CN110351058A - A kind of method for transmitting signals and communication equipment - Google Patents
A kind of method for transmitting signals and communication equipment Download PDFInfo
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- CN110351058A CN110351058A CN201810305309.XA CN201810305309A CN110351058A CN 110351058 A CN110351058 A CN 110351058A CN 201810305309 A CN201810305309 A CN 201810305309A CN 110351058 A CN110351058 A CN 110351058A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
Abstract
This application discloses a kind of method for transmitting signals and communication equipments, wherein, this method comprises: the first communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, first parameter include carrier index, system parameter, signal type, wireless network identification type, when at least one of field type or resource index, N is positive integer more than or equal to 2;First communication equipment receives U transmission signal according to the described first quasi- co-located hypothesis information at the first moment, and the U transmission signal is some or all of in N number of transmission signal, U is the positive integer less than or equal to N.Implement the application, signal receiving quality can be improved.
Description
Technical field
This application involves wireless communication technology field more particularly to a kind of method for transmitting signals and communication equipment.
Background technique
In new wireless (New Radio) system, user equipment (User Equipment) can be in multiple carrier waves or one
Multiple BWP transmitting datas of carrier wave.At present in standard, it is co-located that the unlike signal on each carrier wave respectively corresponds respective standard
(Quasi Co-location, QCL) assumes that information, a kind of QCL hypothesis information have corresponded to the reception wave beam of UE a kind of.
In some transmission time i it is possible that the feelings that the signal on signal and carrier wave 2 on carrier wave 1 is overlapped in time
Condition, such as shown in Figure 1A, the subcarrier spacing (Subcarrier Spacing, SCS) of carrier wave 1 is 15kHz, the son of carrier wave 2 carries
Wave spacing 15kHz, the signal 1 on carrier wave 1 and the signal 3 on carrier wave 2 are be overlapped in time.In this case, if carrier wave 1
On the QCL of signal assume that the QCL of information and the signal on carrier wave 2 assumes that information is not identical, then UE can not be at the same moment
The signal on two carrier waves is received simultaneously.It is not identical in the numerology of carrier wave 1 and carrier wave 2, i.e. subcarrier spacing
When (Subcarrier Spacing, SCS) is different, in some instances it may even be possible to will appear a signal on carrier wave 1 and multiple on carrier wave 2
The case where signal is overlapped in time.Such as shown in Figure 1B, the subcarrier spacing (Subcarrier Spacing, SCS) of carrier wave 1
A symbol for 15kHz, the subcarrier spacing 60kHz of carrier wave 2, carrier wave 1 corresponds to 4 symbols of carrier wave 2.Letter on carrier wave 1
Number 1 be overlapped in time with signal 3, signal 4, signal 5, the signal 6 on carrier wave 2, the letter on signal 2 and carrier wave 2 on carrier wave 1
Numbers 7, signal 8, signal 9, signal 10 are overlapped in time.In this case, if the QCL of the signal on carrier wave 1 assumes letter
The QCL of signal on breath and carrier wave 2 assumes that information is not identical, then UE can not also be received on two carrier waves simultaneously at the same moment
Signal.
Therefore, at least two signals on multiple carrier waves are received simultaneously a moment as UE, as the QCL of the two signals
Assuming that how to determine that the QCL for receiving these signals assumes that information is the current technical issues that need to address when information is inconsistent.
Summary of the invention
This application provides a kind of method for transmitting signals and communication equipments, realize communication equipment and are assumed using same QCL
Information receives at least two signals at least two carrier waves simultaneously, improves signal receiving quality.
In a first aspect, this application provides a kind of method for transmitting signals, comprising: the first communication equipment is believed according to N number of transmission
Number the first parameter determine the first quasi- co-located hypothesis information, the first parameter includes carrier index, system parameter, signal type, nothing
Gauze network identity type, when at least one of field type or resource index, N is positive integer more than or equal to 2.First communication is set
Standby to receive U transmission signal according to the first quasi- co-located hypothesis information at the first moment, the U transmission signal is N number of biography
Some or all of in defeated signal, U is the positive integer less than or equal to N.Implement the embodiment of the present invention, the first communication may be implemented and set
It is standby to assume that information receives at least two signals at least two carrier waves simultaneously using same QCL, improve signal receiving quality.
In a kind of possible design, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, comprising: if M carrier wave is each
Self-corresponding system parameter is not exactly the same, then the first communication equipment is by the biography in M carrier wave on the smallest carrier wave of system parameter
The co-located hypothesis information of standard of defeated signal is determined as the first quasi- co-located hypothesis information.Implement the embodiment of the present invention, it is ensured that M carrier wave
In each transmission signal on each carrier wave can do complete reception based on a QCL hypothesis, so that N number of transmission signal can be improved
Receptivity.
In a kind of possible design, if the corresponding system parameter of M carrier wave is identical, the first communication equipment is by M
The co-located hypothesis information of standard of transmission signal in a carrier wave on the smallest carrier wave of carrier index is determined as the first quasi- co-located hypothesis letter
Breath.Implement the embodiment of the present invention, the transmission signal on M carrier wave does not have the timesharing of apparent priority, defaulted always with most
The co-located hypothesis information of standard of transmission signal on the carrier wave of small carrier index can reduce communication as the first quasi- co-located hypothesis information
The reception complexity of equipment.
In a kind of possible design, if the corresponding system parameter of M carrier wave is identical, the first communication equipment is by M
The co-located hypothesis information of standard of transmission signal in a carrier wave on main carrier is determined as the first quasi- co-located hypothesis information.Implement the present invention
Embodiment, the transmission signal on usual main carrier is more important compared to the transmission signal on other carrier waves, and on main carrier
Control channel can it is cross-carrier dispatch other carrier waves on Traffic Channel, therefore, on preferential main carrier transmission signal standard it is co-located
Assuming that information is as the first quasi- co-located hypothesis information, the performance of N number of transmission signal on M carrier wave of maximizing.
In a kind of possible design, the first communication equipment determines that first is quasi- total according to the first parameter of N number of transmission signal
Assume information in location, comprising: if in N number of transmission signal including common signal, the first communication equipment is co-located by the standard of common signal
Assuming that information is determined as the first quasi- co-located hypothesis information.Implement the embodiment of the present invention, the co-located hypothesis letter of the standard of preferential common signal
Breath is used as the first quasi- co-located hypothesis information, the performance of N number of transmission signal on M carrier wave of maximizing.
In a kind of possible design, if in N number of transmission signal including common signal, the first communication equipment is by public letter
Number co-located the hypothesiss information of standard be determined as the first quasi- co-located hypothesis information, comprising: if including 1 public letter in N number of transmission signal
Number, then the co-located hypothesis information of standard of common signal is determined as the first quasi- co-located hypothesis information by the first communication equipment.
In a kind of possible design, if in N number of transmission signal including P common signal and P common signal carried
On O carrier wave, then main carrier in O carrier wave is indexed the quasi- co-located of the transmission signal on corresponding carrier wave by the first communication equipment
Assuming that information is determined as the first quasi- co-located hypothesis information, P is the positive integer less than or equal to N and more than or equal to 2, and O is less than or equal to P
Positive integer.Implement the embodiment of the present invention, the co-located hypothesis information of standard of the transmission signal on preferential main carrier is quasi- total as first
Assume information, the performance of N number of transmission signal on M carrier wave of maximizing in location.
In a kind of possible design, if in N number of transmission signal including P common signal and P common signal carried
On O carrier wave, then the first communication equipment is by the co-located vacation of standard of the transmission signal in O carrier wave on the smallest carrier wave of carrier index
If information is determined as the first quasi- co-located hypothesis information, P is the positive integer less than or equal to N and more than or equal to 2, and O is less than or equal to P's
Positive integer.Implement the embodiment of the present invention, be carried on O carrier wave in common signal, is defaulted with the carrier wave of minimum carrier index
On transmission signal co-located the hypothesiss information of standard as the first quasi- co-located hypothesis information, the reception complexity of communication equipment can be reduced
Degree.In a kind of possible design, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;First
Communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, comprising: if M carrier wave is respectively right
The system parameter answered is not exactly the same and M carrier wave in the smallest carrier wave of system parameter include K, then the first communication equipment is by K
The co-located hypothesis information of standard of the transmission signal of the highest priority of signal type is determined as the on a the smallest carrier wave of system parameter
Surely co-located hypothesis information.Implement the embodiment of the present invention, the higher signal of priority is usually more important, this kind of implementation
The best performance that can guarantee prior transmission signal, thus the performance of maximizing whole system.
In a kind of possible design, if the corresponding system parameter of M carrier wave is not exactly the same and M carrier wave in be
The system the smallest carrier wave of parameter includes K, then the first communication equipment is the smallest by carrier index in the smallest carrier wave of K system parameter
The co-located hypothesis information of standard of transmission signal on carrier wave is determined as the first quasi- co-located hypothesis information.
In a kind of possible design, if the corresponding system parameter of M carrier wave is not exactly the same and M carrier wave in be
The system the smallest carrier wave of parameter includes K, then the first communication equipment corresponds to main carrier index in the smallest carrier wave of K system parameter
Carrier wave on co-located the hypothesiss information of standard of transmission signal be determined as the first co-located hypothesis information of standard;Wherein, K is less than or equal to M
Positive integer.
In a kind of possible design, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, comprising: if M carrier wave is each
Self-corresponding system parameter is not exactly the same and M carrier wave in transmission signal on the smallest carrier wave of system parameter include L, then
First communication equipment determines the co-located hypothesis information of standard for the transmission signal that L transmits the highest priority of signal type in signal
For the first quasi- co-located hypothesis information, L is the positive integer less than or equal to N.
In a kind of possible design, the first communication equipment determines that first is quasi- total according to the first parameter of N number of transmission signal
Assume information in location, comprising: if the corresponding signal type of N number of transmission signal includes at least two, the first communication equipment is by N number of biography
The co-located hypothesis information of standard of the transmission signal of the highest priority of signal type is determined as the first quasi- co-located hypothesis letter in defeated signal
Breath;Alternatively, if the corresponding signal type of N number of transmission signal is identical, the first communication equipment is by wireless network in N number of transmission signal
The co-located hypothesis information of standard of the transmission signal of the highest priority of identity type is determined as the first quasi- co-located hypothesis information;Alternatively,
If the corresponding signal type of N number of transmission signal is identical, the first communication equipment by time domain type priority grade in N number of transmission signal most
The co-located hypothesis information of standard of high transmission signal is determined as the first quasi- co-located hypothesis information;Alternatively, if N number of transmission signal is corresponding
Signal type is identical, then the first communication equipment transmits the smallest co-located hypothesis of standard for transmitting signal of resource index in signal for N number of
Information is determined as the first quasi- co-located hypothesis information.
In a kind of possible design, the priority for controlling signal is greater than or equal to the priority of service signal;Alternatively, industry
The priority of business signal is greater than or equal to the priority of reference signal;Alternatively, the priority of common signal is more than or equal to dedicated
The priority of signal;Alternatively, the priority of the high signal of service priority is greater than or equal to the excellent of the low signal of service priority
First grade;The second communication is needed to set alternatively, being greater than or equal to without the priority that the second communication equipment is scheduled the signal of control
The priority of the standby signal for being scheduled control;Alternatively, the priority of the small signal of system parameter is greater than or equal to system parameter
The priority of big signal.
In a kind of possible design, the physical down that the priority of synchronization signal block SSB is more than or equal to broadcast controls letter
The priority of road PDCCH;Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;Alternatively, the priority of the PDSCH of broadcast
More than or equal to the priority of the PDSCH of unicast;Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to reference signal
Priority;Alternatively, for carry out Radio Link Detection RLM channel state information reference signals CSI-RS priority be greater than etc.
In the priority of the CSI-RS for carrying out wave beam management BM;Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to
For carrying out the priority of the CSI-RS of channel state information CSI detection;Alternatively, being used to carry out the excellent of the CSI-RS of CSI detection
First grade is more than or equal to priority/time-frequency track reference signal TRS priority of Phase Tracking reference signal PTRS;Alternatively, with
The priority that machine accesses channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;Alternatively, PUCCH's is preferential
Grade is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;Alternatively, the priority of PUSCH is joined more than or equal to channel detection
Examine the priority of signal SRS;Alternatively, the priority of the SRS for carrying out BM is more than or equal to for carrying out non-code book transmission NCB's
The priority of SRS;Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to for carrying out code book transmission CB
SRS priority.
In a kind of possible design, the priority of the wireless network identification of downlink signal is greater than or equal to uplink signal
The priority of wireless network identification;Alternatively, the priority of the wireless network identification of the high signal of service priority is greater than or equal to
The priority of the wireless network identification of the low signal of service priority;Alternatively, being scheduled control without the second communication equipment
The priority of the wireless network identification of signal is greater than or equal to the wireless of the signal for needing the second communication equipment to be scheduled control
The priority of network identity;Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the wireless of special signal
The priority of network identity.
In a kind of possible design, if the corresponding signal type of N number of transmission signal is PDSCH ,-wireless network is paged
The priority of temporary identifier P-RNTI is more than or equal to system information-radio network temporary identifier SI-RNTI priority;Alternatively,
If the corresponding signal type of N number of transmission signal is PDSCH, it is wireless that the priority of SI-RNTI is more than or equal to random access response-
The priority of Network Temporary Identifier RA-RNTI;Alternatively, if the corresponding signal type of N number of transmission signal is PDSCH, RA-RNTI
Priority be more than or equal to CS-RNTI priority;Alternatively, if the corresponding signal type of N number of transmission signal is PDSCH, CS-
The priority of RNTI is more than or equal to the priority of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI;Alternatively, if N number of transmission signal is corresponding
Signal type be PDCCH, then the priority of P-RNTI/SI-RNTI/RA-RNTI be more than or equal to interrupt instruction-wireless network face
When identify INT-RNTI priority;Alternatively, INT-RNTI's is excellent if the corresponding signal type of N number of transmission signal is PDCCH
First grade is more than or equal to time slot format mark-radio network temporary identifier SFI-RNTI priority;Alternatively, if N number of transmission signal
Corresponding signal type is PDCCH, then the priority of SFI-RNTI is more than or equal to configuration scheduling-radio network temporary identifier CS-
The priority of RNTI;Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, and the priority of CS-RNTI is greater than etc.
In the priority of C-RNTI;Alternatively, the priority of C-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to semi-static channel state information-radio network temporary identifier SP-CSI-RNTI priority;Alternatively, if N number of transmission signal
Corresponding signal type is PDCCH, then the priority of SP-CSI-RNTI is shared more than or equal to transimission power order-physical uplink
Channel-radio network temporary identifier TPC-PUSCH-RNTI priority;Alternatively, if the corresponding signal type of N number of transmission signal
For PDCCH, then the priority of TPC-PUSCH-RNTI is more than or equal to transimission power order-detection reference signal-wireless network and faces
When identify TPC-SRS-RNTI priority;Alternatively, if the corresponding signal type of N number of transmission signal is PUSCH, CS-RNTI
Priority be more than or equal to C-RNTI priority;Alternatively, if the corresponding signal type of N number of transmission signal is PUSCH, C-
The priority of RNTI is more than or equal to the priority of SP-CSI-RNTI.
In a kind of possible design, the first communication equipment according to the first parameter determine the first quasi- co-located hypothesis information it
Before, further includes: the first communication equipment receives the carrier index that the second communication equipment is sent;First communication equipment is according to the first parameter
Determine the first quasi- co-located hypothesis information, comprising: the corresponding load of the carrier index that the first communication equipment sends the second communication equipment
The co-located hypothesis information of standard of first transmission signal on wave is determined as the first quasi- co-located hypothesis information;Alternatively, the first communication is set
It is standby first quasi- co-located hypothesiss information is determined according to the first parameter before, further includes: the first communication equipment the second communication equipment of reception
The carrier index and signal type of transmission index;First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter,
Include: on the corresponding carrier wave of carrier index that the first communication equipment sends the second communication equipment signal type index corresponding biography
The co-located hypothesis information of standard of defeated signal is determined as the first quasi- co-located hypothesis information;Alternatively, the first communication equipment is according to the first parameter
Before determining the first quasi- co-located hypothesiss information, further includes: the first communication equipment receives the system parameter of the second communication equipment transmission
Index and carrier index;First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter, comprising: the first communication is set
The standby system parameter for sending the second communication equipment indexes the co-located vacation of standard of the transmission signal on carrier wave corresponding with carrier index
If information is determined as the first quasi- co-located hypothesis information.
Second aspect, this application provides a kind of method for transmitting signals, comprising: the second communication equipment sends N number of transmission letter
Number, co-located the hypothesiss INFORMATION OF INCOMPLETE of standard of N number of transmission signal is identical, and the first parameter of N number of transmission signal is used for the
One communication equipment determines that the first quasi- co-located hypothesis information, the described first quasi- co-located hypothesis information exist for first communication equipment
The first transmission signal of reception U, first parameter include carrier index, system parameter, signal type, wireless network mark
Know type, when at least one of field type or resource index, N is positive integer more than or equal to 2, and the U transmission signal is
Some or all of in N number of transmission signal, U is the positive integer less than or equal to N.Implement the embodiment of the present invention, may be implemented
First communication equipment assumes that information receives at least two signals at least two carrier waves simultaneously using same QCL, improves letter
Number quality of reception.
In a kind of possible design, N number of transmission signal is carried on M carrier wave, and M is just less than or equal to N
Integer;If the corresponding system parameter of M carrier wave is not exactly the same, first communication equipment carries described M
The co-located hypothesis information of standard of transmission signal in wave on the smallest carrier wave of system parameter is determined as the described first quasi- co-located hypothesis letter.
Implement the embodiment of the present invention, it is ensured that each transmission signal in M carrier wave on each carrier wave can be done based on a QCL hypothesis
It is complete to receive, so that the receptivity of N number of transmission signal can be improved.
In a kind of possible design, if the corresponding system parameter of M carrier wave is identical, first communication
The co-located hypothesis information of standard of transmission signal in the M carrier wave on the smallest carrier wave of carrier index is determined as described the by equipment
Surely co-located hypothesis information.Implement the embodiment of the present invention, the transmission signal on M carrier wave does not have point of apparent priority
When, defaulted always using the co-located hypothesis information of standard of the transmission signal on the carrier wave of minimum carrier index as the first quasi- co-located hypothesis
Information can reduce the reception complexity of communication equipment.
In a kind of possible design, if the corresponding system parameter of M carrier wave is identical, first communication
The co-located hypothesis information of standard of transmission signal in the M carrier wave on main carrier is determined as the described first quasi- co-located hypothesis by equipment
Information.Implement the embodiment of the present invention, the transmission signal on usual main carrier is compared to the transmission signal more important one on other carrier waves
A bit, control channel and on main carrier can the cross-carrier Traffic Channel dispatched on other carrier waves, therefore, the biography on preferential main carrier
Co-located the hypothesiss information of standard of defeated signal as the first co-located hypothesis information of standard, N number of transmission signal on M carrier wave of maximizing
Performance.
In a kind of possible design, if in N number of transmission signal including common signal, first communication equipment
The co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis information.Implement the embodiment of the present invention,
N number of transmission of co-located the hypothesiss information of standard of preferential common signal as the first co-located hypothesis information of standard, on M carrier wave of maximizing
The performance of signal.
