CN110213792A - A kind of method and apparatus in communication node for wireless communication - Google Patents

Abstract

This application discloses the method and apparatus in a kind of communication node for wireless communication.Communication node receives the first information first；Then P2 first kind wireless signal group is sent；Then P2 the second class wireless signals are sent；The first information is used for determining the P2 first kind wireless signal group, and P1 first kind wireless signal is divided into the P2 first kind wireless signal group, and the P2 first kind wireless signal group and the P2 the second class wireless signals correspond；The second class wireless signal of any of the P2 the second class wireless signals and its first kind wireless signal in the P2 first kind wireless signal group in corresponding first kind wireless signal group use identical spatial domain transmitting filter；The second occupied interface-free resources of class wireless signal of any of the P2 the second class wireless signal with its corresponding to the first kind occupied interface-free resources of wireless signal group it is related.The application improves the non-resource utilization for authorizing transmission.

Description

A kind of method and apparatus in communication node for wireless communication

Technical field

This application involves the transmission methods and device more particularly to the non-transmission plan authorized of uplink in wireless communication system And device.

Background technique

The increasingly diversification of the application scenarios of future broadband wireless communication systems, different application scenarios propose difference to system Performance requirement.In order to meet the different performance requirements of plurality of application scenes, in 3GPP (3rd Generation Partner Project, third generation cooperative partner program) in RAN (Radio Access Network, wireless access network) #72 plenary session certainly It is fixed that technology (NR, New Radio) (or 5G) of newly eating dishes without rice or wine is studied, pass through in RAN#75 plenary session of 3GPP and has newly eated dishes without rice or wine The WI (Work Item, job) of technology (NR, New Radio), starts to be standardized work to NR.

It is also logical in RAN#76 plenary session of 3GPP in order to adapt to the application scenarios of multiplicity and meet the needs of different The research project of the non-orthogonal multiple access (NoMA, Non-orthogonal Multiple Access) under NR is crossed, this grinds Study carefully project to start in R16 version, starts WI after SI and the relevant technologies are standardized.In numerous NoMA transmission modes In, the non-uplink for authorizing (Grant-Free) will be primary study since it requires low advantage to the complexity of receiver A kind of mode.

Summary of the invention

It is authorized in uplink non-, especially in RRC (Radio Resource Control, wireless heterogeneous networks) non-company In the case of meeting (the RRC Inactive Mode or RRC Idle Mode) of state, the uplink of different user equipmenies is not yet It is synchronous.Due to the non-synchronous transmissions of uplink, authorizes uplink in non-based on leading (Preamble) sequence and can reduce and connect The timing complexity of receipts person.Under high frequency scene, needs to dispose extensive antenna to resist and penetrate damage and transmission attenuation.Wave beam is swept Swing (Beam Sweeping) can in the case where extensive antenna using analog beam figuration to enhance covering while reduction The complexity of radio-frequency head, but the wave beam based on analog beam mops up and needs to occupy a large amount of time-domain resource to cause resource sharp It is reduced with rate.Due to disconnected state it is non-authorize had not gone through in uplink wave beam training (Beam Training) after The process of wave beam management (Beam Management), it is this problem of causing resource utilization to reduce, is mopped up due to wave beam can be more Add protrusion.This application provides a kind of non-solutions for authorizing the beam configuration in uplink.It should be noted that not In the case where conflict, the feature in embodiment and embodiment in the base station equipment of the application be can be applied in user equipment, Vice versa.Further, in the absence of conflict, the feature in embodiments herein and embodiment can arbitrarily mutually Combination.

This application discloses a kind of methods in first kind communication node in wirelessly communicating, which is characterized in that packet It includes:

Receive the first information；

Send P2 first kind wireless signal group；

Send P2 the second class wireless signals；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless communication Number be divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second classes without Line signal corresponds, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 second Any of class wireless signal the second class wireless signal is with it corresponding first in the P2 first kind wireless signal group First kind wireless signal in class wireless signal group uses identical spatial domain transmitting filter；The P2 the second class wireless communications Number any of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme It is related with its corresponding first kind occupied interface-free resources of wireless signal group in the P2 first kind wireless signal group； The first information passes through air interface transmission.

It ensure that each first kind is wireless by the way that the P1 first kind wireless signal to be grouped as one embodiment Transmission wave beam in signal group is identical, the chance for receiving wave beam training is provided for receiving end, while will likely connect using multiple The first kind wireless signal group for receiving wave beam is associated with the same second class wireless signal, makes receiving end wireless according to multiple first kind The reception wave beam of the second corresponding class wireless signal of the autonomous selection of judgement for the wave beam training that signal provides, avoids the second class The reception wave beam again of wireless signal is mopped up, to substantially increase resource utilization.

As one embodiment, network side can pass through the configuration of the first information and itself reception beamforming capabilities To be grouped the P1 first kind wireless signal, while can determine to receive according to the business demand of multiple users P2 described Reception wave beam when the second class wireless signal avoids obtaining balance between time-domain resource reusability in collision, to pass through scheduling It further increases resource utilization and provides possibility.

According to the one aspect of the application, the above method is characterized in that, further includes:

Receive the second information；

Wherein, second information is used for determining the alternative wireless signal of the Q1 first kind, and the P1 first kind is wireless Each first kind wireless signal in signal belongs to the alternative wireless signal of the Q1 first kind；The first information is used for The alternative wireless signal groups of Q2 are determined in the alternative wireless signal of the Q1 first kind, in the P2 first kind wireless signal group Any one first kind line signal group belong to an alternative wireless signal group in the alternative wireless signal group of the Q2；The Q2 It is positive integer, the Q1 is greater than the positive integer of the Q2；Second information passes through the air interface transmission.

According to the one aspect of the application, the above method is characterized in that, the first wireless signal group is the P2 first One of class wireless signal group, the first wireless signal group include X1 first kind wireless signal, the X1 first kind without Line signal is used for determining X2 alternative interface-free resources, shared by the second class wireless signal corresponding to the first wireless signal group Interface-free resources are one of the X2 alternative interface-free resources, and the X1 is greater than 1 positive integer, and the X2 is just whole Number.

According to the one aspect of the application, the above method is characterized in that, further includes:

Receive third information；

Wherein, the third information is used for determining Y alternative interface-free resources, in the P2 the second class wireless signals Any one second occupied interface-free resources of class wireless signal belongs to one of the Y alternative interface-free resources, and the Y is not Less than the positive integer of the P2；The third information passes through the air interface transmission.

According to the one aspect of the application, the above method is characterized in that, the Y alternative interface-free resources are divided into Q2 Interface-free resources set, the Q2 interface-free resources set and the Q2 alternative wireless signal groups correspond, first nothing Alternative wireless signal group in the alternative wireless signal group of Q2 belonging to line signal group is the first alternative wireless signal group, described The second occupied interface-free resources of class wireless signal corresponding to first wireless signal group belong to the described first alternative wireless signal The corresponding interface-free resources set of group.

This application discloses a kind of methods in the second class communication node in wirelessly communicating, which is characterized in that packet It includes:

Send the first information；

Detect P2 first kind wireless signal group；

If the P2 first kind wireless signal group is detected, P2 the second class wireless signals are received；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless communication Number be divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second classes without Line signal corresponds, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 second Any of class wireless signal the second class wireless signal is with it corresponding first in the P2 first kind wireless signal group First kind wireless signal in class wireless signal group uses identical spatial domain transmitting filter；The P2 the second class wireless communications Number any of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme It is related with its corresponding first kind occupied interface-free resources of wireless signal group in the P2 first kind wireless signal group； The first information passes through air interface transmission.

According to the one aspect of the application, the above method is characterized in that, further includes:

Send the second information；

Wherein, second information is used for determining the alternative wireless signal of the Q1 first kind, and the P1 first kind is wireless Each first kind wireless signal in signal belongs to the alternative wireless signal of the Q1 first kind；The first information is used for The alternative wireless signal groups of Q2 are determined in the alternative wireless signal of the Q1 first kind, in the P2 first kind wireless signal group Any one first kind wireless signal group in belong to an alternative wireless signal group in the alternative wireless signal group of the Q2；Institute Stating Q2 is positive integer, and the Q1 is greater than the positive integer of the Q2；Second information passes through the air interface transmission.

