WO2021147892A1 - 一种被用于无线通信的节点中的方法和装置 - Google Patents
一种被用于无线通信的节点中的方法和装置 Download PDFInfo
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- WO2021147892A1 WO2021147892A1 PCT/CN2021/072849 CN2021072849W WO2021147892A1 WO 2021147892 A1 WO2021147892 A1 WO 2021147892A1 CN 2021072849 W CN2021072849 W CN 2021072849W WO 2021147892 A1 WO2021147892 A1 WO 2021147892A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W16/02—Resource partitioning among network components, e.g. reuse partitioning
- H04W16/10—Dynamic resource partitioning
Definitions
- This application relates to transmission methods and devices in wireless communication systems, and in particular to multi-carrier transmission schemes and devices in wireless communication.
- the 3GPP RAN #85 plenary meeting also passed the dynamic spectrum sharing (Dynamic spectrum sharing, DSS) WI and multi-radio dual-connection (Multi-Radio Dual-) under NR.
- DSS dynamic spectrum sharing
- Multi-Radio Dual- multi-radio dual-connection
- Connectivity (MR-DC) enhanced WI is used to support more flexible and efficient multi-carrier communication.
- a multi-carrier communication process such as carrier aggregation (CA, Carrier Aggregation), cross-carrier scheduling (Cross Carrier Scheduling) is supported.
- CA carrier aggregation
- PCC Primary Component Carrier
- Data transmission in Cell (Pcell) only supports self-scheduling of this carrier, and does not support cross-carrier scheduling in which a secondary carrier (Secondary Component Carrier, SCC) or a secondary cell (Secondary Cell, Scell) is used as a scheduling carrier.
- a secondary carrier Secondary Component Carrier, SCC
- SCC Secondary Cell
- Scell secondary Cell
- This application discloses a method used in a first node device in wireless communication, which is characterized in that it includes:
- first information is used to determine a target carrier
- second information is used to determine a first indication
- first indication is a positive integer
- the first signaling When the first signaling is detected, operate the first signal; the frequency domain resources occupied by the first signal belong to the first carrier, and the first signaling is used to determine the first signal Occupied time-frequency resources;
- the operation is sending, or the operation is receiving;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one of the first candidate resource sets Candidate resource group; any one of the candidate resource groups in the first candidate resource set belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the target resource pool
- the first candidate resource set; whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication.
- the target indication is equal to the first indication based on whether the first carrier and the target carrier are the same, thereby realizing a secondary carrier (Secondary Component Carrier, SCC) or a secondary cell (Secondary Cell, Scell)
- SCC Secondary Component Carrier
- Scell Secondary Cell
- the distribution of PDCCH candidates (Candidate) when using self-scheduling is based on whether this secondary carrier supports cross-carrier scheduling (Cross-Carrier Scheduling) primary carrier (Primary Component Carrier, PCC) or primary cell (Primary Cell, Pcell) at the same time.
- the change reduces the collision probability (Blocking Probability) of the PDCCH of the scheduling main carrier, and ensures the transmission performance of the control information of the main carrier.
- the target indication is equal to the first indication, realizing that the secondary carrier (Secondary Component Carrier, SCC) or the secondary cell (Secondary Cell, Scell) adopts the initial PDCCH candidate (Candidate) when self-scheduling Offset avoids the overlap with the PDCCH candidate (Candidate) of the Cross-Carrier Scheduling (Primary Component Carrier, PCC) or Primary Cell (Pcell), and at the same time increases the main carrier and the PDCCH candidate (Candidate).
- the transmission performance of the control information of the secondary carrier is equal to the first indication, realizing that the secondary carrier (Secondary Component Carrier, SCC) or the secondary cell (Secondary Cell, Scell) adopts the initial PDCCH candidate (Candidate) when self-scheduling Offset avoids the overlap with the PDCCH candidate (Candidate) of the Cross-Carrier Scheduling (Primary Component Carrier, PCC) or Primary Cell (Pcell), and at the same
- the above method is characterized in that when the first carrier and the target carrier are the same, the target indication is equal to the first indication, and the first signaling carries the first domain, The value of the first field is equal to the target indication; when the first carrier and the target carrier are not the same, the target indication is equal to a predefined non-negative integer other than the first indication.
- the first domain is carried in the first signaling, which ensures that when the secondary carrier (Secondary Component Carrier, SCC) or the secondary cell (Secondary Cell) is the same Cell, Scell) the initial PDCCH candidate (Candidate) and cross-carrier scheduling (Cross-Carrier Scheduling) primary carrier (Primary Component Carrier, PCC) or primary cell (Primary Cell, Pcell) PDCCH candidate (Candidate) during self-scheduling )
- the ambiguity of scheduling information during coincidence ensures the effective transmission of control information.
- the above method is characterized in that it further includes:
- the third information is used to determine that the first carrier is self-scheduled.
- the above method is characterized in that the second information and the first information are carried in two different fields in the same signaling, or the second information The signalling of the carrier is carried.
- the second information and the first information are carried by two different fields in the same signaling, or the second information is carried by signaling for the first carrier, so that the auxiliary
- the position indication of the starting PDCCH candidate (Candidate) of the carrier (Secondary Component Carrier, SCC) or Secondary Cell (Secondary Cell, Scell) during self-scheduling can reuse or reinterpret the existing signaling format, and avoid targeting
- the additional signaling configuration of each secondary component carrier (SCC) or secondary cell (Secondary Cell, Scell) reduces the header overhead while not reducing the flexibility of cross-carrier scheduling (Cross-Carrier Scheduling) configuration.
- the above method is characterized in that the frequency domain resource occupied by the signal carrying the first information belongs to the second carrier, the first information is used to determine the first index, and the first index Is the index of the target carrier that schedules the second carrier across carriers.
- the above method is characterized in that, when the first carrier and the target carrier are the same, the method further includes:
- the frequency domain resources occupied by the second candidate resource set belong to the first carrier, and the second signaling is used to determine the time-frequency resources occupied by signals transmitted on the second carrier,
- the second candidate resource set includes a positive integer number of candidate resource groups, and the second signaling occupies one candidate resource group in the second candidate resource set; Any candidate resource group belongs to the target resource pool; a second indication is used to determine the second candidate resource set from the target resource pool, and the second indication is equal to zero.
- the second indication equal to 0, when the primary carrier (Primary Component Carrier, PCC) or primary cell (Primary Cell, Pcell) is cross-carrier scheduled (Cross-Carrier Scheduled), the cross-carrier scheduling of the primary carrier is guaranteed
- the performance of the PDCCH is comparable with the PDCCH performance of the primary component carrier (PCC) or primary cell (Primary Cell, Pcell) during self-scheduling.
- the above method is characterized in that it further includes:
- the fourth information is used to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set.
- This application discloses a method used in a second node device in wireless communication, which is characterized in that it includes:
- the frequency domain resources occupied by the first signal belong to the first carrier, and the first signaling is used to indicate the time-frequency resources occupied by the first signal;
- the execution is receiving, or the execution is sending;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one of the first candidate resource set Candidate resource group; any one of the candidate resource groups in the first candidate resource set belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the target resource pool
- the first candidate resource set; whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication.
- the above method is characterized in that when the first carrier and the target carrier are the same, the target indication is equal to the first indication, and the first signaling carries the first domain, The value of the first field is equal to the target indication; when the first carrier and the target carrier are not the same, the target indication is equal to a predefined non-negative integer other than the first indication.
- the above method is characterized in that it further includes:
- the third information is used to indicate that the first carrier is self-scheduled.
- the above method is characterized in that the second information and the first information are carried in two different fields in the same signaling, or the second information The signalling of the carrier is carried.
- the above method is characterized in that the frequency domain resource occupied by the signal carrying the first information belongs to the second carrier, and the first information is used to indicate the first index, and the first index Is the index of the target carrier that schedules the second carrier across carriers.
- the above method is characterized in that, when the first carrier and the target carrier are the same, the method further includes:
- the frequency domain resources occupied by the second candidate resource set belong to the first carrier, and the second signaling is used to indicate the time-frequency resources occupied by signals transmitted on the second carrier,
- the second candidate resource set includes a positive integer number of candidate resource groups, and the second signaling occupies one candidate resource group in the second candidate resource set; Any candidate resource group belongs to the target resource pool; a second indication is used to determine the second candidate resource set from the target resource pool, and the second indication is equal to zero.
- the above method is characterized in that it further includes:
- the fourth information is used to indicate the number of candidate resource groups included in the target resource pool and the first candidate resource set.
- This application discloses a first node device used in wireless communication, which is characterized in that it includes:
- a first receiver receiving first information and second information, the first information is used to determine a target carrier, the second information is used to determine a first indication, and the first indication is a positive integer;
- the second receiver monitors the first signaling in the first candidate resource set, and the frequency domain resource occupied by the first candidate resource set belongs to the first carrier;
- the first processor when the first signaling is detected, operates the first signal; the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to determine The time-frequency resource occupied by the first signal;
- the operation is sending, or the operation is receiving;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one of the first candidate resource sets Candidate resource group; any one of the candidate resource groups in the first candidate resource set belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the target resource pool
- the first candidate resource set; whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication.
- This application discloses a second node device used in wireless communication, which is characterized in that it includes:
- the first transmitter sends first information and second information, where the first information is used to indicate a target carrier, the second information is used to indicate a first indication, and the first indication is a positive integer;
- a second transmitter sending first signaling in a first candidate resource set, where frequency domain resources occupied by the first candidate resource set belong to the first carrier;
- the second processor executes the first signal; the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to indicate the time-frequency resource occupied by the first signal;
- the execution is receiving, or the execution is sending;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one of the first candidate resource set Candidate resource group; any one of the candidate resource groups in the first candidate resource set belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the target resource pool
- the first candidate resource set; whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication.
- the method in this application has the following advantages:
- the secondary carrier (Secondary Component Carrier, SCC) or secondary cell (Secondary Cell, Scell) adopts the distribution of PDCCH candidates (Candidate) when self-scheduled according to whether the secondary carrier supports cross-span Cross-Carrier Scheduling (Cross-Carrier Scheduling) primary carrier (Primary Component Carrier, PCC) or primary cell (Primary Cell, Pcell) changes, reduces the collision probability (Blocking Probability) of the PDCCH scheduling the primary carrier, and ensures the control information of the primary carrier Transmission performance.
- SCC Secondary Component Carrier
- Scell Secondary Cell, Scell
- the method in this application realizes the offset of the starting PDCCH candidate (Candidate) when the secondary carrier (Secondary Component Carrier, SCC) or the secondary cell (Secondary Cell, Scell) adopts self-scheduling, avoiding cross-carrier scheduling (Cross-Carrier Scheduling)
- the overlap between the PDCCH candidate (Candidate) of the primary component carrier (PCC) or the primary cell (Primary Cell, Pcell) while improving the transmission performance of the control information of the primary carrier and the secondary carrier.
- the initial PDCCH candidate (Candidate) and cross-carrier scheduling (Cross-Carrier) are ensured when the secondary carrier (Secondary Component Carrier, SCC) or the secondary cell (Secondary Cell, Scell) is self-scheduled. Scheduling) When the primary carrier (Primary Component Carrier, PCC) or primary cell (Primary Cell, Pcell) PDCCH candidate (Candidate) coincides, the ambiguity of scheduling information ensures the effective transmission of control information.
- the position indication of the starting PDCCH candidate (Candidate) of the secondary carrier (Secondary Component Carrier, SCC) or secondary cell (Secondary Cell, Scell) during self-scheduling can be reused or reinterpreted (Reinterprete) ) Existing signaling format, and avoid additional signaling configuration for each secondary carrier (Secondary Component Carrier, SCC) or secondary cell (Secondary Cell, Scell), reducing the header overhead without reducing cross-carrier scheduling ( Cross-Carrier Scheduling) configuration flexibility.
- Fig. 1 shows a flow chart of first information, second information, first signaling and first signal according to an embodiment of the present application
- Figure 2 shows a schematic diagram of a network architecture according to an embodiment of the present application
- Fig. 3 shows a schematic diagram of a wireless protocol architecture of a user plane and a control plane according to an embodiment of the present application
- Fig. 4 shows a schematic diagram of a first node device and a second node device according to an embodiment of the present application
- Figure 5 shows a wireless signal transmission flow chart according to an embodiment of the present application
- Fig. 6 shows a wireless signal transmission flow chart according to another embodiment of the present application.
- Fig. 7 shows a wireless signal transmission flow chart according to another embodiment of the present application.
- FIG. 8 shows a schematic diagram of the relationship between the first carrier and the target carrier according to an embodiment of the present application
- Fig. 9 shows a schematic diagram of second information according to an embodiment of the present application.
- FIG. 10 shows a schematic diagram of the relationship between the target carrier and the second carrier according to an embodiment of the present application
- FIG. 11 shows a schematic diagram of the relationship between the second candidate resource set and the first candidate resource set according to an embodiment of the present application
- Fig. 12 shows a structural block diagram of a processing device in a first node device according to an embodiment of the present application
- Fig. 13 shows a structural block diagram of a processing device in a second node device according to an embodiment of the present application.
- Embodiment 1 illustrates a flowchart of the first information, the second information, the first signaling and the first signal according to an embodiment of the present application, as shown in FIG. 1.
- each box represents a step, and it should be particularly emphasized that the order of each box in the figure does not represent the time sequence relationship between the steps shown.
- the first node device in this application receives the first information and the second information in step 101.
- the first information is used to determine the target carrier, and the second information is used to determine the first information.
- Indication the first indication is a positive integer; in step 102, the first signaling is monitored in the first candidate resource set, and the frequency domain resources occupied by the first candidate resource set belong to the first carrier; in step 103 When the first signaling is detected, the first signal is operated; the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to determine the first carrier.
- the time-frequency resource occupied by a signal wherein, the operation is sending or the operation is receiving;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies the A candidate resource group in the first candidate resource set; any candidate resource group in the first candidate resource set belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used for
- the first candidate resource set is determined from the target resource pool; whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication.
- the first information is transmitted through an air interface.
- the first information is transmitted through a wireless interface.
- the first information is transmitted through higher layer signaling.
- the first information is transmitted through physical layer signaling.
- the first information includes all or part of a high-layer signaling.
- the first information includes all or part of a physical layer signaling.
- the first information includes all or part of an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- IE Information Element, information element
- RRC Radio Resource Control, radio resource control
- the first information includes all or part of a field (Field) in an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- Field Information Element, information element
- RRC Radio Resource Control, radio resource control
- the first information includes all or part of a MAC (Medium Access Control) layer signaling.
- MAC Medium Access Control
- the first information includes all or part of a system information block (SIB, System Information Block).
- SIB system information block
- the first information is transmitted through a DL-SCH (Downlink Shared Channel, downlink shared channel).
- DL-SCH Downlink Shared Channel, downlink shared channel
- the first information is transmitted through a PDSCH (Physical Downlink Shared Channel).
- PDSCH Physical Downlink Shared Channel
- the first information is cell specific (Cell Specific).
- the first information is UE-specific.
- the first information is carrier specific (Carrier Specific).
- the first information is configured per carrier.
- the first information is specific to the serving cell (Serving Cell Specific).
- the first information is configured per serving cell (Per Serving Cell).
- the first information includes all or part of a field of DCI (Downlink Control Information) signaling.
- DCI Downlink Control Information
- the first information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig" in an RRC signaling.
- IE Information Element, information element
- the first information belongs to an IE (Information Element, information element) "ServingCellConfig" in an RRC signaling.
- IE Information Element, information element
- the first information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig" in an RRC signaling configuring a primary cell (Primary Cell, Pcell).
- IE Information Element, information element
- the first information belongs to an IE (Information Element, information element) "ServingCellConfig" in an RRC signaling that configures a primary cell (Primary Cell, PCell).