In a kind of possible design, if in N number of transmission signal including 1 common signal, first communication
The co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis information by equipment.
In a kind of possible design, if in N number of transmission signal including P common signal and the P public letters
It number is carried on O carrier wave, then first communication equipment indexes main carrier in the O carrier wave on corresponding carrier wave
The co-located hypothesis information of standard of transmission signal is determined as the described first quasi- co-located hypothesis information, and P is less than or equal to N and to be more than or equal to 2
Positive integer, O is positive integer less than or equal to P.Implement the embodiment of the present invention, the standard of the transmission signal on preferential main carrier is co-located
Assuming that information is as the first quasi- co-located hypothesis information, the performance of N number of transmission signal on M carrier wave of maximizing.
In a kind of possible design, if in N number of transmission signal including P common signal and the P public letters
It number is carried on O carrier wave, then first communication equipment is by the biography in the O carrier wave on the smallest carrier wave of carrier index
The co-located hypothesis information of standard of defeated signal is determined as the described first quasi- co-located hypothesis information, and P is less than or equal to N and more than or equal to 2
Positive integer, O are the positive integer less than or equal to P.Implement the embodiment of the present invention, be carried on O carrier wave in common signal, is defaulted
Using the co-located hypothesis information of standard of the transmission signal on the carrier wave of minimum carrier index as the first quasi- co-located hypothesis information, can reduce
The reception complexity of communication equipment.
In a kind of possible design, N number of transmission signal is carried on M carrier wave, and M is just less than or equal to N
Integer;If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Wave includes K, then first communication equipment is by the highest priority of signal type on the smallest carrier wave of K system parameter
Co-located the hypothesiss information of standard of transmission signal be determined as the co-located hypothesis information of first standard.Implement the embodiment of the present invention, preferentially
The higher signal of grade is usually more important, this kind of implementation can guarantee the best performance of prior transmission signal, thus
The performance of maximizing whole system.
In a kind of possible design, if the corresponding system parameter of M carrier wave is not exactly the same and M described
The smallest carrier wave of system parameter includes K in carrier wave, then first communication equipment is by the smallest carrier wave of K system parameter
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of carrier index is determined as the described first quasi- co-located hypothesis information.
In a kind of possible design, if the corresponding system parameter of M carrier wave is not exactly the same and M described
The smallest carrier wave of system parameter includes K in carrier wave, then first communication equipment is by the smallest carrier wave of K system parameter
The co-located hypothesis information of standard that middle main carrier indexes the transmission signal on corresponding carrier wave is determined as the described first quasi- co-located hypothesis letter
Breath;Wherein, the K is the positive integer less than or equal to M.
In a kind of possible design, N number of transmission signal is carried on M carrier wave, and M is just less than or equal to N
Integer;If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Transmission signal on wave includes L, then first communication equipment transmits the priority of signal type in signal most for described L
The co-located hypothesis information of standard of high transmission signal is determined as the described first quasi- co-located hypothesis information, and L is just whole less than or equal to N
Number.
It is described if the corresponding signal type of N number of transmission signal includes at least two in a kind of possible design
First communication equipment is by the co-located hypothesis information of standard of the transmission signal of the highest priority of signal type in N number of transmission signal
It is determined as the described first quasi- co-located hypothesis information;Alternatively, if the corresponding signal type of N number of transmission signal is identical, it is described
First communication equipment is co-located by the standard of the transmission signal of the highest priority of wireless network identification type in N number of transmission signal
Assuming that information is determined as the described first quasi- co-located hypothesis information;Alternatively, if the corresponding signal type phase of N number of transmission signal
Together, then first communication equipment is co-located by the standard of the highest transmission signal of time domain type priority grade in N number of transmission signal
Assuming that information is determined as the described first quasi- co-located hypothesis information;Alternatively, if the corresponding signal type phase of N number of transmission signal
Together, then first communication equipment believes the co-located hypothesis of standard of the smallest transmission signal of resource index in N number of transmission signal
Breath is determined as the described first quasi- co-located hypothesis information.
In a kind of possible design, the priority for controlling signal is greater than or equal to the priority of service signal;Alternatively, industry
The priority of business signal is greater than or equal to the priority of reference signal;Alternatively, the priority of common signal is more than or equal to dedicated
The priority of signal;Alternatively, the priority of the high signal of service priority is greater than or equal to the excellent of the low signal of service priority
First grade;Described second is needed to lead to alternatively, being greater than or equal to without the priority that the second communication equipment is scheduled the signal of control
Letter equipment is scheduled the priority of the signal of control;Alternatively, the priority of the small signal of system parameter is greater than or equal to system
The priority of the big signal of parameter.
In a kind of possible design, the physical down that the priority of synchronization signal block SSB is more than or equal to broadcast controls letter
The priority of road PDCCH;Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;Alternatively, the priority of the PDSCH of broadcast
More than or equal to the priority of the PDSCH of unicast;Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to reference signal
Priority;Alternatively, for carry out Radio Link Detection RLM channel state information reference signals CSI-RS priority be greater than etc.
In the priority of the CSI-RS for carrying out wave beam management BM;Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to
For carrying out the priority of the CSI-RS of channel state information CSI detection;Alternatively, being used to carry out the excellent of the CSI-RS of CSI detection
First grade is more than or equal to priority/time-frequency track reference signal TRS priority of Phase Tracking reference signal PTRS;Alternatively, with
The priority that machine accesses channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;Alternatively, PUCCH's is preferential
Grade is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;Alternatively, the priority of PUSCH is joined more than or equal to channel detection
Examine the priority of signal SRS;Alternatively, the priority of the SRS for carrying out BM is more than or equal to for carrying out non-code book transmission NCB's
The priority of SRS;Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to for carrying out code book transmission CB
SRS priority.
In a kind of possible design, the priority of the wireless network identification of downlink signal is greater than or equal to uplink signal
The priority of wireless network identification;Alternatively, the priority of the wireless network identification of the high signal of service priority is greater than or equal to
The priority of the wireless network identification of the low signal of service priority;Alternatively, being scheduled control without the second communication equipment
The priority of the wireless network identification of signal is greater than or equal to the signal for needing second communication equipment to be scheduled control
The priority of wireless network identification;Alternatively, the priority of the wireless network identification of common signal is greater than or equal to special signal
The priority of wireless network identification.
In a kind of possible design, if the corresponding signal type of N number of transmission signal is PDSCH, page-wireless
The priority of Network Temporary Identifier P-RNTI is more than or equal to system information-radio network temporary identifier SI-RNTI priority;Or
Person, if the corresponding signal type of N number of transmission signal is PDSCH, the priority of SI-RNTI is rung more than or equal to random access
Answer-the priority of radio network temporary identifier RA-RNTI;Alternatively, if the corresponding signal type of N number of transmission signal is
PDSCH, then the priority of RA-RNTI is more than or equal to the priority of CS-RNTI;Alternatively, if the corresponding letter of N number of transmission signal
Number type is PDSCH, then the priority of CS-RNTI is more than or equal to the priority of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI;Or
Person, if the corresponding signal type of N number of transmission signal is PDCCH, the priority of P-RNTI/SI-RNTI/RA-RNTI is big
Instruction-radio network temporary identifier INT-RNTI priority is interrupted in being equal to;Alternatively, if N number of transmission signal is corresponding
Signal type is PDCCH, then the priority of INT-RNTI is more than or equal to time slot format mark-radio network temporary identifier SFI-
The priority of RNTI;Alternatively, the priority of SFI-RNTI is big if the corresponding signal type of N number of transmission signal is PDCCH
In equal to configuration scheduling-radio network temporary identifier CS-RNTI priority;Alternatively, if the corresponding letter of N number of transmission signal
Number type is PDCCH, then the priority of CS-RNTI is more than or equal to the priority of C-RNTI;Alternatively, if N number of transmission signal
Corresponding signal type is PDCCH, then it is interim to be more than or equal to semi-static channel state information-wireless network for the priority of C-RNTI
Identify the priority of SP-CSI-RNTI;Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, SP-CSI-
The priority of RNTI is more than or equal to transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-
The priority of RNTI;Alternatively, TPC-PUSCH-RNTI's is excellent if the corresponding signal type of N number of transmission signal is PDCCH
First grade is more than or equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;Or
Person, if the corresponding signal type of N number of transmission signal is PUSCH, the priority of CS-RNTI is excellent more than or equal to C-RNTI
First grade;Alternatively, the priority of C-RNTI is more than or equal to SP- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of CSI-RNTI.
In a kind of possible design, second communication equipment is sent before N number of transmission signal, further includes: described the
Two communication equipments send carrier index to first communication equipment, and the carrier index that second communication equipment is sent is used for institute
State first transmission signal on the corresponding carrier wave of carrier index that the first communication equipment sends second communication equipment
Quasi- co-located hypothesis information is determined as the described first quasi- co-located hypothesis information;Alternatively, second communication equipment sends N number of transmission letter
Before number, further includes: second communication equipment sends carrier index and signal type index, institute to first communication equipment
The carrier index and signal type index for stating the transmission of the second communication equipment are communicated for first communication equipment by described second
The signal type indexes the co-located hypothesis information of standard of corresponding transmission signal on the corresponding carrier wave of carrier index that equipment is sent
It is determined as the described first quasi- co-located hypothesis information;Alternatively, before the N number of transmission signal of the second communication equipment transmission, further includes:
Second communication equipment is indexed to the first communication equipment system parameters and carrier index, second communication equipment
The system parameter index and carrier index of transmission are used for the system that first communication equipment sends second communication equipment
It is quasi- co-located that the co-located hypothesis information of standard of transmission signal on parameter reference and the corresponding carrier wave of carrier index is determined as described first
Assuming that information.
The third aspect, this application provides a kind of communication equipment, which is the first communication equipment, and the first communication is set
Standby may include multiple functional modules or unit, for executing method for transmitting signals provided by first aspect, Huo Zhe accordingly
On the one hand any one provided method for transmitting signals in possible embodiment.
Fourth aspect, this application provides a kind of communication equipment, which is the second communication equipment, and the second communication is set
Standby may include multiple functional modules or unit, for executing method for transmitting signals provided by second aspect, Huo Zhe accordingly
Any one provided method for transmitting signals in the two possible embodiments of aspect.
5th aspect, this application provides a kind of communication equipment, which is the first communication equipment, and the first communication is set
It is ready for use on the method for transmitting signals for executing first aspect description.First communication equipment can include: memory and with it is described
Processor, the transceiver of memory coupling, in which: the transceiver is used for logical with other communication equipments (such as the second communication equipment)
Letter.The memory is used to store the realization code of the method for transmitting signals of first aspect description, and the processor is for executing
The program code stored in the memory, i.e., method for transmitting signals or first aspect provided by execution first aspect can
Any one provided method for transmitting signals in the embodiment of energy.
6th aspect, this application provides a kind of communication equipment, which is the second communication equipment, and the second communication is set
It is ready for use on the method for transmitting signals for executing second aspect description.Second communication equipment can include: memory and with it is described
Processor, the transceiver of memory coupling, in which: the transceiver is used for logical with other communication equipments (such as the first communication equipment)
Letter.The memory is used to store the realization code of the method for transmitting signals of second aspect description, and the processor is for executing
The program code stored in the memory, i.e., method for transmitting signals or second aspect provided by execution second aspect can
Any one provided method for transmitting signals in the embodiment of energy.
7th aspect, provides a kind of communication system, and the communication system includes: that the first communication equipment and the second communication are set
It is standby.Wherein:
First communication equipment can be the first communication equipment that the above-mentioned third aspect or the 5th aspect describe, can also be with
It is the second communication equipment that above-mentioned fourth aspect or the 6th aspect describe.
Eighth aspect provides a kind of computer readable storage medium, instruction is stored on the readable storage medium storing program for executing, when
When it runs on computers, so that computer executes the method for transmitting signals of above-mentioned first aspect description.
9th aspect, provides a kind of computer readable storage medium, instruction is stored on the readable storage medium storing program for executing, when
When it runs on computers, so that computer executes the method for transmitting signals of above-mentioned second aspect description.
Tenth aspect, provides a kind of computer program product comprising instruction, when run on a computer, so that
Computer executes the method for transmitting signals of above-mentioned first aspect description.
Tenth on the one hand, and provide a kind of computer program product comprising instruction makes when run on a computer
Obtain the method for transmitting signals that computer executes above-mentioned second aspect description.
12nd aspect, this application provides a kind of device, the devices can include: processor, and it is coupled in the place
Manage one or more interfaces of device.Wherein, the processor can be used for calling signal provided by first aspect from memory
The realization journey of transmission method or any one provided method for transmitting signals in the possible embodiment of first aspect
Sequence, and execute the instruction that the program includes.The interface can be used for exporting the processing result of the processor.
13rd aspect, this application provides a kind of device, the devices can include: processor, and it is coupled in the place
Manage one or more interfaces of device.Wherein, the processor can be used for calling signal provided by second aspect from memory
The realization journey of transmission method or any one provided method for transmitting signals in the possible embodiment of second aspect
Sequence, and execute the instruction that the program includes.The interface can be used for exporting the processing result of the processor.
Detailed description of the invention
Technical solution in ord to more clearly illustrate embodiments of the present application or in background technique below will be implemented the application
Attached drawing needed in example or background technique is illustrated.
Figure 1A is the signal that multiple signals on a kind of multiple carrier waves provided by the present application overlap in receiving time
Figure;
Figure 1B is the signal that multiple signals on a kind of multiple carrier waves provided by the present application overlap in receiving time
Figure;
Fig. 2 is the configuration diagram of wireless communication system provided by the present application;
Fig. 3 A-3D be this application involves multiple beam forming network in several PDCCH transmitting scenes schematic diagram;
Fig. 4 be this application involves wave beam training process schematic diagram;
Fig. 5 is the hardware structure schematic diagram for the terminal device that one embodiment of the application provides;
Fig. 6 is the hardware structure schematic diagram for the network equipment that one embodiment of the application provides;
Fig. 7 is a kind of flow diagram of method for transmitting signals provided by the present application;
Fig. 8 A is the signal that multiple signals on a kind of multiple carrier waves provided by the present application overlap in receiving time
Figure;
Fig. 8 B is the signal that multiple signals on a kind of multiple carrier waves provided by the present application overlap in receiving time
Figure;
Fig. 8 C is the signal that multiple signals on a kind of multiple carrier waves provided by the present application overlap in receiving time
Figure;
Fig. 9 is that the embodiment of the present application provides wireless communication system, the functional block of the first communication equipment and the second communication equipment
Figure;
Figure 10 is a kind of structural schematic diagram of communication chip provided by the embodiments of the present application.
Specific embodiment
The term that presently filed embodiment part uses is only used for explaining the specific embodiment of the application, rather than
It is intended to limit the application.
Fig. 2 shows this application involves wireless communication system.The wireless communication system can work in high-frequency band
On, it is not limited to long term evolution (Long Term Evolution, LTE) system, can also be that the 5th generation of the following evolution is mobile logical
Believe (the5th Generation, 5G) system, (New Radio, NR) system of newly eating dishes without rice or wine, machine and machine communication (Machine
To Machine, M2M) system etc..As shown in Fig. 2, wireless communication system 100 can include: one or more network equipments 101,
One or more terminals 103 and core net (not shown).Wherein:
The network equipment 101 can be base station, and base station can be used for being communicated with one or more terminals, can be used for
Communicated with one or more base stations with part terminal function (such as macro base station and micro-base station, such as access point, between
Communication).Base station can be TD SDMA (Time Division Synchronous Code Division
Multiple Access, TD-SCDMA) base transceiver station (Base Transceiver Station, BTS) in system,
It can be the evolved base station (Evolutional Node B, eNB) and 5G system, (NR) system of newly eating dishes without rice or wine in LTE system
In base station.In addition, base station may be access point (Access Point, AP), transmitting-receiving point (Transmission Receive
Point, TRP), center cell (Central Unit, CU) or other network entities, and may include the above network entity
Some or all of functions in function.
Terminal 103 can be distributed in entire wireless communication system 100, can be static, be also possible to mobile.?
In some embodiments of the present application, terminal 103 can be mobile device, mobile station (mobile station), mobile unit
(mobile unit), M2M terminal, radio-cell, remote unit, terminal agent, mobile client etc..
In the application, wireless communication system 100 is multi-beam communication system.Wherein:
The network equipment 101 can be configured with large-scale aerial array, and control antenna array using beam forming technique
Column form the wave beam being differently directed.In order to cover entire cell 107, the network equipment 101 needs the wave using multiple and different directions
Beam.
For example, the network equipment 101 can be successively using the beam transmission wireless signal being differently directed during downlink
(such as downlink reference signal (Reference Signal, RS) and/or downlink synchronous signal block (Synchronization
Signal block, SS block)), which is referred to as beam scanning (Beam scanning).Meanwhile 103 pairs of terminal hairs
Ejected wave beam measures, and determines the signal quality for the launching beam that terminal 103 can receive, which is referred to as wave beam measurement
(Beam measurement)。
In future communication systems, terminal 103 can also be configured with aerial array, can also convert different wave beams into
The transmitting-receiving of row signal.In other words, in wireless communication system 100, the network equipment 101 and terminal 103 may all use more waves
Shu Jinhang communication.In downlink transmission process, the network equipment 101 can be such as Fig. 3 A-3D to the mode that terminal 103 sends PDCCH
It is shown:
Fig. 3 A shows the network equipment 101, and using a transmission wave beam, (such as wave beam a) sends PDCCH, terminal to terminal 103
103 receive PDCCH using a reception wave beam (such as wave beam 1).In the scene shown in Fig. 3 A, wave beam a and wave beam 1 are pairings
's.
Fig. 3 B shows the network equipment 101, and using a transmission wave beam, (such as wave beam a) sends PDCCH, terminal to terminal 103
103 receive PDCCH using multiple reception wave beams (such as wave beam 1,3).In the scene shown in Fig. 3 B, wave beam a and wave beam 1 are pairings
, wave beam a and wave beam 3 are pairings.
Fig. 3 C shows the network equipment 101 and sends PDCCH to terminal 103 using multiple transmission wave beams (such as wave beam a, b), eventually
End 103 receives PDCCH using multiple reception wave beams (such as wave beam 1, wave beam 3).In the scene shown in Fig. 3 C, wave beam a and wave beam 1
It is pairing, wave beam b and wave beam 3 are pairings.
Fig. 3 D shows terminal 103 and sends PDCCH, terminal to terminal 103 using multiple transmission wave beams (such as wave beam a, b)
103 receive PDCCH using same reception wave beam (such as wave beam 1).In the scene shown in Fig. 3 D, wave beam a and wave beam 1 are pairings
, wave beam b and wave beam 1 are pairings.
Correspondingly, 4 kinds of PDCCH shown in Fig. 3 A-3D send scene and are readily applicable to the network equipment 101 to terminal 103
The scene of PDSCH is sent, which is not described herein again.
For the ease of difference description, the transmitting-receiving wave beam of the network equipment can be known as base station beam, including Base Transmitter wave
Beam (or base station transmission wave beam) and base station receive wave beam.One network equipment can have multiple Base Transmitter wave beams, and more
A base station receives wave beam.The transmitting-receiving wave beam of terminal device is known as terminal beams, including terminal transmission wave beam (or terminal is sent
Wave beam) and terminal reception wave beam.One terminal device can have multiple terminal transmission wave beams and multiple terminals receive wave beam.
