sending unit 603 may further send a notification to the user equipment to indicate the number of E-CCEs multiplexed on the RB pair of the user equipment, where the notification may be notified by higher layer signaling or by physical layer signaling. Notice.
- the base station 60 can be operated by using the method provided in the foregoing embodiment, and the working method is the same as that provided by the embodiment, and details are not described herein again.
- the base station sends an E-PDCCH to the user equipment according to the determined number of E-CCEs multiplexed on one resource set, so that the user equipment receives and determines the resource set according to the E-PDCCH.
- the number of multiplexed E-CCEs is the number of multiplexed E-CCEs.
- the user equipment Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also uses the number of E-CCEs instead of using the number of fixed E-CCEs as in the prior art, so that E- The number of REs occupied by a CCE on a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
- the user equipment 70 provided by the embodiment of the present invention, as shown in FIG. 8, includes:
- the determining unit 701 is configured to determine the number of the E-CCEs that are multiplexed on the resource set, where the E-CCE is transmitted on the resource unit RE in the resource set, and the E-CCE is configured.
- Enhanced physical downlink control channel E-PDCCH Enhanced physical downlink control channel
- the receiving unit 701 is further configured to receive the PDSCH sent by the base station 60 and the corresponding PDCCH and E-PDCCH; wherein the PDSCH, the PDCCH, and the E-PDCCH are multiplexed in one subframe.
- the processing unit 702 is configured to receive an enhanced physical downlink control channel E-PDCCH sent by the base station according to the number of the E-CCEs multiplexed on the one of the resource sets determined by the determining unit 701.
- the resource set is an RB pair, but is not limited thereto.
- the determining unit 701 is specifically configured to: multiplex a total number of REs for transmitting an E-PDCCH in an RB pair, and multiplex one RB pair according to a size of the L in a corresponding table in a common table.
- the number of E-CCEs is taken as the value, and this value is determined as the number of E-CCEs.
- the determining unit 701 is configured to: when the total number of REs for transmitting the E-PDCCH in one RB pair is L, and the number of REs occupied by the E-CCE is M, calculate E constituting an E-PDCCH
- the number of -CCEs is the largest integer not greater than L/M.
- the determining unit 701 is configured according to the subframe type of the E-CCE multiplex subframe, and the PDCCH is occupied.
- One or more of the number of OFDM symbols, the CRS pilot configuration, the CSI-RS pilot configuration, the DMRS pilot configuration, and the number of data transmission layers, corresponding to the number of E-CCEs multiplexed on one RB pair For example, if the subframe type multiplexed according to the E-PDCCH is an extended cyclic prefix subframe, and the number of symbols of the OFDM occupied by the PDCCH is 1, the data 3 corresponding to the configured well-known table is on one RB pair. The number of multiplexed E-CCEs.
- the determining unit 701 is specifically configured to: according to the subframe type of the subframe where the E-PDCCH is located, the number of orthogonal frequency division multiplexing OFDM symbols occupied by the PDCCH, the cell pilot signal CRS pilot configuration, and the channel state indication At least one of a frequency symbol CSI-RS pilot configuration, a demodulated pilot symbol DMRS pilot configuration, and a data transmission layer number, the number of the E-CCEs multiplexed on one of the resource sets is determined.
- the determining unit 701 is specifically configured to determine, according to whether the subframe is a special subframe or a general subframe or an MBSFN subframe, the number of the E-CCEs multiplexed on one of the resource sets, or Determining, according to whether the subframe is a time division multiplexed TDD subframe or a frequency division multiplexed FDD subframe, the number of the E-CCEs multiplexed on one of the resource sets;
- the receiving unit 702 is specifically configured to receive, according to the number of the E-CCEs multiplexed on one of the resource sets determined by the determining unit 701, a physical downlink control channel PDCCH and an enhanced physical downlink sent by the base station.
- the control channel E-PDCCH, the PDCCH and the E-PDCCH are multiplexed in one subframe.
- the policy of the user equipment 70 determining the number of E-CCEs is known in advance by the base station 60 and the user equipment 70, or negotiated during communication, what policy setting is used by the base station 60, the user equipment 70 The number of E-CCEs is determined according to the same policy. The methods used are listed in the corresponding method embodiments, and are not described here.
- the user equipment 70 can be operated by using the method provided in the foregoing embodiment, and the working method is the same as that provided by the embodiment, and details are not described herein again.
- the user equipment receives the E-PDCCH sent by the base station, and obtains the number of E-CCEs multiplexed on a determined resource set according to the E-PDCCH. Since the number of E-CCEs of the base station is dynamically set according to the actual situation, the user equipment also obtains the number of E-CCEs, and does not use the fixed number of E-CCEs as in the prior art, so that E-CCE The number of REs occupied by a resource set is similar to the number of REs occupied by the CCE of the PDCCH, thereby ensuring stable performance of the E-CCE, thereby improving the correct rate of receiving E-PDCCH by the user equipment.
Abstract
Description
Claims
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CA2860708A CA2860708C (en) | 2012-01-09 | 2012-12-26 | Method for mapping control channel resources, base station, and user equipment |
EP12864745.0A EP2793525B1 (en) | 2012-01-09 | 2012-12-26 | Control channel mapping method, base station and user equipment |
EP17171900.8A EP3288211B1 (en) | 2012-01-09 | 2012-12-26 | Method for mapping control channel resources, base station, and user equipement |
US14/326,669 US10314021B2 (en) | 2012-01-09 | 2014-07-09 | Method for mapping control channel resources, base station, and user equipment |
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CN201210146516.8A CN103200687B (zh) | 2012-01-09 | 2012-05-11 | 一种控制信道资源映射方法、基站及用户设备 |
CN201210146516.8 | 2012-05-11 |
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EP2793525A4 (en) | 2014-12-17 |
CA2860708A1 (en) | 2013-07-18 |
EP3288211B1 (en) | 2022-10-05 |
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CN103200687B (zh) | 2016-09-14 |
CN106788929A (zh) | 2017-05-31 |
EP3288211A1 (en) | 2018-02-28 |
US10314021B2 (en) | 2019-06-04 |
CN103200687A (zh) | 2013-07-10 |
EP2793525B1 (en) | 2017-06-21 |
US20140334408A1 (en) | 2014-11-13 |
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CA2860708C (en) | 2021-02-16 |
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