- IE Information Element, information element
- PCell Primary Cell
- the first information belongs to a field "schedulingCellId” in an IE (Information Element) "CrossCarrierSchedulingConfig" in an RRC signaling.
- the first information belongs to a field "schedulingCellId” in an IE (Information Element) "CrossCarrierSchedulingConfig" in an RRC signaling that configures a primary cell (Primary Cell, Pcell).
- the above sentence "the first information is used to determine the target carrier” includes the following meaning: the first information is used by the first node device in this application to determine the target carrier.
- the above sentence "the first information is used to determine the target carrier” includes the following meaning: the first information is used to explicitly indicate the target carrier.
- the above sentence "the first information is used to determine the target carrier” includes the following meaning: the first information is used to implicitly indicate the target carrier.
- the above sentence "the first information is used to determine the target carrier” includes the following meaning: the first information is used to indirectly indicate the target carrier.
- the above sentence "the first information is used to determine the target carrier” includes the following meaning: the first information is used to indicate the index of the target carrier, and the index of the target carrier is used to determine The target carrier.
- the above sentence "the first information is used to determine the target carrier” includes the following meaning: the first information is used to indicate the serving cell index (Serving Cell Index) corresponding to the target carrier, so The serving cell index corresponding to the target carrier is used to determine the target carrier.
- the serving cell index Serving Cell Index
- the second information is transmitted through an air interface.
- the second information is transmitted through a wireless interface.
- the second information is transmitted through higher layer signaling.
- the second information is transmitted through physical layer signaling.
- the second information includes all or part of a high-layer signaling.
- the second information includes all or part of a physical layer signaling.
- the second information includes all or part of an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- IE Information Element, information element
- RRC Radio Resource Control, radio resource control
- the second information includes all or part of a field (Field) in an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- Field Information Element, information element
- RRC Radio Resource Control, radio resource control
- the second information includes all or part of a MAC (Medium Access Control) layer signaling.
- MAC Medium Access Control
- the second information includes all or part of a system information block (SIB, System Information Block).
- SIB system information block
- the second information is transmitted through a DL-SCH (Downlink Shared Channel, downlink shared channel).
- DL-SCH Downlink Shared Channel, downlink shared channel
- the second information is transmitted through a PDSCH (Physical Downlink Shared Channel).
- PDSCH Physical Downlink Shared Channel
- the second information is cell specific (Cell Specific).
- the second information is UE-specific.
- the second information is carrier specific (Carrier Specific).
- the second information is configured per carrier.
- the second information is specific to the serving cell (Serving Cell Specific).
- the second information is configured per serving cell (Per Serving Cell).
- the second information is shared by the more than one carrier.
- the second information is shared by the more than one serving cell.
- the second information is applicable to any one of the more than 1 carriers.
- the second information is applicable to any one of the more than one serving cells.
- the second information includes all or part of a field of a DCI (Downlink Control Information) signaling.
- DCI Downlink Control Information
- the second information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig" in an RRC signaling.
- IE Information Element, information element
- the second information belongs to an IE (Information Element, information element) "ServingCellConfig" in one RRC signaling.
- IE Information Element, information element
- the second information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig" in an RRC signaling configuring a primary cell (Primary Cell, Pcell).
- IE Information Element, information element
- the second information belongs to an IE (Information Element, information element) "ServingCellConfig" in an RRC signaling that configures a primary cell (Primary Cell, PCell).
- IE Information Element, information element
- the second information belongs to a field "cif-InSchedulingCell” in an IE (Information Element) "CrossCarrierSchedulingConfig" in an RRC signaling.
- the second information belongs to the field "cif-InSchedulingCell” in the IE (Information Element) "CrossCarrierSchedulingConfig" in the RRC signaling of a primary cell (Primary Cell, Pcell).
- the second information belongs to a field "cif-OfSchedulingCell” in an IE (Information Element) "CrossCarrierSchedulingConfig" in an RRC signaling.
- the second information belongs to a field "cif-OfSchedulingCell” in an IE (Information Element) "CrossCarrierSchedulingConfig" in an RRC signaling configuring a primary cell (Primary Cell, Pcell).
- the above sentence "the second information is used to determine the first indication” includes the following meaning: the second information is used by the first node device in this application to determine the first indication.
- the above sentence "the second information is used to determine the first indication” includes the following meaning: the second information is used to explicitly indicate the first indication.
- the above sentence "the second information is used to determine the first indication” includes the following meaning: the second information is used to implicitly indicate the first indication.
- the above sentence "the second information is used to determine the first indication” includes the following meaning: the second information is used to indirectly indicate the first indication.
- the second information and the first information are carried by two different RRC signaling.
- the second information and the first information are carried through the same RRC signaling.
- the second information and the first information are carried by two different IEs in the same RRC signaling.
- the second information and the first information are carried by two different fields in the same IE in the same RRC signaling.
- the second information and the first information are both carried by signaling for the second carrier in this application.
- the second information and the first information are both carried by signaling for the serving cell corresponding to the second carrier in this application.
- the second information and the first information are both carried by signaling for the same carrier.
- the second information and the first information are both carried by signaling for the serving cell corresponding to the same carrier.
- the second information and the first information are both carried by the same IE in the signaling for the serving cell corresponding to the same carrier.
- the index of the serving cell corresponding to the second information is the same as the index of the serving cell corresponding to the first information.
- the target carrier corresponds to a serving cell (Serving Cell).
- the target carrier is a component carrier (Component Carrier) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- CA Carrier Aggregation
- the target carrier is a secondary carrier used for cross-carrier scheduling of a primary carrier.
- the serving cell corresponding to the target carrier is a secondary cell (Scell) used for cross-carrier scheduling of a primary cell (Pcell).
- Scell secondary cell
- Pcell primary cell
- the target carrier is a component carrier (Component Carrier) in MCG (Master Cell Group) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- MCG Master Cell Group
- CA Carrier Aggregation
- the target carrier is a component carrier (Component Carrier) in SCG (Secondary Cell Group, secondary cell group) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- SCG Secondary Cell Group, secondary cell group
- CA Carrier Aggregation
- the target carrier is a secondary component carrier (SCC).
- SCC secondary component carrier
- the target carrier corresponds to a secondary cell (Secondary Cell, Scell).
- Scell Secondary Cell
- the target carrier corresponds to a secondary cell (Secondary Cell, Scell) in an MCG (Master Cell Group, primary cell group).
- Scell Secondary Cell
- MCG Master Cell Group, primary cell group
- the target carrier corresponds to a secondary cell (Secondary Cell, Scell) in an SCG (Secondary Cell Group, secondary cell group).
- Scell Secondary Cell
- SCG Secondary Cell Group, secondary cell group
- the target carrier corresponds to a primary cell (Primary Cell, Pcell) in an SCG (Secondary Cell Group, secondary cell group).
- Primary Cell Primary Cell
- SCG Secondary Cell Group, secondary cell group
- the target carrier corresponds to a PSCell (Primary SCG Cell, a primary cell in a secondary cell group).
- PSCell Primary SCG Cell, a primary cell in a secondary cell group.
- the target carrier is identified by a serving cell index (Serving Cell Index).
- serving Cell Index Serving Cell Index
- the first indication is equal to a carrier indicator field (CIF, Carrier Indicator Field) value.
- CIF Carrier Indicator Field
- the first indication is equal to the value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH (Physical Downlink Control Channel).
- CIF Carrier Indicator Field
- PDCCH Physical Downlink Control Channel
- the first indication is equal to the value of a carrier indicator field (CIF, Carrier Indicator Field) in the first signaling.
- a carrier indicator field CIF, Carrier Indicator Field
- the first indication is equal to the value of a carrier indicator field (CIF, Carrier Indicator Field) in a signaling other than the first signaling.
- a carrier indicator field CIF, Carrier Indicator Field
- the first indication is used to determine the value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH (Physical Downlink Control Channel).
- CIF Carrier Indicator Field
- PDCCH Physical Downlink Control Channel
- the first indication is a value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH that schedules a signal in a carrier to which a frequency domain resource occupied by a signal carrying the first information belongs.
- a carrier indicator field CIF, Carrier Indicator Field
- the first indication is a value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH that schedules a signal in a carrier to which a frequency domain resource occupied by a signal carrying the first information belongs.
- a carrier indicator field CIF, Carrier Indicator Field
- the first indication is a value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH for cross-carrier scheduling of signals in a primary cell (Primary Cell, Pcell).
- CIF Carrier Indicator Field
- the first indication is a value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH for scheduling a signal in the second carrier in this application.
- a carrier indicator field CIF, Carrier Indicator Field
- the first indication is a carrier indicator (Carrier Indicator).
- the first indication is equal to a serving cell index (Serving Cell Index).
- the first indication is equal to a positive integer between 1 and 7.
- the first indication may be greater than 7.
- the first indication is equal to a positive integer between 1 and 31.
- the first indication is equal to the value of the field "cif-InSchedulingCell" in the IE (Information Element) "CrossCarrierSchedulingConfig".
- the first indication is equal to the value of the field "cif-OfSchedulingCell" in the IE (Information Element) "CrossCarrierSchedulingConfig".
- the first carrier corresponds to a serving cell (Serving Cell).
- the first carrier is a component carrier (Component Carrier) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- CA Carrier Aggregation
- the first carrier is a secondary carrier (Secondary Component Carrier, SCC) in MCG (Master Cell Group) in Carrier Aggregation (CA).
- SCC Secondary Component Carrier
- MCG Master Cell Group
- CA Carrier Aggregation
- the first carrier is a secondary carrier (Secondary Component Carrier, SCC) in SCG (Secondary Cell Group, secondary cell group) in Carrier Aggregation (CA).
- SCC Secondary Component Carrier
- CA Carrier Aggregation
- the first carrier is a secondary carrier (Secondary Component Carrier, SCC).
- SCC Secondary Component Carrier
- the first carrier corresponds to a secondary cell (Secondary Cell, Scell).
- Scell Secondary Cell
- the first carrier corresponds to a secondary cell (Secondary Cell, Scell) in an MCG (Master Cell Group, primary cell group).
- Scell Secondary Cell
- MCG Master Cell Group, primary cell group
- the first carrier corresponds to a secondary cell (Secondary Cell, Scell) in an SCG (Secondary Cell Group, secondary cell group).
- Scell Secondary Cell
- SCG Secondary Cell Group, secondary cell group
- the first carrier corresponds to a primary cell (Primary Cell, Pcell) in an SCG (Secondary Cell Group, secondary cell group).
- Primary Cell Primary Cell
- SCG Secondary Cell Group, secondary cell group
- the first carrier corresponds to a PSCell (Primary SCG Cell, a primary cell in a secondary cell group).
- PSCell Primary SCG Cell, a primary cell in a secondary cell group.
- the first carrier corresponds to a serving cell index (Serving Cell Index).
- the first candidate resource set includes time-frequency resources.
- the first candidate resource set includes only one candidate resource group.
- the first candidate resource set includes more than one candidate resource group.
- any two candidate resource groups included in the first candidate resource set are orthogonal in the time-frequency domain ( Orthogonal).
- any two candidate resource groups included in the first candidate resource set do not overlap in the time-frequency domain ( Non-overlapped).
- the first candidate resource set includes more than one candidate resource group
- the first candidate resource set includes more than one candidate resource group
- the number of time-frequency resources included in any two candidate resource groups in the first candidate resource set is equal .
- resource units included in any two candidate resource groups in the first candidate resource set
- the number of Element is equal.
- any two candidate resource groups in the first candidate resource set correspond to the same aggregation level (AL, Aggregation Level).
- any one of the candidate resource groups included in the first candidate resource set includes time-frequency resources.
- any one candidate resource group in the first candidate resource set includes a positive integer number of resource elements (RE, Resource Element).
- any one candidate resource group in the first candidate resource set is a time-frequency resource occupied by a physical downlink control channel (PDCCH, Physical Downlink Control Channel) candidate (Candidate).
- PDCCH Physical Downlink Control Channel
- any one candidate resource group in the first candidate resource set is a physical downlink control channel (PDCCH, Physical Downlink Control Channel) candidate (Candidate Channel) corresponding to an aggregation level (Aggregation Level, AL). ) Time-frequency resources occupied.
- PDCCH Physical Downlink Control Channel
- Candidate Channel corresponding to an aggregation level (Aggregation Level, AL).
- AL aggregation Level
- any one of the candidate resource groups in the first candidate resource set corresponds to one aggregation level (Aggregation Level, AL) and one downlink control information (DCI, Downlink Control Information) format (Format)
- AL aggregation Level
- DCI Downlink Control Information
- Form The time-frequency resource occupied by the candidate (Candidate) of the Physical Downlink Control Channel (PDCCH, Physical Downlink Control Channel).
- any one of the candidate resource groups in the first candidate resource set corresponds to an aggregation level (Aggregation Level, AL) and a downlink control information (DCI, Downlink Control Information) payload size (Payload Size) Time-frequency resources occupied by a candidate (Candidate) of a physical downlink control channel (PDCCH, Physical Downlink Control Channel).
- AL aggregation Level
- DCI Downlink Control Information
- Payload Size Payload size
- any one of the candidate resource groups in the first candidate resource set is in a search space set (Search Space Set) and an associated control resource set (CORESET, Control Resource Set), corresponding to A physical downlink control channel (PDCCH, Physical Downlink Control Channel) candidate (Candidate) occupied by an aggregation level (Aggregation Level, AL) and a downlink control information (DCI, Downlink Control Information) payload size (Payload Size) Frequency resources.
- PDCCH Physical Downlink Control Channel
- AL aggregation Level
- DCI Downlink Control Information
- Payload Size Frequency resources.
- any one candidate resource group in the first candidate resource set includes a positive integer number of control channel elements (CCE, Control Channel Element).
- CCE Control Channel Element
- any one of the candidate resource groups in the first candidate resource set includes a positive integer number of control channel elements (CCE, Control Channel Element) with consecutive indexes.
- CCE Control Channel Element
- any one of the candidate resource groups in the first candidate resource set includes a resource element group (REG, Resource Element Group) that is a positive integer multiple of 6.
- REG Resource Element Group
- any one of the candidate resource groups in the first candidate resource set includes an interleaved (Interleaved) resource element group (REG, Resource Element Group) that is a positive integer multiple of 6.
- Interleaved resource element group
- REG Resource Element Group
- any one of the candidate resource groups in the first candidate resource set includes a non-interleaved (Non-Interleaved) resource element group (REG, Resource Element Group) that is a positive integer multiple of 6.
- REG Non-Interleaved resource element group
- any one of the candidate resource groups included in the first candidate resource set includes resources that are continuous in the frequency domain.
- any one of the candidate resource groups included in the first candidate resource set includes frequency-domain discrete resources.
- any one of the candidate resource groups included in the first candidate resource set includes resources that are continuous in the time domain.
- any one of the candidate resource groups included in the first candidate resource set includes resources that are discrete in the time domain.
- all candidate resource groups included in the first candidate resource set belong to the same control resource set (CORESET).
- all candidate resource groups included in the first candidate resource set belong to the same search space set (Search Space Set).
- each candidate resource group included in the first candidate resource set is a candidate (Candidate) of the time-frequency resource occupied by the first signaling.
- each candidate resource group included in the first candidate resource set includes time-frequency resources that may be occupied by the first signaling.
- the monitoring of the first signaling is performed on each candidate resource group included in the first candidate resource set.
- the monitoring of the first signaling is implemented through blind decoding (Blind Decoding), and blind decoding is performed at least once for each candidate resource group included in the first candidate resource set.
- all candidate resource groups included in the first candidate resource set belong to the same search space set (Search Space Set) and the associated control resource set (CORESET).