The Base Transmitter wave beam and terminal of pairing shown in Fig. 3 A-3D receive wave beam and terminal transmission wave beam and base station
Receiving wave beam is to realize pairing by wave beam training process.Referring to fig. 4, be this application involves wave beam training process.Such as
E described in Fig. 4 is the training process for the wave beam that the network equipment is sent.The network equipment sends multiple wave beams, and terminal is to the network equipment
The multiple wave beams sent measure, and preferably wave beam in multiple wave beams of network equipment transmission is notified to set to network
It is standby.Otherwise if figure d show the training process of the wave beam of terminal transmission, terminal sends multiple wave beams, and the network equipment sends out terminal
The multiple wave beams sent measure, and preferably wave beam in multiple wave beams of terminal transmission is notified to terminal.Pass through wave beam
Training process, the network equipment obtains and terminal communicates preferably N number of wave beam to (Beam Pair Link, BPL).The wave beam pair
BPL be<Bx, B ' x>, wherein Bx represents the transmission wave beam of the network equipment, the reception wave beam of B ' x GC group connector, and<By, B ' y
>, wherein the transmission wave beam of By GC group connector, B ' y represent the reception wave beam of the network equipment.The network equipment is in the communication of subsequent and terminal
It can be carried out data transmission in the process using this N number of BPL.Wherein, preferably wave beam mentioned herein refers to the channel matter of the wave beam
Amount information (such as Reference Signal Received Power (Reference Signal Received Power, RSRP), channel quality refer to
Show (Channel Quality Indicator, CQI) etc.) it is higher.
In the application, each base station receives wave beam and is corresponding with a Base Transmitter wave beam.Here, base station receives wave beam
It is corresponding with Base Transmitter wave beam to refer to: directive property having the same.Optionally, base station receives wave beam Base Transmitter corresponding with its
Wave beam can be identical wave beam, and the two can share identical R-T unit.Optionally, base station receives wave beam base corresponding with its
The corresponding antenna port of launching beam of standing, which can be, meets quasi- co-located (Quasi Co-location, QCL).
In the application, each terminal receives wave beam and is corresponding with a terminal transmission wave beam.Here, terminal receives wave beam
It is corresponding with terminal transmission wave beam to refer to: directive property having the same.Optionally, terminal receives wave beam terminal transmission corresponding with its
Wave beam can be identical wave beam, and the two can share identical R-T unit.Optionally, terminal receives wave beam end corresponding with its
The end corresponding antenna port of launching beam, which can be, meets QCL's.
It should be noted that the wave beam mentioned in the application can be characterized by reference to signal resource, or pass through QCL
Information representation.
This application involves quasi- co-located (Quasi Co-location, QCL) concepts.QCL can be used to assist description user's
Receiving side wave beam forming information and reception process.The QCL information may include some spatial character parameters, as angle of departure correlation is joined
Number, the horizontal direction angle of departure (Azimuth angle of Departure, AoD), vertically to the angle of departure (Zenith angle of
Departure, ZoD), horizontal direction angle spread (Azimuth angle spread of Departure, ASD), vertically to angle
Degree extension (Zenith angle spread of Departure, ZSD), or reach angle-dependent parameter, horizontal direction angle of arrival
(Azimuth angle of Arrival, AoA), it is horizontal vertically to the angle of departure (Zenith angle of Arrival, ZoA)
To angle spread (Azimuth angle spread of Arrival, ASA), vertically to angle spread (Zenith angle
Spread of Arrival, ZSA) etc..These spatial character parameters describe reference signal (Reference Signal, RS)
Spatial channel characteristics between antenna port.The QCL information can also include that space receives (Receive, RX) parameter, in addition, QCL
Information at least one of further includes but is not limited to following parameter: delay extension, Doppler frequency shift, average increases doppler spread
Benefit and average retardation.Optionally, the spatial character parameter which includes may be the other parameters in addition to above-mentioned parameter, this
In without limitation.And be to save the network equipment to indicate expense to the QCL of terminal, a kind of prior art of candidate is the network equipment
It is reported before being sent to the QCL instruction restriction terminal of terminal N number of based on channel state information reference signals (Channel
State Information Reference Signal, CSI-RS) one of transmitting-receiving wave beam centering of measurement is to meet QCL to close
System.That is, the reception wave beam of the modulation reference signals (Demodulation Reference Signal, DMRS) of current data
A reception wave beam with the N number of transmitting-receiving wave beam centering based on CSI-RS measurement reported before terminal is identical.For example, eventually
End is measured by the CSI-RS of the multiple wave beams sent to the network equipment selects it preferably several, such as 4 wave beams, and
Preferably 4 wave beam metrical informations are reported to the network equipment.Wave beam metrical information namely wave beam status information (Beam
Status Information, BSI), content mainly includes reference signal resource index, the Reference Signal Received Power of wave beam
(Reference Signal Received Power, RSRP).On the network equipment is sent to before the QCL instruction terminal of terminal
3rd CSI-RS of transmitting-receiving wave beam centering of 4 of report based on CSI-RS measurement meets QCL relationship, then terminal uses the 3rd
The corresponding wave beam that receives of CSI-RS receives the PDSCH that the network equipment issues.
Signal on different carrier waves can correspond to different QCL and assume information.It illustrates, it is assumed that the transmission of communication equipment
Signal includes A1And A2, the two signals are transmitted on carrier wave 1 and carrier wave 2 respectively, and the two signals are in receiving time
It overlaps, such as signal A1For the signal 1 transmitted on carrier wave 1 in Figure 1A, signal A2For the signal transmitted on carrier wave 1 in Figure 1A
3.Signal A1And A2Respectively a corresponding QCL assumes information.For example, signal A1With signal B1Meet QCL relationship, then communication is set
It is standby to use signal B1Corresponding reception wave beam receives signal A1.Signal A2With signal B2Meet QCL relationship, then communication equipment uses
Signal B2Corresponding reception wave beam receives signal A2.If signal A1With signal A2QCL assume information it is identical, then communication equipment is adopted
Signal A is received with same wave beam1With signal A2If signal A1With signal A2QCL assume that information is different, then communication equipment uses
Different beams receive signal A1With signal A2.The QCL of two signals is identical to be referred to, the reception wave beam of the two signals is identical, two
The QCL difference of signal refers to that the reception wave beam of the two signals is different.The case where the case where multiple signals is with 2 signals is similar,
Details are not described herein again.In the application, QCL, QCL information, QCL assume that information is identical concept.This QCL assumes that information can be by net
Network equipment is indicated to communication equipment (e.g., terminal), is also possible to have predefined in network equipment side and communication equipment side.Signal
The QCL of A assume information be signal B or signal A and signal B be meet QCL hypothesis refer to that communication equipment is receiving signal A
When parameter accepted filter as reference using the space of signal B.Here referenced signal (e.g., signal B) is usually to believe prior to target
A kind of signal of number (e.g., signal A).The QCL hypothesis that this space for defining communication equipment receives information also makes QCL assume class
Type D.Referenced signal type can be reference signal or control channel or common signal etc., be not specifically limited here.
In NR system or the wireless communication system of the following evolution, communication equipment can be in multiple carrier wave (Component
Carrier, CC) or a carrier wave multiple band chunks (BandWidth Part, BWP) transmitting data.Wherein, communication equipment
It can be terminal or the network equipment.One carrier wave can be divided at least two BWP according to frequency domain.At present in standard, same load
Unlike signal on wave can correspond to different QCL and assume information, and the unlike signal on different carrier waves can also correspond to different
QCL assumes information.It is preconfigured or according to the determination of predefined mode that QCL assumes that information can be the network equipment.As N (N
For the positive integer more than or equal to 2) a transmission signal is when respectively corresponding different QCL and assuming information, it is thus necessary to determine that it is one or more
Default QCL assumes information to receive this N number of transmission signal.In the application, can according to this it is N number of transmission signal carrier index,
At least one of system parameter, signal type, wireless network identification type default QCL hypothesis information to determine.For the ease of
Default QCL is assumed that information is named as the first QCL and assumes information in each of the embodiments described below by description.Determine that default QCL assumes
The mode of information will be described in more detail in following each method embodiments.
It should be noted that the application is not only suitable for the scene of multiple carrier waves or multiple BWP, be also applied for a carrier wave or
The scene of multiple signal frequency division multiplexings on one BWP, is not specifically limited here.In following embodiments by taking carrier wave as an example into
Row illustrates that the implementation under the scene of BWP is similar, without repeating.
The terminal 200 of some embodiments of the present application offer is shown with reference to Fig. 5, Fig. 5.As shown in figure 5, terminal 200 can
Include: one or more terminal handlers 201, memory 202, receiver 205, transmitter 206, coupler 207, antenna 208,
Terminal interface 202 and input/output module (including audio input output module 210, keyboard input module 211 and display
Device 212 etc.).These components can be connected by bus 204 or other modes, and Fig. 5 by bus for being connected.Wherein:
Transmitter 206 can be used for carrying out transmitting processing to the signal that terminal handler 201 exports, such as pass through beam forming
Realize directive sending.Receiver 205 can be used for carrying out reception processing to the received mobile communication signal of antenna 208, such as pass through
Beam forming realizes directional reception.In some embodiments of the present application, 305/ receiver 306 of transmitter may include wave beam at
Shape controller, for signal/reception signal is sent multiplied by weight vectors W1 ... ..., Wm, controlling the directional transmissions of signal/connect
It receives.The base station beam switching referred in the application can be changed by the beam forming controller in 305/ receiver 306 of transmitter
Become transmission signal/reception signal to realize multiplied by weight vectors.
In some embodiments of the present application, transmitter 206 and receiver 205 can regard a radio modem as.
In terminal 200, the quantity of transmitter 206 and receiver 205 may each be one or more.Antenna 208 can be used for pass
Electromagnetic energy in defeated line is converted into the electromagnetic wave in free space, or the electromagnetic wave in free space is converted into transmission line
Electromagnetic energy.Coupler 207 is used to the mobile communication signal that antenna 208 receives being divided into multichannel, distributes to multiple receptions
Device 205.
In addition to transmitter 206 shown in fig. 5 and receiver 205, terminal 200 may also include other communication components, such as GPS
Module, bluetooth (Bluetooth) module, Wireless Fidelity (Wireless Fidelity, Wi-Fi) module etc..It is not limited to above-mentioned
The wireless communication signals of statement, terminal 200 can also support other wireless communication signals, such as satellite-signal, short-wave signal etc.
Deng.It is not limited to wirelessly communicate, terminal 200 can be configured with wired network interface (such as LAN interface) to support wire communication.
The input/output module can be used for realizing the interaction between terminal 200 and terminal/external environment, can mainly include
Including audio input output module 210, keyboard input module 211 and display 212 etc..Specifically, the input and output mould
Block may also include that camera, touch screen and sensor etc..Wherein, the input/output module passes through terminal interface 209
It is communicated with terminal handler 201.
Memory 202 is coupled with terminal handler 201, for storing various software programs and/or multiple groups instruction.Specifically
, memory 202 may include the memory of high random access, and may also comprise nonvolatile memory, such as one or
Multiple disk storage equipments, flash memory device or other non-volatile solid-state memory devices.Memory 202 can store an operating system
(following abbreviation systems), such as the embedded OSs such as ANDROID, IOS, WINDOWS or LINUX.Memory 202 is also
It can store network communication program, which can be used for and one or more optional equipments, one or more terminals
Equipment, one or more network equipments are communicated.Memory 202 can also store terminal interface program, the terminal interface journey
Sequence can be shown by patterned operation interface by the content image of application program is true to nature, and pass through menu, dialogue
The input controls such as frame and key receive terminal and operate to the control of application program.
In some embodiments of the present application, one or more embodiments that memory 202 can be used for storing the application are mentioned
Realization program of the signal acceptance method of confession in 200 side of terminal.The signal that one or more embodiments about the application provide
The realization of method of reseptance, please refers to subsequent embodiment.
Terminal handler 201 can be used for reading and executing computer-readable instruction.Specifically, terminal handler 201 can be used
In the signal acceptance method that one or more embodiments of the program that calling is stored in memory 212, such as the application provide
Realization program in 200 side of terminal, and execute the instruction that the program includes.
It should be understood that terminal 200 can be Fig. 2 shows wireless communication system 100 in terminal 103, it is implementable to be
Mobile device, mobile station (mobile station), mobile unit (mobile unit), radio-cell, remote unit, terminal
Agency, mobile client, client device (Customer Premise Equipment, CPE) etc..
It should be noted that terminal 200 shown in fig. 5 is only a kind of implementation of the embodiment of the present application, practical application
In, terminal 200 can also include more or fewer components, here with no restriction.
The network equipment 300 of some embodiments of the present application offer is shown with reference to Fig. 6, Fig. 6.As shown in fig. 6, network is set
Standby 300 can include: one or more network equipment processors 301, network interface 303, transmitter 305, receive memory 302
Device 306, coupler 307 and antenna 308.These components can be connected by bus 304 or other formulas, and Fig. 6 by bus to be connected
It is connected in example.Wherein:
Network interface 303 can be used for the network equipment 300 and other communication equipments, such as other network equipments, be communicated.
Specifically, network interface 303 can be wireline interface.
Transmitter 305 can be used for carrying out transmitting processing to the signal that network equipment processor 301 exports, such as pass through wave beam
Directive sending is realized in forming.Receiver 306 can be used for carrying out reception processing to the received mobile communication signal of antenna 308, such as
Directional reception is realized by beam forming.In some embodiments of the present application, 305/ receiver 306 of transmitter may include wave
Beam shaping controller is used for transmission signal/reception signal multiplied by weight vectors W ' 1 ... ..., W ' m, controls the orientation hair of signal
It penetrates/receives.The base station beam switching referred in the application can be controlled by the beam forming in 305/ receiver 306 of transmitter
Device changes transmission signal/reception signal and realizes multiplied by weight vectors.
In some embodiments of the present application, transmitter 305 and receiver 306 can regard a radio modem as.
In the network equipment 300, the quantity of transmitter 305 and receiver 306 may each be one or more.Antenna 308 can be used for
Electromagnetic energy in transmission line is converted into the electromagnetic wave in free space, or the electromagnetic wave in free space is converted into transmitting
Electromagnetic energy in line.Coupler 307 can be used for mobile communication number being divided into multichannel, distribute to multiple receivers 306.
Memory 302 is coupled with network equipment processor 301, for storing various software programs and/or multiple groups instruction.Tool
Body, memory 302 may include the memory of high random access, and may also comprise nonvolatile memory, such as one
Or multiple disk storage equipments, flash memory device or other non-volatile solid-state memory devices.Memory 302 can store operation system
It unites (following abbreviation systems), such as the embedded OSs such as uCOS, VxWorks, RTLinux.Memory 302 can also store
Network communication program, which can be used for and one or more optional equipments, one or more terminal devices, and one
Or multiple network equipments are communicated.
Network equipment processor 301 can be used for carrying out wireless channel management, implementation calling and the foundation of communication link and tear open
It removes, and provides cell switching control etc. for the terminal in this control zone.Specifically, network equipment processor 301 can include: pipe
Reason/communication module (Administration Module/Communication Module, AM/CM) (for speech channel exchange and
The center of information exchange), basic module (Basic Module, BM) (for complete call treatment, signaling processing, radio resource
Management, the management of Radio Link and circuit maintenance function), code conversion and submultiplex unit (Transcoder and
SubMultiplexer, TCSM) (for completing multiplexing and demultiplexing and code conversion function) etc..
In the embodiment of the present application, network equipment processor 301 can be used for reading and executing computer-readable instruction.Specifically
, network equipment processor 301 can be used for calling the program being stored in memory 302, such as the one or more of the application
The signal acceptance method that embodiment provides and executes the instruction that the program includes in the realization program of 300 side of the network equipment.
It should be understood that the network equipment 300 can be Fig. 2 shows wireless communication system 100 in the network equipment 101,
It is implementable be base transceiver station, wireless transceiver, a basic service set (BSS), an extended service set (ESS), NodeB,
ENodeB, access point or TRP etc..
It should be noted that the network equipment 300 shown in fig. 6 is only a kind of implementation of the embodiment of the present application, it is practical
In, the network equipment 300 can also include more or fewer components, here with no restriction.
Based on aforementioned wireless communication system 100, terminal 200 and the corresponding embodiment of the network equipment 300, the application
Embodiment provides a kind of signal acceptance method.It is a kind of process signal of signal acceptance method provided by the present application referring to Fig. 7
Figure.As shown in fig. 7, this method comprises the following steps.
S701, the first communication equipment determine that first quasi- co-located (QCL) assumes letter according to the first parameter of N number of transmission signal
Breath, the first parameter include carrier index, system parameter, signal type, wireless network identification type, when field type or resource index
At least one of, N is the positive integer more than or equal to 2.
Wherein, at least one can refer to carrier index, system parameter, signal type, wireless network identification type or when
Any one in field type or resource index or any combination.
In the embodiment of the present invention, when the first communication equipment needs the QCL of received N number of transmission signal to assume INFORMATION OF INCOMPLETE
When identical, the first communication equipment is it needs to be determined that one or more QCL assume information.Usually only it needs to be determined that a kind of QCL assumes letter
Breath, below be mainly illustrated so that a kind of QCL assumes information as an example in embodiment.Wherein, the QCL of N number of transmission signal
Refer to assuming that INFORMATION OF INCOMPLETE is identical, there are the QCL of at least two transmission signals to assume that information is different in N number of transmission signal.It can
Choosing, the first quasi- co-located hypothesis information that the first communication equipment determines can be the co-located hypothesis letter of standard of N number of transmission signal
One of breath.
It should be noted that the first communication equipment can know that needs obtain which signal, example on which carrier wave in advance
Such as, if the first communication equipment is terminal, terminal can be configured to corresponding running time-frequency resource according to the network equipment (such as base station)
Upper to receive corresponding channel or signal, optionally, this configuration can be indicated to terminal by semi-static signaling by the network equipment,
It can be by the network equipment by dynamic scheduling information, as Downlink Control Information is handed down to terminal.
It should be noted that the network equipment is its configuration or association carrier index, system ginseng for each transmission signal
Number, signal type.In the embodiment of the present invention, system parameter be can include but is not limited to: SCS.Signal, which is transmitted, in the network equipment is
It is transmitted on its corresponding carrier wave of carrier index configured.For Physical Downlink Shared Channel (Physical Downlink
Shared Channel, PDSCH), Physical Uplink Shared Channel (Physical Uplink Shared Channel, PUSCH)
And the these types of channel of Physical Downlink Control Channel (Physical Downlink Control Channel, PDCCH) or signal
For, the network equipment can also configure wireless network identification for it.For example, the corresponding wireless network identification type of PDSCH include but
It is not limited to following several: paging-radio network temporary identifier (Paging-Radio Network Tempory Identity, P-
RNTI), system information-radio network temporary identifier (System Information-Radio Network Tempory
Identity, SI-RNTI), random access response-radio network temporary identifier (RACH response-Radio Network
Tempory Identity, RA-RNTI), configuration scheduling-radio network temporary identifier (Configued Scheduling-
Radio Network Tempory Identity, CS-RNTI), Cell Radio Network Temporary Identifier/Identity, Cell-RNTI (Cell-Radio
Network Tempory Identity, C-RNTI).