According to the one aspect of the application, the above method is characterized in that, the first wireless signal group is the P2 first One of class wireless signal group, the first wireless signal group include X1 first kind wireless signal, the X1 first kind without Line signal is used for determining X2 alternative interface-free resources, shared by the second class wireless signal corresponding to the first wireless signal group Interface-free resources are one of the X2 alternative interface-free resources, and the X1 is greater than 1 positive integer, and the X2 is just whole Number.

According to the one aspect of the application, the above method is characterized in that, further includes:

Send third information；

Wherein, the third information is used for determining Y alternative interface-free resources, in the P2 the second class wireless signals Any one second occupied interface-free resources of class wireless signal belongs to one of the Y alternative interface-free resources, and the Y is not Less than the positive integer of the P2；The third information passes through the air interface transmission.

According to the one aspect of the application, the above method is characterized in that, the Y alternative interface-free resources are divided into Q2 Interface-free resources set, the Q2 interface-free resources set and the Q2 alternative wireless signal groups correspond, first nothing Alternative wireless signal group in the alternative wireless signal group of Q2 belonging to line signal group is the first alternative wireless signal group, described The second occupied interface-free resources of class wireless signal corresponding to first wireless signal group belong to the described first alternative wireless signal The corresponding interface-free resources set of group.

This application discloses a kind of first kind communicating node devices in wirelessly communicating characterized by comprising

First receiver module receives the first information；

First transmitter module sends P2 first kind wireless signal group；

Second transmitter module sends P2 the second class wireless signals；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless communication Number be divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second classes without Line signal corresponds, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 second Any of class wireless signal the second class wireless signal is with it corresponding first in the P2 first kind wireless signal group First kind wireless signal in class wireless signal group uses identical spatial domain transmitting filter；The P2 the second class wireless communications Number any of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme It is related with its corresponding first kind occupied interface-free resources of wireless signal group in the P2 first kind wireless signal group； The first information passes through air interface transmission.

According to the one aspect of the application, above-mentioned first kind communicating node device is characterized in that, first receiver Module also receives the second information；Wherein, second information is used for determining that the alternative wireless signal of the Q1 first kind, the P1 are a Each first kind wireless signal in first kind wireless signal belongs to the alternative wireless signal of the Q1 first kind；First letter Breath be used to determine Q2 alternatively wireless signal groups in the alternative wireless signal of the Q1 first kind, the P2 first kind without Any one first kind line signal group in line signal group belongs to an alternative wireless communication in the Q2 alternative wireless signal groups Number group；The Q2 is positive integer, and the Q1 is greater than the positive integer of the Q2；Second information is passed by the air interface It is defeated.

According to the one aspect of the application, above-mentioned first kind communicating node device is characterized in that, the first wireless signal group For one of described P2 first kind wireless signal group, the first wireless signal group includes X1 first kind wireless signal, institute It states X1 first kind wireless signal and is used for determining X2 alternative interface-free resources, second corresponding to the first wireless signal group The occupied interface-free resources of class wireless signal are one of the X2 alternative interface-free resources, and the X1 is greater than 1 positive integer, The X2 is positive integer.

According to the one aspect of the application, above-mentioned first kind communicating node device is characterized in that, first receiver Module also receives third information；Wherein, the third information is used for determining Y alternative interface-free resources, the P2 the second classes The occupied interface-free resources of any of wireless signal the second class wireless signal belong to it in the Y alternative interface-free resources One, the Y is no less than the positive integer of the P2；The third information passes through the air interface transmission.

According to the one aspect of the application, above-mentioned first kind communicating node device is characterized in that, the Y are alternatively eated dishes without rice or wine Resource is divided into Q2 interface-free resources set, and the Q2 interface-free resources set and the Q2 alternative wireless signal groups one are a pair of It answers, the alternative wireless signal group in the alternative wireless signal group of Q2 belonging to the first wireless signal group is the first alternative nothing Line signal group, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group belong to described first Interface-free resources set corresponding to alternative wireless signal group.

This application discloses a kind of the second class communicating node devices in wirelessly communicating characterized by comprising

Third transmitter module sends the first information；

Second receiver module detects P2 first kind wireless signal group；

Third receiver module, if the P2 first kind wireless signal group is detected, receive P2 the second classes without Line signal；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless communication Number be divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second classes without Line signal corresponds, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 second Any of class wireless signal the second class wireless signal is with it corresponding first in the P2 first kind wireless signal group First kind wireless signal in class wireless signal group uses identical spatial domain transmitting filter；The P2 the second class wireless communications Number any of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme It is related with its corresponding first kind occupied interface-free resources of wireless signal group in the P2 first kind wireless signal group； The first information passes through air interface transmission.

According to the one aspect of the application, above-mentioned second class communicating node device is characterized in that, the third transmitter Module also sends the second information；Wherein, second information is used for determining that the alternative wireless signal of the Q1 first kind, the P1 are a Each first kind wireless signal in first kind wireless signal belongs to the alternative wireless signal of the Q1 first kind；First letter Breath be used to determine Q2 alternatively wireless signal groups in the alternative wireless signal of the Q1 first kind, the P2 first kind without Belong to an alternative nothing in the Q2 alternative wireless signal groups in any one first kind wireless signal group in line signal group Line signal group；The Q2 is positive integer, and the Q1 is greater than the positive integer of the Q2；Second information is connect in the air by described Port transmission.

According to the one aspect of the application, above-mentioned second class communicating node device is characterized in that, the first wireless signal group For one of described P2 first kind wireless signal group, the first wireless signal group includes X1 first kind wireless signal, institute It states X1 first kind wireless signal and is used for determining X2 alternative interface-free resources, second corresponding to the first wireless signal group The occupied interface-free resources of class wireless signal are one of the X2 alternative interface-free resources, and the X1 is greater than 1 positive integer, The X2 is positive integer.

According to the one aspect of the application, above-mentioned second class communicating node device is characterized in that, the third transmitter Module also sends third information；Wherein, the third information is used for determining Y alternative interface-free resources, the P2 the second classes The occupied interface-free resources of any of wireless signal the second class wireless signal belong to it in the Y alternative interface-free resources One, the Y is no less than the positive integer of the P2；The third information passes through the air interface transmission.

According to the one aspect of the application, above-mentioned second class communicating node device is characterized in that, the Y are alternatively eated dishes without rice or wine Resource is divided into Q2 interface-free resources set, and the Q2 interface-free resources set and the Q2 alternative wireless signal groups one are a pair of It answers, the alternative wireless signal group in the alternative wireless signal group of Q2 belonging to the first wireless signal group is the first alternative nothing Line signal group, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group belong to described first Interface-free resources set corresponding to alternative wireless signal group.

As one embodiment, the application has following major technique advantage:

This application provides a kind of network equipments can authorize uplink according to itself reception wave beam capability control is non- In leading repetition transmission and data configuration, avoid data portion wave beam mop up caused by the wasting of resources, improve resource Utilization rate.

Method in the application is that network side is scheduled multiple users according to the distribution of service distribution and reception wave beam Possibility is provided, so as to avoid seeking to balance between time-domain resource reusability in collision, further to pass through realization It improves resource utilization and provides possibility.