- the sentence "frequency domain resources occupied by the first candidate resource set belongs to the first carrier" includes the following meaning: all frequency domain resources occupied by the first candidate resource set in the frequency domain belong to all Mentioned first carrier.
- the sentence “the frequency domain resource occupied by the first candidate resource set belongs to the first carrier” includes the following meaning: any candidate resource group in the first candidate resource set is in the frequency domain The occupied frequency domain resources belong to the first carrier.
- the above sentence "the frequency domain resource occupied by the first candidate resource set belongs to the first carrier” includes the following meaning: the carrier is the carrier where the first candidate resource set is located in the frequency domain (Carrier).
- the monitoring of the first signaling is implemented by decoding (Decoding) the first signaling.
- the monitoring of the first signaling is implemented by blind decoding (Blind Decoding) of the first signaling.
- the monitoring of the first signaling is implemented by decoding and CRC checking the first signaling.
- the monitoring of the first signaling is implemented by decoding the first signaling and a CRC check scrambled by the identifier of the first node device.
- the monitoring of the first signaling is implemented by decoding (Decoding) the first signaling based on the format of the first signaling.
- the first signaling is transmitted through an air interface.
- the first signaling is transmitted through a wireless interface.
- the first signaling is transmitted through a Uu interface.
- the first signaling is physical layer signaling.
- the first signaling is transmitted through PDCCH (Physical Downlink Control Channel, Physical Downlink Control Channel).
- PDCCH Physical Downlink Control Channel, Physical Downlink Control Channel
- the first signaling includes all or part of fields in DCI (Downlink Control Information).
- DCI Downlink Control Information
- the first signaling includes all or part of the DCI in a given DCI (Downlink Control Information) format (Format).
- DCI Downlink Control Information
- Form Downlink Control Information
- the first signaling is detected means that the first signaling is successfully decoded (decode).
- the first signaling is detected means that the first signaling is successfully received.
- the first signaling is detected means that the CRC (Cyclic Redundancy Check, cyclic redundancy check) check after the channel decoding of the first signaling has passed.
- CRC Cyclic Redundancy Check, cyclic redundancy check
- the first signaling is detected means that the CRC (Cyclic Redundancy Check) after channel decoding of the first signaling uses the first signaling
- the CRC Cyclic Redundancy Check, cyclic redundancy check
- the first signaling is detected means that the CRC (Cyclic Redundancy Check) after channel decoding of the first signaling uses the description in this application
- the first signaling is detected means that the CRC (Cyclic Redundancy Check) after channel decoding of the first signaling uses the description in this application
- the above sentence “the operation is sending, or the operation is receiving” includes the following meaning: the operation is one of sending and receiving.
- the above sentence “the operation is sending, or the operation is receiving” includes the following meaning: the operation is sending.
- the above sentence “the operation is sending, or the operation is receiving” includes the following meaning: the operation is receiving.
- the above sentence "the operation is sending, or the operation is receiving” includes the following meanings: when the operation is sending, the first signal is an uplink signal; when the operation is receiving, The first signal is a downlink signal.
- the above sentence "the operation is sending, or the operation is receiving” includes the following meanings: when the operation is sending, the first signal is transmitted via an uplink signal; when the operation is receiving , The first signal is transmitted through a downlink channel.
- the sentence "frequency domain resources occupied by the first signal belongs to the first carrier" includes the following meaning: all frequency domain resources occupied by the first signal belong to the first carrier.
- the above sentence "the frequency domain resource occupied by the first signal belongs to the first carrier" includes the following meaning: the first carrier includes the frequency domain resource occupied by the first signal.
- the first signal is a baseband signal.
- the first signal is a radio frequency signal.
- the first signal is transmitted through an air interface.
- the first signal is transmitted through a wireless interface.
- TB Transport Block
- bits in one bit block are used to generate the first signal, and the bit block includes a positive integer number of bits.
- the waveform adopted by the first signal is OFDM (Orthogonal Frequency Division Multiplexing, Orthogonal Frequency Division Multiplexing).
- the waveform used by the first signal is DFT-s-OFDM (Discrete Fourier Transform-Spread-Orthogonal Frequency Division Multiplexing, Discrete Fourier Transform-Spread-Orthogonal Frequency Division Multiplexing).
- the first signal is a reference signal.
- the first signal is a data signal.
- the operation is sending, and the first signal carries Msg3 (random access information 3).
- the operation is sending, and the first signal carries MsgB (random access information B).
- the operation is sending, and the first signal is the uplink transmission of the first node device after completing the random access procedure.
- the operation is sending, and the first signal is transmitted through UL-SCH (Uplink Shared Channel, uplink shared channel).
- UL-SCH Uplink Shared Channel, uplink shared channel
- the operation is to send, and the first signal is transmitted through a PUSCH (Physical Uplink Shared Channel, Physical Uplink Shared Channel).
- PUSCH Physical Uplink Shared Channel, Physical Uplink Shared Channel
- the operation is sending, and the first signal is transmitted through PUCCH (Physical Uplink Control Channel).
- PUCCH Physical Uplink Control Channel
- the operation is sending, and the first signal is transmitted through SRS (Sounding Reference Signal, sounding reference signal).
- SRS Sounding Reference Signal, sounding reference signal
- the operation is sending, and the first signal is transmitted through UL DMRS (Uplink Demodulation Reference Signal, uplink demodulation reference signal).
- UL DMRS Uplink Demodulation Reference Signal, uplink demodulation reference signal
- the operation is sending, and the first signal carries uplink control information (UCI, Uplink Control Information).
- UCI Uplink Control Information
- the operation is receiving, and the first signal is transmitted through a DL-SCH (Downlink Shared Channel, downlink shared channel).
- DL-SCH Downlink Shared Channel, downlink shared channel
- the operation is receiving, and the first signal is transmitted through PDSCH (Physical Downlink Shared Channel).
- PDSCH Physical Downlink Shared Channel
- the operation is receiving, and the first signal is transmitted through CSI-RS (Channel Status Information Reference Signal, Channel State Information Reference Signal).
- CSI-RS Channel Status Information Reference Signal, Channel State Information Reference Signal
- the operation is receiving, and the first signal is transmitted through a downlink DMRS (Channel Status Information Reference Signal, channel state information reference signal).
- DMRS Channel Status Information Reference Signal, channel state information reference signal
- the first signaling is also used to determine the modulation coding scheme (MCS, Modulation Coding Scheme) adopted by the first signal.
- MCS Modulation Coding Scheme
- the first signaling is also used to determine a redundancy version (RV, Redundancy Version) corresponding to the first signal.
- RV Redundancy Version
- the first signaling is also used to determine the HARQ process (Process) to which the first signal belongs.
- the above sentence "the first signaling is used to determine the time-frequency resources occupied by the first signal” includes the following meaning: the first signaling is used by the first node in this application The device is used to determine the time-frequency resource occupied by the first signal.
- the above sentence "the first signaling is used to determine the time-frequency resources occupied by the first signal” includes the following meaning: the first signaling is used to explicitly indicate the first signal Time-frequency resources occupied by a signal.
- the above sentence "the first signaling is used to determine the time-frequency resources occupied by the first signal” includes the following meaning: the first signaling is used to implicitly indicate the first signal Time-frequency resources occupied by a signal.
- the above sentence "the first signaling is used to determine the time-frequency resources occupied by the first signal” includes the following meaning: the first signaling is used to indirectly indicate the first signal The time-frequency resources occupied by the signal.
- the above sentence "the first signaling is used to determine the time-frequency resources occupied by the first signal” includes the following meaning: the first signaling is used to schedule the first signal.
- the above sentence "the first signaling is used to determine the time-frequency resources occupied by the first signal” includes the following meaning: the first signaling is the physical downlink for scheduling the first signal Control channel (PDCCH, Physical Downlink Control Channel).
- the first signaling is the physical downlink for scheduling the first signal Control channel (PDCCH, Physical Downlink Control Channel).
- the target resource pool includes a search space set (Search Space Set) including time-frequency resources in a slot (Slot).
- Search Space Set search space set
- Slot time-frequency resources in a slot
- the target resource pool includes time-frequency resources included in a time slot (Slot) in a search space set (Search Space Set) in the first carrier.
- the target resource pool includes a search space set (Search Space Set) in a serving cell (Serving Cell) corresponding to the first carrier and includes time-frequency resources in a slot (Slot).
- Search Space Set Search Space Set
- Serving Cell serving Cell
- Slot time-frequency resources
- the target resource pool includes a search space set (Search Space Set) including CCEs in a slot (Slot).
- Search Space Set Search Space Set
- slot CCEs in a slot
- the target resource pool includes a search space set (Search Space Set) in the first carrier and includes CCEs in a slot (Slot).
- Search Space Set Search Space Set
- slot CCEs in a slot
- the target resource pool includes a search space set (Search Space Set) in a serving cell (Serving Cell) corresponding to the first carrier and includes CCEs in a slot (Slot).
- Search Space Set Search Space Set
- Serving Cell serving cell
- CCEs CCEs in a slot
- the target resource pool includes a search space set (Search Space Set) associated with a control resource set (CORESET) and includes time-frequency resources in a slot (Slot).
- Search Space Set Search Space Set
- CORESET control resource set
- Slot time-frequency resources in a slot
- the target resource pool includes a search space set (Search Space Set) in a serving cell (Serving Cell), an active downlink bandwidth part (DL BWP, Downlink Bandwidth Part) and a time slot (Slot) includes time-frequency resources.
- Search Space Set Search Space Set
- DL BWP active downlink bandwidth part
- Slot time slot
- the target resource pool includes CCEs included in a slot (Slot) in a search space set (Search Space Set) associated with a control resource set (CORESET).
- the target resource pool includes a search space set (Search Space Set) in a serving cell (Serving Cell), an active downlink bandwidth part (DL BWP, Downlink Bandwidth Part) and a time slot CCE included in (Slot).
- Search Space Set Search Space Set
- DL BWP active downlink bandwidth part
- Slot time slot CCE included in
- the first candidate resource set includes more than the candidate resource group, and the time domain resources occupied by any two candidate resource groups in the first candidate resource set belong to the same time slot (Slot ).
- the first candidate resource set includes larger than the candidate resource group, and the time domain resources occupied by any two candidate resource groups in the first candidate resource set belong to the same subframe (Subframe) .
- any one of the candidate resource groups in the first candidate resource set corresponds to a time-frequency resource occupied by a PDCCH candidate (candidate), and the target resource pool is the first candidate resource set A time-frequency resource in a slot (Slot) of the search space set to which the PDCCH candidate corresponding to any one of the candidate resource groups belongs.
- the target resource pool is a search space set (Search Space Set) associated with a control resource set (CORESET).
- Search Space Set Search Space Set
- CORESET control resource set
- the target resource pool includes a positive integer greater than one CCE.
- the target resource pool includes REs other than the candidate resource group included in the first candidate resource set.
- the target resource pool includes CCEs outside the candidate resource group included in the first candidate resource set.
- the target resource pool includes time-frequency resources other than the candidate resource group included in the first candidate resource set.
- the target resource pool only includes time-frequency resources included in the candidate resource group included in the first candidate resource set.
- any RE included in the target resource pool belongs to a candidate resource group included in the first candidate resource set.
- including an RE in the target resource pool does not belong to a candidate resource group included in the first candidate resource set.
- the target indication is equal to zero.
- the target indication is greater than zero.
- the target indication is equal to the first indication.
- the target indication is not equal to the first indication.
- the target indication when the target indication is not equal to the first indication, the target indication is equal to zero.
- the target indication when the target indication is not equal to the first indication, the target indication is equal to a fixed value.
- the target indication when the target indication is not equal to the first indication, the target indication is equal to a predefined value.
- the target indication is equal to a carrier indicator field (CIF, Carrier Indicator Field) value.
- CIF Carrier Indicator Field
- the target indicator is equal to the value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH (Physical Downlink Control Channel).
- CIF Carrier Indicator Field
- PDCCH Physical Downlink Control Channel
- the target indication is equal to the value of the carrier indicator field (CIF, Carrier Indicator Field) in the first signaling.
- CIF Carrier Indicator Field
- the target indicator when there is a carrier indicator field (CIF, Carrier Indicator Field) in the first signaling, the target indicator is equal to the value of the carrier indicator field (CIF, Carrier Indicator Field) in the first signaling. Value; otherwise, the target indication is equal to 0.
- CIF Carrier Indicator Field
- the target indicator is used to determine the value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH (Physical Downlink Control Channel).
- CIF Carrier Indicator Field
- PDCCH Physical Downlink Control Channel
- the target indicator is a carrier indicator (Carrier Indicator).
- the target indication is equal to a serving cell index (Serving Cell Index).
- the target indicator is equal to a positive integer between 0 and 7.
- the target indication may be greater than 7.
- the target indication is equal to a positive integer between 0 and 31.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used by the first node in this application The device is used to determine the first candidate resource set from the target resource pool.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool according to an operation rule. The first candidate resource set is determined in the resource pool.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool according to the mapping relationship. The first candidate resource set is determined in the resource pool.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool. The position of each candidate resource group included in the first candidate resource set in the time-frequency domain is determined.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool. Determine the time-frequency domain position of each candidate resource group included in the first candidate resource set in the target resource pool.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool. The distribution of each candidate resource group included in the first candidate resource set in the target resource pool is determined.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool. The index of the CCE included in each candidate resource group included in the first candidate resource set is determined.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: the target indication is used to determine the first candidate resource set from the target resource pool. The index of the CCE included in each candidate resource group included in the first candidate resource set in the target resource pool is determined.
- the above sentence "the target indication is used to determine the first candidate resource set from the target resource pool” includes the following meaning: a candidate included in the first candidate resource set Resource group
- the index of the included CCE of aggregation level L is obtained by the following formula:
- s represents the target resource pool
- the target resource pool is associated with the control resource set (CORESET) p
- CORESET Control resource set
- p represents the index of the time slot to which the time domain resources included in the first candidate resource set belong
- n CI represents the target indication
- Represents a non-negative integer related to the first node device identifier in this application, i 0,...,L-1, N CCE
- p represents the number of CCEs in the control resource set (CORESET) p
- the CCE in the control resource set (CORESET) p is indexed from 0 to N CCE, p -1
- the serving cell index corresponding to the first carrier refers to: the serving cell index corresponding to the first carrier (Serving Cell Index) and the serving cell index corresponding to the target carrier ( Whether the Serving Cell Index) is the same.
- whether the first carrier and the target carrier are the same refers to whether the first carrier and the target carrier are the same carrier (Carrier).
- whether the first carrier and the target carrier are the same refers to whether the index of the first carrier and the index of the target carrier are the same.
- whether the first carrier and the target carrier are the same refers to whether the spectrum range occupied by the first carrier and the spectrum range occupied by the target carrier are the same.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meanings: the first carrier and the target carrier Whether they are the same is used by the first node device in this application to determine whether the target indication is equal to the first indication.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meanings: the first carrier and the target carrier Whether they are the same is used to determine whether the target indication is equal to the first indication according to a predefined condition rule.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meanings: the first carrier and the target carrier Whether they are the same is one of the conditions used to determine whether the target indication is equal to the first indication.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meaning: judging whether the target indication is equal to the first indication An indicated condition includes whether the first carrier and the target carrier are the same.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meaning: judging whether the target indication is equal to the first indication An indicated condition also includes a judgment condition other than whether the first carrier and the target carrier are the same.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meanings: the first carrier and the target carrier Whether it is the same and the version supported by the first node device in this application (for example, whether it supports the R17 version) are jointly used to determine whether the target indication is equal to the first indication.
- the above sentence "whether the first carrier and the target carrier are the same is used to determine whether the target indication is equal to the first indication" includes the following meanings: the first carrier and the target carrier Whether it is the same and the capability of the first node device in this application (for example, whether Scell cross-carrier scheduling Pcell) is used to determine whether the target indication is equal to the first indication.