In one implementation, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N.If
The corresponding system parameter of M carrier wave is not exactly the same, then the first communication equipment is by the smallest load of system parameter in M carrier wave
The co-located hypothesis information of standard of transmission signal on wave is determined as the first quasi- co-located hypothesis information.It is illustrated so that M is equal to 2 as an example,
The corresponding SCS of carrier wave 1 is 15kHz, and the corresponding SCS of carrier wave 2 is 60kHz, then is reference with the SCS of 15kHz, sometime
I, the signal transmitted on carrier wave 1 is PDSCH, and the signal transmitted on carrier wave 2 is CSI-RS, PDCCH and PDSCH, is at this time to protect
PDSCH on card carrier wave 1 can do complete reception based on a QCL hypothesis, and the first communication equipment can be by the PDSCH on carrier wave 1
QCL assume information as above-mentioned first QCL assume information, thus according to the PDSCH on carrier wave 1 QCL assume information go to connect
Record multiple channels or the signal on wave 1 and carrier wave 2.In NR system, system parameter is numerology, numerology
Usually characterized by SCS.Therefore, the system parameter of two carrier waves is identical, and in other words, the SCS of two carrier waves is identical.Two
The system parameter of carrier wave is different, and in other words, the SCS of two carrier waves is different.In the communication system of the following evolution, system parameter
Other parameters can also be characterized as, the application is not especially limited.
Wherein, the corresponding system parameter of M carrier wave is not exactly the same refers to, there are at least two loads in M carrier wave
The system parameter of wave is not identical.Determine that QCL assumes information according to the system parameter of N number of transmission signal on M carrier wave, and with right
The QCL of the transmission signal of minimum system parameter has been answered to assume information as the first quasi- co-located hypothesis information, it is ensured that in M carrier wave
Each transmission signal on each carrier wave can do complete reception based on a QCL hypothesis, so that N number of transmission signal can be improved
Receptivity.
In another implementation, N number of transmission signal is carried on M carrier wave, if the corresponding system of M carrier wave
Parameter of uniting is identical, then the first communication equipment is by the quasi- co-located vacation of the transmission signal in M carrier wave on the smallest carrier wave of carrier index
If information is determined as the first quasi- co-located hypothesis information.Transmission signal on M carrier wave does not have the timesharing of apparent priority, begins
Defaulted eventually using the co-located hypothesis information of standard of the transmission signal on the carrier wave of minimum carrier index as the first quasi- co-located hypothesis information,
The reception complexity of communication equipment can be reduced.
It is illustrated so that M is equal to 2 as an example, the carrier index of carrier wave 1 is 0, and the carrier index of carrier wave 2 is 1, at some
I is carved, the signal transmitted on carrier wave 1 is PDSCH, and the signal transmitted on carrier wave 2 is CSI-RS, PDCCH and PDSCH, then first
The QCL of PDSCH on carrier wave 1 can be assumed that information assumes information as above-mentioned first QCL by communication equipment, thus according to carrier wave
The QCL of PDSCH on 1 assumes that information goes to receive carrier wave 1 and multiple channels or signal on carrier wave 2.
In another implementation, N number of transmission signal is carried on M carrier wave, if the corresponding system of M carrier wave
Parameter of uniting is identical, then the co-located hypothesis information of standard of the transmission signal in M carrier wave on main carrier is determined as by the first communication equipment
First quasi- co-located hypothesis information.Transmission signal on usual main carrier is more important compared to the transmission signal on other carrier waves,
And the control channel on main carrier can it is cross-carrier dispatch other carrier waves on Traffic Channel, therefore, the transmission on preferential main carrier
The performance of N number of transmission signal on M carrier wave of signal maximizing.
It is illustrated so that M is equal to 2 as an example, carrier wave 1 is main carrier, and the signal transmitted on sometime i, carrier wave 1 is
PDSCH, and the signal transmitted on carrier wave 2 is CSI-RS, PDCCH and PDSCH, then the first communication equipment can will be on carrier wave 1
The QCL of PDSCH assumes that information assumes information as above-mentioned first QCL, so that the QCL according to the PDSCH on carrier wave 1 assumes information
It goes to receive carrier wave 1 and multiple channels or signal on carrier wave 2.
In another implementation, if in N number of transmission signal including common signal, the first communication equipment is by public letter
Number co-located the hypothesiss information of standard be determined as the first co-located hypothesis information of standard.In the application, common signal includes synchronization signal block.Its
In, synchronization signal block is the abbreviation (synchronization signal block includes synchronization signal and broadcast channel block) of synchronization signal, broadcast channel block,
Synchronization signal block specifically includes primary synchronization signal, secondary synchronization signal, in the demodulated reference signal of broadcast channel and broadcast channel
It is at least one.Common signal can also include that broadcasting service channel e.g. carries the PDSCH of system information, carry paging and disappear
The PDSCH of breath, or carry the PDSCH etc. of random access response.Optionally, which is also possible to any other one
The signal of broadcast type, is not specifically limited here.
Specifically, the first communication equipment is by the standard of the common signal if in N number of transmission signal including 1 common signal
Co-located hypothesis information is determined as the first quasi- co-located hypothesis information.
If including that P common signal and P common signal are carried on O carrier wave in N number of transmission signal, first leads to
The co-located hypothesis information of standard that main carrier in O carrier wave is indexed the transmission signal on corresponding carrier wave by letter equipment is determined as the first standard
Co-located hypothesis information, P are the positive integer less than or equal to N and more than or equal to 2, and O is the positive integer less than or equal to P.
Alternatively, if including that P common signal and P common signal are carried on O carrier wave in N number of transmission signal,
The co-located hypothesis information of standard of transmission signal in O carrier wave on the smallest carrier wave of carrier index is determined as the by the first communication equipment
Surely co-located hypothesis information, P are the positive integer less than or equal to N and more than or equal to 2, and O is the positive integer less than or equal to P.
In other words, when the common signal in N number of transmission signal is respectively carried on multiple carrier waves, it is also necessary into one
Step is come to select a carrier wave from this multiple carrier wave in conjunction with carrier index, and then by the standard of the transmission signal on the carrier wave of final choice
Co-located hypothesis information is determined as the first quasi- co-located hypothesis information.
In another implementation, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N.
If the corresponding system parameter of M carrier wave is not exactly the same and M carrier wave in the smallest carrier wave of system parameter include K,
First communication equipment is by the co-located vacation of standard of the transmission signal of the highest priority of signal type on the smallest carrier wave of K system parameter
If information is determined as the first quasi- co-located hypothesis information.The higher signal of priority is usually more important, this kind of implementation can
The best performance for guaranteeing prior transmission signal, thus the performance of maximizing whole system.For example, with reference to Fig. 8 B, carrier wave 1
It is 15kHz with the corresponding SCS of carrier wave 3, and the corresponding SCS of carrier wave 2 is 60kHz, the signal transmitted on carrier wave 1 is PDSCH, and is carried
The signal transmitted on wave 2 is CSI-RS, PDCCH and PDSCH, and the signal transmitted on carrier wave 3 is RS, the smallest carrier wave of system parameter
Including carrier wave 1 and carrier wave 3, then using the signal type of PDSCH and RS as foundation, the QCL of the high PDSCH of selection signal type assumes
Information assumes information as above-mentioned first QCL, to assume that information goes to receive carrier wave 1, load according to the QCL of the PDSCH on carrier wave 1
Multiple channels or signal on wave 2 and carrier wave 3.
In other words, when the smallest carrier wave of system parameter includes multiple, it is also necessary to further combined with the signal on carrier wave
Type selects a transmission signal from the multiple transmission signals carried on this multiple carrier wave, and then by the transmission of final choice
The co-located hypothesis information of standard of signal is determined as the first quasi- co-located hypothesis information.When the high transmission signal of signal type and other signals
It is scheduled in when being transmitted in identical OFDM symbol, the QCL of the high transmission signal of signal type is preferentially assumed that information is made
Assume that information goes to receive multiple signals for default QCL.
In another implementation, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N.
If the corresponding system parameter of M carrier wave is not exactly the same and M carrier wave in the smallest carrier wave of system parameter include K,
First communication equipment is by the co-located vacation of standard of the transmission signal in the smallest carrier wave of K system parameter on the smallest carrier wave of carrier index
If information is determined as the first quasi- co-located hypothesis information, M is the positive integer less than or equal to N, and K is the positive integer less than or equal to M.In K
Transmission signal on a carrier wave does not have the timesharing of apparent priority, is defaulted always with the transmission on the carrier wave of minimum carrier index
The co-located hypothesis information of standard of signal can reduce the reception complexity of communication equipment as the first quasi- co-located hypothesis information.For example, ginseng
See Fig. 8 B, carrier wave 1 and the corresponding SCS of carrier wave 3 are 15kHz, and the corresponding SCS of carrier wave 2 is 60kHz, the signal transmitted on carrier wave 1
For PDSCH, and the signal transmitted on carrier wave 2 is CSI-RS, PDCCH and PDSCH, and the signal transmitted on carrier wave 3 is RS, system ginseng
The smallest carrier wave of number includes carrier wave 1 and carrier wave 3, then using the carrier index of carrier wave 1 and carrier wave 3 as foundation, selects carrier index small
Carrier wave 1 on PDSCH QCL assume information as above-mentioned first QCL assume information, thus according to the PDSCH's on carrier wave 1
QCL assumes that information goes to receive carrier wave 1, carrier wave 2 and multiple channels or signal on carrier wave 3.
In other words, when the smallest carrier wave of system parameter includes multiple, it is also necessary to further combined with carrier index come from
This multiple carrier wave selects a carrier wave, and then the co-located hypothesis information of standard of the transmission signal on the carrier wave of final choice is determined as
First quasi- co-located hypothesis information.
In another implementation, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N.
If the corresponding system parameter of M carrier wave is not exactly the same and M carrier wave in the smallest carrier wave of system parameter include K,
The standard that main carrier in the smallest carrier wave of K system parameter is indexed the transmission signal on corresponding carrier wave by the first communication equipment is co-located
Assuming that information is determined as the first quasi- co-located hypothesis information.Transmission signal on usual main carrier is compared to the transmission letter on other carrier waves
It is number more important, and the control channel on main carrier can the cross-carrier Traffic Channel dispatched on other carrier waves, it is therefore, preferential main
The performance of N number of transmission signal on transmission M carrier wave of signal maximizing on carrier wave.For example, with reference to Fig. 8 B, carrier wave 1 and load
The corresponding SCS of wave 3 is 15kHz, and the corresponding SCS of carrier wave 2 is 60kHz, and the signal transmitted on carrier wave 1 is PDSCH, and carrier wave 2
The signal of upper transmission is CSI-RS, PDCCH and PDSCH, and the signal transmitted on carrier wave 3 is RS, the smallest carrier wave packet of system parameter
Carrier wave 1 and carrier wave 3 are included, then the QCL of the PDSCH on main carrier 1 is selected to assume that information assumes information as above-mentioned first QCL, from
And assume that information goes to receive the multiple channels or signal on carrier wave 1, carrier wave 2 and carrier wave 3 according to the QCL of the PDSCH on carrier wave 1.
In other words, when the smallest carrier wave of system parameter includes multiple, it is also necessary to further combined with carrier index come from
A carrier wave is selected in this multiple carrier wave, and then the co-located hypothesis information of standard of the transmission signal on the carrier wave of final choice is determined
For the first quasi- co-located hypothesis information.
In another implementation, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N.
If the corresponding system parameter of M carrier wave is not exactly the same and M carrier wave in transmission letter on the smallest carrier wave of system parameter
Number include L, then the transmission signal that the first communication equipment transmits the highest priority of signal type in signal for L it is quasi- co-located
Assuming that information is determined as the first quasi- co-located hypothesis information, L is the positive integer less than or equal to N.The higher signal of priority is usually more
More important, this kind of implementation can guarantee the best performance of prior transmission signal, thus maximizing whole system
Performance.For example, with reference to Fig. 8 C, the corresponding SCS of carrier wave 1 is 15kHz, and the corresponding SCS of carrier wave 2 is 60kHz, is transmitted on carrier wave 1
Signal be CSI-RS and PDSCH, include 2 transmission signals on the smallest carrier wave 1 of system parameter, then with CSI-RS and PDSCH
Signal type be foundation, the QCL of the high PDSCH of selection signal type assumes that information assumes information as above-mentioned first QCL, from
And assume that information goes to receive the multiple channels or signal on carrier wave 1 and carrier wave 2 according to the QCL of the PDSCH on carrier wave 1.
In other words, when the transmission signal on the smallest carrier wave of system parameter includes multiple, it is also necessary to further combined with
Signal type on carrier wave to select a transmission signal from this multiple transmission signal, and then by the transmission signal of final choice
Co-located the hypothesiss information of standard be determined as the first co-located hypothesis information of standard.
In another implementation, if the corresponding signal type of N number of transmission signal includes at least two, the first communication
The co-located hypothesis information of standard of the transmission signal of the highest priority of signal type in N number of transmission signal is determined as the first standard by equipment
Co-located hypothesis information.In other words, the first communication equipment selects one according to the priority of signal type from N number of transmission signal
The transmission signal of the highest priority of signal type, and then by the transmission signal of the highest priority of the signal type of final choice
Co-located the hypothesiss information of standard be determined as the first co-located hypothesis information of standard.This kind of implementation also can guarantee prior transmission signal
Best performance, thus the performance of maximizing whole system.
Optionally, the priority of signal type can be ranked up according to following rule.The priority of control signal is greater than
Or the priority equal to service signal.The priority of service signal is greater than or equal to the priority of reference signal.Common signal
Priority is greater than or equal to the priority of special signal.It is preferential that the priority of the high signal of service priority is greater than or equal to business
The priority of the low signal of grade.The priority for being scheduled the signal of control without the network equipment (such as base station) is greater than or equal to need
The network equipment is wanted to be scheduled the priority of the signal of control.The priority of the small signal of system parameter (such as SCS) be greater than or
In the priority of the big signal of system parameter.
Optionally, for synchronization signal block (Synchronous Signal block, SSB), Physical Downlink Control Channel
(Physical Downlink Control Channel, PDCCH), Physical Downlink Shared Channel (Physical Downlink
Shared Channel, PDSCH), for the these types of downlink signal of reference signal (Reference Signal, RS), priority
Relationship can be to meet one of priority relationship as shown in table 1 below or a variety of.Such as, without the 2nd row, only the 3rd row and
When 4 row, following priority relationships are still set up.
Table 1
Priority | Signal type |
1 | SSB |
2 | Broadcast the PDCCH/PDSCH of (Broadcast) |
3 | The PDCCH of unicast (unicast) |
4 | The PDSCH of unicast |
5 | RS |
In table 1, priority number is smaller, and the priority of corresponding signal type is higher.
Further, different reference signal (Reference Signal, RS) can correspond to different priority.Example
Such as, for the channel state information reference signals for carrying out Radio Link Detection (Radio Link Monitor, RLM)
(Channel State Information Reference Signal, CSI-RS), for carrying out wave beam management (Beam
Management, BM) CSI-RS, for carry out channel state information (Channel State Information, CSI) inspection
The CSI-RS of survey, Phase Tracking reference signal (Phase Tracking Reference Signal, PTRS), time-frequency tracking ginseng
It examines for the these types of reference signal of signal (Tracking Reference Signal, TRS), priority relationship can be satisfaction
One of priority relationship as shown in table 2 below is a variety of.Such as, without the 2nd row, when only the 3rd row and 4 row, Xia Shuyou
First grade relationship is still set up.
Table 2
Priority | Signal type |
1 | CSI-RS for RLM |
2 | CSI-RS for BM |
3 | CSI-RS for CSI |
4 | PTRS、TRS |
In table 2, priority number is smaller, and the priority of corresponding signal type is higher.
It optionally,, can be according to letter if the signal type on multiple carrier waves or multiple bandwidth blocks is identical in some transmission time
Number when field type or time domain behavior distinguish signal priority, e.g., in some transmission time, when multiple carrier waves or multiple bandwidth
It, can be according to the when field type of CSI-RS, that is, period CSI-RS, aperiodic CSI-RS is still when signal on block is all CSI-RS
It is semi-statically configured CSI-RS and determines that the QCL of CSI-RS assumes priority, a kind of sequence of candidate priorities is: aperiodic CSI-RS is big
It is semi-statically configured CSI-RS in being equal to, semi-static CSI-RS is more than or equal to period CSI-RS.Similarly, in some transmission time, when
It, can be according to the when field type of SRS when signal on multiple carrier waves or multiple bandwidth blocks is all SRS, that is, period SRS, it is aperiodic
SRS is still semi-statically configured SRS and determines that the QCL of SRS assumes priority, and a kind of sequence of candidate priorities is: aperiodic SRS is greater than
Equal to SRS is semi-statically configured, semi-static SRS is more than or equal to period SRS etc., is not excluded for can having other sortords certainly, this
In be not specifically limited.
In another embodiment, in some transmission time, if the signal type phase on multiple carrier waves or multiple bandwidth blocks
Together, the priority of signal can be distinguished according to the resource index number of these signals, e.g., in some transmission time, when multiple carrier waves or
When signal on multiple bandwidth blocks is all CSI-RS, it can determine that the QCL of CSI-RS is false according to the resource index number of multiple CSI-RS
Setting priority, the method that the determination default QCL of candidate a kind of assumes are defaulted with the smallest CSI-RS of resource call number
QCL assumes that the public QCL as these CSI-RS assumes.Similarly, in some transmission time, when multiple carrier waves or multiple bandwidth blocks
On signal when being all SRS, the priority of signal can be distinguished according to the resource index number of these signals, e.g., in some transmission
It carves, when the signal on multiple carrier waves or multiple bandwidth blocks is all SRS, can determine SRS's according to the resource index number of multiple SRS
QCL assumes that priority, the method that the determination default QCL of candidate a kind of assumes are defaulted with the smallest SRS of resource call number
QCL assume as these SRS public QCL hypothesis.
For random access channel (Random Access Channel, RACH), Physical Uplink Control Channel
(Physical Uplink Control Channel, PUCCH), Physical Uplink Shared Channel (Physical Uplink
Shared Channel, PUSCH), the these types of uplink letter of detection reference signal (Sounding Reference Signal, SRS)
For number, priority relationship can be to meet one of priority relationship as shown in table 3 below or a variety of.Such as, without the 2nd
Row, when only the 3rd row and 4 row, following priority relationships are still set up.
Table 3
Priority | Signal type |
1 | RACH |
2 | PUCCH |
3 | PUSCH |
4 | SRS |
In table 3, priority number is smaller, and the priority of corresponding signal type is higher.
Further, different SRS can correspond to different priority.For example, for for carrying out wave beam management (Beam
Management, BM) SRS, for carry out non-code book (Non Codebook Based, NCB) transmission SRS, for carrying out
For SRS these types SRS of code book (Codebook Based, CB) transmission, priority relationship can be as shown in table 4 below to meet
One of priority relationship or a variety of.Such as, without the 1st row, when only the 2nd row and 3 row, following priority relationships are still
It sets up.