Detailed description of the invention

By reading a detailed description of non-restrictive embodiments in the light of the attached drawings below, the application's is other Feature, objects and advantages will become more apparent:

Fig. 1 shows the first information of one embodiment according to the application, and P2 first kind wireless signal group and P2 are a The flow chart of second class wireless signal；

Fig. 2 shows the schematic diagrames according to the network architecture of one embodiment of the application；

Fig. 3 shows showing for the radio protocol architecture of the user plane and control plane according to one embodiment of the application It is intended to；

Fig. 4 shows the signal of the first kind communication node and the second class communication node according to one embodiment of the application Figure；

Fig. 5 shows the wireless signal transmission flow chart according to one embodiment of the application；

Fig. 6 shows the wireless signal transmission flow chart according to another embodiment of the application；

Fig. 7 shows wireless according to P2 first kind wireless signal group and P2 second class of one embodiment of the application The schematic diagram of relationship between signal；

Fig. 8 show according to the alternative wireless signal of the Q1 first kind of one embodiment of the application and the P1 first kind without The schematic diagram of the relationship of line signal；

Fig. 9 shows the pass of the first wireless signal group and the X2 alternative interface-free resources according to one embodiment of the application The schematic diagram of system；

Figure 10 shows Q2 interface-free resources set and the Q2 alternative wireless signal according to one embodiment of the application The schematic diagram of the relationship of group；

Figure 11 shows the knot of the processing unit in the first kind communicating node device according to one embodiment of the application Structure block diagram；

Figure 12 shows the knot of the processing unit in the second class communicating node device according to one embodiment of the application Structure block diagram.

Specific embodiment

It is described in further detail below in conjunction with technical solution of the attached drawing to the application, it should be noted that do not rushing In the case where prominent, the feature in embodiments herein and embodiment can be arbitrarily combined with each other.

Embodiment 1

Embodiment 1 illustrates the first information of one embodiment according to the application, P2 first kind wireless signal group and The flow chart of the transmission of P2 the second class wireless signals, as shown in Fig. 1.In attached drawing 1, each box represents a step.

In embodiment 1, the first kind communication node in the application receives the first information first；Then P2 first is sent Class wireless signal group；Then P2 second wireless singal is sent；Wherein, the first information is used for determining the P2 first Class wireless signal group, P1 first kind wireless signal are divided into the P2 first kind wireless signal group, the P2 a first Class wireless signal group and the P2 the second class wireless signals correspond, and the P2 is greater than 1 positive integer, and the P1 is big In the positive integer of the P2；The second class wireless signal of any of the P2 the second class wireless signals is with it at the P2 First kind wireless signal in first kind wireless signal group in corresponding first kind wireless signal group is sent out using identical spatial domain Send filter；Any of the P2 the second class wireless signals occupied interface-free resources of the second class wireless signal and institute At least one of modulation coding scheme of use and its corresponding first kind in the P2 first kind wireless signal group without The occupied interface-free resources of line signal group are related；The first information passes through air interface transmission.

As one embodiment, the first information is transmitted by high-level signaling.

As one embodiment, the first information is transmitted by physical layer signaling.

As one embodiment, the first information includes all or part in a high-level signaling.

As one embodiment, the first information includes all or part in a physical layer signaling.

As one embodiment, (Physical Broadcast Channel, physics are wide by PBCH for the first information Broadcast channel) transmission.

As one embodiment, the first information includes MIB (Master Information Block, Master Information Block) In one or more domains (Field).

As one embodiment, the first information by DL-SCH (Downlink Shared Channel, under The shared channel of row) transmission.

As one embodiment, the first information passes through a PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, the first information includes SIB (System Information Block, a system Block of information) in one or more domains (Field).

As one embodiment, the first information includes RMSI (Remaining System Information, remainder System information) in one or more domains (Field).

As one embodiment, the first information includes a RRC (Radio Resource Control, wireless money Source control) signaling all or part.

As one embodiment, the first information is broadcast.

As one embodiment, the first information is unicast.

As one embodiment, the first information is that cell is specific (Cell Specific).

As one embodiment, the first information is that user equipment is specific (UE-specific).

As one embodiment, the first information passes through PDCCH (Physical Downlink Control Channel, Physical Downlink Control Channel) transmission.

As one embodiment, the first information includes a DCI (Downlink Control Information) All or part of domain (Field) of signaling.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute It states the first information and directly indicates the P2 first kind wireless signal group.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute It states the first information and indicates the P2 first kind wireless signal group indirectly.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute It states the first information and explicitly indicates the P2 first kind wireless signal group.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute It states the first information and implicitly indicates the P2 first kind wireless signal group.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute State the number of first kind wireless signal included in any two first kind wireless signal group in P2 first kind wireless signal group Measure equal, the first information is used to indicate that the P2.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute It states included in each first kind wireless signal group that the first information is used to indicate that in the P2 first kind wireless signal group First kind wireless signal quantity.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute State the number of first kind wireless signal included in any two first kind wireless signal group in P2 first kind wireless signal group Measure equal, the first information is used to indicate that the P2 and the P1 first kind wireless signal.

As one embodiment, the first information is used for determining that the P2 first kind wireless signal group refers to: institute It states included in each first kind wireless signal group that the first information is used to indicate that in the P2 first kind wireless signal group First kind wireless signal quantity and the P1 first kind wireless signal.

As one embodiment, including just in each first kind wireless signal group in the P2 first kind wireless signal group Integer first kind wireless signal.

As one embodiment, wrapped in any two first kind wireless signal group in the P2 first kind wireless signal group The quantity of the first kind wireless signal included is equal.

As one embodiment, there are wrap in two first kind wireless signal groups in the P2 first kind wireless signal group The quantity of the first kind wireless signal included is unequal.

As one embodiment, occupied by any two first kind wireless signal in the P1 first kind wireless signal Interface-free resources it is not identical.

As one embodiment, occupied by any two first kind wireless signal in the P1 first kind wireless signal Time-domain resource it is orthogonal.

As one embodiment, a first kind wireless signal is primary complete PRACH (Physical Random Access Channel, Physical Random Access Channel) transmission.

As one embodiment, a first kind wireless signal is a PRACH (Physical Random Access Channel, Physical Random Access Channel) fractional transmission.

As one embodiment, each first kind wireless signal in the P1 first kind wireless signal passes through PRACH (Physical Random Access Channel, Physical Random Access Channel) transmission.

As one embodiment, each first kind wireless signal in the P1 first kind wireless signal carries one Complete leader sequence (Preamble).

As one embodiment, in the P1 first kind wireless signal, there are two first kind wireless signals to pass through one Identical PRACH (Physical Random Access Channel, Physical Random Access Channel) transmission.

As one embodiment, any two first kind wireless signal passes through two in the P1 first kind wireless signal Different PRACH (Physical Random Access Channel, Physical Random Access Channel) transmission.

As one embodiment, any one first kind wireless signal in the P1 first kind wireless signal is by one Characteristic sequence generates, and the characteristic sequence is ZC (Zadoff-Chu) one of sequence or pseudo-random sequence.

As one embodiment, any one first kind wireless signal in the P1 first kind wireless signal is by one Characteristic sequence generates, and the characteristic sequence is one of integer orthogonal sequence or non-orthogonal sequences.

As one embodiment, any one second class wireless signal in the P2 the second class wireless signals passes through UL-SCH (Uplink Shared Channel, Uplink Shared Channel) transmission.

As one embodiment, any one second class wireless signal in the P2 the second class wireless signals passes through PUSCH (Physical Uplink Shared Channel, Physical Uplink Shared Channel) transmission.

As one embodiment, any one second class wireless signal in the P2 the second class wireless signals is one All or part of bit of transmission block (TB, Transport Block) successively passes through transmission block CRC (Cyclic Redundancy Check, cyclic redundancy check) addition, code block segmentation (Code Block Segmentation), encoding block CRC addition, speed Rate matches (Rate Matching), connects (Concatenation), scrambles (Scrambling), modulation mapper (Modulation Mapper), layer mapper (Layer Mapper), precoding (Precoding), resource particle mapper (Resource Element Mapper) is obtained after baseband signal generation (Baseband Signal Generation).

As one embodiment, any one second class wireless signal in the P2 the second class wireless signals is one All or part of bit of transmission block (TB, Transport Block) successively passes through transmission block CRC (Cyclic Redundancy Check, cyclic redundancy check) addition, code block segmentation (Code Block Segmentation), encoding block CRC addition, speed Rate matches (Rate Matching), connects (Concatenation), scrambles (Scrambling), modulation mapper (Modulation Mapper), layer mapper (Layer Mapper) convert precoding (Transform Precoding), in advance It encodes (Precoding), resource particle mapper (Resource Element Mapper), (Baseband occurs for baseband signal Signal Generation) obtain later.