- Embodiment 2 illustrates a schematic diagram of a network architecture according to the present application, as shown in FIG. 2.
- Figure 2 illustrates a diagram of a network architecture 200 of 5G NR, LTE (Long-Term Evolution) and LTE-A (Long-Term Evolution Advanced) systems.
- the 5G NR or LTE network architecture 200 may be referred to as 5GS (5G System)/EPS (Evolved Packet System, evolved packet system) 200 some other suitable terminology.
- 5GS/EPS 200 may include one or more UE (User Equipment) 201, NG-RAN (Next Generation Radio Access Network) 202, 5GC (5G Core Network, 5G Core Network)/EPC (Evolved Packet Core, Evolved Packet Core) 210, HSS (Home Subscriber Server)/UDM (Unified Data Management) 220 and Internet Service 230.
- 5GS/EPS can be interconnected with other access networks, but for simplicity Show these entities/interfaces. As shown in the figure, 5GS/EPS provides packet switching services, but those skilled in the art will easily understand that various concepts presented throughout this application can be extended to networks that provide circuit switching services or other cellular networks.
- the NG-RAN includes NR/Evolved Node B (gNB/eNB) 203 and other gNB (eNB) 204.
- the gNB (eNB) 203 provides user and control plane protocol termination towards the UE 201.
- the gNB (eNB) 203 may be connected to other gNB (eNB) 204 via an Xn/X2 interface (eg, backhaul).
- gNB (eNB) 203 can also be called a base station, base transceiver station, radio base station, radio transceiver, transceiver function, basic service set (BSS), extended service set (ESS), TRP (transmitting and receiving node), or some other Appropriate term.
- the gNB (eNB) 203 provides an access point to the 5GC/EPC210 for the UE201.
- UE201 include cellular phones, smart phones, Session Initiation Protocol (SIP) phones, laptop computers, personal digital assistants (PDAs), satellite radios, non-terrestrial base station communications, satellite mobile communications, global positioning systems, multimedia devices , Video devices, digital audio players (for example, MP3 players), cameras, game consoles, drones, aircraft, narrowband IoT devices, machine-type communication devices, land vehicles, automobiles, wearable devices, or any Other similar functional devices.
- SIP Session Initiation Protocol
- PDAs personal digital assistants
- satellite radios non-terrestrial base station communications
- satellite mobile communications global positioning systems
- multimedia devices Video devices
- digital audio players for example, MP3 players
- cameras game consoles, drones, aircraft, narrowband IoT devices, machine-type communication devices, land vehicles, automobiles, wearable devices, or any Other similar functional devices.
- UE201 can also refer to UE201 as a mobile station, subscriber station, mobile unit, subscriber unit, wireless unit, remote unit, mobile device, wireless device, wireless communication device, remote device, mobile subscriber station, access terminal, Mobile terminal, wireless terminal, remote terminal, handset, user agent, mobile client, client or some other suitable term.
- the gNB (eNB) 203 is connected to the 5GC/EPC 210 through the S1/NG interface.
- 5GC/EPC210 includes MME (Mobility Management Entity)/AMF (Authentication Management Field)/SMF (Session Management Function) 211, other MME/AMF/SMF214, S-GW (Service Gateway)/UPF (User Plane Function) 212 and P-GW (Packet Date Network Gateway)/UPF213.
- MME/AMF/SMF211 is a control node that processes the signaling between UE201 and 5GC/EPC210.
- MME/AMF/SMF211 provides bearer and connection management. All user IP (Internet Protocol, Internet Protocol) packets are transmitted through S-GW/UPF212, and S-GW/UPF212 itself is connected to P-GW/UPF213.
- the P-GW provides UE IP address allocation and other functions.
- the P-GW/UPF 213 is connected to the Internet service 230.
- the Internet service 230 includes the operator's corresponding Internet protocol service, which may specifically include the Internet, Intranet, IMS (IP Multimedia Subsystem, IP Multimedia Subsystem), and packet switching streaming service.
- the UE201 corresponds to the first node device in this application.
- the UE 201 supports multi-carrier transmission.
- the UE 201 supports secondary carrier cross-carrier scheduling for transmission of the primary carrier.
- the gNB (eNB) 201 corresponds to the second node device in this application.
- the gNB (eNB) 201 supports multi-carrier transmission.
- the gNB (eNB) 201 supports cross-carrier scheduling of secondary carrier transmission of the primary carrier.
- Embodiment 3 shows a schematic diagram of an embodiment of a wireless protocol architecture of a user plane and a control plane according to the present application, as shown in FIG. 3.
- FIG. 3 is a schematic diagram illustrating an embodiment of the radio protocol architecture for the user plane 350 and the control plane 300.
- FIG. 3 shows three layers for the first node device (UE or gNB) and the second node device (gNB or UE).
- the radio protocol architecture of the control plane 300 layer 1, layer 2, and layer 3.
- Layer 1 (L1 layer) is the lowest layer and implements various PHY (physical layer) signal processing functions.
- the L1 layer will be referred to as PHY301 herein.
- Layer 2 (L2 layer) 305 is above PHY301 and is responsible for the link between the first node device and the second node device through PHY301.
- L2 layer 305 includes MAC (Medium Access Control) sublayer 302, RLC (Radio Link Control, radio link layer control protocol) sublayer 303, and PDCP (Packet Data Convergence Protocol, packet data convergence protocol) sublayer 304. These sublayers terminate at the second node device.
- the PDCP sublayer 304 provides multiplexing between different radio bearers and logical channels.
- the PDCP sublayer 304 also provides security by encrypting data packets, and provides cross-zone movement support between the second node device and the first node device.
- the RLC sublayer 303 provides segmentation and reassembly of upper layer data packets, retransmission of lost data packets, and reordering of data packets to compensate for out-of-order reception due to HARQ.
- the MAC sublayer 302 provides multiplexing between logic and transport channels.
- the MAC sublayer 302 is also responsible for allocating various radio resources (for example, resource blocks) in a cell among the first node devices.
- the MAC sublayer 302 is also responsible for HARQ operations.
- the RRC (Radio Resource Control) sublayer 306 in layer 3 (L3 layer) of the control plane 300 is responsible for obtaining radio resources (ie, radio bearers) and using the communication between the second node device and the first node device. RRC signaling to configure the lower layer.
- the radio protocol architecture of the user plane 350 includes layer 1 (L1 layer) and layer 2 (L2 layer).
- the radio protocol architecture for the first node device and the second node device in the user plane 350 is for the physical layer 351 and the L2 layer 355.
- the PDCP sublayer 354 in the L2 layer 355, the RLC sublayer 353 in the L2 layer 355, and the MAC sublayer 352 in the L2 layer 355 are basically the same as the corresponding layers and sublayers in the control plane 300, but the PDCP sublayer 354 also provides The header of the upper layer data packet is compressed to reduce the radio transmission overhead.
- the L2 layer 355 in the user plane 350 also includes the SDAP (Service Data Adaptation Protocol) sublayer 356.
- SDAP Service Data Adaptation Protocol
- the SDAP sublayer 356 is responsible for the mapping between the QoS flow and the data radio bearer (DRB, Data Radio Bearer). To support business diversity.
- the first node device may have several upper layers above the L2 layer 355, including a network layer (for example, an IP layer) terminating at the P-GW on the network side and terminating at the other end of the connection (For example, remote UE, server, etc.) at the application layer.
- the wireless protocol architecture in FIG. 3 is applicable to the first node device in this application.
- the wireless protocol architecture in FIG. 3 is applicable to the second node device in this application.
- the first information in this application is generated in the RRC306.
- the first information in this application is generated in the MAC302 or MAC352.
- the first information in this application is generated in the PHY301 or PHY351.
- the second information in this application is generated in the RRC306.
- the second information in this application is generated in the MAC302 or MAC352.
- the second information in this application is generated in the PHY301 or PHY351.
- the first signaling in this application is generated in the RRC306.
- the first signaling in this application is generated in the MAC302 or MAC352.
- the first signaling in this application is generated in the PHY301 or PHY351.
- the first signal in this application is generated in the RRC306.
- the first signal in this application is generated in the MAC302 or MAC352.
- the first signal in this application is generated in the PHY301 or PHY351.
- the third information in this application is generated in the RRC306.
- the third information in this application is generated in the MAC302 or MAC352.
- the third information in this application is generated in the PHY301 or PHY351.
- the second signaling in this application is generated in the RRC306.
- the second signaling in this application is generated in the MAC302 or MAC352.
- the second signaling in this application is generated in the PHY301 or PHY351.
- the fourth information in this application is generated in the RRC306.
- the fourth information in this application is generated in the MAC302 or MAC352.
- the fourth information in this application is generated in the PHY301 or PHY351.
- Embodiment 4 shows a schematic diagram of a first node device and a second node device according to the present application, as shown in FIG. 4.
- the first node device (450) may include a controller/processor 490, a data source/buffer 480, a receiving processor 452, a transmitter/receiver 456, and a transmitting processor 455.
- the transmitter/receiver 456 includes an antenna. 460.
- the second node device (410) may include a controller/processor 440, a data source/buffer 430, a receiving processor 412, a transmitter/receiver 416, and a transmitting processor 415.
- the transmitter/receiver 416 includes an antenna. 420.
- upper-layer packets such as the first information, second information, third information, fourth information, and the first signal in this application (when the first signal is downlink transmission) and the first
- the high-level information included in the signaling and the second signaling (when the first signaling and the second signaling include high-level information) is provided to the controller/processor 440.
- the controller/processor 440 implements the functions of the L2 layer and above.
- the controller/processor 440 provides header compression, encryption, packet segmentation and reordering, multiplexing between logic and transport channels, and multiplexing of the first node device 450 based on various priority measures. Resource allocation.
- the controller/processor 440 is also responsible for HARQ operation, retransmission of lost packets, and signaling to the first node device 450, such as the first information, the second information, the third information, the fourth information, and the first node device 450 in this application.
- the first signal (when the first signal is downlink transmission) and the high-level information included in the first signaling and the second signaling (when the first signaling and the second signaling include high-level information) are in the controller/ In the processor 440.
- the transmit processor 415 implements various signal processing functions for the L1 layer (ie, physical layer), including coding, interleaving, scrambling, modulation, power control/allocation, precoding and physical layer control signaling generation, etc., such as this
- L1 layer ie, physical layer
- the generation of the physical layer signal of a signal (when the first signal is downlink transmission) is completed in the transmit processor 415, and the generated modulation symbols are divided into parallel streams and each stream is mapped to the corresponding multi-carrier sub-carrier and/or multi-carrier.
- each receiver 456 receives the radio frequency signal through its corresponding antenna 460, and each receiver 456 recovers the baseband information modulated onto the radio frequency carrier, and provides the baseband information to the receiving processor 452.
- the reception processor 452 implements various signal reception processing functions of the L1 layer.
- the signal reception processing function includes the reception of the physical layer signals of the first information, the second information, the third information and the fourth information in this application, and the physical layer signals of the first signaling, second signaling and the first signal in this application.
- Layer signal reception demodulate based on various modulation schemes (for example, binary phase shift keying (BPSK), quadrature phase shift keying (QPSK)) through the multi-carrier symbols in the multi-carrier symbol stream, and then Descramble, decode and deinterleave to recover the data or control transmitted by the second node device 410 on the physical channel, and then provide the data and control signals to the controller/processor 490.
- BPSK binary phase shift keying
- QPSK quadrature phase shift keying
- Descramble, decode and deinterleave to recover the data or control transmitted by the second node device 410 on the physical channel, and then provide the data and control signals to the controller/processor 490.
- the controller/processor 490 is responsible for the L2 layer and above.
- the controller/processor 490 is responsible for the first information, the second information, the third information, the fourth information and the first signal in this application (when the first signal is a downlink transmission When the first signaling and the second signaling include high-level information (when the first signaling and the second signaling include the high-level information) for interpretation.
- the controller/processor may be associated with a memory 480 that stores program codes and data.
- the memory 480 may be referred to as a computer-readable medium.
- the data source/buffer 480 In uplink (UL) transmission, the data source/buffer 480 is used to provide high-level data to the controller/processor 490.
- the data source/buffer 480 represents the L2 layer and all protocol layers above the L2 layer.
- the controller/processor 490 is implemented for user plane and control by providing header compression, encryption, packet segmentation and reordering, and multiplexing between logic and transport channels based on the radio resource allocation of the second node 410 Flat L2 layer protocol.
- the controller/processor 490 is also responsible for HARQ operations, retransmission of lost packets, and signaling to the second node 410.
- the transmission processor 455 implements various signal transmission processing functions for the L1 layer (ie, the physical layer). When the first signal in this application is uplink transmission, the physical layer signal of the first signal is generated by the transmission processor 455 .
- Signal transmission processing functions include sequence generation (for the signal generated by the sequence), coding and interleaving to facilitate forward error correction (FEC) at the UE450, and based on various modulation schemes (e.g., binary phase shift keying (BPSK), Quadrature Phase Shift Keying (QPSK) modulates the baseband signal (for the signal generated by the bit block), divides the sequence-generated signal or modulation symbol into parallel streams and maps each stream to the corresponding multi-carrier subcarrier and/ Or multi-carrier symbols are then mapped to the antenna 460 by the transmitting processor 455 via the transmitter 456 and transmitted in the form of radio frequency signals.
- modulation schemes e.g., binary phase shift keying (BPSK), Quadrature Phase Shift Keying (QPSK) modulates the baseband signal (for the signal generated by the bit block), divides the sequence-generated signal or modulation symbol into parallel streams and maps each stream to the corresponding multi-carrier subcarrier and/ Or multi-carrier symbols are then mapped to the antenna
- the receivers 416 receive radio frequency signals through its corresponding antenna 420, and each receiver 416 recovers the baseband information modulated onto the radio frequency carrier, and provides the baseband information to the receiving processor 412.
- the receiving processor 412 implements various signal receiving and processing functions for the L1 layer (ie, the physical layer), including receiving and processing the physical layer signal of the first signal in this application (when the first signal in this application is uplink transmission) Time), the signal reception processing function includes acquiring a multi-carrier symbol stream, and then performing sequence decorrelation on the multi-carrier symbols in the multi-carrier symbol stream or based on various modulation schemes (for example, binary phase shift keying (BPSK), quadrature Phase shift keying (QPSK)) is demodulated, then decoded and de-interleaved to recover the data and/or control signals originally transmitted by the first node device 450 on the physical channel.
- BPSK binary phase shift keying
- QPSK quadrature Phase shift keying
- the data and/or control signals are then provided to the controller/processor 440.
- the controller/processor 440 implements the functions of the L2 layer, including reading the high-level information carried by the first signal in this application (when the first signal in this application is uplink transmission).
- the controller/processor may be associated with a buffer 430 that stores program codes and data.
- the buffer 430 may be a computer-readable medium.
- the first node device 450 includes: at least one processor and at least one memory, the at least one memory includes computer program code; the at least one memory and the computer program code are configured to The at least one processor is used together, the first node device 450 means at least: receiving first information and second information, the first information is used to determine the target carrier, and the second information is used to determine the first Indicates that the first indication is a positive integer; the first signaling is monitored in the first candidate resource set, and the frequency domain resources occupied by the first candidate resource set belong to the first carrier; when the first signaling When detected, operate the first signal; the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to determine the time-frequency resource occupied by the first signal; Wherein, the operation is sending, or the operation is receiving; the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one of the first candidate resource sets Candidate resource group; any one of the candidate resource groups in the first candidate resource set belongs to the
- the first node device 450 includes: a memory storing a computer-readable instruction program, the computer-readable instruction program generates an action when executed by at least one processor, and the action includes: receiving The first information and the second information, the first information is used to determine the target carrier, the second information is used to determine the first indication, and the first indication is a positive integer; monitoring in the first candidate resource set First signaling, the frequency domain resources occupied by the first candidate resource set belong to the first carrier; when the first signaling is detected, operate the first signal; the frequency occupied by the first signal Domain resources belong to the first carrier, and the first signaling is used to determine the time-frequency resources occupied by the first signal; wherein, the operation is sending, or the operation is receiving; the first The candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one candidate resource group in the first candidate resource set; any one candidate in the first candidate resource set The resource group belongs to the target resource pool; the target indication is a non-negative integer, and the target indication is used to
- the second node device 410 device includes: at least one processor and at least one memory, the at least one memory includes computer program code; the at least one memory and the computer program code are configured to Use at least one processor together.