Table 4
Priority | Signal type |
1 | SRS for BM |
2 | SRS for NCB |
3 | SRS for CB |
In table 4, priority number is smaller, and the priority of corresponding signal type is higher.In another implementation, if
The corresponding signal type of N number of transmission signal is identical, then first communication equipment is by wireless network in N number of transmission signal
The co-located hypothesis information of standard of the transmission signal of the highest priority of network identity type is determined as the described first quasi- co-located hypothesis information.
The higher signal of the priority of wireless network identification type is usually more important, this kind of implementation can guarantee prior biography
The best performance of defeated signal, thus the performance of maximizing whole system.
Optionally, the priority of wireless network identification type can be ranked up according to following rule.The nothing of downlink signal
The priority of line network identity is greater than or equal to the priority of the wireless network identification of uplink signal.The high signal of service priority
Wireless network identification priority be greater than or equal to the low signal of service priority wireless network identification priority.It is not necessarily to
The priority that the network equipment (such as base station) is scheduled the wireless network identification of the signal of control, which is greater than or equal to, needs described the
Two communication equipments are scheduled the priority of the wireless network identification of the signal of control.The wireless network identification of common signal it is excellent
First grade is greater than or equal to the priority of the wireless network identification of special signal.
Optionally, the corresponding radio network temporary identifier of PDSCH (Radio Network Tempory Identity,
RNTI) type is including but not limited to following several: paging-radio network temporary identifier (Paging-Radio Network
Tempory Identity, P-RNTI), system information-radio network temporary identifier (System Information-Radio
Network Tempory Identity, SI-RNTI), random access response-radio network temporary identifier (RACH
Response-Radio Network Tempory Identity, RA-RNTI), configuration scheduling-radio network temporary identifier
(Configued Scheduling-Radio Network Tempory Identity, CS-RNTI), cell-radio network face
When identify (Cell-Radio Network Tempory Identity, C-RNTI).The priority of above-mentioned several RNTI types is closed
System can be to meet one of priority relationship as shown in table 5 below or a variety of.Such as, without the 1st row, only the 2nd row and the 3rd
When row, following priority relationships are still set up.
Table 5
Priority | RNTI type |
1 | P-RNTI、SI-RNTI、RA-RNTI |
2 | CS-RNTI |
3 | C-RNTI |
In table 5, priority number is smaller, and the priority of corresponding RNTI type is higher.
Optionally, the corresponding RNTI type of PDCCH is including but not limited to following several: P-RNTI, SI-RNTI, RA-
RNTI, interrupt instruction-radio network temporary identifier (Interruption-Radio Network Tempory Identity,
INT-RNTI), time slot format mark-radio network temporary identifier (Slot Format Indicator-Radio Network
Tempory Identity, SFI-RNTI), CS-RNTI, C-RNTI, semi-static channel state information-radio network temporary identifier
(Semi Persistent Channel State Information-Radio Network Tempory Identity, SP-
CSI-RNTI), transimission power order-Physical Uplink Shared Channel-radio network temporary identifier (Transmission Power
Command PUSCH-Radio Network Tempory Identity, TPC-PUSCH-RNTI), transimission power order-spy
Survey reference signal-radio network temporary identifier (Transmission Power Command SRS-Radio Network
Tempory Identity, TPC-SRS-RNTI).The priority relationship of above-mentioned several RNTI types can be satisfaction such as the following table 6
Shown in one of priority relationship or a variety of.Such as, without the 2nd row, when only the 3rd row and 4 row, following priority relationships
Still it sets up.
Table 6
Priority | RNTI type |
1 | P-RNTI、SI-RNTI、RA-RNTI |
2 | INT-RNTI |
3 | SFI-RNTI |
4 | CS-RNTI |
5 | C-RNTI |
6 | SP-CSI-RNTI |
7 | TPC-PUSCH-RNTI |
8 | TPC-SRS-RNTI |
In table 6, priority number is smaller, and the priority of corresponding RNTI type is higher.
Optionally, the corresponding radio network temporary identifier of PUSCH (Radio Network Tempory Identity,
RNTI) type is including but not limited to following several: CS-RNTI, C-RNTI, SP-CSI-RNTI.Above-mentioned several RNTI types it is excellent
First grade relationship can be to meet one of priority relationship as shown in table 7 below or a variety of.Such as, without the 1st row, only the 2nd
When capable and 3 row, following priority relationships are still set up.
Table 7
Priority | RNTI type |
1 | CS-RNTI |
2 | C-RNTI |
3 | SP-CSI-RNTI |
In table 7, priority number is smaller, and the priority of corresponding RNTI type is higher.
Optionally, it when determining that the first QCL assumes information, may refer to one or more excellent as shown in the following table 8 or table 9
First grade rule come determine the first QCL assume information.
Table 8
Table 9
In above-mentioned table 8 or table 9, priority 1, then determine default QCL it is assumed that working as base first, in accordance with priority 1 if it exists
When the smallest carrier wave of SCS that priority 1 is determined is multiple carrier waves, determine that default QCL assumes according still further to priority 2.Its
In, control resource collection (CORESET) is one piece of running time-frequency resource in control area.
" network equipments configuration default QCL assumes " means the tune that multiple signals are carried out by the network equipment in above-mentioned table
Degree, e.g., when there is SSB, UE default assumes that not having QCL assumes different other signals and SSB in a moment simultaneous interpretation.That is,
When other signals and SSB simultaneous transmission, the QCL hypothesis of the two of default is identical.
It optionally, can also be by main load when the type of the RNTI of multiple signals is P-RNTI/SI-RNTI/RA-RNTI
The QCL of transmission signal on wave or the smallest carrier wave of carrier index assumes that information assumes information as above-mentioned first QCL.
Above-mentioned a variety of implementations can be with any combination, for example, the first communication equipment is first according to the system parameter of carrier wave
The QCL of the transmission signal on the smallest carrier wave of system parameter is selected to assume information, if the transmission on the smallest carrier wave of system parameter
Signal include it is multiple, further from this it is multiple transmission signals in selection signal type highest priority transmission signals, if
The transmission signal of the highest priority of signal type include it is multiple, further from the highest priority of this multiple signal type
The transmission signal for selecting RNTI highest priority in signal is transmitted, the QCL of the transmission signal of final choice is assumed that information determines
Information is assumed for the first QCL.Alternatively, the first communication equipment is according on the smallest carrier wave of system parameter selection system parameter of carrier wave
Transmission signal, if the transmission signal on the smallest carrier wave of system parameter include it is multiple, further from this multiple system parameter
Selection carries the carrier wave of common signal in the smallest carrier wave, and then the QCL of the transmission signal on the carrier wave of final choice is false
If information, which is determined as the first QCL, assumes information.
It should be understood that above-mentioned a variety of implementations, in combination, the sequence of multiple implementations can be any adjustable, and e.g., first
Communication equipment first can also assume information according to the QCL of the transmission signal of the highest priority of signal type in multiple transmission signals,
If the transmission signal of highest priority has multiple and these transmission signals to be located on different carrier waves, according further to carrier wave
The QCL of transmission signal on the smallest carrier wave of system parameter selection system parameter assumes information, and the transmission of final choice is believed
Number QCL assume information be determined as the first QCL assume information.
Alternatively, the first communication equipment first can assume letter according to the QCL of the transmission signal in multiple transmission signals on main carrier
Breath, if the transmission signal on main carrier include it is multiple, further from this it is multiple transmission signals in selection signal type it is preferential
The highest transmission signal of grade, if the transmission signal of the highest priority of signal type include it is multiple, further from this multiple letter
The transmission signal that RNTI highest priority is selected in the transmission signal of the highest priority of number type, the transmission of final choice is believed
Number QCL assume information be determined as the first QCL assume information.
Alternatively, the first communication equipment can first be believed according to the transmission of the highest priority of signal type in multiple transmission signals
Number, if the transmission signal of the highest priority of signal type include it is multiple, further from the priority of this multiple signal type
The transmission signal of RNTI highest priority is selected in highest transmission signal, if the transmission signal of RNTI highest priority includes more
It is a, the QCL of the transmission signal in multiple transmission signals on main carrier is further assumed that information is determined as the first QCL and assumes letter
Breath.
It is set in addition, the first communication equipment assumes that information determines also further to communicate with first to the QCL of multiple transmission signals
Standby ability, such as, if there is ability of multiple antennas panel etc. related, it, can when the first communication equipment has mutiple antennas panel
To assume that information goes to receive this multiple signal with different QCL on different aerial panels a moment.Therefore, first is logical
Believe that the QCL that equipment determines assumes that information may include at least two.Here, it is not specifically limited.
It should be noted that the first communication equipment can be terminal in aforementioned several implementations, it is also possible to network and sets
It is standby.
Optionally, the flexibility being arranged, the network equipment are assumed to further increase the QCL of multiple signals on different carrier waves
It can indicate that the corresponding QCL of some transmission signal in multiple transmission signals assumes information by explicit or implicit mode
It will be assumed that information, terminal determine that the QCL by some transmission signal assumes letter according to the instruction of the network equipment as the first QCL
Breath is determined as the first QCL and assumes information.
Specifically, the first communication equipment receives the carrier index that the second communication equipment is sent, here, the first communication equipment can
To be terminal, the second communication equipment can be the network equipment.The carrier index that first communication equipment sends the second communication equipment
The co-located hypothesis information of standard of first transmission signal on corresponding carrier wave is determined as the first quasi- co-located hypothesis information.It that is to say
Say, the network equipment be terminal configuration as default QCL carrier wave, terminal will network equipments configuration default QCL carrier wave on
The QCL of first transmission signal assumes that information assumes information as the first QCL.Lead to specifically, the first communication equipment receives second
The mode for the carrier index that letter equipment is sent may is that the first communication equipment receives the radio resource control that the second communication equipment is sent
Make (Radio Resource Control, RRC) signaling and/or Downlink Control Information (Downlink control
Information, DCI), carrier index is carried in the RRC signaling or DCI.For example, in sometime i, when base station is in carrier wave 1
On when having the demand of scanning beam, configuration carrier wave 1 gives UE, (is assumed to be to UE based on first transmission signal on carrier wave 1
CSI-RS QCL) assumes to remove to receive multiple signals on multiple carrier waves as default assumption.
Alternatively, the first communication equipment receives the carrier index that the second communication equipment is sent and signal type index, first is logical
Signal type on the corresponding carrier wave of carrier index that second communication equipment is sent is indexed the corresponding signal that transmits by letter equipment
Quasi- co-located hypothesis information is determined as the first quasi- co-located hypothesis information.In other words, the network equipment is the load of terminal allocating default QCL
Signal type on the carrier wave of the default QCL of network equipments configuration is indexed corresponding transmission signal by wave and signal, terminal
QCL assumes that information assumes information as the first QCL.Specifically, the first communication equipment receives the carrier wave that the second communication equipment is sent
The mode of index and signal type index may is that the first communication equipment receives the wireless heterogeneous networks that the second communication equipment is sent
(Radio Resource Control, RRC) signaling and/or Downlink Control Information (Downlink control
Information, DCI), carrier index and signal type index are carried in the RRC signaling or DCI.For example, in sometime i,
When there is the demand of scanning beam in base station on carrier 1, carrier wave 1 and CSI-RS for BM are configured to UE, is based on carrying to UE
The QCL of CSI-RS on wave 1 assumes to go to receive multiple signals on multicarrier as default assumption.
Alternatively, the first communication equipment receives the system parameter index and carrier index that the second communication equipment is sent, first is logical
The standard that the system parameter that second communication equipment is sent indexes the transmission signal on carrier wave corresponding with carrier index is total to by letter equipment
Assume that information is determined as the first quasi- co-located hypothesis information in location.In NR system, a SCS index can correspond to multiple carrier index,
Here carrier index can be absolute carrier index value, be also possible to opposite carrier index value, for example, SCS1 is corresponding
Absolute carrier index is CC1, CC2, CC3, CC7, and opposite carrier index is 0,1,2,3.The corresponding absolute carrier of SCS2, which indexes, is
CC4, CC5, CC6, CC8, opposite carrier index are 0,1,2,3.In sometime i, when in carrier wave 1, (absolute indices are for base station
When having the demand of scanning beam on CC1), SCS1 and carrier wave 1 are configured to UE, to UE based on the carrier wave 1 inside SCS1
The QCL of transmission signal assumes to remove to receive multiple signals on multiple carrier waves as default assumption.
S702, the second communication equipment send U transmission signal, and the first communication equipment is quasi- co-located according to first at the first moment
Assuming that information receives U transmission signal, the U transmission signal is some or all of in N number of transmission signal, U is small
In the positive integer for being equal to N.
In the embodiment of the present invention, U can be equal to N, i.e. the second communication equipment sends N number of transmission signal, the first communication
Equipment receives N number of transmission signal according to the first quasi- co-located hypothesis information at the first moment.
Alternatively, U can be less than N, i.e. the second communication equipment sends the part signal in N number of transmission signal, and first is logical
Letter equipment receives N number of part signal transmitted in signal according to the first quasi- co-located hypothesis information at the first moment.
In embodiments of the present invention, the first moment can refer in communication transmission process an instantaneous position or it is instantaneous when
Between, it can also be characterized as time quantum, which can be subframe (Subframe), time slot (slot), symbol
(symbol) time domain units such as.For example, the first moment can be characterized as one or more orthogonal frequency division multiplexing (Orthogonal
Frequency Division Multiplexing, OFDM) symbol, the first moment can also be characterized as one or more time slots,
First moment can also be characterized as one or more subframes.In the embodiment of the present invention, N number of transmission signal is in receiving time
There is intersection (overlap).Due to need and meanwhile receive multiple signals on multiple carrier waves, although from the point of view of in time they
It is that needs are received simultaneously, still
In the embodiment of the present invention, the corresponding subframe/time slot of unlike signal/symbol may be inconsistent, and therefore, it is necessary to connect simultaneously
The multiple signals received are it can be appreciated that in regular hour point or need received signal in the period.The embodiment of the present invention
In, at least two transmission signals in N number of transmission signal have intersection at least one time quantum (e.g. a, OFDM symbol)
Or overlapping.For example, signal 1 and signal 3 overlap in receiving time in Figure 1A, the first communication equipment needs right simultaneously
The two signals are received.Alternatively, signal 1 and signal 3- signal 6 overlap in receiving time in Figure 1B, first is logical
Letter equipment needs simultaneously to receive this five signals.First moment can be with any one reception in N number of reception signal
It is characterized on the basis of subframe/time slot/symbol where signal.For example, the first moment can be understood as on carrier wave 1 in Figure 1A
The occupied subframe/time slot/symbol of signal 1.First moment can also be with the smallest load of SCS of carrier wave in N number of transmission signal
It is characterized on the basis of subframe/time slot/symbol where transmission signal on wave.For example, the first moment can be understood as in Figure 1B
It is subframe/time slot/symbol where the signal 1 on carrier wave 1.
In the embodiment of the present invention, configuration information can be stored in advance in the first communication equipment, and the configuration information is silent for determining
Recognize QCL and assumes information.It should be understood that the configuration information can be by table, the mode of formula or predefined rule is deposited
Storage, can also otherwise be stored, be not specifically limited here.The configuration information may include at least one in following
Kind: using on system parameter (such as SCS) the smallest carrier wave transmission signal QCL assume information as default QCL hypothesis information,
Using the QCL of the transmission signal on the smallest carrier wave of carrier index assume information as default QCL hypothesis information, will be on main carrier
The QCL for transmitting signal assumes that information assumes information as default QCL, the highest priority of signal type is transmitted signal
QCL assume information as default QCL assume information, using the highest priority of RNTI transmission signal QCL hypothesis information as
Default QCL to assume information, the QCL of the transmission signal on the carrier wave of network equipments configuration is assumed that information is assumed as default QCL
The QCL of the transmission signal of network equipments configuration on the carrier wave of network equipments configuration is assumed that information is assumed as default QCL by information
Information.It should be understood that above-mentioned various configurations information is when being combined, the sequence of various configurations information is adjustable.Wherein, it implements
Mode can refer to the description of previous embodiment, and details are not described herein again.Optionally, the present embodiment can individually be implemented.
The application is shown referring to Fig. 9, Fig. 9 a kind of wireless communication system, the first communication equipment and the second communication are provided set
It is standby.Wireless communication system 400 includes: the first communication equipment 500 and the second communication equipment 600.Wherein, the first communication equipment 500
It can be the network equipment 101 or terminal 103 in Fig. 2 embodiment, correspondingly, the second communication equipment 600 can be Fig. 2 embodiment
In terminal 103 or the network equipment 101, wireless communication system 400 can be Fig. 2 description wireless communication system 100.Divide below
It does not describe.
As shown in figure 9, the first communication equipment 500 can include: determination unit 501 and receiving unit 502.
Wherein it is determined that unit 501, for determining the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal,
First parameter include carrier index, system parameter, signal type, wireless network identification type, when field type or resource rope
At least one of draw, N is the positive integer more than or equal to 2.
Receiving unit 502, for receiving U transmission signal according to the described first quasi- co-located hypothesis information at the first moment,
The U transmission signal is some or all of in N number of transmission signal, U is the positive integer less than or equal to N.
Optionally, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
The determination unit 501 is specifically used for:
If the corresponding system parameter of M carrier wave is not exactly the same, most by system parameter in the M carrier wave
The co-located hypothesis information of standard of transmission signal on small carrier wave is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, most by carrier index in the M carrier wave
The co-located hypothesis information of standard of transmission signal on small carrier wave is determined as the described first quasi- co-located hypothesis information;
It, will be in the M carrier wave on main carrier alternatively, if the corresponding system parameter of M carrier wave is identical
The co-located hypothesis information of standard of transmission signal is determined as the described first quasi- co-located hypothesis information.
Optionally, the determination unit 501 is specifically used for:
If in N number of transmission signal including common signal, the co-located hypothesis information of standard of the common signal is determined
For the described first quasi- co-located hypothesis information.
Optionally, the determination unit 501 is specifically used for:
It is if in N number of transmission signal including 1 common signal, the co-located hypothesis information of standard of the common signal is true
It is set to the described first quasi- co-located hypothesis information;
If including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal,
The co-located hypothesis information of standard that main carrier in the O carrier wave is then indexed to the transmission signal on corresponding carrier wave is determined as described the
Surely co-located hypothesis information, P are the positive integer less than or equal to N and more than or equal to 2, and O is the positive integer less than or equal to P;
Alternatively, if including that P common signal and the P common signal are carried on O load in N number of transmission signal
On wave, then the co-located hypothesis information of standard of the transmission signal in the O carrier wave on the smallest carrier wave of carrier index is determined as institute
The first quasi- co-located hypothesis information is stated, P is the positive integer less than or equal to N and more than or equal to 2, and O is the positive integer less than or equal to P.
Optionally, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
The determination unit 501 is specifically used for:
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then the highest priority of signal type on the smallest carrier wave of K system parameter is transmitted into signal
Quasi- co-located hypothesis information is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter
The smallest carrier wave includes K, then believes the transmission in the smallest carrier wave of K system parameter on the smallest carrier wave of carrier index
Number co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter
The smallest carrier wave includes K, then main carrier in the smallest carrier wave of K system parameter is indexed the transmission on corresponding carrier wave
The co-located hypothesis information of standard of signal is determined as the described first quasi- co-located hypothesis information;Wherein, the K is just whole less than or equal to M
Number.