As one embodiment, any one second class wireless signal in the P2 the second class wireless signals is just whole All or part of bit of number encoder block (CB, Code Block) successively passes through encoding block CRC addition, rate-matched (Rate Matching), connect (Concatenation), scramble (Scrambling), modulation mapper (Modulation Mapper), Layer mapper (Layer Mapper) converts precoding (Transform Precoding), precoding (Precoding), resource (Baseband Signal Generation) occurs for particle mapper (Resource Element Mapper), baseband signal It obtains later.

As one embodiment, any one second class wireless signal in the P2 the second class wireless signals is just whole All or part of bit of number encoder block (CB, Code Block) successively passes through encoding block CRC addition, rate-matched (Rate Matching), connect (Concatenation), scramble (Scrambling), modulation mapper (Modulation Mapper), Layer mapper (Layer Mapper), precoding (Precoding), resource particle mapper (Resource Element Mapper), obtained after baseband signal generation (Baseband Signal Generation).

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission antenna port set, and one of transmission antenna port set includes positive integer A transmission antenna port.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: be used to receive the P2 second The space of any of class wireless signal the second class wireless signal receives parameter group (Spatial RX parameters) and quilt For receive its first kind in the P2 first kind wireless signal group in corresponding first kind wireless signal group without It is related that the space of line signal receives parameter group.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission wave beam (TX Beam).

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission wave beam formed matrix (TX Beamforming Matrix).

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission wave beam forming vector (TX Beamforming Vector).

As one embodiment, each first kind wireless signal in the P1 first kind wireless signal and its belonging to The first kind wireless signal except first kind wireless signal group in the P2 first kind wireless signal group uses different hairs Penetrate antenna port transmission.

As one embodiment, the sender of the first information assumes: every in the P1 first kind wireless signal A first kind wireless signal and its belonging to the P2 first kind wireless signal group in first kind wireless signal group except First kind wireless signal is sent using different transmit antenna ports.

As one embodiment, each first kind wireless signal in the P1 first kind wireless signal and its belonging to The first kind wireless signal except first kind wireless signal group in the P2 first kind wireless signal group uses different skies Between domain transmitting filter.

As one embodiment, the sender of the first information assumes: every in the P1 first kind wireless signal A first kind wireless signal and its belonging to the P2 first kind wireless signal group in first kind wireless signal group except First kind wireless signal uses different spatial domain transmitting filters.

As one embodiment, each first kind wireless signal in the P1 first kind wireless signal and its belonging to The first kind wireless signal except first kind wireless signal group in the P2 first kind wireless signal group uses different hairs Send wave beam.

As one embodiment, the sender of the first information assumes: every in the P1 first kind wireless signal A first kind wireless signal and its belonging to the P2 first kind wireless signal group in first kind wireless signal group except First kind wireless signal uses different transmission wave beams.

As one embodiment, the second occupied interface-free resources of class wireless signal refer to running time-frequency resource and code domain money At least one of source.

As one embodiment, the interface-free resources that a second class wireless signal occupies refer to: { the second class wireless signal Occupied time-domain resource, the occupied frequency domain resource of the second class wireless signal, the occupied code of the second class wireless signal At least one of domain resource }.

As one embodiment, the interface-free resources that a second class wireless signal occupies, which refer to, generates the second class wireless communication Number characteristic sequence and transmit the second class wireless signal at least one of running time-frequency resource.

As one embodiment, the interface-free resources that a second class wireless signal occupies include generating the second class wireless communication Number characteristic sequence resource.

As one embodiment, the interface-free resources that a second class wireless signal occupies include generating the second class wireless communication Number scrambler sequence resource.

As one embodiment, the interface-free resources packet that a second class wireless signal occupies generates the second class wireless signal Interleaved sequence resource.

As one embodiment, the interface-free resources that a second class wireless signal occupies include generating the second class wireless communication Number orthogonal code resource.

As one embodiment, the occupied interface-free resources of first kind wireless signal refer to running time-frequency resource and code domain money At least one of source.

As one embodiment, the interface-free resources that a first kind wireless signal occupies refer to: { the first kind wireless signal Occupied time-domain resource, the occupied frequency domain resource of first kind wireless signal, the occupied code of first kind wireless signal At least one of domain resource }.

As one embodiment, the interface-free resources that a first kind wireless signal occupies, which refer to, generates the first kind wireless communication Number characteristic sequence and transmit the first kind wireless signal at least one of running time-frequency resource.

As one embodiment, the interface-free resources that a first kind wireless signal occupies include generating the first kind wireless communication Number characteristic sequence resource.

As one embodiment, the interface-free resources that a first kind wireless signal occupies include generating the first kind wireless communication Number scrambler sequence resource.

As one embodiment, the interface-free resources that a first kind wireless signal occupies include generating the first kind wireless communication Number orthogonal code resource.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is occupied At least one of interface-free resources and used modulation coding scheme and its institute in the P2 first kind wireless signal group The corresponding occupied interface-free resources of first kind wireless signal group are in relation to referring to: any in the P2 the second class wireless signals At least one of a occupied interface-free resources of second class wireless signal and used modulation coding scheme and its described The corresponding occupied interface-free resources of first kind wireless signal group are according to specific mapping in P2 first kind wireless signal group Rule is associated.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is occupied At least one of interface-free resources and used modulation coding scheme and its institute in the P2 first kind wireless signal group The corresponding occupied interface-free resources of first kind wireless signal group are in relation to referring to: any in the P2 the second class wireless signals At least one of a occupied interface-free resources of second class wireless signal and used modulation coding scheme and its described The corresponding occupied interface-free resources of first kind wireless signal group have mapping relations in P2 first kind wireless signal group.

As one embodiment, the reception of the second class wireless signal of any of the P2 second class wireless signals is fixed When determined by the detection of its corresponding first kind wireless signal group in the P2 first kind wireless signal group.

As one embodiment, there are wrap in a first kind wireless signal group in the P2 first kind wireless signal group It includes and is greater than 1 first kind wireless signal.

As one embodiment, there are two first kind wireless signals using different in the P1 first kind wireless signal Transmit antenna port group send.

As one embodiment, there are two first kind wireless signals using different in the P1 first kind wireless signal Spatial domain transmitting filter.

As one embodiment, in any one first kind wireless signal group in the P2 first kind wireless signal group First kind wireless signal all received using different spatial domain receiving filter.

As one embodiment, in the P2 first kind wireless signal group there are in a first kind wireless signal group Two first kind wireless signals using identical spatial domain receiving filter receive.

As one embodiment, in any one first kind wireless signal group in the P2 first kind wireless signal group First kind wireless signal all use different reception wave beams (RX Beam) receive.

As one embodiment, in the P2 first kind wireless signal group there are in a first kind wireless signal group Two first kind wireless signals using identical reception wave beam (RX Beam) receive.

As one embodiment, the recipient of the P1 first kind wireless signal, which decides in its sole discretion, receives described P1 first The spatial domain receiving filter of class wireless signal.

As one embodiment, the recipient of the P1 first kind wireless signal, which decides in its sole discretion, receives described P1 first The reception wave beam (RX Beam) of class wireless signal.

As one embodiment, the recipient of the P2 the second class wireless signals, which decides in its sole discretion, receives described P2 second The spatial domain receiving filter of any of class wireless signal the second class wireless signal.

As one embodiment, the recipient of the P2 the second class wireless signals, which decides in its sole discretion, receives described P2 second The reception wave beam (RX Beam) of any of class wireless signal the second class wireless signal.

As one embodiment, the P1 first kind wireless signal and the P2 the second class wireless signals all pass through institute State air interface transmission.

As one embodiment, the air interface (Air Interface) is wireless.

As one embodiment, the air interface (Air Interface) includes wireless channel.