- the second node device 410 means at least: sending first information and second information, the first information is used to indicate the target carrier, the second information is used to indicate the first indication, and the first indication is positive.
- the Integer send the first signaling in the first candidate resource set, the frequency domain resources occupied by the first candidate resource set belong to the first carrier; execute the first signal; the frequency domain occupied by the first signal The resource belongs to the first carrier, and the first signaling is used to indicate the time-frequency resource occupied by the first signal; wherein, the execution is reception, or the execution is transmission; the first backup
- the selected resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one candidate resource group in the first candidate resource set; any one candidate resource in the first candidate resource set
- the group belongs to the target resource pool; the target indication is a non-negative integer, and the target indication is used to determine the first candidate resource set from the target resource pool; whether the first carrier and the target carrier are the same It is used to determine whether the target indication is equal to the first indication.
- the second node device 410 includes: a memory storing a computer-readable instruction program, the computer-readable instruction program generates an action when executed by at least one processor, and the action includes: sending a first One information and second information, the first information is used to indicate the target carrier, the second information is used to indicate the first indication, the first indication is a positive integer; the first information is sent in the first candidate resource set In signaling, the frequency domain resource occupied by the first candidate resource set belongs to the first carrier; the first signal is executed; the frequency domain resource occupied by the first signal belongs to the first carrier, and the first The signaling is used to indicate the time-frequency resources occupied by the first signal; wherein the execution is reception or the execution is transmission; the first candidate resource set includes a positive integer number of candidate resource groups, The first signaling occupies one candidate resource group in the first candidate resource set; any candidate resource group in the first candidate resource set belongs to the target resource pool; the target indication is a non-negative Integer, the target indication is used to determine the first candidate resource set
- the first node device 450 is a user equipment (UE).
- UE user equipment
- the first node device 450 is a user equipment that supports multi-carrier transmission.
- the first node device 450 is a user equipment that supports secondary carrier cross-carrier scheduling of the primary carrier.
- the second node device 410 is a base station device (gNB/eNB).
- the second node device 410 is a base station device supporting multi-carrier transmission.
- the second node device 410 is a base station device that supports secondary carrier cross-carrier scheduling of the primary carrier.
- the receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 are used in this application to receive the first information.
- the receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 are used in this application to receive the second information.
- the receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 are used to monitor the first signaling in this application.
- the receiver 456 (including the antenna 460), the transmitter 456 (including the antenna 460), the transmitting processor 455 and the controller/processor 490 are used to manipulate the first signal in this application.
- the receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 are used in this application to receive the third information.
- the receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 are used in this application to receive the fourth information.
- the receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 are used to monitor the second signaling in this application.
- the transmitter 416 (including the antenna 420), the transmission processor 415, and the controller/processor 440 are used to transmit the first information in this application.
- the transmitter 416 (including the antenna 420), the transmission processor 415 and the controller/processor 440 are used to transmit the second information in this application.
- the transmitter 416 (including the antenna 420), the transmission processor 415, and the controller/processor 440 are used to send the first signaling in this application.
- the transmitter 416 (including the antenna 420), the receiver 416 (including the antenna 420), the receiving processor 412 and the controller/processor 440 are used to execute the first signal in this application.
- the transmitter 416 (including the antenna 420), the transmission processor 415, and the controller/processor 440 are used to transmit the third information in this application.
- the transmitter 416 (including the antenna 420), the transmission processor 415 and the controller/processor 440 are used to transmit the fourth information in this application.
- the transmitter 416 (including the antenna 420), the transmission processor 415, and the controller/processor 440 are used to send the second signaling in this application.
- Embodiment 5 illustrates a wireless signal transmission flowchart according to an embodiment of the present application, as shown in FIG. 5.
- the second node device N1 is a maintenance base station of the serving cell of the first node device U2. It is particularly noted that the sequence in this example does not limit the signal transmission sequence and implementation sequence in this application.
- a first transmission information in step S11, step S12 transmits the second information, third information transmitted in step S13, the fourth information transmitted in step S14, in step S15 in the first
- the first signaling is sent in the candidate resource set
- the second signaling is sent in the second candidate resource set in step S16
- the first signal is received in step S17.
- step S21 For the first node device U2, received in step S21 the first information, the second information received in step S22, the third information received in step S23, the information received in the fourth step S24, in step S25 in the first
- the first signaling is monitored in the candidate resource set, the second signaling is monitored in the second candidate resource set in step S26, and the first signal is sent in step S27.
- the first information is used to determine the target carrier, the second information is used to determine the first indication, and the first indication is a positive integer;
- the frequency domain resource belongs to the first carrier;
- the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to determine the time-frequency resource occupied by the first signal;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one candidate resource group in the first candidate resource set; any one of the first candidate resource set
- the candidate resource group belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the first candidate resource set from the target resource pool;
- the first carrier and the target Whether the carriers are the same is used to determine whether the target indication is equal to the first indication;
- the third information is used to determine that the first carrier is self-scheduled;
- the second candidate resource set is occupied
- the frequency domain resources belong to the first carrier, the second signaling is used to determine the time
- the second signaling occupies a candidate resource group in the second candidate resource set; any candidate resource group in the second candidate resource set belongs to the target resource pool;
- the second indication is used to determine the second candidate resource set from the target resource pool, and the second indication is equal to 0; the fourth information is used to determine the target resource pool and the first set of resources.
- the number of candidate resource groups included in the candidate resource set is used to determine the target resource pool and the first set of resources.
- the third information is transmitted through an air interface.
- the third information is transmitted through a wireless interface.
- the third information is transmitted through higher layer signaling.
- the third information is transmitted through physical layer signaling.
- the third information includes all or part of a high-level signaling.
- the third information includes all or part of a physical layer signaling.
- the third information includes all or part of an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- IE Information Element, information element
- RRC Radio Resource Control, radio resource control
- the third information includes all or part of fields in an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- IE Information Element, information element
- RRC Radio Resource Control, radio resource control
- the third information includes all or part of a MAC (Medium Access Control) layer signaling.
- MAC Medium Access Control
- the third information includes all or part of a system information block (SIB, System Information Block).
- SIB system information block
- the third information is transmitted through a DL-SCH (Downlink Shared Channel, downlink shared channel).
- DL-SCH Downlink Shared Channel, downlink shared channel
- the third information is transmitted through a PDSCH (Physical Downlink Shared Channel).
- PDSCH Physical Downlink Shared Channel
- the third information is cell specific (Cell Specific).
- the third information is UE-specific.
- the third information is carrier-specific (Carrier Specific).
- the third information is configured per carrier.
- the third information is specific to the serving cell (Serving Cell Specific).
- the third information is configured per serving cell (Per Serving Cell).
- the third information includes all or part of a field of DCI (Downlink Control Information) signaling.
- DCI Downlink Control Information
- the third information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig" in an RRC signaling.
- IE Information Element, information element
- the third information belongs to an IE (Information Element, information element) "ServingCellConfig" in one RRC signaling.
- IE Information Element, information element
- the third information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig" in an RRC signaling configuring a secondary cell (Secondary Cell, Scell).
- IE Information Element, information element
- the third information belongs to an IE (Information Element, information element) "ServingCellConfig" in an RRC signaling for configuring a secondary cell (Secondary Cell, Scell).
- IE Information Element, information element
- the third information belongs to the choice (CHOICE) "Own” in the IE (Information Element) "CrossCarrierSchedulingConfig" in one RRC signaling.
- the third information belongs to the choice (CHOICE) “Own” in the “Information Element” “CrossCarrierSchedulingConfig” in the RRC signaling of a secondary cell (Secondary Cell, Scell).
- the third information belongs to the selection (CHOICE) "Other” in the IE (Information Element) "CrossCarrierSchedulingConfig" in one RRC signaling.
- the third information belongs to an IE (Information Element, information element) "CrossCarrierSchedulingConfig” selection (CHOICE) "Other” in the RRC signaling of a secondary cell (Secondary Cell, Scell).
- IE Information Element, information element
- CrossCarrierSchedulingConfig selection
- the third information is used to indicate whether the first domain in this application is carried in the first signaling;
- the value of the first domain is equal to the target indication.
- the second information and the third information are carried through two different RRC signaling.
- the second information and the third information are carried through the same RRC signaling.
- the second information and the third information are carried by two different IEs in the same RRC signaling.
- the second information and the third information are carried by two different fields in the same IE in the same RRC signaling.
- the second information and the third information are carried by two different fields (Fields) in the same choice (CHOICE) in the same IE in the same RRC signaling.
- the first information and the third information are carried through two different signalings.
- the first information and the third information are carried through two different RRC signaling.
- the first information and the third information are for two different carriers.
- the first information and the third information are for two different serving cells (Serving Cell).
- the first information and the third information are carried by two independent IEs (Information Element).
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used by the first node device in this application It is determined that the first carrier is self-scheduling (Self-Scheduling).
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used to explicitly indicate that the first carrier is Self-Scheduling (Self-Scheduling).
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used to implicitly indicate that the first carrier is Self-Scheduling (Self-Scheduling).
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used to indirectly indicate that the first carrier is Self-Scheduling.
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used to explicitly indicate where the first carrier is located.
- the corresponding serving cell (Serving Cell) is self-scheduling (Self-Scheduling).
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meanings: the third information is used to indicate a second index, and the second index It belongs to a parameter in the first selection, the second index is equal to the index of the first carrier, and the first selection indicates that the first carrier is cross-carrier scheduled (Cross-Carrier Scheduling).
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meanings: the third information is used to indicate a second index, and the second index It belongs to the parameter in the first selection, the second index is equal to the index of the serving cell corresponding to the first carrier, and the first selection indicates that the first carrier is selected by the serving cell corresponding to the first carrier.
- the PDCCH in the outside serving cell is scheduled.
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used to indicate the second index, and the first carrier The corresponding serving cell is scheduled by the serving cell represented by the second index, and the second index is equal to the index of the serving cell corresponding to the first carrier.
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meaning: the third information is used to indicate the second index, and the first carrier
- the corresponding serving cell is cross-carrier scheduling (Cross-Carrier Scheduling) of the serving cell represented by the second index, and the second index is equal to the index of the serving cell corresponding to the first carrier.
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meanings: the third information is used to indicate a second index, and the second index Belongs to the parameter in the first selection, the first indication also belongs to the parameter in the first selection, the second index is equal to the index of the serving cell corresponding to the first carrier, and the first selection indication indicates The first carrier is scheduled by a PDCCH in a serving cell other than the serving cell corresponding to the first carrier.
- the above sentence "the third information is used to determine that the first carrier is self-scheduled” includes the following meanings: the third information is used to indicate a second index, and the second index It belongs to a parameter in the first selection, the first indication also belongs to a parameter in the first selection, and the first selection is a selection in an IE in an RRC signaling (CHOICE); the second index It is equal to the index of the serving cell corresponding to the first carrier, and the first selection indicates that the first carrier is scheduled by a PDCCH in a serving cell other than the serving cell corresponding to the first carrier.
- the third information is used to indicate a second index
- the second index It belongs to a parameter in the first selection
- the first indication also belongs to a parameter in the first selection
- the first selection is a selection in an IE in an RRC signaling (CHOICE)
- the second index It is equal to the index of the serving cell corresponding to the first carrier
- the first selection indicates that the first carrier is scheduled by a PDCCH in a serving
- Embodiment 6 illustrates a wireless signal transmission flowchart according to another embodiment of the present application, as shown in FIG. 6.
- the second node device N3 is a maintenance base station of the serving cell of the first node device U4. It is particularly noted that the sequence in this example does not limit the signal transmission sequence and implementation sequence in this application.
- step S31 transmits the first information
- second information transmitting step S32 transmits the third information
- fourth information transmitted in step S34 in step S35 in the first
- the first signaling is sent in the candidate resource set
- the second signaling is sent in the second candidate resource set in step S36
- the first signal is sent in step S37.
- the first information For the first node device U4, received at step S41, the first information, the second information received in step S42, receives the third information in step S43, the fourth information received in step S44, in step S45 in the first
- the first signaling is monitored in the candidate resource set
- the second signaling is monitored in the second candidate resource set in step S46
- the first signal is received in step S47.
- the first information is used to determine the target carrier, the second information is used to determine the first indication, and the first indication is a positive integer;
- the frequency domain resource belongs to the first carrier;
- the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to determine the time-frequency resource occupied by the first signal;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one candidate resource group in the first candidate resource set; any one of the first candidate resource set
- the candidate resource group belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the first candidate resource set from the target resource pool;
- the first carrier and the target Whether the carriers are the same is used to determine whether the target indication is equal to the first indication;
- the third information is used to determine that the first carrier is self-scheduled;
- the second candidate resource set is occupied
- the frequency domain resources belong to the first carrier, the second signaling is used to determine the time
- the second signaling occupies a candidate resource group in the second candidate resource set; any candidate resource group in the second candidate resource set belongs to the target resource pool;
- the second indication is used to determine the second candidate resource set from the target resource pool, and the second indication is equal to 0; the fourth information is used to determine the target resource pool and the first set of resources.
- the number of candidate resource groups included in the candidate resource set is used to determine the target resource pool and the first set of resources.
- the fourth information is transmitted through an air interface.
- the fourth information is transmitted through a wireless interface.
- the fourth information is transmitted through higher layer signaling.
- the fourth information is transmitted through physical layer signaling.
- the fourth information includes all or part of a high-level signaling.
- the fourth information includes all or part of a physical layer signaling.
- the fourth information includes all or part of an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- IE Information Element, information element
- RRC Radio Resource Control, radio resource control
- the fourth information includes all or part of a field (Field) in an IE (Information Element, information element) in an RRC (Radio Resource Control, radio resource control) signaling.
- Field Information Element, information element
- RRC Radio Resource Control, radio resource control
- the fourth information includes all or part of a MAC (Medium Access Control) layer signaling.
- MAC Medium Access Control
- the fourth information includes all or part of a system information block (SIB, System Information Block).
- SIB system information block
- the fourth information is transmitted through a DL-SCH (Downlink Shared Channel, downlink shared channel).
- DL-SCH Downlink Shared Channel, downlink shared channel
- the fourth information is transmitted through a PDSCH (Physical Downlink Shared Channel).
- PDSCH Physical Downlink Shared Channel
- the fourth information is cell specific (Cell Specific).
- the fourth information is UE-specific.
- the fourth information is carrier specific (Carrier Specific).
- the fourth information is specific to the BWP (Carrier Specific).
- the fourth information is configured per carrier.
- the fourth information is specific to the serving cell (Serving Cell Specific).
- the fourth information is configured per serving cell (Per Serving Cell).
- the fourth information includes all or part of a field of DCI (Downlink Control Information) signaling.
- DCI Downlink Control Information
- the fourth information belongs to an IE (Information Element, information element) "SearchSpace" in an RRC signaling.
- the fourth information belongs to an IE (Information Element, information element) "PDCCH-Config" in an RRC signaling.
- IE Information Element, information element
- the fourth information includes configuration information of a search space set (Search Space Set).
- the above sentence "the fourth information is used to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set” includes the following meaning: the fourth information Used by the first node device in this application to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set.