Optionally, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
The determination unit 501 is specifically used for:
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave on transmission signal include L, then by the transmission signal of the highest priority of signal type in described L transmission signal
Co-located the hypothesiss information of standard be determined as the described first quasi- co-located hypothesis information, L is the positive integer less than or equal to N.
Optionally, the determination unit 501 is specifically used for:
If the corresponding signal type of N number of transmission signal includes at least two, by signal in N number of transmission signal
The co-located hypothesis information of standard of the transmission signal of the highest priority of type is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, by wireless network in N number of transmission signal
The co-located hypothesis information of standard of the transmission signal of the highest priority of network identity type is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, by time domain class in N number of transmission signal
The co-located hypothesis information of standard of the transmission signal of type highest priority is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, by resource rope in N number of transmission signal
The co-located hypothesis information of standard for drawing the smallest transmission signal is determined as the described first quasi- co-located hypothesis information.
Optionally, the priority for controlling signal is greater than or equal to the priority of service signal;
Alternatively, the priority of service signal is greater than or equal to the priority of reference signal;
Alternatively, the priority of common signal is greater than or equal to the priority of special signal;
Alternatively, the priority of the high signal of service priority is greater than or equal to the priority of the low signal of service priority;
Described second is needed alternatively, being greater than or equal to without the priority that the second communication equipment is scheduled the signal of control
Communication equipment is scheduled the priority of the signal of control;
Alternatively, the priority of the small signal of system parameter is greater than or equal to the priority of the big signal of system parameter.
Optionally, the priority of synchronization signal block SSB is more than or equal to the preferential of the physical downlink control channel PDCCH of broadcast
Grade;
Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;
Alternatively, the priority of the PDSCH of broadcast is more than or equal to the priority of the PDSCH of unicast;
Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to the priority of reference signal;
Alternatively, the priority of the channel state information reference signals CSI-RS for carrying out Radio Link Detection RLM is greater than
Equal to the priority of the CSI-RS for carrying out wave beam management BM;
Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to for carrying out channel state information CSI detection
The priority of CSI-RS;
Alternatively, the priority of the CSI-RS for carrying out CSI detection is excellent more than or equal to Phase Tracking reference signal PTRS
First grade/time-frequency track reference signal TRS priority;
Alternatively, the priority of random access channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;
Alternatively, the priority of PUCCH is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;
Alternatively, the priority of PUSCH is more than or equal to the priority of Sounding Reference Signal SRS;
Alternatively, the priority of the SRS for carrying out BM is more than or equal to the preferential of the SRS for carrying out non-code book transmission NCB
Grade;
Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to for carrying out code book transmission CB's
The priority of SRS.
Optionally, the priority of the wireless network identification of downlink signal is greater than or equal to the wireless network identification of uplink signal
Priority;
Alternatively, to be greater than or equal to service priority low for the priority of the wireless network identification of the high signal of service priority
The priority of the wireless network identification of signal;
Alternatively, the priority for being scheduled the wireless network identification of the signal of control without the second communication equipment is greater than or waits
The priority of the wireless network identification of the signal of control is scheduled in needs second communication equipment;
Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the wireless network identification of special signal
Priority.
Optionally, if the corresponding signal type of N number of transmission signal is PDSCH ,-radio network temporary identifier is paged
The priority of P-RNTI is more than or equal to system information-radio network temporary identifier SI-RNTI priority;
Alternatively, the priority of SI-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDSCH
Random access response-radio network temporary identifier RA-RNTI priority;
Alternatively, the priority of RA-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDSCH
The priority of CS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDSCH
The priority of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, P-RNTI/SI-RNTI/RA-RNTI
Priority be more than or equal to interrupt instruction-radio network temporary identifier INT-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, and the priority of INT-RNTI is greater than etc.
In time slot format mark-radio network temporary identifier SFI-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, and the priority of SFI-RNTI is greater than etc.
In configuration scheduling-radio network temporary identifier CS-RNTI priority;
Alternatively, the priority of CS-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
The priority of C-RNTI;
Alternatively, the priority of C-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
Semi-static channel state information-radio network temporary identifier SP-CSI-RNTI priority;
Alternatively, the priority of SP-CSI-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to the priority of transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-RNTI;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, the priority of TPC-PUSCH-RNTI
More than or equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PUSCH
The priority of C-RNTI;
Alternatively, the priority of C-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PUSCH
The priority of SP-CSI-RNTI.
Optionally, the receiving unit 502 is also used to determine the first standard according to the first parameter in the determination unit 501
Before co-located hypothesis information, the carrier index that the second communication equipment is sent is received;
The determination unit 501 is specifically used for:
The standard of first transmission signal on the corresponding carrier wave of carrier index that second communication equipment is sent is co-located
Assuming that information is determined as the described first quasi- co-located hypothesis information;
Alternatively, the receiving unit 502, is also used to determine that first is quasi- total according to the first parameter in the determination unit 501
Before information is assumed in location, the carrier index and signal type index that the second communication equipment is sent are received;
The determination unit 501 is specifically used for:
The signal type indexes corresponding biography on the corresponding carrier wave of carrier index that second communication equipment is sent
The co-located hypothesis information of standard of defeated signal is determined as the described first quasi- co-located hypothesis information;
Alternatively, the receiving unit 502, is also used to determine that first is quasi- total according to the first parameter in the determination unit 501
Before information is assumed in location, the system parameter index and carrier index that the second communication equipment is sent are received;
The determination unit 501 is specifically used for:
The system parameter that second communication equipment is sent indexes the transmission signal on carrier wave corresponding with carrier index
Co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard.
It should be understood that the specific implementation for each functional unit for including about the first communication equipment 400, before can referring to
Embodiment is stated, which is not described herein again.
As shown in figure 9, the second communication equipment 600 can include: transmission unit 601.
Wherein, transmission unit 601, for sending N number of transmission signal, the co-located hypothesis information of standard of N number of transmission signal
Not exactly the same, the first parameter of N number of transmission signal determines the first quasi- co-located hypothesis information, institute for the first communication equipment
It states the first quasi- co-located hypothesiss information and is used for first communication equipment in U transmission signal of first reception, described the
One parameter include carrier index, system parameter, signal type, wireless network identification type, when field type or resource index in
At least one, N are positive integer more than or equal to 2, the U transmission signal for some or all of in N number of transmission signal,
U is the positive integer less than or equal to N.
Optionally, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same, first communication equipment is by the M
The co-located hypothesis information of standard of transmission signal in carrier wave on the smallest carrier wave of system parameter is determined as the described first quasi- co-located hypothesis
Information;
Alternatively, first communication equipment is by the M if the corresponding system parameter of M carrier wave is identical
The co-located hypothesis information of standard of transmission signal in carrier wave on the smallest carrier wave of carrier index is determined as the described first quasi- co-located hypothesis
Information;
Alternatively, first communication equipment is by the M if the corresponding system parameter of M carrier wave is identical
The co-located hypothesis information of standard of transmission signal in carrier wave on main carrier is determined as the described first quasi- co-located hypothesis information.
Optionally, if in N number of transmission signal including common signal, first communication equipment is by the public letter
Number co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard.
Optionally, if in N number of transmission signal including 1 common signal, first communication equipment is by the public affairs
The co-located hypothesis information of standard of signal is determined as the described first quasi- co-located hypothesis information altogether;
If including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal,
Then main carrier in the O carrier wave is indexed the co-located hypothesis of standard of the transmission signal on corresponding carrier wave by first communication equipment
Information is determined as the described first quasi- co-located hypothesis information, and P is the positive integer less than or equal to N and more than or equal to 2, and O is less than or equal to P
Positive integer;
Alternatively, if including that P common signal and the P common signal are carried on O load in N number of transmission signal
On wave, then first communication equipment is co-located by the standard of the transmission signal in the O carrier wave on the smallest carrier wave of carrier index
Assuming that information is determined as the described first quasi- co-located hypothesis information, P be less than or equal to N and be more than or equal to 2 positive integer, O be less than
Positive integer equal to P.
Optionally, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment is by the priority of signal type on the smallest carrier wave of K system parameter
The co-located hypothesis information of standard of highest transmission signal is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter
The smallest carrier wave includes K, then first communication equipment is minimum by carrier index in the smallest carrier wave of K system parameter
Carrier wave on co-located the hypothesiss information of standard of transmission signal be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter
The smallest carrier wave includes K, then first communication equipment indexes main carrier in the smallest carrier wave of K system parameter pair
The co-located hypothesis information of standard of transmission signal on the carrier wave answered is determined as the described first quasi- co-located hypothesis information;Wherein, the K is
Positive integer less than or equal to M.
Optionally, N number of transmission signal is carried on M carrier wave, and M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave on transmission signal include L, then first communication equipment by described L transmission signal signal type it is preferential
The co-located hypothesis information of standard of the highest transmission signal of grade is determined as the described first quasi- co-located hypothesis information, and L is just less than or equal to N
Integer.
Optionally, if the corresponding signal type of N number of transmission signal includes at least two, first communication equipment
The quasi- co-located hypothesis information of the transmission signal of the highest priority of signal type in N number of transmission signal is determined as described the
Surely co-located hypothesis information;
Alternatively, first communication equipment will be described N number of if the corresponding signal type of N number of transmission signal is identical
The quasi- co-located hypothesis information of the transmission signal of the highest priority of wireless network identification type is determined as described the in transmission signal
Surely co-located hypothesis information;
Alternatively, first communication equipment will be described N number of if the corresponding signal type of N number of transmission signal is identical
The co-located hypothesis information of standard of the highest transmission signal of time domain type priority grade is determined as the described first quasi- co-located vacation in transmission signal
If information;
Alternatively, first communication equipment will be described N number of if the corresponding signal type of N number of transmission signal is identical
The co-located hypothesis information of standard of the smallest transmission signal of resource index is determined as the described first quasi- co-located hypothesis information in transmission signal.
Optionally, the priority for controlling signal is greater than or equal to the priority of service signal;
Alternatively, the priority of service signal is greater than or equal to the priority of reference signal;
Alternatively, the priority of common signal is greater than or equal to the priority of special signal;
Alternatively, the priority of the high signal of service priority is greater than or equal to the priority of the low signal of service priority;
The communication is needed alternatively, being greater than or equal to without the priority that the communication equipment is scheduled the signal of control
Equipment is scheduled the priority of the signal of control;
Alternatively, the priority of the small signal of system parameter is greater than or equal to the priority of the big signal of system parameter.
Optionally, the priority of synchronization signal block SSB is more than or equal to the preferential of the physical downlink control channel PDCCH of broadcast
Grade;
Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;
Alternatively, the priority of the PDSCH of broadcast is more than or equal to the priority of the PDSCH of unicast;
Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to the priority of reference signal;
Alternatively, the priority of the channel state information reference signals CSI-RS for carrying out Radio Link Detection RLM is greater than
Equal to the priority of the CSI-RS for carrying out wave beam management BM;
Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to for carrying out channel state information CSI detection
The priority of CSI-RS;
Alternatively, the priority of the CSI-RS for carrying out CSI detection is excellent more than or equal to Phase Tracking reference signal PTRS
First grade/time-frequency track reference signal TRS priority;
Alternatively, the priority of random access channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;
Alternatively, the priority of PUCCH is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;
Alternatively, the priority of PUSCH is more than or equal to the priority of Sounding Reference Signal SRS;
Alternatively, the priority of the SRS for carrying out BM is more than or equal to the preferential of the SRS for carrying out non-code book transmission NCB
Grade;
Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to for carrying out code book transmission CB's
The priority of SRS.
Optionally, the priority of the wireless network identification of downlink signal is greater than or equal to the wireless network identification of uplink signal
Priority;
Alternatively, to be greater than or equal to service priority low for the priority of the wireless network identification of the high signal of service priority
The priority of the wireless network identification of signal;
Alternatively, the priority for being scheduled the wireless network identification of the signal of control without the communication equipment is greater than or waits
The priority of the wireless network identification of the signal of control is scheduled in the needs communication equipment;
Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the wireless network identification of special signal
Priority.
Optionally, if the corresponding signal type of N number of transmission signal is PDSCH ,-radio network temporary identifier is paged
The priority of P-RNTI is more than or equal to system information-radio network temporary identifier SI-RNTI priority;
Alternatively, the priority of SI-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDSCH
Random access response-radio network temporary identifier RA-RNTI priority;
Alternatively, the priority of RA-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDSCH
The priority of CS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDSCH
The priority of Cell Radio Network Temporary Identifier/Identity, Cell-RNTI C-RNTI;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, P-RNTI/SI-RNTI/RA-RNTI
Priority be more than or equal to interrupt instruction-radio network temporary identifier INT-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, and the priority of INT-RNTI is greater than etc.
In time slot format mark-radio network temporary identifier SFI-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, and the priority of SFI-RNTI is greater than etc.
In configuration scheduling-radio network temporary identifier CS-RNTI priority;
Alternatively, the priority of CS-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
The priority of C-RNTI;
Alternatively, the priority of C-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
Semi-static channel state information-radio network temporary identifier SP-CSI-RNTI priority;
Alternatively, the priority of SP-CSI-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to the priority of transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-RNTI;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, the priority of TPC-PUSCH-RNTI
More than or equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PUSCH
The priority of C-RNTI;
Alternatively, the priority of C-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PUSCH
The priority of SP-CSI-RNTI.
Optionally, the transmission unit 601 is also used to before sending N number of transmission signal, the first communication equipment of Xiang Suoshu
Carrier index is sent, the carrier index that the transmission unit is sent sends the transmission unit for first communication equipment
The corresponding carrier wave of carrier index on co-located the hypothesiss information of standard of first transmission signal be determined as the co-located vacation of first standard
If information;
Alternatively, the transmission unit 601, is also used to before sending N number of transmission signal, the first communication equipment of Xiang Suoshu hair
Carrier index and signal type is sent to index, carrier index and the signal type index that the transmission unit is sent are used for described first
The signal type indexes corresponding transmission letter on the corresponding carrier wave of the carrier index that communication equipment sends the transmission unit
Number co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard;
Alternatively, the transmission unit 601, is also used to before sending N number of transmission signal, the first communication equipment of Xiang Suoshu hair
System parameter index and carrier index are sent, the system parameter index and carrier index that the transmission unit is sent are used for described first
The system parameter that communication equipment sends the transmission unit indexes the standard of the transmission signal on carrier wave corresponding with carrier index
Co-located hypothesis information is determined as the described first quasi- co-located hypothesis information.
It should be understood that the specific implementation for each functional unit for including about the second communication equipment 600, before can referring to
Embodiment is stated, which is not described herein again.
A kind of structural schematic diagram of communication chip provided by the present application is shown referring to Figure 10, Figure 10.As shown in Figure 10, lead to
Believe chip 100 can include: processor 1001, and it is coupled in one or more interfaces 1002 of processor 1001.Wherein:
Processor 1001 can be used for reading and executing computer-readable instruction.In the specific implementation, processor 1001 can be main
Including controller, arithmetic unit and register.Wherein, controller is mainly responsible for Instruction decoding, and to instruct corresponding operation to issue
Control signal.Arithmetic unit is mainly responsible for execution fixed point or the operation of floating-point arithmetic operator, shifting function and logical operation etc., can also
To execute address arithmetic and conversion.Register be mainly responsible for save in execution process instruction the register operand temporarily stored and
Intermediary operation result etc..In the specific implementation, the hardware structure of processor 1001 can be specific integrated circuit (Application
Specific Integrated Circuits, ASIC) framework, MIPS framework, ARM framework or NP framework etc..Processor
1001 can be monokaryon, be also possible to multicore.
Interface 1002 can be used for inputting data to be processed to processor 1001, and can output processor 1001 outward
Processing result.In the specific implementation, interface 1002 can be universal input output (General Purpose Input
Output, GPIO) interface, it can be with multiple peripheral equipments (such as display (LCD), camera (camara), radio frequency (Radio
Frequency, RF) module etc.) connection.Interface 1002 is connected by bus 1003 with processor 1001.
In the application, what processor 1001 can be used for that one or more embodiments of the application is called to provide from memory
Method for transmitting signals and executes the instruction that the program includes in the realization program of communication equipment side.Interface 1002 can be used for exporting
The implementing result of processor 1001.In the application, interface 1002 can be specifically used for the resource allocation result of output processor 1001.
The method for transmitting signals that one or more embodiments about the application provide can refer to foregoing individual embodiments, no longer superfluous here
It states.
It should be noted that processor 1001, the corresponding function of interface 1002 can both be realized by hardware design,
It can be realized, can also be realized by way of software and hardware combining, here with no restriction by software design.
The description and claims of this application and term " first ", " second ", " third " and " in the attached drawing
Four " etc. are not use to describe a particular order for distinguishing different objects.In addition, term " includes " and " having " and it
Any deformation, it is intended that cover and non-exclusive include.Such as it contains the process, method of a series of steps or units, be
System, product or equipment are not limited to listed step or unit, but optionally further include the steps that not listing or list
Member, or optionally further include the other step or units intrinsic for these process, methods, product or equipment.
In the above-described embodiments, can come wholly or partly by software, hardware, firmware or any combination thereof real
It is existing.When implemented in software, it can entirely or partly realize in the form of a computer program product.The computer program
Product includes one or more computer instructions.When loading on computers and executing the computer program instructions, all or
It partly generates according to process or function described in the embodiment of the present application.The computer can be general purpose computer, dedicated meter
Calculation machine, computer network or other programmable devices.The computer instruction can store in computer readable storage medium
In, or from a computer readable storage medium to the transmission of another computer readable storage medium, for example, the computer
Instruction can pass through wired (such as coaxial cable, optical fiber, number from a web-site, computer, server or data center
User's line (DSL)) or wireless (such as infrared, wireless, microwave etc.) mode to another web-site, computer, server or
Data center is transmitted.The computer readable storage medium can be any usable medium that computer can access or
It is comprising data storage devices such as one or more usable mediums integrated server, data centers.The usable medium can be with
It is magnetic medium, (for example, floppy disk, hard disk, tape), optical medium (for example, DVD) or semiconductor medium (such as solid state hard disk
Solid State Disk (SSD)) etc..
Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, being can be with
Relevant hardware is instructed to complete by computer program, the program can be stored in a computer-readable storage medium
In, the program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein, the storage medium can be magnetic
Dish, CD, read-only memory (Read-Only Memory, ROM) or random access memory (Random Access
Memory, RAM) etc..
Above specific embodiment has carried out into one the purpose of the embodiment of the present invention, technical scheme and beneficial effects
Step is described in detail, it should be understood that being not used to limit this above is only the specific embodiment of the embodiment of the present invention
The protection scope of inventive embodiments, all any modifications on the basis of the technical solution of the embodiment of the present invention, made are equal
Replacement, improvement etc., should all include within the protection scope of the embodiment of the present invention.