As one embodiment, the air interface is between the second class communication node and the first kind communication node Interface.

As one embodiment, the air interface is Uu interface.

Embodiment 2

Embodiment 2 illustrates the schematic diagram of a network architecture according to the application, as shown in Fig. 2.Fig. 2 is to illustrate NR 5G, LTE (Long-Term Evolut ion, long term evolution) and LTE-A (Long-Term Evolution Advanced, Enhance long term evolution) System Network Architecture 200 figure.NR 5G or LTE network framework 200 can be described as EPS (Evolved Packet System, evolved packet system) 200.EPS 200 may include one or more UE (User Equipment, User equipment) 201, NG-RAN (Next-Generation enters network) 202, EPC (Evolved Packet Core, evolution packet core The heart)/5G-CN (5G-Core Network, 5G core net) 210, HSS (use by Home Subscriber Server, ownership signing Family server) 220 and Internet service 230.EPS can with other access of internet interlock, but in order to do not show simply these entities/ Interface.As shown, EPS provides packet-switched services, however it will be apparent to those skilled in the art that it is in through the application Existing each conception of species, which extends to, provides the network or other cellular networks of circuit switched service.NG-RAN includes NR node B (gNB) 203 and other gNB204.GNB203 provides user and control plane protocol terminations towards UE201.GNB203 can be via Xn interface (for example, backhaul) is connected to other gNB204.GNB203 is alternatively referred to as base station, base transceiver station, radio base station, nothing Line electricity transceiver, transceiver function, set of basic (BSS), expansion service set (ESS), TRP (transmit and receive node), Satellite, aircraft or ground base station or some other suitable term by satellite relay.GNB203 provides for UE201 to EPC/ The access point of 5G-CN210.The example of UE201 includes cellular phone, smart phone, session initiation protocol (SIP) phone, knee Laptop computer, personal digital assistant (PDA), satelline radio, global positioning system, multimedia device, video-unit, number Audio player (for example, MP3 player), camera, game console, unmanned plane, aircraft, narrowband internet of things equipment, machine Type of communicating device, land craft, automobile, wearable device or any other like functional device.The skill of fields UE201 can also be known as mobile station, subscriber stations, mobile unit, subscriber unit, radio-cell, remote unit, mobile dress by art personnel It sets, wireless device, wireless communication device, remote-control device, mobile subscriber stations, access terminal, mobile terminal, wireless terminal, remotely Terminal, hand-held set, user agent, mobile client, client or some other suitable term.GNB203 passes through S1/NG interface It is connected to EPC/5G-CN210.EPC/5G-CN210 includes MME/AMF/UPF 211, other MME/AMF/UPF214, S-GW (Service Gateway, gateway) 212 and P-GW (Packet Date Network Gateway, Packet Data Network Network diagram closes) 213.MME/AMF/UPF211 is the control node for handling the signaling between UE201 and EPC/5G-CN210.Substantially On, MME/AMF/UPF211 provides carrying and connection management.All User IPs (Internet Protocal, Internet Protocol) Packet is transmitted by S-GW212, and S-GW212 is itself coupled to P-GW213.P-GW213 provide UE IP address distribution and it is other Function.P-GW213 is connected to Internet service 230.Internet service 230 includes that operator corresponds to the Internet protocol service, is had Body may include internet, Intranet, Internet of Things, IMS (IP Mult imedia Subsystem, IP multimedia subsystem) and PS Streaming service (PSS).

As one embodiment, the UE201 corresponds to the first kind communicating node device in the application.

As one embodiment, the UE201 supports the non-uplink authorized.

As one embodiment, the gNB203 corresponds to the second class communicating node device in the application.

As one embodiment, the gNB203 supports the non-uplink authorized.

Embodiment 3

Embodiment 3 shows the embodiment of the radio protocol architecture of the user plane and control plane according to the application Schematic diagram, as shown in Fig. 3.Fig. 3 is embodiment of the explanation for user plane and the radio protocol architecture for controlling plane Schematic diagram, three layers of Fig. 3 show for first kind communicating node device (UE) and the second class communicating node device (gNB, Satellite or aircraft in eNB or NTN) radio protocol architecture: layer 1, layer 2 and layer 3.1 (L1 layers) of layer are lowermost layer and reality Apply various PHY (physical layer) signal processing function.L1 layers are referred to as PHY301 herein.Layer 2 (L2 layers) 305 PHY301 it On, and be responsible for passing through link of the PHY301 between first kind communicating node device and the second class communicating node device.In user In plane, L2 layer 305 includes MAC (Medium Access Control, media access control) sublayer 302, RLC (Radio Link Control, radio link layer control protocol) sublayer 303 and PDCP (Packet Data Convergence Protocol, Packet Data Convergence Protocol) sublayer 304, these sublayers terminate at the second class communicating node device on network side Place.Although it is not shown, but first kind communicating node device can have several upper layers on L2 layer 305, including terminate at Network layer (for example, IP layers) at P-GW on network side and the other end of connection is terminated at (for example, distal end UE, server etc. Deng) at application layer.PDCP sublayer 304 provides the multiplexing between different radio carrying and logic channel.PDCP sublayer 304 provide the header compressed for upper layer data packet also to reduce radio transmitting expense, are provided by encrypted packet Safety, and the mobile support in more area to first kind communicating node device between the second class communicating node device is provided.RLC Sublayer 303 provides the Segmentation and Reassembly dress of upper layer data packet, re-emitting for lost data packets and reordering for data packet To compensate the received out-of-order as caused by HARQ.Media access control sublayer 302 provides the multiplexing between logical AND transport channel.MAC The various radio resources that layer 302 is also responsible for distributing between first kind communicating node device in a cell are (for example, resource Block).Media access control sublayer 302 is also responsible for HARQ operation.In the control plane, it is communicated for first kind communicating node device and the second class The radio protocol architecture of node device is substantially the same for physical layer 301 and L2 layer 305, but not flat for controlling The header compressed function in face.Control plane further includes RRC (Radio Resource Control, radio in layer 3 (L3 layers) Resources control) sublayer 306.RRC sublayer 306 is responsible for obtaining radio resource (that is, radio bearer) and be communicated using the second class RRC signaling between node device and first kind communicating node device configures lower layer.

The first kind communication section of the radio protocol architecture suitable for the application as one embodiment, in attached drawing 3 Point device.

The second class communication section of the radio protocol architecture suitable for the application as one embodiment, in attached drawing 3 Point device.

As one embodiment, the first information in the application is created on the RRC306.

As one embodiment, second information in the application is created on the RRC306.

As one embodiment, the third information in the application is created on the RRC306.

As one embodiment, the first information in the application is created on the MAC302.

As one embodiment, second information in the application is created on the MAC302.

As one embodiment, the third information in the application is created on the MAC302.

As one embodiment, the first information in the application is created on the PHY301.

As one embodiment, second information in the application is created on the PHY301.

As one embodiment, the third information in the application is created on the PHY301.

As one embodiment, each first kind wireless signal in the application is created on the RRC306.

As one embodiment, each first kind wireless signal in the application is created on the MAC302.

As one embodiment, each first kind wireless signal in the application is created on the PHY301.

As one embodiment, each of the application the second class wireless signal is created on the RRC306.

As one embodiment, each of the application the second class wireless signal is created on the MAC302.

As one embodiment, each of the application the second class wireless signal is created on the PHY301.

Embodiment 4

Embodiment 4 shows the schematic diagram of a base station equipment and given user equipment according to the application, such as 4 institute of attached drawing Show.Fig. 4 is the block diagram of the gNB/eNB410 communicated within the access network with UE450.