- the fourth information is used to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set
- the fourth information is used to explicitly indicate the number of candidate resource groups included in the target resource pool and the first candidate resource set.
- the fourth information is used to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set
- the fourth information is used to implicitly indicate the number of candidate resource groups included in the target resource pool and the first candidate resource set.
- the fourth information is used to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set
- the fourth information is used to indirectly indicate the number of candidate resource groups included in the target resource pool and the first candidate resource set.
- the fourth information is used to determine the number of candidate resource groups included in the target resource pool and the first candidate resource set
- the fourth information It is used to indicate the search space set to which the first signaling belongs
- the search space set to which the first signaling belongs includes the parameters of the target resource pool and the equipment included in the first candidate resource set. Select the parameter of the number of resource groups.
- Embodiment 7 illustrates a wireless signal transmission flowchart according to another embodiment of the present application, as shown in FIG. 7.
- the second node device N5 is a maintenance base station of the serving cell of the first node device U6. It is particularly noted that the sequence in this example does not limit the signal transmission sequence and implementation sequence in this application.
- the second node device N5 receives a seventh message in step S51, the information transmitted in the sixth step S52, in step S53 sends the first information, the second information transmitted in step S54, in step S55 sends a fifth Information, the fourth information is sent in step S56, the first signaling is sent in the first candidate resource set in step S57, the second signaling is sent in the second candidate resource set in step S58, and in step S59 Send the first signal in.
- step S61 transmits seventh information, the sixth information received in step S62, the first information received in step S63, the second information received in step S64, the fifth received in step S65 Information, the fourth information is received in step S66, the first signaling is monitored in the first candidate resource set in step S67, the second signaling is monitored in the second candidate resource set in step S68, and in step S69 Receive the first signal.
- the first information is used to determine the target carrier, the second information is used to determine the first indication, the first indication is a positive integer; the first candidate resource set is occupied The frequency domain resource belongs to the first carrier; the frequency domain resource occupied by the first signal belongs to the first carrier, and the first signaling is used to determine the time-frequency resource occupied by the first signal;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one candidate resource group in the first candidate resource set; any one of the first candidate resource set The candidate resource group belongs to the target resource pool; the target indication is a non-negative integer, and the target indication is used to determine the first candidate resource set from the target resource pool; the first carrier and the target Whether the carrier is the same is used to determine whether the target indication is equal to the first indication; when the first carrier and the target carrier are the same, the target indication is equal to the first indication, and the first signaling Carrying the first field, the value of the first field is equal to the target indication; when the first carrier and the
- the first receiver in this application receives fifth information; wherein, when the first carrier and the target carrier are not the same, the fifth information is used to indicate the first Whether the first domain is carried in the signaling; when the first domain is carried in the first signaling, the value of the first domain is equal to the target indication.
- the fifth information and the third information in this application correspond to two different choices in the same IE in the same RRC signaling.
- the fifth information and the third information in this application do not appear in the same IE in the same RRC signaling at the same time.
- the first receiver in this application receives sixth information; where the sixth information is used to indicate that the second carrier can be cross-carrier scheduled (Cross Carrier Scheduling).
- the first processor in this application sends seventh information; wherein, the seventh information is used to indicate that the first node device supports the second carrier to be cross-carrier scheduled (Cross Carrier Scheduling). Scheduling).
- Embodiment 8 illustrates a schematic diagram of the relationship between the first carrier and the target carrier according to an embodiment of the present application, as shown in FIG. 8.
- the rectangle filled with cross lines represents the first signaling
- the rectangle filled with diagonal lines represents the first domain; in case A, the first carrier and the target carrier are the same; in case B, the first carrier and the target carrier are the same
- the carrier is not the same.
- the target indication is equal to the first indication
- the first signaling carries a first field
- the value of the first field is Equal to the target indication
- the target indication is equal to a predefined non-negative integer other than the first indication.
- the first field is a carrier indicator field (CIF, Carrier Indicator Field).
- CIF Carrier Indicator Field
- the first field is a carrier indicator field (CIF, Carrier Indicator Field) in the first signaling.
- CIF Carrier Indicator Field
- the first field is a field in DCI (Downlink Control Information).
- DCI Downlink Control Information
- the first field is a field in a DCI (Downlink Control Information) payload (Payload).
- DCI Downlink Control Information
- Payload Payload
- the first field is a field in a DCI (Downlink Control Information) of a given DCI format (Format).
- DCI Downlink Control Information
- Form DCI format
- the first domain is not carried in the first signaling.
- the first signaling carries the first domain.
- the first signaling carries the first field, and the value of the first field is equal to the target indication.
- the value (Value) of the first field is an integer represented by the first field.
- the value of the first field is an integer represented by a bit in the first field.
- the value of the first field is an integer obtained by converting bits in the first field into a decimal system.
- the predefined non-negative integer is equal to zero.
- the predefined non-negative integer is greater than zero.
- the predefined non-negative integer is a fixed value in the protocol.
- the predefined non-negative integer is a value greater than 7 fixed in the protocol.
- the predefined non-negative integer is a value greater than 31 fixed in the protocol.
- the predefined non-negative integer is variable.
- the predefined non-negative integer is fixed.
- Embodiment 9 illustrates a schematic diagram of the second information according to an embodiment of the present application, as shown in FIG. 9.
- the thick-lined rectangle represents a signaling to which the first information and the second information belong together, and this signaling also carries an indication that the primary carrier is scheduled across carriers; in case B, the bold The wire frame represents a signaling for the first carrier to which the second information belongs.
- This signaling also carries an indication that the first carrier is scheduled across carriers (may be the third information in this application), and at the same time indicates that the first carrier is scheduled for cross-carrier scheduling.
- the carrier of the carrier is the first carrier.
- the second information in this application and the first information in this application are carried in two different fields in the same signaling, or the second information The signaling of the first carrier is carried.
- the above sentence "the second information and the first information are carried by two different fields in the same signaling” includes the following meaning: the second information and the first information are carried by the same signal. Two different fields (Fields) in the same IE (Information Element) in one signaling are carried.
- the above sentence "the second information and the first information are carried by two different fields in the same signaling” includes the following meaning: the second information and the first information are carried by the same signal.
- a piece of signaling is carried by two fields (Fields) in two different IEs (Information Elements).
- the second information and the first information when “the second information and the first information are carried in two different fields in the same signaling", the second information and the first information belong to the same RRC
- the IE “CrossCarrierSchedulingConfig” in the signaling the second information is carried by the field “cif-InSchedulingCell” in the IE “CrossCarrierSchedulingConfig”
- the first information is carried by the field “schedulingCellId” in the IE “CrossCarrierSchedulingConfig” "carry.
- the second information and the first information when “the second information and the first information are carried in two different fields in the same signaling", the second information and the first information belong to the same RRC
- the IE “CrossCarrierSchedulingConfig” in the signaling the second information is carried by the field “cif-OfSchedulingCell” in the IE “CrossCarrierSchedulingConfig”
- the first information is carried by the field “schedulingCellId” in the IE “CrossCarrierSchedulingConfig” "carry.
- the above sentence "the second information is carried by signaling for the first carrier” includes the following meaning: the IE to which the second information belongs and the index of the first carrier belong to the same IE.
- the above sentence "the second information is carried by signaling for the first carrier” includes the following meaning: the second information and the index of the first carrier belong to the same IE.
- the above sentence "the second information is carried by signaling for the first carrier” includes the following meaning: the IE to which the second information belongs and the index of the serving cell corresponding to the first carrier Belongs to the same IE.
- the above sentence "the second information is carried by signaling for the first carrier” includes the following meaning: the second information belongs to an IE in the configuration signaling for the first carrier.
- the above sentence "the second information is carried by signaling for the first carrier” includes the following meaning: the second information belongs to the field "sCellConfigDedicated” in the IE “SCellConfig”, and the first The index of the serving cell corresponding to the carrier also belongs to the IE "SCellConfig".
- the above sentence “the second information is carried by signaling for the first carrier” includes the following meaning: the second information is information unique to the first carrier.
- Embodiment 10 illustrates a schematic diagram of the relationship between the target carrier and the second carrier according to an embodiment of the present application, as shown in FIG. 10.
- the rectangle filled with crossed lines represents the first information
- the rectangle filled with diagonal lines represents a scheduling signaling on the target carrier.
- the frequency domain resource occupied by the signal carrying the first information in this application belongs to the second carrier, and the first information is used to determine the first index, and the first index is The index of the target carrier in, the target carrier schedules the second carrier across carriers.
- the second carrier is a primary carrier (PCC, Primary Component Carrier).
- PCC Primary Component Carrier
- the second carrier is a carrier occupied by a primary cell (Pcell, Primary Cell).
- Pcell Primary Cell
- the second carrier corresponds to a serving cell (Serving Cell).
- the second carrier is a component carrier (Component Carrier) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- CA Carrier Aggregation
- the second carrier is a primary carrier that supports cross-carrier scheduling.
- the serving cell corresponding to the second carrier is a primary cell (Pcell) that supports cross-carrier scheduling.
- Pcell primary cell
- the second carrier is a component carrier (Component Carrier) in MCG (Master Cell Group) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- MCG Master Cell Group
- CA Carrier Aggregation
- the second carrier is a component carrier (Component Carrier) in SCG (Secondary Cell Group, secondary cell group) in Carrier Aggregation (CA).
- Component Carrier Component Carrier
- SCG Secondary Cell Group, secondary cell group
- CA Carrier Aggregation
- the second carrier corresponds to a primary cell (Pcell) in MCG (Master Cell Group).
- the second carrier corresponds to a primary cell (PSCell) in an SCG (Secondary Cell Group, secondary cell group).
- PSCell Primary Cell
- SCG Secondary Cell Group, secondary cell group
- the second carrier is identified by a serving cell index (Serving Cell Index).
- serving Cell Index Serving Cell Index
- the first information is sent on the second carrier.
- the above sentence "the first information is used to determine the first index” includes the following meaning: the first information is used by the first node device in this application to determine the first index.
- the above sentence "the first information is used to determine the first index” includes the following meaning: the first information is used to explicitly indicate the first index.
- the above sentence "the first information is used to determine the first index” includes the following meaning: the first information is used to implicitly indicate the first index.
- the above sentence "the first information is used to determine the first index” includes the following meaning: the first information is used to indirectly indicate the first index.
- the first information is used to determine that the target carrier is different from the second carrier.
- the first information is used to determine that the second carrier is scheduled across carriers.
- the first information is used to determine that the second carrier is not self-scheduling (Self-Scheduling).
- the above sentence "the first index is the index of the target carrier” includes the following meaning: the first index is the index of the serving cell (Serving Cell) corresponding to the target carrier.
- the above sentence "the first index is the index of the target carrier” includes the following meaning: the first index is used to identify the target carrier.
- the above sentence "the first index is the index of the target carrier” includes the following meaning: the first index is used to identify the serving cell (Serving Cell) corresponding to the target carrier.
- the target carrier and the second carrier are different.
- the index of the target carrier is different from the index of the second carrier.
- the index of the serving cell corresponding to the target carrier is different from the index of the serving cell corresponding to the second carrier.
- the above sentence “the target carrier schedules the second carrier across carriers” includes the following meaning: the target carrier and the second carrier are not the same, and the target carrier schedules the second carrier.
- the above sentence “the target carrier cross-carrier schedules the second carrier” includes the following meaning: the target carrier and the second carrier are not the same, and the second carrier is scheduled by the target carrier.
- the above sentence “the target carrier cross-carrier scheduling the second carrier” includes the following meaning: the target carrier and the second carrier are not the same, and the PDCCH transmitted on the target carrier is scheduled at all The signal transmitted on the second carrier.
- Embodiment 11 illustrates a schematic diagram of the relationship between the second candidate resource set and the first candidate resource set according to an embodiment of the present application, as shown in FIG. 11.
- the thick-lined rectangle represents the target resource pool
- each rectangle filled with diagonal lines represents a candidate resource group included in the second candidate resource set
- each rectangle filled with cross lines represents the first candidate.
- the frequency domain resources occupied by the second candidate resource set in this application belong to the first carrier in this application, and the second signaling in this application is used to determine
- the second candidate resource set includes a positive integer number of candidate resource groups, and the second signaling occupies the second candidate A candidate resource group in the resource set; any candidate resource group in the second candidate resource set belongs to the target resource pool; the second indication is used from the target resource pool in this application
- the second candidate resource set is determined, and the second indication is equal to 0.
- the second candidate resource set includes time-frequency resources.
- the second candidate resource set includes only one candidate resource group.
- the second candidate resource set includes more than one candidate resource group.
- any two candidate resource groups included in the second candidate resource set are orthogonal in the time-frequency domain ( Orthogonal).
- any two candidate resource groups included in the second candidate resource set do not overlap in the time-frequency domain ( Non-overlapped).
- the second candidate resource set includes more than one candidate resource group
- the second candidate resource set includes more than one candidate resource group
- the number of time-frequency resources included in any two candidate resource groups in the second candidate resource set is equal .
- resource units included in any two candidate resource groups in the second candidate resource set
- the number of Element is equal.
- any two candidate resource groups in the second candidate resource set correspond to the same aggregation level (AL, Aggregation Level).
- any one of the candidate resource groups included in the second candidate resource set includes time-frequency resources.
- any one candidate resource group in the second candidate resource set includes a positive integer number of resource elements (RE, Resource Element).
- any one candidate resource group in the second candidate resource set is a time-frequency resource occupied by a physical downlink control channel (PDCCH, Physical Downlink Control Channel) candidate (Candidate).
- PDCCH Physical Downlink Control Channel
- any one candidate resource group in the second candidate resource set is a physical downlink control channel (PDCCH, Physical Downlink Control Channel) candidate (Candidate Channel) corresponding to an aggregation level (Aggregation Level, AL). ) Time-frequency resources occupied.
- PDCCH Physical Downlink Control Channel
- Candidate Channel corresponding to an aggregation level (Aggregation Level, AL).
- AL aggregation Level
- any one of the candidate resource groups in the second candidate resource set corresponds to one aggregation level (Aggregation Level, AL) and one downlink control information (DCI, Downlink Control Information) format (Format)
- AL aggregation Level
- DCI Downlink Control Information
- Form The time-frequency resource occupied by the candidate (Candidate) of the Physical Downlink Control Channel (PDCCH, Physical Downlink Control Channel).
- any one of the candidate resource groups in the second candidate resource set corresponds to an aggregation level (Aggregation Level, AL) and a downlink control information (DCI, Downlink Control Information) payload size (Payload Size) Time-frequency resources occupied by a candidate (Candidate) of a physical downlink control channel (PDCCH, Physical Downlink Control Channel).
- AL aggregation Level
- DCI Downlink Control Information
- Payload Size Payload size
- any one of the candidate resource groups in the second candidate resource set is in a search space set (Search Space Set) and an associated control resource set (CORESET, Control Resource Set), corresponding to A physical downlink control channel (PDCCH, Physical Downlink Control Channel) candidate (Candidate) occupied by an aggregation level (Aggregation Level, AL) and a downlink control information (DCI, Downlink Control Information) payload size (Payload Size) Frequency resources.
- PDCCH Physical Downlink Control Channel
- AL aggregation Level
- DCI Downlink Control Information
- Payload Size Frequency resources.
- any one candidate resource group in the second candidate resource set includes a positive integer number of control channel elements (CCE, Control Channel Element).
- CCE Control Channel Element
- any one of the candidate resource groups in the second candidate resource set includes a positive integer number of control channel elements (CCE, Control Channel Element) with consecutive indexes.
- CCE Control Channel Element
- any one of the candidate resource groups in the second candidate resource set includes a resource element group (REG, Resource Element Group) that is a positive integer multiple of 6.