Claims (48)
1. a kind of method for transmitting signals characterized by comprising
First communication equipment determines the first quasi- co-located hypothesis information, first parameter according to the first parameter of N number of transmission signal
Including carrier index, system parameter, signal type, wireless network identification type, when field type or resource index at least one
Kind, N is the positive integer more than or equal to 2;
First communication equipment receives U transmission signal, the U according to the described first quasi- co-located hypothesis information at the first moment
A transmission signal is some or all of in N number of transmission signal, U is the positive integer less than or equal to N.
2. M is the method according to claim 1, wherein N number of transmission signal is carried on M carrier wave
Positive integer less than or equal to N;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, comprising:
If the corresponding system parameter of M carrier wave is not exactly the same, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of system parameter is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of carrier index is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on middle main carrier is determined as the described first quasi- co-located hypothesis information.
3. the method according to claim 1, wherein first communication equipment is according to the of N number of transmission signal
One parameter determines the first quasi- co-located hypothesis information, comprising:
If in N number of transmission signal including common signal, first communication equipment is co-located by the standard of the common signal
Assuming that information is determined as the described first quasi- co-located hypothesis information.
If 4. according to the method described in claim 3, it is characterized in that, in N number of transmission signal include common signal,
Then the co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis information by first communication equipment,
Include:
If including 1 common signal in N number of transmission signal, the standard of the common signal is total to by first communication equipment
Assume that information is determined as the described first quasi- co-located hypothesis information in location;
If including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal, institute
State the co-located hypothesis information of standard for the transmission signal that the first communication equipment indexes main carrier in the O carrier wave on corresponding carrier wave
It is determined as the described first quasi- co-located hypothesis information, P is the positive integer less than or equal to N and more than or equal to 2, and O is just less than or equal to P
Integer;
Alternatively, if including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal
On, then first communication equipment is by the co-located vacation of standard of the transmission signal in the O carrier wave on the smallest carrier wave of carrier index
If information is determined as the described first quasi- co-located hypothesis information, P be less than or equal to N and be more than or equal to 2 positive integer, O be less than etc.
In the positive integer of P.
5. method according to claim 1 or 2, which is characterized in that N number of transmission signal is carried on M carrier wave,
M is the positive integer less than or equal to N;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, comprising:
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Wave includes K, then first communication equipment is by the highest priority of signal type on the smallest carrier wave of K system parameter
Co-located the hypothesiss information of standard of transmission signal be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment is by the smallest load of carrier index in the smallest carrier wave of K system parameter
The co-located hypothesis information of standard of transmission signal on wave is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment indexes main carrier in the smallest carrier wave of K system parameter corresponding
The co-located hypothesis information of standard of transmission signal on carrier wave is determined as the described first quasi- co-located hypothesis information;
Wherein, the K is the positive integer less than or equal to M.
6. method according to claim 1 or 2, which is characterized in that N number of transmission signal is carried on M carrier wave,
M is the positive integer less than or equal to N;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter of N number of transmission signal, comprising:
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Transmission signal on wave includes L, then first communication equipment transmits the priority of signal type in signal most for described L
The co-located hypothesis information of standard of high transmission signal is determined as the described first quasi- co-located hypothesis information, and L is just whole less than or equal to N
Number.
7. the method according to claim 1, wherein first communication equipment is according to the of N number of transmission signal
One parameter determines the first quasi- co-located hypothesis information, comprising:
If the corresponding signal type of N number of transmission signal includes at least two, first communication equipment is by N number of biography
The co-located hypothesis information of standard of the transmission signal of the highest priority of signal type is determined as the described first quasi- co-located vacation in defeated signal
If information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
It is quasi- to be determined as described first for the co-located hypothesis information of standard of the transmission signal of the highest priority of wireless network identification type in signal
Co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
The co-located hypothesis information of standard of the highest transmission signal of time domain type priority grade is determined as the described first quasi- co-located hypothesis letter in signal
Breath;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
The co-located hypothesis information of standard of the smallest transmission signal of resource index is determined as the described first quasi- co-located hypothesis information in signal.
8. method according to any one of claims 1 to 7, which is characterized in that the priority for controlling signal is greater than or equal to
The priority of service signal;
Alternatively, the priority of service signal is greater than or equal to the priority of reference signal;
Alternatively, the priority of common signal is greater than or equal to the priority of special signal;
Alternatively, the priority of the high signal of service priority is greater than or equal to the priority of the low signal of service priority;
Second communication is needed alternatively, being greater than or equal to without the priority that the second communication equipment is scheduled the signal of control
Equipment is scheduled the priority of the signal of control;
Alternatively, the priority of the small signal of system parameter is greater than or equal to the priority of the big signal of system parameter.
9. method according to any one of claims 1 to 8, which is characterized in that the priority of synchronization signal block SSB be greater than etc.
In the priority of the physical downlink control channel PDCCH of broadcast;
Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;
Alternatively, the priority of the PDSCH of broadcast is more than or equal to the priority of the PDSCH of unicast;
Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to the priority of reference signal;
Alternatively, the priority of the channel state information reference signals CSI-RS for carrying out Radio Link Detection RLM is more than or equal to
For carrying out the priority of the CSI-RS of wave beam management BM;
Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to the CSI- for carrying out channel state information CSI detection
The priority of RS;
Alternatively, priority of the priority of the CSI-RS for carrying out CSI detection more than or equal to Phase Tracking reference signal PTRS/
The priority of time-frequency track reference signal TRS;
Alternatively, the priority of random access channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;
Alternatively, the priority of PUCCH is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;
Alternatively, the priority of PUSCH is more than or equal to the priority of Sounding Reference Signal SRS;
Alternatively, the priority of the SRS for carrying out BM is more than or equal to the priority of the SRS for carrying out non-code book transmission NCB;
Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to the SRS's for carrying out code book transmission CB
Priority.
10. method according to any one of claims 1 to 9, which is characterized in that the wireless network identification of downlink signal it is excellent
First grade is greater than or equal to the priority of the wireless network identification of uplink signal;
Alternatively, the priority of the wireless network identification of the high signal of service priority is greater than or equal to the low signal of service priority
Wireless network identification priority;
Alternatively, the priority for being scheduled the wireless network identification of the signal of control without the second communication equipment, which is greater than or equal to, to be needed
Second communication equipment is wanted to be scheduled the priority of the wireless network identification of the signal of control;
Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the preferential of the wireless network identification of special signal
Grade.
11. the method according to any of claims 1 to 10, which is characterized in that
If the corresponding signal type of N number of transmission signal is PDSCH, page-radio network temporary identifier P-RNTI it is excellent
First grade is more than or equal to system information-radio network temporary identifier SI-RNTI priority;
Alternatively, the priority of SI-RNTI is more than or equal to random if the corresponding signal type of N number of transmission signal is PDSCH
Access response-radio network temporary identifier RA-RNTI priority;
Alternatively, the priority of RA-RNTI is more than or equal to CS- if the corresponding signal type of N number of transmission signal is PDSCH
The priority of RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to cell if the corresponding signal type of N number of transmission signal is PDSCH
The priority of radio network temporary identifier C-RNTI;
Alternatively, P-RNTI/SI-RNTI/RA-RNTI's is excellent if the corresponding signal type of N number of transmission signal is PDCCH
First grade, which is more than or equal to, interrupts instruction-radio network temporary identifier INT-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, when the priority of INT-RNTI is more than or equal to
Gap format identification (FID)-radio network temporary identifier SFI-RNTI priority;
Alternatively, the priority of SFI-RNTI, which is more than or equal to, to be set if the corresponding signal type of N number of transmission signal is PDCCH
The priority of degree of setting the tone-radio network temporary identifier CS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PDCCH
The priority of RNTI;
Alternatively, it is quiet that the priority of C-RNTI is more than or equal to half if the corresponding signal type of N number of transmission signal is PDCCH
State channel state information-radio network temporary identifier SP-CSI-RNTI priority;
Alternatively, the priority of SP-CSI-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
The priority of transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-RNTI;
Alternatively, the priority of TPC-PUSCH-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of RNTI;
Alternatively, the priority of C-RNTI is more than or equal to SP- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of CSI-RNTI.
12. the method according to claim 1, wherein first communication equipment determines according to the first parameter
Surely before co-located hypothesis information, further includes:
First communication equipment receives the carrier index that the second communication equipment is sent;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter, comprising:
First transmission on the corresponding carrier wave of carrier index that first communication equipment sends second communication equipment
The co-located hypothesis information of standard of signal is determined as the described first quasi- co-located hypothesis information;
Alternatively, before first communication equipment determines the first quasi- co-located hypothesis information according to the first parameter, further includes:
First communication equipment receives the carrier index that the second communication equipment is sent and signal type index;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter, comprising:
The signal type on the corresponding carrier wave of carrier index that first communication equipment sends second communication equipment
The co-located hypothesis information of standard for indexing corresponding transmission signal is determined as the described first quasi- co-located hypothesis information;
Alternatively, before first communication equipment determines the first quasi- co-located hypothesis information according to the first parameter, further includes:
First communication equipment receives the system parameter index and carrier index that the second communication equipment is sent;
First communication equipment determines the first quasi- co-located hypothesis information according to the first parameter, comprising:
The system parameter that first communication equipment sends second communication equipment indexes carrier wave corresponding with carrier index
On co-located the hypothesiss information of standard of transmission signal be determined as the co-located hypothesis information of first standard.
13. a kind of method for transmitting signals characterized by comprising
Second communication equipment sends N number of transmission signal, and the co-located hypothesis INFORMATION OF INCOMPLETE of standard of N number of transmission signal is identical, institute
The first parameter for stating N number of transmission signal determines the first quasi- co-located hypothesis information for the first communication equipment, and described first is quasi- co-located
Assuming that information is used for first communication equipment in U transmission signal of the first reception, first parameter includes carrier wave rope
Draw, system parameter, signal type, wireless network identification type, when at least one of field type or resource index, N be greater than
Positive integer equal to 2, the U transmission signal is some or all of in N number of transmission signal, U is just less than or equal to N
Integer.
14. according to the method for claim 13, which is characterized in that N number of transmission signal is carried on M carrier wave, M
For the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of system parameter is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of carrier index is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on middle main carrier is determined as the described first quasi- co-located hypothesis information.
15. according to the method for claim 13, which is characterized in that if in N number of transmission signal including common signal,
The co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis information by first communication equipment.
16. according to the method for claim 15, which is characterized in that if in N number of transmission signal including 1 public letter
Number, then the co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis letter by first communication equipment
Breath;
If including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal, institute
State the co-located hypothesis information of standard for the transmission signal that the first communication equipment indexes main carrier in the O carrier wave on corresponding carrier wave
It is determined as the described first quasi- co-located hypothesis information, P is the positive integer less than or equal to N and more than or equal to 2, and O is just less than or equal to P
Integer;
Alternatively, if including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal
On, then first communication equipment is by the co-located vacation of standard of the transmission signal in the O carrier wave on the smallest carrier wave of carrier index
If information is determined as the described first quasi- co-located hypothesis information, P be less than or equal to N and be more than or equal to 2 positive integer, O be less than etc.
In the positive integer of P.
17. method described in 3 or 14 according to claim 1, which is characterized in that N number of transmission signal is carried on M carrier wave
On, M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Wave includes K, then first communication equipment is by the highest priority of signal type on the smallest carrier wave of K system parameter
Co-located the hypothesiss information of standard of transmission signal be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment is by the smallest load of carrier index in the smallest carrier wave of K system parameter
The co-located hypothesis information of standard of transmission signal on wave is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment indexes main carrier in the smallest carrier wave of K system parameter corresponding
The co-located hypothesis information of standard of transmission signal on carrier wave is determined as the described first quasi- co-located hypothesis information;
Wherein, the K is the positive integer less than or equal to M.
18. method described in 3 or 14 according to claim 1, which is characterized in that N number of transmission signal is carried on M carrier wave
On, M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Transmission signal on wave includes L, then first communication equipment transmits the priority of signal type in signal most for described L
The co-located hypothesis information of standard of high transmission signal is determined as the described first quasi- co-located hypothesis information, and L is just whole less than or equal to N
Number.
19. according to the method for claim 13, which is characterized in that if the corresponding signal type packet of N number of transmission signal
At least two are included, then first communication equipment believes the transmission of the highest priority of signal type in N number of transmission signal
Number co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
It is quasi- to be determined as described first for the co-located hypothesis information of standard of the transmission signal of the highest priority of wireless network identification type in signal
Co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
The co-located hypothesis information of standard of the highest transmission signal of time domain type priority grade is determined as the described first quasi- co-located hypothesis letter in signal
Breath;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
The co-located hypothesis information of standard of the smallest transmission signal of resource index is determined as the described first quasi- co-located hypothesis information in signal.
20. 3 to 19 described in any item methods according to claim 1, which is characterized in that the priority for controlling signal is greater than or waits
In the priority of service signal;
Alternatively, the priority of service signal is greater than or equal to the priority of reference signal;
Alternatively, the priority of common signal is greater than or equal to the priority of special signal;
Alternatively, the priority of the high signal of service priority is greater than or equal to the priority of the low signal of service priority;
Second communication is needed alternatively, being greater than or equal to without the priority that the second communication equipment is scheduled the signal of control
Equipment is scheduled the priority of the signal of control;
Alternatively, the priority of the small signal of system parameter is greater than or equal to the priority of the big signal of system parameter.
21. 3 to 20 described in any item methods according to claim 1, which is characterized in that the priority of synchronization signal block SSB is big
In the priority for the physical downlink control channel PDCCH for being equal to broadcast;
Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;
Alternatively, the priority of the PDSCH of broadcast is more than or equal to the priority of the PDSCH of unicast;
Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to the priority of reference signal;
Alternatively, the priority of the channel state information reference signals CSI-RS for carrying out Radio Link Detection RLM is more than or equal to
For carrying out the priority of the CSI-RS of wave beam management BM;
Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to the CSI- for carrying out channel state information CSI detection
The priority of RS;
Alternatively, priority of the priority of the CSI-RS for carrying out CSI detection more than or equal to Phase Tracking reference signal PTRS/
The priority of time-frequency track reference signal TRS;
Alternatively, the priority of random access channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;
Alternatively, the priority of PUCCH is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;
Alternatively, the priority of PUSCH is more than or equal to the priority of Sounding Reference Signal SRS;
Alternatively, the priority of the SRS for carrying out BM is more than or equal to the priority of the SRS for carrying out non-code book transmission NCB;
Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to the SRS's for carrying out code book transmission CB
Priority.
22. 3 to 21 described in any item methods according to claim 1, which is characterized in that the wireless network identification of downlink signal
Priority is greater than or equal to the priority of the wireless network identification of uplink signal;
Alternatively, the priority of the wireless network identification of the high signal of service priority is greater than or equal to the low signal of service priority
Wireless network identification priority;
Alternatively, the priority for being scheduled the wireless network identification of the signal of control without the second communication equipment, which is greater than or equal to, to be needed
Second communication equipment is wanted to be scheduled the priority of the wireless network identification of the signal of control;
Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the preferential of the wireless network identification of special signal
Grade.
23. 3 to 22 described in any item methods according to claim 1, which is characterized in that
If the corresponding signal type of N number of transmission signal is PDSCH, page-radio network temporary identifier P-RNTI it is excellent
First grade is more than or equal to system information-radio network temporary identifier SI-RNTI priority;
Alternatively, the priority of SI-RNTI is more than or equal to random if the corresponding signal type of N number of transmission signal is PDSCH
Access response-radio network temporary identifier RA-RNTI priority;
Alternatively, the priority of RA-RNTI is more than or equal to CS- if the corresponding signal type of N number of transmission signal is PDSCH
The priority of RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to cell if the corresponding signal type of N number of transmission signal is PDSCH
The priority of radio network temporary identifier C-RNTI;
Alternatively, P-RNTI/SI-RNTI/RA-RNTI's is excellent if the corresponding signal type of N number of transmission signal is PDCCH
First grade, which is more than or equal to, interrupts instruction-radio network temporary identifier INT-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, when the priority of INT-RNTI is more than or equal to
Gap format identification (FID)-radio network temporary identifier SFI-RNTI priority;
Alternatively, the priority of SFI-RNTI, which is more than or equal to, to be set if the corresponding signal type of N number of transmission signal is PDCCH
The priority of degree of setting the tone-radio network temporary identifier CS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PDCCH
The priority of RNTI;
Alternatively, it is quiet that the priority of C-RNTI is more than or equal to half if the corresponding signal type of N number of transmission signal is PDCCH
State channel state information-radio network temporary identifier SP-CSI-RNTI priority;
Alternatively, the priority of SP-CSI-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
The priority of transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-RNTI;
Alternatively, the priority of TPC-PUSCH-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of RNTI;
Alternatively, the priority of C-RNTI is more than or equal to SP- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of CSI-RNTI.
24. according to the method for claim 13, which is characterized in that second communication equipment is sending N number of transmission signal
Before, further includes:
Second communication equipment sends carrier index, the carrier wave that second communication equipment is sent to first communication equipment
First on the corresponding carrier wave of carrier index that index sends second communication equipment for first communication equipment
The co-located hypothesis information of standard of transmission signal is determined as the described first quasi- co-located hypothesis information;
Alternatively, second communication equipment is before sending N number of transmission signal, further includes:
Second communication equipment sends carrier index and signal type index, second communication to first communication equipment
What carrier index and the signal type index that equipment is sent sent second communication equipment for first communication equipment
The co-located hypothesis information of standard that the signal type indexes corresponding transmission signal on the corresponding carrier wave of carrier index is determined as described
First quasi- co-located hypothesis information;
Alternatively, second communication equipment is before sending N number of transmission signal, further includes:
Second communication equipment is indexed to the first communication equipment system parameters and carrier index, second communication
What the system parameter index and carrier index that equipment is sent sent second communication equipment for first communication equipment
It is quasi- that the co-located hypothesis information of standard that system parameter indexes the transmission signal on carrier wave corresponding with carrier index is determined as described first
Co-located hypothesis information.
25. a kind of communication equipment characterized by comprising
Determination unit, for determining the first quasi- co-located hypothesis information, first parameter according to the first parameter of N number of transmission signal
Including carrier index, system parameter, signal type, wireless network identification type, when field type or resource index at least one
Kind, N is the positive integer more than or equal to 2;
Receiving unit, for receiving U transmission signal according to the described first quasi- co-located hypothesis information at the first moment, the U is a
Signal is transmitted as some or all of in N number of transmission signal, U is the positive integer less than or equal to N.
26. communication equipment according to claim 25, which is characterized in that N number of transmission signal is carried on M carrier wave
On, M is the positive integer less than or equal to N;
The determination unit is specifically used for:
It is if the corresponding system parameter of M carrier wave is not exactly the same, system parameter in the M carrier wave is the smallest
The co-located hypothesis information of standard of transmission signal on carrier wave is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, carrier index in the M carrier wave is the smallest
The co-located hypothesis information of standard of transmission signal on carrier wave is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, by the transmission in the M carrier wave on main carrier
The co-located hypothesis information of standard of signal is determined as the described first quasi- co-located hypothesis information.
27. communication equipment according to claim 25, which is characterized in that the determination unit is specifically used for:
If in N number of transmission signal including common signal, the co-located hypothesis information of standard of the common signal is determined as institute
State the first quasi- co-located hypothesis information.