It include controller/processor 490 in user equipment (UE450), memory 480 receives processor 452, transmitting Device/receiver 456, transmited processor 455 and data source 467, emitter/receiver 456 include antenna 460.Data source 467 mentions For upper layer packet to controller/processor 490, controller/processor 490 provides Header compression decompression, encrypting and decrypting, packet segmentation Connect and reorder and logical and transport channel between multiplexing demultiplexing, it is flat for user plane and control to implement The L2 layer protocol in face may include data or control information, such as DL-SCH or UL-SCH in the packet of upper layer.Transmited processor 455 implement to include coding for L1 layers (that is, physical layer) of various signals transmitting processing function, interweave, scramble, modulation, power Control/distribution, precoding, physical layer control signaling and physical layer control signal (such as reference signal) generation etc..Reception processing Device 452 is implemented to receive processing function for L1 layers (that is, physical layer) of various signals to include decoding, deinterleaves, descrambles, demodulation, Solve precoding, channel estimation and physical layer control signaling extraction etc..Transmitter 456 is used for the base for providing transmited processor 455 Band signal is converted into radiofrequency signal and launches via antenna 460, and receiver 456 is used to pass through the received radio frequency of antenna 460 Signal is converted into baseband signal and is supplied to reception processor 452.

It may include controller/processor 440 in base station equipment (410), memory 430 receives processor 412, hair Emitter/receiver 416 and transmited processor 415, emitter/receiver 416 include antenna 420.Upper layer packet reaches controller/place Device 440 is managed, controller/processor 440 provides Header compression decompression, encrypting and decrypting, and packet is segmented connection and reorders and patrol The multiplexing demultiplexing between transmission channel is collected, to implement the L2 layer protocol for user plane and control plane.Upper layer It may include data or control information, such as DL-SCH or UL-SCH in packet.Transmited processor 415 implement for L1 layers (that is, Physical layer) various signals transmitting processing function include coding, intertexture, scrambling, modulation, power control/distribution, precoding and object Manage layer signaling (including synchronization signal and reference signal etc.) generation etc..Processor 412 is received to implement to be used for L1 layers (that is, physical layer) Various signals receive processing function include decoding, deinterleave, descrambling, demodulation, solution precoding and physical layer signaling extract etc..Hair Emitter 416 is used to that the baseband signal that transmited processor 415 provides to be converted into radiofrequency signal and is launched via antenna 420, Receiver 416 is used to be converted into baseband signal by the received radiofrequency signal of antenna 420 to be supplied to receive processor 412.

In DL (Downlink, downlink), upper layer packet (such as the first information in the application, the second information and third letter The entrained upper layer packet of breath) it provides and arrives controller/processor 440.Controller/processor 440 implements L2 layers of function.In DL In, controller/processor 440 provides Header compression, encryption, and packet is segmented and reorders, the multichannel between logical AND transport channel Multiplexing, and based on the measurement of various priority to the radio resources allocation of UE450.Controller/processor 440 is also responsible for HARQ Operation, lost package re-emit, and to the signaling of UE450, such as the first information in the application, the second information and third Information generates in controller/processor 440.Transmited processor 415 is implemented to be used for L1 layers (that is, physical layer) of various signals Processing function, signal processing function include decoding and interweave to promote the forward error correction (FEC) at UE450 and be based on various tune Scheme (for example, binary phase shift keying (BPSK), quadrature phase shift keying (QPSK)) processed is modulated baseband signal, and modulation is accorded with Number it is divided into parallel stream and every one stream is mapped to corresponding multicarrier subcarrier and/or multicarrier symbol, is then handled by transmitting Device 415 is mapped to antenna 420 via transmitter 416 and is launched in the form of radiofrequency signal.The first information in the application, the Two information and third information are mapped in target interface-free resources and via hair in the respective channels of physical layer by transmited processor 415 Emitter 416 is mapped to antenna 420 and is launched in the form of radiofrequency signal.In receiving end, each receiver 456 is corresponding by it Antenna 460 receives radiofrequency signal, and each receiver 456 restores the base-band information being modulated on radio-frequency carrier, and by base-band information It provides and receives processor 452.Receive the various signals reception processing function that processor 452 implements L1 layers.Signal reception processing Function includes the first information in this application, and the reception etc. of the physical layer signal of the second information and third information passes through overloading Multicarrier symbol in wave symbol stream is carried out based on various modulation schemes (for example, binary phase shift keying (BPSK), quadrature phase shift key Control (QPSK)) demodulation, then decoding and deinterleave with restore on the physical channel by gNB410 emit data or control, Then provide data and control signal to controller/processor 490.Controller/processor 490 implements L2 layers, controller/place Reason device 490 interprets the first information in the application, the second information and third information.Controller/processor can be with storage Program code and the memory of data 480 are associated.Memory 480 can be described as computer-readable media.

In uplink (UL) transmission, the related configuration data of signal is provided to controller/processing using data source 467 Device 490.Data source 467 indicates all protocol layers on L2 layers, and P2 the second class wireless signals in the application are in data source 467 generate.Controller/processor 490 provides header compressed by configuration based on gNB410 distribution, encryption, packet segmentation and again Multiplexing between sequence and logical and transport channel, to implement the L2 layer protocol for user plane and control plane. Controller/processor 490 is also responsible for HARQ operation, and lost package re-emits, and to the signaling of gNB410.Transmited processor 455 implement to emit processing function for L1 layers (that is, physical layer) of various signals.It includes coding that signal, which emits processing function, is adjusted System etc., by modulation symbol be divided into parallel stream and by every one stream be mapped to corresponding multicarrier subcarrier and/or multicarrier symbol into Row baseband signal generates, and is then mapped to antenna 460 in the form of radiofrequency signal via transmitter 456 by transmited processor 455 Launch, (generation and transmitting including P1 first kind wireless signal in the application and P2 for the signal of physical layer Processing of the two class wireless signals in physical layer) it is created on transmited processor 455.Receiver 416 is received by its respective antenna 420 Radiofrequency signal, each receiver 416 restores the base-band information being modulated on radio-frequency carrier, and base-band information is provided to receiving area Manage device 412.Processor 412 is received to implement to receive processing function, including the application for L1 layers (that is, physical layer) of various signals In P1 first kind wireless signal reception in physical layer of detection and P2 the second class wireless signals, signal reception processing Function includes obtaining multicarrier symbol stream, then carries out the multicarrier symbol in multicarrier symbol stream based on various modulation schemes Demodulation, then decoding with restore on the physical channel by the data of UE450 original transmitted and/or control signal.It will then count According to and/or control signal provide to controller/processor 440.Implement L2 layers receiving processor controller/processor 440.Control Device/processor processed can be associated with the memory 430 of storage program code and data.Memory 430 can be computer-readable Media.

As one embodiment, the UE450 corresponds to the first kind communicating node device in the application.

As one embodiment, the gNB410 corresponds to the second class communicating node device in the application.

As one embodiment, the UE450 device includes: at least one processor and at least one processor, institute Stating at least one processor includes computer program code；At least one processor and the computer program code are matched Be set to and be used together at least one described processor, the UE450 device at least: receive the first information；Send P2 first Class wireless signal group；Send P2 the second class wireless signals；Wherein, the first information is used for determining the P2 first kind Wireless signal group, P1 first kind wireless signal are divided into the P2 first kind wireless signal group, the P2 first kind Wireless signal group and the P2 the second class wireless signals correspond, and the P2 is greater than 1 positive integer, and the P1 is greater than The positive integer of the P2；The second class wireless signal of any of the P2 the second class wireless signal and its at the P2 the First kind wireless signal in a kind of wireless signal group in corresponding first kind wireless signal group is sent using identical spatial domain Filter；It any of the P2 the second class wireless signal occupied interface-free resources of the second class wireless signal and is adopted At least one of modulation coding scheme and its corresponding first kind in the P2 first kind wireless signal group are wireless The occupied interface-free resources of signal group are related；The first information passes through air interface transmission.