- REG Resource Element Group
- any one of the candidate resource groups in the second candidate resource set includes an interleaved (Interleaved) resource element group (REG, Resource Element Group) that is a positive integer multiple of 6.
- Interleaved Interleaved resource element group
- REG Resource Element Group
- any one of the candidate resource groups in the second candidate resource set includes a non-interleaved (Non-Interleaved) resource element group (REG, Resource Element Group) that is a positive integer multiple of 6.
- REG Non-Interleaved resource element group
- any one of the candidate resource groups included in the second candidate resource set includes resources that are continuous in the frequency domain.
- any one of the candidate resource groups included in the second candidate resource set includes frequency-domain discrete resources.
- any one of the candidate resource groups included in the second candidate resource set includes resources that are continuous in the time domain.
- any one of the candidate resource groups included in the second candidate resource set includes resources that are discrete in the time domain.
- all candidate resource groups included in the second candidate resource set belong to the same control resource set (CORESET).
- all candidate resource groups included in the second candidate resource set belong to the same search space set (Search Space Set).
- each candidate resource group included in the second candidate resource set is a candidate (Candidate) of the time-frequency resource occupied by the second signaling.
- each candidate resource group included in the second candidate resource set includes time-frequency resources that may be occupied by the second signaling.
- the number of REs included in any one candidate resource group in the first candidate resource set and the number of REs included in any one candidate resource group in the second candidate resource set equal.
- the number of REs included in a candidate resource group in the first candidate resource set is different from the number of REs included in a candidate resource group in the second candidate resource set. equal.
- the aggregation level (AL) corresponding to any one candidate resource group in the first candidate resource set and the aggregation corresponding to any one candidate resource group in the second candidate resource set The rank (AL) is equal.
- aggregation level (AL) corresponding to one candidate resource group in the first candidate resource set and an aggregation level (AL) corresponding to one candidate resource group in the second candidate resource set.
- AL aggregation level
- the monitoring of the second signaling is implemented by decoding (Decoding) the second signaling.
- the monitoring of the second signaling is implemented by blind decoding (Blind Decoding) of the second signaling.
- the monitoring of the second signaling is implemented by decoding and CRC checking the second signaling.
- the monitoring of the second signaling is implemented by decoding the second signaling and a CRC check that is scrambled by the identifier of the first node device.
- the monitoring of the second signaling is implemented by decoding (Decoding) the second signaling based on the format of the second signaling.
- the second signaling is transmitted through an air interface.
- the second signaling is transmitted through a wireless interface.
- the second signaling is transmitted through a Uu interface.
- the second signaling is physical layer signaling.
- the second signaling is transmitted through PDCCH (Physical Downlink Control Channel, Physical Downlink Control Channel).
- PDCCH Physical Downlink Control Channel, Physical Downlink Control Channel
- the second signaling includes all or part of fields in DCI (Downlink Control Information).
- DCI Downlink Control Information
- the second signaling includes all or part of the DCI in a given DCI (Downlink Control Information) format (Format).
- DCI Downlink Control Information
- Form Downlink Control Information
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is used by the The first node device is used to determine the time-frequency resource occupied by the signal transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is used to explicitly To indicate the time-frequency resources occupied by the signal transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is used for implicit To indicate the time-frequency resources occupied by the signal transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is used indirectly Indicates the time-frequency resource occupied by the signal transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is a Scheduling signaling for signals transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is to schedule an in-place The PDCCH of the signal transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is to schedule an in-place The PDCCH of the PDSCH transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is to schedule an in-place PDCCH of the PUSCH transmitted on the second carrier.
- the above sentence "the second signaling is used to determine the time-frequency resources occupied by the signal transmitted on the second carrier” includes the following meaning: the second signaling is cross-carrier scheduling ( Cross-Carrier Schedule) A PDCCH of a signal transmitted on the second carrier.
- the second signaling is PDCCH for cross-carrier scheduling of a primary cell (Pcell).
- the second signaling is also used to indicate a modulation and coding scheme (MCS) of a signal transmitted on the second carrier.
- MCS modulation and coding scheme
- the second signaling is also used to indicate a redundancy version (RV) of a signal transmitted on the second carrier.
- RV redundancy version
- the second signaling is also used to indicate a HARQ process (Process) to which a signal transmitted on the second carrier belongs.
- the second indication is equal to a carrier indicator field (CIF, Carrier Indicator Field) value.
- CIF Carrier Indicator Field
- the second indication is equal to the value of a carrier indicator field (CIF, Carrier Indicator Field) in a PDCCH (Physical Downlink Control Channel).
- CIF Carrier Indicator Field
- the value of the carrier indicator field (CIF, Carrier Indicator Field) in the second signaling is equal to the first Two instructions.
- the second signaling carries a carrier indicator field (CIF, Carrier Indicator Field).
- CIF Carrier Indicator Field
- the second signaling does not carry a carrier indicator field (CIF, Carrier Indicator Field).
- CIF Carrier Indicator Field
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used by the first node in this application The device is used to determine the second candidate resource set from the target resource pool.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to determine the second candidate resource set from the target resource pool according to an operation rule. The second candidate resource set is determined in the resource pool.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to determine the second candidate resource set from the target resource pool according to the mapping relationship. The second candidate resource set is determined in the resource pool.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to obtain information from the target resource pool. The position of each candidate resource group included in the first candidate resource set in the time-frequency domain is determined.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to obtain information from the target resource pool. Determine the time-frequency domain position of each candidate resource group included in the second candidate resource set in the target resource pool.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to obtain information from the target resource pool. Determine the distribution of each candidate resource group included in the second candidate resource set in the target resource pool.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to obtain information from the target resource pool. The index of the CCE included in each candidate resource group included in the second candidate resource set is determined.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: the second indication is used to obtain information from the target resource pool. The index of the CCE included in each candidate resource group included in the first candidate resource set in the target resource pool is determined.
- the above sentence "the second indication is used to determine the second candidate resource set from the target resource pool” includes the following meaning: a candidate resource included in the second candidate resource set Group
- the index of the included CCE of aggregation level L 2 is obtained by the following formula:
- s represents the target resource pool
- the target resource pool is associated with the control resource set (CORESET) p
- CORESET Control resource set
- n 2 CI represents the second indication
- i 0,...,L 2 -1
- p represents the number of CCEs in the control resource set (CORESET) p
- the CCE in the control resource set (CORESET) p is indexed from 0 to N CCE, p -1
- Embodiment 12 illustrates a structural block diagram of the processing device in the first node device of an embodiment, as shown in FIG. 12.
- the first node device processing apparatus 1200 includes a first receiver 1201, a second receiver 1202, and a first processor 1203.
- the first receiver 1201 includes the transmitter/receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490 in Figure 4 of the present application;
- the second receiver 1202 includes the transmitter/receiver 490 in Figure 4 of the present application.
- the transmitter/receiver 456 (including the antenna 460), the receiving processor 452 and the controller/processor 490; the first processor 1203 includes the transmitter/receiver 456 (including the antenna 460) in Figure 4 of the present application, and transmitting
- the processor 455 receives the processor 452 and the controller/processor 490.
- the first receiver 1201 receives first information and second information, the first information is used to determine the target carrier, the second information is used to determine the first indication, and the first indication Is a positive integer; the second receiver 1202 monitors the first signaling in the first candidate resource set, and the frequency domain resources occupied by the first candidate resource set belong to the first carrier; the first processor 1203 acts as the first carrier When a signaling is detected, operate the first signal; the frequency domain resources occupied by the first signal belong to the first carrier, and the first signaling is used to determine the time occupied by the first signal Frequency resources; wherein the operation is sending or the operation is receiving; the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies the first candidate resource set Any one of the candidate resource groups in the first candidate resource set belongs to the target resource pool; the target indication is a non-negative integer, and the target indication is used to download from the target resource pool
- the first candidate resource set is determined in, and whether the first carrier and the target carrier are the same
- the target indication is equal to the first indication
- the first signaling carries a first field
- the value of the first field is equal to The target indication
- the target indication is equal to a predefined non-negative integer other than the first indication.
- the first receiver 1201 receives third information; wherein the third information is used to determine that the first carrier is self-scheduled.
- the second information and the first information are carried by two different fields in the same signaling, or the second information is carried by signaling for the first carrier.
- the frequency domain resource occupied by the signal carrying the first information belongs to the second carrier
- the first information is used to determine the first index
- the first index is the index of the target carrier
- the target carrier schedules the second carrier across carriers.
- the second receiver 1202 monitors the second signaling in the second candidate resource set; wherein, the signal carrying the first information is occupied
- the frequency domain resource of belongs to a second carrier, the first information is used to determine a first index, the first index is the index of the target carrier, and the target carrier schedules the second carrier across carriers;
- the frequency domain resources occupied by the second candidate resource set belong to the first carrier, the second signaling is used to determine the time-frequency resources occupied by signals transmitted on the second carrier, and the second
- the candidate resource set includes a positive integer number of candidate resource groups, and the second signaling occupies one candidate resource group in the second candidate resource set; any one candidate in the second candidate resource set
- the resource group belongs to the target resource pool; a second indication is used to determine the second candidate resource set from the target resource pool, and the second indication is equal to zero.
- the first receiver 1201 receives fourth information; wherein the fourth information is used to determine the target resource pool and the number of candidate resource groups included in the first candidate resource set.
- Embodiment 13 illustrates a structural block diagram of a processing device in a second node device of an embodiment, as shown in FIG. 13.
- the second node device processing apparatus 1300 includes a first transmitter 1301, a second transmitter 1302, and a second processor 1303.
- the first transmitter 1301 includes the transmitter/receiver 416 (including the antenna 460), the transmission processor 415 and the controller/processor 440 in Figure 4 of the present application;
- the second transmitter 1302 includes the transmitter/receiver 416 in Figure 4 of the present application The transmitter/receiver 416 (including the antenna 460), the transmitting processor 415 and the controller/processor 440;
- the second processor 1303 includes the transmitter/receiver 416 (including the antenna 460) in Figure 4 of the present application, and receiving The processor 412, the transmitting processor 415 and the controller/processor 440.
- the first transmitter 1301 sends the first information and the second information, the first information is used to indicate the target carrier, the second information is used to indicate the first indication, and the first indication Is a positive integer;
- the second transmitter 1302 sends the first signaling in the first candidate resource set, and the frequency domain resource occupied by the first candidate resource set belongs to the first carrier;
- the second processor 1303 executes the first signal The frequency domain resources occupied by the first signal belong to the first carrier, and the first signaling is used to indicate the time-frequency resources occupied by the first signal; wherein, the execution is receiving, or The execution is sending;
- the first candidate resource set includes a positive integer number of candidate resource groups, and the first signaling occupies one candidate resource group in the first candidate resource set;
- the first Any candidate resource group in the candidate resource set belongs to the target resource pool;
- the target indication is a non-negative integer, and the target indication is used to determine the first candidate resource set from the target resource pool; so Whether the first carrier and the target carrier are the same is used to
- the above sentence “the execution is receiving, or the execution is sending” includes the following meaning: the execution is one of sending and receiving.
- the above sentence “the execution is reception, or the execution is transmission” includes the following meaning: the execution is transmission.
- the above sentence “the execution is reception, or the execution is transmission” includes the following meaning: the execution is reception.
- the above sentence "the execution is reception, or the execution is transmission” includes the following meanings: when the execution is reception, the first signal is an uplink signal; when the execution is transmission, The first signal is a downlink signal.
- the above sentence "the execution is reception, or the execution is transmission” includes the following meanings: when the execution is reception, the first signal is transmitted via an uplink signal; when the execution is transmission , The first signal is transmitted through a downlink channel.
- the execution when the operation in this application is receiving, the execution is sending; when the operation in this application is sending, the execution is receiving.
- the target indication is equal to the first indication
- the first signaling carries a first field
- the value of the first field is equal to The target indication
- the target indication is equal to a predefined non-negative integer other than the first indication.
- the first transmitter 1301 sends third information; wherein, the third information is used to indicate that the first carrier is self-scheduled.
- the second information and the first information are carried by two different fields in the same signaling, or the second information is carried by signaling for the first carrier.
- the frequency domain resource occupied by the signal carrying the first information belongs to the second carrier
- the first information is used to indicate a first index
- the first index is the index of the target carrier
- the target carrier schedules the second carrier across carriers.
- the second transmitter 1302 sends second signaling in a second candidate resource set; wherein, the signal carrying the first information
- the frequency domain resource of belongs to a second carrier
- the first information is used to indicate a first index
- the first index is the index of the target carrier
- the target carrier schedules the second carrier across carriers
- the The frequency domain resources occupied by the second candidate resource set belong to the first carrier
- the second signaling is used to indicate the time-frequency resources occupied by signals transmitted on the second carrier
- the second The candidate resource set includes a positive integer number of candidate resource groups, and the second signaling occupies one candidate resource group in the second candidate resource set; any one candidate in the second candidate resource set
- the resource group belongs to the target resource pool; a second indication is used to determine the second candidate resource set from the target resource pool, and the second indication is equal to zero.
- the first transmitter 1301 sends fourth information; where the fourth information is used to indicate the target resource pool and the number of candidate resource groups included in the first candidate resource set.
- the first node device or second node device or UE or terminal in this application includes, but is not limited to, mobile phones, tablets, notebooks, network cards, low-power devices, eMTC devices, NB-IoT devices, in-vehicle communication devices, aircraft, Airplanes, drones, remote control aircraft and other wireless communication equipment.
- the base station equipment or base station or network side equipment in this application includes but is not limited to macro cell base station, micro cell base station, home base station, relay base station, eNB, gNB, transmission and receiving node TRP, relay satellite, satellite base station, aerial base station, etc. Wireless communication equipment.