28. communication equipment according to claim 27, which is characterized in that the determination unit is specifically used for:
If in N number of transmission signal including 1 common signal, the co-located hypothesis information of standard of the common signal is determined as
Described first quasi- co-located hypothesis information;
If including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal, general
It is quasi- that the co-located hypothesis information of standard that main carrier indexes the transmission signal on corresponding carrier wave in the O carrier wave is determined as described first
Co-located hypothesis information, P are the positive integer less than or equal to N and more than or equal to 2, and O is the positive integer less than or equal to P;
Alternatively, if including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal
On, then the co-located hypothesis information of standard of the transmission signal in the O carrier wave on the smallest carrier wave of carrier index is determined as described
First quasi- co-located hypothesis information, P are the positive integer less than or equal to N and more than or equal to 2, and O is the positive integer less than or equal to P.
29. the communication equipment according to claim 25 or 26, which is characterized in that N number of transmission signal is carried on M
On carrier wave, M is the positive integer less than or equal to N;
The determination unit is specifically used for:
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Wave includes K, then is total to the standard of the transmission signal of the highest priority of signal type on the smallest carrier wave of K system parameter
Assume that information is determined as the described first quasi- co-located hypothesis information in location;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then will transmit signal on the smallest carrier wave of carrier index in the smallest carrier wave of K system parameter
Quasi- co-located hypothesis information is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then main carrier in the smallest carrier wave of K system parameter is indexed into the transmission signal on corresponding carrier wave
Co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard;
Wherein, the K is the positive integer less than or equal to M.
30. the communication equipment according to claim 25 or 26, which is characterized in that N number of transmission signal is carried on M
On carrier wave, M is the positive integer less than or equal to N;
The determination unit is specifically used for:
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Transmission signal on wave includes L, then transmits described L the standard of the transmission signal of the highest priority of signal type in signal
Co-located hypothesis information is determined as the described first quasi- co-located hypothesis information, and L is the positive integer less than or equal to N.
31. communication equipment according to claim 25, which is characterized in that the determination unit is specifically used for:
If the corresponding signal type of N number of transmission signal includes at least two, by signal type in N number of transmission signal
Co-located the hypothesiss information of standard of transmission signal of highest priority be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, by wireless network mark in N number of transmission signal
The co-located hypothesis information of standard for knowing the transmission signal of the highest priority of type is determined as the described first quasi- co-located hypothesis information;
Alternatively, field type is excellent when by N number of transmission signal if the corresponding signal type of N number of transmission signal is identical
The co-located hypothesis information of standard of the first highest transmission signal of grade is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, most by resource index in N number of transmission signal
The co-located hypothesis information of standard of small transmission signal is determined as the described first quasi- co-located hypothesis information.
32. according to the described in any item communication equipments of claim 25 to 31, which is characterized in that the priority for controlling signal is greater than
Or the priority equal to service signal;
Alternatively, the priority of service signal is greater than or equal to the priority of reference signal;
Alternatively, the priority of common signal is greater than or equal to the priority of special signal;
Alternatively, the priority of the high signal of service priority is greater than or equal to the priority of the low signal of service priority;
Second communication is needed alternatively, being greater than or equal to without the priority that the second communication equipment is scheduled the signal of control
Equipment is scheduled the priority of the signal of control;
Alternatively, the priority of the small signal of system parameter is greater than or equal to the priority of the big signal of system parameter.
33. according to the described in any item communication equipments of claim 25 to 32, which is characterized in that synchronization signal block SSB's is preferential
Grade is more than or equal to the priority of the physical downlink control channel PDCCH of broadcast;
Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;
Alternatively, the priority of the PDSCH of broadcast is more than or equal to the priority of the PDSCH of unicast;
Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to the priority of reference signal;
Alternatively, the priority of the channel state information reference signals CSI-RS for carrying out Radio Link Detection RLM is more than or equal to
For carrying out the priority of the CSI-RS of wave beam management BM;
Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to the CSI- for carrying out channel state information CSI detection
The priority of RS;
Alternatively, priority of the priority of the CSI-RS for carrying out CSI detection more than or equal to Phase Tracking reference signal PTRS/
The priority of time-frequency track reference signal TRS;
Alternatively, the priority of random access channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;
Alternatively, the priority of PUCCH is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;
Alternatively, the priority of PUSCH is more than or equal to the priority of Sounding Reference Signal SRS;
Alternatively, the priority of the SRS for carrying out BM is more than or equal to the priority of the SRS for carrying out non-code book transmission NCB;
Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to the SRS's for carrying out code book transmission CB
Priority.
34. according to the described in any item communication equipments of claim 25 to 33, which is characterized in that the wireless network mark of downlink signal
The priority of knowledge is greater than or equal to the priority of the wireless network identification of uplink signal;
Alternatively, the priority of the wireless network identification of the high signal of service priority is greater than or equal to the low signal of service priority
Wireless network identification priority;
Alternatively, the priority for being scheduled the wireless network identification of the signal of control without the second communication equipment, which is greater than or equal to, to be needed
Second communication equipment is wanted to be scheduled the priority of the wireless network identification of the signal of control;
Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the preferential of the wireless network identification of special signal
Grade.
35. according to the described in any item communication equipments of claim 25 to 34, which is characterized in that
If the corresponding signal type of N number of transmission signal is PDSCH, page-radio network temporary identifier P-RNTI it is excellent
First grade is more than or equal to system information-radio network temporary identifier SI-RNTI priority;
Alternatively, the priority of SI-RNTI is more than or equal to random if the corresponding signal type of N number of transmission signal is PDSCH
Access response-radio network temporary identifier RA-RNTI priority;
Alternatively, the priority of RA-RNTI is more than or equal to CS- if the corresponding signal type of N number of transmission signal is PDSCH
The priority of RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to cell if the corresponding signal type of N number of transmission signal is PDSCH
The priority of radio network temporary identifier C-RNTI;
Alternatively, P-RNTI/SI-RNTI/RA-RNTI's is excellent if the corresponding signal type of N number of transmission signal is PDCCH
First grade, which is more than or equal to, interrupts instruction-radio network temporary identifier INT-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, when the priority of INT-RNTI is more than or equal to
Gap format identification (FID)-radio network temporary identifier SFI-RNTI priority;
Alternatively, the priority of SFI-RNTI, which is more than or equal to, to be set if the corresponding signal type of N number of transmission signal is PDCCH
The priority of degree of setting the tone-radio network temporary identifier CS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PDCCH
The priority of RNTI;
Alternatively, it is quiet that the priority of C-RNTI is more than or equal to half if the corresponding signal type of N number of transmission signal is PDCCH
State channel state information-radio network temporary identifier SP-CSI-RNTI priority;
Alternatively, the priority of SP-CSI-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
The priority of transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-RNTI;
Alternatively, the priority of TPC-PUSCH-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of RNTI;
Alternatively, the priority of C-RNTI is more than or equal to SP- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of CSI-RNTI.
36. communication equipment according to claim 25, which is characterized in that the receiving unit is also used in the determination
Before unit determines the first quasi- co-located hypothesis information according to the first parameter, the carrier index that the second communication equipment is sent is received;
The determination unit is specifically used for:
The co-located hypothesis of standard of first transmission signal on the corresponding carrier wave of carrier index that second communication equipment is sent
Information is determined as the described first quasi- co-located hypothesis information;
Alternatively, the receiving unit, is also used to determine the first quasi- co-located hypothesis information according to the first parameter in the determination unit
Before, the carrier index and signal type index that the second communication equipment is sent are received;
The determination unit is specifically used for:
The signal type indexes corresponding transmission letter on the corresponding carrier wave of carrier index that second communication equipment is sent
Number co-located the hypothesiss information of standard be determined as the co-located hypothesis information of first standard;
Alternatively, the receiving unit, is also used to determine the first quasi- co-located hypothesis information according to the first parameter in the determination unit
Before, the system parameter index and carrier index that the second communication equipment is sent are received;
The determination unit is specifically used for:
The system parameter that second communication equipment is sent indexes the standard of the transmission signal on carrier wave corresponding with carrier index
Co-located hypothesis information is determined as the described first quasi- co-located hypothesis information.
37. a kind of communication equipment characterized by comprising
Transmission unit, for sending N number of transmission signal, the co-located hypothesis INFORMATION OF INCOMPLETE of standard of N number of transmission signal is identical, institute
The first parameter for stating N number of transmission signal determines the first quasi- co-located hypothesis information for the first communication equipment, and described first is quasi- co-located
Assuming that information is used for first communication equipment in U transmission signal of the first reception, first parameter includes carrier wave rope
Draw, system parameter, signal type, wireless network identification type, when at least one of field type or resource index, N be greater than
Positive integer equal to 2, the U transmission signal is some or all of in N number of transmission signal, U is just less than or equal to N
Integer.
38. the communication equipment according to claim 37, which is characterized in that N number of transmission signal is carried on M carrier wave
On, M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of system parameter is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on the middle the smallest carrier wave of carrier index is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is identical, first communication equipment is by the M carrier wave
The co-located hypothesis information of standard of transmission signal on middle main carrier is determined as the described first quasi- co-located hypothesis information.
39. the communication equipment according to claim 37, which is characterized in that if in N number of transmission signal including public letter
Number, then the co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis letter by first communication equipment
Breath.
40. communication equipment according to claim 39, which is characterized in that if in N number of transmission signal including 1 public
Signal, then the co-located hypothesis information of standard of the common signal is determined as the described first quasi- co-located hypothesis by first communication equipment
Information;
If including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal, institute
State the co-located hypothesis information of standard for the transmission signal that the first communication equipment indexes main carrier in the O carrier wave on corresponding carrier wave
It is determined as the described first quasi- co-located hypothesis information, P is the positive integer less than or equal to N and more than or equal to 2, and O is just less than or equal to P
Integer;
Alternatively, if including that P common signal and the P common signal are carried on O carrier wave in N number of transmission signal
On, then first communication equipment is by the co-located vacation of standard of the transmission signal in the O carrier wave on the smallest carrier wave of carrier index
If information is determined as the described first quasi- co-located hypothesis information, P be less than or equal to N and be more than or equal to 2 positive integer, O be less than etc.
In the positive integer of P.
41. the communication equipment according to claim 37 or 38, which is characterized in that N number of transmission signal is carried on M
On carrier wave, M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Wave includes K, then first communication equipment is by the highest priority of signal type on the smallest carrier wave of K system parameter
Co-located the hypothesiss information of standard of transmission signal be determined as the co-located hypothesis information of first standard;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment is by the smallest load of carrier index in the smallest carrier wave of K system parameter
The co-located hypothesis information of standard of transmission signal on wave is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in system parameter it is minimum
Carrier wave include K, then first communication equipment indexes main carrier in the smallest carrier wave of K system parameter corresponding
The co-located hypothesis information of standard of transmission signal on carrier wave is determined as the described first quasi- co-located hypothesis information;
Wherein, the K is the positive integer less than or equal to M.
42. the communication equipment according to claim 37 or 38, which is characterized in that N number of transmission signal is carried on M
On carrier wave, M is the positive integer less than or equal to N;
If the corresponding system parameter of M carrier wave is not exactly the same and the M carrier wave in the smallest load of system parameter
Transmission signal on wave includes L, then first communication equipment transmits the priority of signal type in signal most for described L
The co-located hypothesis information of standard of high transmission signal is determined as the described first quasi- co-located hypothesis information, and L is just whole less than or equal to N
Number.
43. the communication equipment according to claim 37, which is characterized in that if the corresponding class signal of N number of transmission signal
Type include at least two, then first communication equipment by it is described it is N number of transmission signal in signal type highest priority biography
The co-located hypothesis information of standard of defeated signal is determined as the described first quasi- co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
It is quasi- to be determined as described first for the co-located hypothesis information of standard of the transmission signal of the highest priority of wireless network identification type in signal
Co-located hypothesis information;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
The co-located hypothesis information of standard of the highest transmission signal of time domain type priority grade is determined as the described first quasi- co-located hypothesis letter in signal
Breath;
Alternatively, if the corresponding signal type of N number of transmission signal is identical, first communication equipment is by N number of transmission
The co-located hypothesis information of standard of the smallest transmission signal of resource index is determined as the described first quasi- co-located hypothesis information in signal.
44. according to the described in any item communication equipments of claim 37 to 43, which is characterized in that the priority for controlling signal is greater than
Or the priority equal to service signal;
Alternatively, the priority of service signal is greater than or equal to the priority of reference signal;
Alternatively, the priority of common signal is greater than or equal to the priority of special signal;
Alternatively, the priority of the high signal of service priority is greater than or equal to the priority of the low signal of service priority;
The communication equipment is needed alternatively, being greater than or equal to without the priority that the communication equipment is scheduled the signal of control
It is scheduled the priority of the signal of control;
Alternatively, the priority of the small signal of system parameter is greater than or equal to the priority of the big signal of system parameter.
45. according to the described in any item communication equipments of claim 37 to 44, which is characterized in that synchronization signal block SSB's is preferential
Grade is more than or equal to the priority of the physical downlink control channel PDCCH of broadcast;
Alternatively, the priority of SSB is more than or equal to the priority of the Physical Downlink Shared Channel PDSCH of broadcast;
Alternatively, the priority of the PDCCH of broadcast is more than or equal to the priority of the PDCCH of unicast;
Alternatively, the priority of the PDSCH of broadcast is more than or equal to the priority of the PDSCH of unicast;
Alternatively, the priority of the PDCCH/PDSCH of unicast is more than or equal to the priority of reference signal;
Alternatively, the priority of the channel state information reference signals CSI-RS for carrying out Radio Link Detection RLM is more than or equal to
For carrying out the priority of the CSI-RS of wave beam management BM;
Alternatively, the priority of the CSI-RS for carrying out BM is more than or equal to the CSI- for carrying out channel state information CSI detection
The priority of RS;
Alternatively, priority of the priority of the CSI-RS for carrying out CSI detection more than or equal to Phase Tracking reference signal PTRS/
The priority of time-frequency track reference signal TRS;
Alternatively, the priority of random access channel RACH is more than or equal to the priority of Physical Uplink Control Channel PUCCH;
Alternatively, the priority of PUCCH is more than or equal to the priority of Physical Uplink Shared Channel PUSCH;
Alternatively, the priority of PUSCH is more than or equal to the priority of Sounding Reference Signal SRS;
Alternatively, the priority of the SRS for carrying out BM is more than or equal to the priority of the SRS for carrying out non-code book transmission NCB;
Alternatively, the priority of the SRS for carrying out non-code book transmission NCB is more than or equal to the SRS's for carrying out code book transmission CB
Priority.
46. according to the described in any item communication equipments of claim 37 to 45, which is characterized in that the wireless network mark of downlink signal
The priority of knowledge is greater than or equal to the priority of the wireless network identification of uplink signal;
Alternatively, the priority of the wireless network identification of the high signal of service priority is greater than or equal to the low signal of service priority
Wireless network identification priority;
Alternatively, the priority for being scheduled the wireless network identification of the signal of control without the communication equipment, which is greater than or equal to, to be needed
The communication equipment is wanted to be scheduled the priority of the wireless network identification of the signal of control;
Alternatively, the priority of the wireless network identification of common signal is greater than or equal to the preferential of the wireless network identification of special signal
Grade.
47. according to the described in any item communication equipments of claim 37 to 46, which is characterized in that
If the corresponding signal type of N number of transmission signal is PDSCH, page-radio network temporary identifier P-RNTI it is excellent
First grade is more than or equal to system information-radio network temporary identifier SI-RNTI priority;
Alternatively, the priority of SI-RNTI is more than or equal to random if the corresponding signal type of N number of transmission signal is PDSCH
Access response-radio network temporary identifier RA-RNTI priority;
Alternatively, the priority of RA-RNTI is more than or equal to CS- if the corresponding signal type of N number of transmission signal is PDSCH
The priority of RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to cell if the corresponding signal type of N number of transmission signal is PDSCH
The priority of radio network temporary identifier C-RNTI;
Alternatively, P-RNTI/SI-RNTI/RA-RNTI's is excellent if the corresponding signal type of N number of transmission signal is PDCCH
First grade, which is more than or equal to, interrupts instruction-radio network temporary identifier INT-RNTI priority;
Alternatively, if the corresponding signal type of N number of transmission signal is PDCCH, when the priority of INT-RNTI is more than or equal to
Gap format identification (FID)-radio network temporary identifier SFI-RNTI priority;
Alternatively, the priority of SFI-RNTI, which is more than or equal to, to be set if the corresponding signal type of N number of transmission signal is PDCCH
The priority of degree of setting the tone-radio network temporary identifier CS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PDCCH
The priority of RNTI;
Alternatively, it is quiet that the priority of C-RNTI is more than or equal to half if the corresponding signal type of N number of transmission signal is PDCCH
State channel state information-radio network temporary identifier SP-CSI-RNTI priority;
Alternatively, the priority of SP-CSI-RNTI is more than or equal to if the corresponding signal type of N number of transmission signal is PDCCH
The priority of transimission power order-Physical Uplink Shared Channel-radio network temporary identifier TPC-PUSCH-RNTI;
Alternatively, the priority of TPC-PUSCH-RNTI is greater than if the corresponding signal type of N number of transmission signal is PDCCH
Equal to the priority of transimission power order-detection reference signal-radio network temporary identifier TPC-SRS-RNTI;
Alternatively, the priority of CS-RNTI is more than or equal to C- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of RNTI;
Alternatively, the priority of C-RNTI is more than or equal to SP- if the corresponding signal type of N number of transmission signal is PUSCH
The priority of CSI-RNTI.
48. the communication equipment according to claim 37, which is characterized in that the transmission unit is also used to sending N number of biography
Before defeated signal, the first communication equipment of Xiang Suoshu sends carrier index, and the carrier index that the transmission unit is sent is for described
The standard of first transmission signal on the corresponding carrier wave of the carrier index that first communication equipment sends the transmission unit is co-located
Assuming that information is determined as the described first quasi- co-located hypothesis information;
Alternatively, the transmission unit, is also used to before sending N number of transmission signal, the first communication equipment of Xiang Suoshu sends carrier wave
Index and signal type index, carrier index and the signal type index that the transmission unit is sent are set for first communication
The standby standard that the signal type on the corresponding carrier wave of carrier index that the transmission unit is sent is indexed to corresponding transmission signal
Co-located hypothesis information is determined as the described first quasi- co-located hypothesis information;
Alternatively, the transmission unit, is also used to before sending N number of transmission signal, the first communication equipment of Xiang Suoshu sends system
Parameter reference and carrier index, the system parameter index and carrier index that the transmission unit is sent are set for first communication
The standby system parameter for sending the transmission unit indexes the co-located vacation of standard of the transmission signal on carrier wave corresponding with carrier index
If information is determined as the described first quasi- co-located hypothesis information.
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PCT/CN2019/080700 WO2019192410A1 (en) | 2018-04-04 | 2019-03-30 | Signal transmission method and communication device |
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CN201810305309.XA CN110351058B (en) | 2018-04-04 | 2018-04-04 | Signal transmission method and communication equipment |
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CN113055140A (en) * | 2019-12-27 | 2021-06-29 | 上海朗帛通信技术有限公司 | Method and apparatus in a node used for wireless communication |
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