As one embodiment, the UE450 includes: a kind of memory for storing computer-readable instruction program, described The generation when being executed by least one processor of computer-readable instruction program acts, and the movement includes: the reception first information； Send P2 first kind wireless signal group；Send P2 the second class wireless signals；Wherein, the first information is used for determining institute P2 first kind wireless signal group is stated, P1 first kind wireless signal is divided into the P2 first kind wireless signal group, institute It stating P2 first kind wireless signal group and the P2 the second class wireless signals corresponds, the P2 is greater than 1 positive integer, The P1 is greater than the positive integer of the P2；The second class wireless signal of any of the P2 the second class wireless signal and its First kind wireless signal in the P2 first kind wireless signal group in corresponding first kind wireless signal group is using identical Spatial domain transmitting filter；The second class wireless signal is occupied eats dishes without rice or wine for any of the P2 second class wireless signal At least one of resource and used modulation coding scheme and it is corresponding in the P2 first kind wireless signal group The occupied interface-free resources of first kind wireless signal group it is related；The first information passes through air interface transmission.

As one embodiment, the gNB410 device includes: at least one processor and at least one processor, institute Stating at least one processor includes computer program code；At least one processor and the computer program code are matched It is set to and is used together at least one described processor.The gNB410 device is at least: sending the first information；Detect P2 first Class wireless signal group；If the P2 first kind wireless signal group is detected, P2 the second class wireless signals are received；Its In, the first information is used for determining the P2 first kind wireless signal group, and P1 first kind wireless signal is divided into The P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second class wireless signal are one by one Corresponding, the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical spatial domain transmitting filter；Any in the P2 the second class wireless signals At least one of a occupied interface-free resources of second class wireless signal and used modulation coding scheme and its described The corresponding occupied interface-free resources of first kind wireless signal group are related in P2 first kind wireless signal group；First letter Breath passes through air interface transmission.

As one embodiment, the gNB410 includes: a kind of memory for storing computer-readable instruction program, described The generation when being executed by least one processor of computer-readable instruction program acts, and the movement includes: the transmission first information； Detect P2 first kind wireless signal group；If the P2 first kind wireless signal group is detected, P2 the second classes are received Wireless signal；Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless communication Number be divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second classes without Line signal corresponds, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 second Any of class wireless signal the second class wireless signal is with it corresponding first in the P2 first kind wireless signal group First kind wireless signal in class wireless signal group uses identical spatial domain transmitting filter；The P2 the second class wireless communications Number any of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme It is related with its corresponding first kind occupied interface-free resources of wireless signal group in the P2 first kind wireless signal group； The first information passes through air interface transmission.

As one embodiment, receiver 456 (including antenna 460) receives processor 452 and controller/processor 490 It is used to receive the first information in the application.

As one embodiment, receiver 456 (including antenna 460) receives processor 452 and controller/processor 490 It is used to send second information in the application.

As one embodiment, receiver 456 (including antenna 460) receives processor 452 and controller/processor 490 It is used to send the third information in the application.

As one embodiment, transmitter 456 (including antenna 460), transmited processor 452 and controller/processor 490 It is used to send the P1 first kind wireless signal in the application.

As one embodiment, transmitter 456 (including antenna 460), transmited processor 452 and controller/processor 490 It is used to send the P2 the second class wireless signals in the application.

As one embodiment, transmitter 416 (including antenna 420), transmited processor 415 and controller/processor 440 It is used to send the first information in the application.

As one embodiment, transmitter 416 (including antenna 420), transmited processor 415 and controller/processor 440 It is used to send second information in the application.

As one embodiment, transmitter 416 (including antenna 420), transmited processor 415 and controller/processor 440 It is used to send the third information in the application.

As one embodiment, receiver 416 (including antenna 420) receives processor 412 and controller/processor 440 It is used to detect the P1 first kind wireless signal in the application.

As one embodiment, receiver 416 (including antenna 420) receives processor 412 and controller/processor 440 It is used to receive the P2 the second class wireless signals in the application.

Embodiment 5

Embodiment 5 illustrates the wireless signal transmission flow chart according to one embodiment of the application, as shown in Fig. 5. In figure 5, the second class communication node N1 is the maintenance base station of the serving cell of first kind communication node U2.

ForSecond class communication node N1, the second information is sent in step s 11, sends third information in step s 12, The first information is sent in step s 13, is being detected P2 first kind wireless signal group in step S14, is being received in step S15 P2 the second class wireless signals.

ForFirst kind communication node U2, the second information is received in the step s 21, and third information is received in step S22, The first information is received in step S23, is being sent P2 first kind wireless signal group in step s 24, is being sent in step s 25 P2 the second class wireless signals.

In embodiment 5, the first information is used for determining the P2 first kind wireless signal group, the P1 first kind Wireless signal is divided into the P2 first kind wireless signal group, and the P2 first kind wireless signal group and the P2 the Two class wireless signals correspond, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 The second class wireless signal of any of a second class wireless signal corresponds in the P2 first kind wireless signal group with it First kind wireless signal group in first kind wireless signal use identical spatial domain transmitting filter；The P2 the second classes In the occupied interface-free resources of any of wireless signal the second class wireless signal and used modulation coding scheme extremely It is one of few and its in the P2 first kind wireless signal group corresponding to first kind wireless signal group occupied eat dishes without rice or wine to provide Source is related；The first information passes through air interface transmission；Second information is used for determining that the Q1 first kind is alternatively wireless Signal, each first kind wireless signal in the P1 first kind wireless signal belong to the alternative wireless communication of the Q1 first kind Number；The first information be used to determine Q2 alternative wireless signal groups, institute in the alternative wireless signal of the Q1 first kind Any one first kind line signal group in P2 first kind wireless signal group is stated to belong in the Q2 alternative wireless signal groups One alternative wireless signal group；The Q2 is positive integer, and the Q1 is greater than the positive integer of the Q2；Second information passes through The air interface transmission；The third information is used for determining Y alternative interface-free resources, the P2 the second class wireless signals Any of the second occupied interface-free resources of class wireless signal belong to one of alternative interface-free resources of the Y, the Y It is no less than the positive integer of the P2；The third information passes through the air interface transmission.

As one embodiment, the first wireless signal group is one of described P2 first kind wireless signal group, described the One wireless signal group includes X1 first kind wireless signal, and the X1 first kind wireless signal is used for determining X2 alternative skies Mouthful resource, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group are the X2 alternative One of interface-free resources, the X1 are greater than 1 positive integer, and the X2 is positive integer.

As one embodiment, the Y alternative interface-free resources are divided into Q2 interface-free resources set, and the Q2 are eated dishes without rice or wine Resource collection and the Q2 alternative wireless signal groups correspond, the alternative nothing of Q2 belonging to the first wireless signal group Alternative wireless signal group in line signal group is the first alternative wireless signal group, second corresponding to the first wireless signal group The occupied interface-free resources of class wireless signal belong to interface-free resources set corresponding to the described first alternative wireless signal group.

As one embodiment, second information is transmitted by high-level signaling.

As one embodiment, second information is transmitted by physical layer signaling.

As one embodiment, second information includes all or part in a high-level signaling.

As one embodiment, second information includes all or part in a physical layer signaling.

As one embodiment, (Physical Broadcast Channel, physics are wide by PBCH for second information Broadcast channel) transmission.

As one embodiment, second information includes MIB (Master Information Block, Master Information Block) In one or more domains (Field).

As one embodiment, second information by DL-SCH (Downlink Shared Channel, under The shared channel of row) transmission.

As one embodiment, second information passes through a PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, second information includes SIB (System Information Block, a system Block of information) in one or more domains (Field).

As one embodiment, second information includes RMSI (Remaining System Information, remainder System information) in one or more domains (Field).

As one embodiment, second information includes a RRC (Radio Resource Control, wireless money Source control) signaling all or part.

As one embodiment, second information is broadcast.

As one embodiment, second information is unicast.

As one embodiment, second information is that cell is specific (Cell Specific).

As one embodiment, second information is that user equipment is specific (UE-specific).

As one embodiment, second information passes through PDCCH (Physical Downlink Control Channel, Physical Downlink Control Channel) transmission.

As one embodiment, second information includes a DCI (Downlink Control Information) All or part of domain (Field) of signaling.

As one embodiment, the first information and second information pass through the transmission of identical signaling.

As one embodiment, the first information and second information pass through identical RRC (Radio Resource Control, wireless heterogeneous networks) signalling.

As one embodiment, the first information and second information pass through the transmission of different signalings.