Abstract
Description
Claims (48)
- 一种用于无线通信中的第一节点设备,其特征在于,包括:第一接收机,接收第一信息和第二信息,所述第一信息被用于确定目标载波,所述第二信息被用于确定第一指示,所述第一指示是正整数;第二接收机,在第一备选资源集合中监测第一信令,所述第一备选资源集合所占用的频域资源属于第一载波;第一处理机,当所述第一信令被检测到时,操作第一信号;所述第一信号所占用的频域资源属于所述第一载波,所述第一信令被用于确定所述第一信号所占用的时频资源;其中,所述操作是发送,或者所述操作是接收;所述第一备选资源集合包括正整数个备选资源组,所述第一信令占用所述第一备选资源集合中的一个备选资源组;所述第一备选资源集合中的任意一个备选资源组属于目标资源池;目标指示是一个非负整数,所述目标指示被用于从所述目标资源池中确定所述第一备选资源集合;所述第一载波和所述目标载波是否相同被用于确定所述目标指示是否等于所述第一指示。
- 根据权利要求1中所述的第一节点设备,其特征在于,当所述第一载波和所述目标载波相同时,所述目标指示等于所述第一指示,所述第一信令中携带第一域,所述第一域的值等于所述目标指示;当所述第一载波和所述目标载波不相同时,所述目标指示等于所述第一指示之外的一个预定义的非负整数。
- 根据权利要求1或2中任一权利要求所述的第一节点设备,其特征在于,所述第一接收机接收第三信息;其中,所述第三信息被用于确定所述第一载波是被自调度的。
- 根据权利要求3所述的第一节点设备,其特征在于,所述第三信息被用于指示第二索引,所述第二索引属于第一选择中的参数,所述第一指示也属于所述第一选择中的参数,所述第一选择是一个RRC信令中的一个IE中的选择(CHOICE);所述第二索引等于所述第一载波所对应的服务小区的索引,所述第一选择指示所述第一载波被所述第一载波所对应的服务小区之外的服务小区中的PDCCH调度。
- 根据权利要求1至4中任一权利要求所述的第一节点设备,其特征在于,所述第二信息和所述第一信息通过同一个信令中的两个不同的域携带,或者所述第二信息通过针对所述第一载波的信令携带。
- 根据权利要求1至5中任一权利要求所述的第一节点设备,其特征在于,携带所述第一信息的信号所占用的频域资源属于第二载波,所述第一信息被用于确定第一索引,所述第一索引是所述目标载波的索引,所述目标载波跨载波调度所述第二载波。
- 根据权利要求6所述的第一节点设备,其特征在于,当所述第一载波和所述目标载波相同时,所述第二接收机在第二备选资源集合中监测第二信令;其中,所述第二备选资源集合所占用的频域资源属于所述第一载波,所述第二信令被用于确定在所述第二载波上传输的信号所占用的时频资源,所述第二备选资源集合包括正整数个备选资源组,所述第二信令占用所述第二备选资源集合中的一个备选资源组;所述第二备选资源集合中的任意一个备选资源组属于所述目标资源池;第二指示被用于从所述目标资源池中确定所述第二备选资源集合,所述第二指示等于0。
- 根据权利要求1至7中任一权利要求所述的第一节点设备,其特征在于,所述第一接收机接收第四信息;其中,所述第四信息被用于确定所述目标资源池和所述第一备选资源集合所包括的备选资源组的数量。
- 根据权利要求1至8中任一权利要求所述的第一节点设备,其特征在于,当所述第一节点设备被配置了大于1个服务小区的时候,所述第二信息适用于所述大于1个服务小区中的任意一个服务小区。
- 根据权利要求1至9中任一权利要求所述的第一节点设备,其特征在于,所述目标载波所对应的服务小区是被用于跨载波调度一个主小区(Pcell)的辅小区(Scell)。
- 根据权利要求1至10中任一权利要求所述的第一节点设备,其特征在于,所述第一指示等于一个载波指示域(CIF,Carrier Indicator Field)的值;当所述第一信令中存在载 波指示域(CIF,Carrier Indicator Field)时,所述目标指示等于所述第一信令中的载波指示域(CIF,Carrier Indicator Field)的值,否则所述目标指示等于0;所述第一备选资源集合中的任意一个备选资源组是对应一个聚合等级(Aggregation Level,AL)的一个物理下行控制信道(PDCCH,Physical Downlink Control Channel)备选(Candidate)所占用的时频资源,
- 根据权利要求1至11中任一权利要求所述的第一节点设备,其特征在于,所述第一载波和所述目标载波是否相同和所述第一节点设备是否支持Scell跨载波调度Pcell共同被用于确定所述目标指示是否等于所述第一指示。
- 一种用于无线通信中的第二节点设备,其特征在于,包括:第一发射机,发送第一信息和第二信息,所述第一信息被用于指示目标载波,所述第二信息被用于指示第一指示,所述第一指示是正整数;第二发射机,在第一备选资源集合中发送第一信令,所述第一备选资源集合所占用的频域资源属于第一载波;第二处理机,执行第一信号;所述第一信号所占用的频域资源属于所述第一载波,所述第一信令被用于指示所述第一信号所占用的时频资源;其中,所述执行是接收,或者所述执行是发送;所述第一备选资源集合包括正整数个备选资源组,所述第一信令占用所述第一备选资源集合中的一个备选资源组;所述第一备选资源集合中的任意一个备选资源组属于目标资源池;目标指示是一个非负整数,所述目标指示被用于从所述目标资源池中确定所述第一备选资源集合;所述第一载波和所述目标载波是否相同被用于确定所述目标指示是否等于所述第一指示。
- 根据权利要求13中所述的第二节点设备,其特征在于,当所述第一载波和所述目标载波相同时,所述目标指示等于所述第一指示,所述第一信令中携带第一域,所述第一域的值等于所述目标指示;当所述第一载波和所述目标载波不相同时,所述目标指示等于所述第一指示之外的一个预定义的非负整数。
- 根据权利要求13或14中任一权利要求所述的第二节点设备,其特征在于,所述第一发射机发送第三信息;其中,所述第三信息被用于指示所述第一载波是被自调度的。
- 根据权利要求15所述的第二节点设备,其特征在于,所述第三信息被用于指示第二索引,所述第二索引属于第一选择中的参数,所述第一指示也属于所述第一选择中的参数,所述第一选择是一个RRC信令中的一个IE中的选择(CHOICE);所述第二索引等于所述第一载波所对应的服务小区的索引,所述第一选择指示所述第一载波被所述第一载波所对应的服务小区之外的服务小区中的PDCCH调度。
- 根据权利要求13至16中任一权利要求所述的第二节点设备,其特征在于,所述第二信息和所述第一信息通过同一个信令中的两个不同的域携带,或者所述第二信息通过针对所述第一载波的信令携带。
- 根据权利要求13至17中任一权利要求所述的第二节点设备,其特征在于,携带所述第一信息的信号所占用的频域资源属于第二载波,所述第一信息被用于指示第一索引,所述第一索引是所述目标载波的索引,所述目标载波跨载波调度所述第二载波。
- 根据权利要求18所述的第二节点设备,其特征在于,当所述第一载波和所述目标载波相同时,所述第二发射机在第二备选资源集合中发送第二信令;其中,所述第二备选资源集合所占用的频域资源属于所述第一载波,所述第二信令被用于指示在所述第二载波上传输的信号所占用的时频资源,所述第二备选资源集合包括正整数个备选资源组,所述第二信令占用所述第二备选资源集合中的一个备选资源组;所述第二备选资源集合中的任意一个备选资源组属于所述目标资源池;第二指示被用于从所述目标资源池中确定所述第二备选资源集合,所述第二指示等于0。
- 根据权利要求13至19中任一权利要求所述的第二节点设备,其特征在于,所述第一发射机发送第四信息;其中,所述第四信息被用于指示所述目标资源池和所述第 一备选资源集合所包括的备选资源组的数量。
- 根据权利要求13至20中任一权利要求所述的第二节点设备,其特征在于,当所述第一信令的目标接收者被配置了大于1个服务小区的时候,所述第二信息适用于所述大于1个服务小区中的任意一个服务小区。
- 根据权利要求13至21中任一权利要求所述的第二节点设备,其特征在于,所述目标载波所对应的服务小区是被用于跨载波调度一个主小区(Pcell)的辅小区(Scell)。
- 根据权利要求13至22中任一权利要求所述的第二节点设备,其特征在于,所述第一指示等于一个载波指示域(CIF,Carrier Indicator Field)的值;当所述第一信令中存在载波指示域(CIF,Carrier Indicator Field)时,所述目标指示等于所述第一信令中的载波指示域(CIF,Carrier Indicator Field)的值,否则所述目标指示等于0;所述第一备选资源集合中的任意一个备选资源组是对应一个聚合等级(Aggregation Level,AL)的一个物理下行控制信道(PDCCH,Physical Downlink Control Channel)备选(Candidate)所占用的时频资源,
- 根据权利要求13至23中任一权利要求所述的第二节点设备,其特征在于,所述第一载波和所述目标载波是否相同和所述第一信令的目标接收者是否支持Scell跨载波调度Pcell共同被用于确定所述目标指示是否等于所述第一指示。
- 一种用于无线通信中的第一节点设备中的方法,其特征在于,包括:接收第一信息和第二信息,所述第一信息被用于确定目标载波,所述第二信息被用于确定第一指示,所述第一指示是正整数;在第一备选资源集合中监测第一信令,所述第一备选资源集合所占用的频域资源属于第一载波;当所述第一信令被检测到时,操作第一信号;所述第一信号所占用的频域资源属于所述第一载波,所述第一信令被用于确定所述第一信号所占用的时频资源;其中,所述操作是发送,或者所述操作是接收;所述第一备选资源集合包括正整数个备选资源组,所述第一信令占用所述第一备选资源集合中的一个备选资源组;所述第一备选资源集合中的任意一个备选资源组属于目标资源池;目标指示是一个非负整数,所述目标指示被用于从所述目标资源池中确定所述第一备选资源集合;所述第一载波和所述目标载波是否相同被用于确定所述目标指示是否等于所述第一指示。
- 根据权利要求25中所述的方法,其特征在于,当所述第一载波和所述目标载波相同时,所述目标指示等于所述第一指示,所述第一信令中携带第一域,所述第一域的值等于所述目标指示;当所述第一载波和所述目标载波不相同时,所述目标指示等于所述第一指示之外的一个预定义的非负整数。
- 根据权利要求25或26中任一权利要求所述的方法,其特征在于,包括:接收第三信息;其中,所述第三信息被用于确定所述第一载波是被自调度的。
- 根据权利要求27所述的方法,其特征在于,所述第三信息被用于指示第二索引,所述第二索引属于第一选择中的参数,所述第一指示也属于所述第一选择中的参数,所述第一选择是一个RRC信令中的一个IE中的选择(CHOICE);所述第二索引等于所述第一载波所对应的服务小区的索引,所述第一选择指示所述第一载波被所述第一载波所对应的服务小区之外的服务小区中的PDCCH调度。
- 根据权利要求25至28中任一权利要求所述的方法,其特征在于,所述第二信息和所述第一信息通过同一个信令中的两个不同的域携带,或者所述第二信息通过针对所述第一载波的信令携带。
- 根据权利要求25至29中任一权利要求所述的方法,其特征在于,携带所述第一信息的信号所占用的频域资源属于第二载波,所述第一信息被用于确定第一索引,所述第一索引是所述目标载波的索引,所述目标载波跨载波调度所述第二载波。
- 根据权利要求30所述的方法,其特征在于,当所述第一载波和所述目标载波相 同时,包括:在第二备选资源集合中监测第二信令;其中,所述第二备选资源集合所占用的频域资源属于所述第一载波,所述第二信令被用于确定在所述第二载波上传输的信号所占用的时频资源,所述第二备选资源集合包括正整数个备选资源组,所述第二信令占用所述第二备选资源集合中的一个备选资源组;所述第二备选资源集合中的任意一个备选资源组属于所述目标资源池;第二指示被用于从所述目标资源池中确定所述第二备选资源集合,所述第二指示等于0。
- 根据权利要求25至31中任一权利要求所述的方法,其特征在于,包括:接收第四信息;其中,所述第四信息被用于确定所述目标资源池和所述第一备选资源集合所包括的备选资源组的数量。
- 根据权利要求25至32中任一权利要求所述的方法,其特征在于,当所述第一节点设备被配置了大于1个服务小区的时候,所述第二信息适用于所述大于1个服务小区中的任意一个服务小区。
- 根据权利要求25至33中任一权利要求所述的方法,其特征在于,所述目标载波所对应的服务小区是被用于跨载波调度一个主小区(Pcell)的辅小区(Scell)。
- 根据权利要求25至34中任一权利要求所述的方法,其特征在于,所述第一指示等于一个载波指示域(CIF,Carrier Indicator Field)的值;当所述第一信令中存在载波指示域(CIF,Carrier Indicator Field)时,所述目标指示等于所述第一信令中的载波指示域(CIF,Carrier Indicator Field)的值,否则所述目标指示等于0;所述第一备选资源集合中的任意一个备选资源组是对应一个聚合等级(Aggregation Level,AL)的一个物理下行控制信道(PDCCH,Physical Downlink Control Channel)备选(Candidate)所占用的时频资源,
- 根据权利要求25至35中任一权利要求所述的方法,其特征在于,所述第一载波和所述目标载波是否相同和所述第一节点设备是否支持Scell跨载波调度Pcell共同被用于确定所述目标指示是否等于所述第一指示。
- 一种用于无线通信中的第二节点设备中的方法,其特征在于,包括:发送第一信息和第二信息,所述第一信息被用于指示目标载波,所述第二信息被用于指示第一指示,所述第一指示是正整数;在第一备选资源集合中发送第一信令,所述第一备选资源集合所占用的频域资源属于第一载波;执行第一信号;所述第一信号所占用的频域资源属于所述第一载波,所述第一信令被用于指示所述第一信号所占用的时频资源;其中,所述执行是接收,或者所述执行是发送;所述第一备选资源集合包括正整数个备选资源组,所述第一信令占用所述第一备选资源集合中的一个备选资源组;所述第一备选资源集合中的任意一个备选资源组属于目标资源池;目标指示是一个非负整数,所述目标指示被用于从所述目标资源池中确定所述第一备选资源集合;所述第一载波和所述目标载波是否相同被用于确定所述目标指示是否等于所述第一指示。
- 根据权利要求37中所述的方法,其特征在于,当所述第一载波和所述目标载波相同时,所述目标指示等于所述第一指示,所述第一信令中携带第一域,所述第一域的值等于所述目标指示;当所述第一载波和所述目标载波不相同时,所述目标指示等于所述第一指示之外的一个预定义的非负整数。
- 根据权利要求37或38中任一权利要求所述的方法,其特征在于,包括:发送第三信息;其中,所述第三信息被用于指示所述第一载波是被自调度的。
- 根据权利要求39所述的方法,其特征在于,所述第三信息被用于指示第二索引,所述第二索引属于第一选择中的参数,所述第一指示也属于所述第一选择中的参数,所述第 一选择是一个RRC信令中的一个IE中的选择(CHOICE);所述第二索引等于所述第一载波所对应的服务小区的索引,所述第一选择指示所述第一载波被所述第一载波所对应的服务小区之外的服务小区中的PDCCH调度。
- 根据权利要求37至40中任一权利要求所述的方法,其特征在于,所述第二信息和所述第一信息通过同一个信令中的两个不同的域携带,或者所述第二信息通过针对所述第一载波的信令携带。
- 根据权利要求37至41中任一权利要求所述的方法,其特征在于,携带所述第一信息的信号所占用的频域资源属于第二载波,所述第一信息被用于指示第一索引,所述第一索引是所述目标载波的索引,所述目标载波跨载波调度所述第二载波。
- 根据权利要求42所述的方法,其特征在于,当所述第一载波和所述目标载波相同时,包括:在第二备选资源集合中发送第二信令;其中,所述第二备选资源集合所占用的频域资源属于所述第一载波,所述第二信令被用于指示在所述第二载波上传输的信号所占用的时频资源,所述第二备选资源集合包括正整数个备选资源组,所述第二信令占用所述第二备选资源集合中的一个备选资源组;所述第二备选资源集合中的任意一个备选资源组属于所述目标资源池;第二指示被用于从所述目标资源池中确定所述第二备选资源集合,所述第二指示等于0。
- 根据权利要求37至43中任一权利要求所述的方法,其特征在于,包括:发送第四信息;其中,所述第四信息被用于指示所述目标资源池和所述第一备选资源集合所包括的备选资源组的数量。
- 根据权利要求37至44中任一权利要求所述的方法,其特征在于,当所述第一信令的目标接收者被配置了大于1个服务小区的时候,所述第二信息适用于所述大于1个服务小区中的任意一个服务小区。
- 根据权利要求37至45中任一权利要求所述的方法,其特征在于,所述目标载波所对应的服务小区是被用于跨载波调度一个主小区(Pcell)的辅小区(Scell)。
- 根据权利要求37至46中任一权利要求所述的方法,其特征在于,所述第一指示等于一个载波指示域(CIF,Carrier Indicator Field)的值;当所述第一信令中存在载波指示域(CIF,Carrier Indicator Field)时,所述目标指示等于所述第一信令中的载波指示域(CIF,Carrier Indicator Field)的值,否则所述目标指示等于0;所述第一备选资源集合中的任意一个备选资源组是对应一个聚合等级(Aggregation Level,AL)的一个物理下行控制信道(PDCCH,Physical Downlink Control Channel)备选(Candidate)所占用的时频资源,
- 根据权利要求37至47中任一权利要求所述的方法,其特征在于,所述第一载波和所述目标载波是否相同和所述第一信令的目标接收者是否支持Scell跨载波调度Pcell共同被用于确定所述目标指示是否等于所述第一指示。
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