As one embodiment, what the first information and second information were transmitted by identical physical channel.

As one embodiment, the first information and second information pass through different physical channel transmission.

As one embodiment, the first information and second information pass through the same PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, the first information and second information pass through two different PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, pass through after the first information and second information consolidation coding (Joint Coding) One identical signalling.

As one embodiment, as in the same signaling after the first information and second information consolidation coding Same domain (field) transmission.

As one embodiment, the first information and second information are as two in the same signaling different Domain (field) transmission.

As one embodiment, the same RRC signaling is used as after the first information and second information consolidation coding In the same IE (Information Element, information element) transmission.

As one embodiment, the first information and second information as two in the same RRC signaling not Same IE (Information Element, information element) transmission.

As one embodiment, second information is used for determining that the alternative wireless signal of the Q1 first kind refers to: Second information directly indicates the alternative wireless signal of the Q1 first kind.

As one embodiment, second information is used for determining that the alternative wireless signal of the Q1 first kind refers to: Second information indirect indicates the alternative wireless signal of the Q1 first kind.

As one embodiment, second information is used for determining that the alternative wireless signal of the Q1 first kind refers to: Second information explicitly indicates the alternative wireless signal of the Q1 first kind.

As one embodiment, second information is used for determining that the alternative wireless signal of the Q1 first kind refers to: Second information implicitly indicates the alternative wireless signal of the Q1 first kind.

As one embodiment, second information is used for determining that the alternative wireless signal of the Q1 first kind refers to: Second information is used to indicate that the interface-free resources that the alternative wireless signal of the Q1 first kind occupies respectively.

As one embodiment, second information includes " the PRACH Configuration in 3GPP TS38.211 Index”。

As one embodiment, the first information in the application is used in the alternative wireless communication of the Q1 first kind Determine that described Q2 alternative wireless signal group refers in number: the first information is used for alternatively wireless in the Q1 first kind The Q2 alternative wireless signal groups are directly indicated in signal.

As one embodiment, the first information in the application is used in the alternative wireless communication of the Q1 first kind Determine that described Q2 alternative wireless signal group refers in number: the first information is used for alternatively wireless in the Q1 first kind The Q2 alternative wireless signal groups are indicated in signal indirectly.

As one embodiment, the first information in the application is used in the alternative wireless communication of the Q1 first kind Determine that described Q2 alternative wireless signal group refers in number: the first information is used for alternatively wireless in the Q1 first kind The Q2 alternative wireless signal groups are explicitly indicated in signal.

As one embodiment, the first information in the application is used in the alternative wireless communication of the Q1 first kind Determine that described Q2 alternative wireless signal group refers in number: the first information is used for alternatively wireless in the Q1 first kind The Q2 alternative wireless signal groups are implicitly indicated in signal.

As one embodiment, the first information in the application is used in the alternative wireless communication of the Q1 first kind Determine that described Q2 alternative wireless signal group refers in number: the first information is used for the Q1 first kind is alternatively wireless Signal is divided into the Q2 alternative wireless signal groups.

As one embodiment, the third information is transmitted by high-level signaling.

As one embodiment, the third information is transmitted by physical layer signaling.

As one embodiment, the third information includes all or part in a high-level signaling.

As one embodiment, the third information includes all or part in a physical layer signaling.

As one embodiment, (Physical Broadcast Channel, physics are wide by PBCH for the third information Broadcast channel) transmission.

As one embodiment, the third information includes MIB (Master Information Block, Master Information Block) In one or more domains (Field).

As one embodiment, the third information by DL-SCH (Downlink Shared Channel, under The shared channel of row) transmission.

As one embodiment, the third information passes through a PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, the third information includes SIB (System Information Block, a system Block of information) in one or more domains (Field).

As one embodiment, the third information includes RMSI (Remaining System Information, remainder System information) in one or more domains (Field).

As one embodiment, the third information includes a RRC (Radio Resource Control, wireless money Source control) signaling all or part.

As one embodiment, the third information is broadcast.

As one embodiment, the third information is unicast.

As one embodiment, the third information is that cell is specific (Cell Specific).

As one embodiment, the third information is that user equipment is specific (UE-specific).

As one embodiment, the third information passes through PDCCH (Physical Downlink Control Channel, Physical Downlink Control Channel) transmission.

As one embodiment, the third information includes a DCI (Downlink Control Information) All or part of domain (Field) of signaling.

As one embodiment, the first information and the third information pass through the transmission of identical signaling.

As one embodiment, the first information and the third information pass through identical RRC (Radio Resource Control, wireless heterogeneous networks) signalling.

As one embodiment, the first information and the third information pass through the transmission of different signalings.

As one embodiment, what the first information and the third information were transmitted by identical physical channel.

As one embodiment, the first information and the third information pass through different physical channel transmission.

As one embodiment, the first information and the third information pass through the same PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, the first information and the third information pass through two different PDSCH (Physical Downlink Shared Channel, Physical Downlink Shared Channel) transmission.

As one embodiment, pass through after the first information and third information consolidation coding (Joint Coding) One identical signalling.

As one embodiment, as in the same signaling after the first information and third information consolidation coding Same domain (field) transmission.

As one embodiment, the first information and the third information are as two in the same signaling different Domain (field) transmission.

As one embodiment, the same RRC signaling is used as after the first information and third information consolidation coding In the same IE (Information Element, information element) transmission.

As one embodiment, the first information and the third information as two in the same RRC signaling not Same IE (Information Element, information element) transmission.

Embodiment 6

Embodiment 6 illustrates another width wireless signal transmission flow chart of one embodiment according to the application, such as attached drawing 6 It is shown.In figure 6, the second class communication node N3 is the maintenance base station of the serving cell of first kind communication node U4.

ForSecond class communication node N3, the second information is sent in step S31, sends third information in step s 32, The first information is sent in step S33, is detecting P2 first kind wireless signal group in step S34.

ForFirst kind communication node U4, the second information is received in step S41, and third information is received in step S42, The first information is received in step S43, P2 first kind wireless signal group is being sent in step S44, is being sent in step S45 P2 the second class wireless signals.

In embodiment 6, the first information is used for determining the P2 first kind wireless signal group, the P1 first kind Wireless signal is divided into the P2 first kind wireless signal group, and the P2 first kind wireless signal group and the P2 the Two class wireless signals correspond, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 The second class wireless signal of any of a second class wireless signal corresponds in the P2 first kind wireless signal group with it First kind wireless signal group in first kind wireless signal use identical spatial domain transmitting filter；The P2 the second classes In the occupied interface-free resources of any of wireless signal the second class wireless signal and used modulation coding scheme extremely It is one of few and its in the P2 first kind wireless signal group corresponding to first kind wireless signal group occupied eat dishes without rice or wine to provide Source is related；The first information passes through air interface transmission；Second information is used for determining that the Q1 first kind is alternatively wireless Signal, each first kind wireless signal in the P1 first kind wireless signal belong to the alternative wireless communication of the Q1 first kind Number；The first information be used to determine Q2 alternative wireless signal groups, institute in the alternative wireless signal of the Q1 first kind Any one first kind line signal group in P2 first kind wireless signal group is stated to belong in the Q2 alternative wireless signal groups One alternative wireless signal group；The Q2 is positive integer, and the Q1 is greater than the positive integer of the Q2；Second information passes through The air interface transmission；The third information is used for determining Y alternative interface-free resources, the P2 the second class wireless signals Any of the second occupied interface-free resources of class wireless signal belong to one of alternative interface-free resources of the Y, the Y It is no less than the positive integer of the P2；The third information passes through the air interface transmission.

As one embodiment, the first wireless signal group is one of described P2 first kind wireless signal group, described the One wireless signal group includes X1 first kind wireless signal, and the X1 first kind wireless signal is used for determining X2 alternative skies Mouthful resource, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group are the X2 alternative One of interface-free resources, the X1 are greater than 1 positive integer, and the X2 is positive integer.

As one embodiment, the Y alternative interface-free resources are divided into Q2 interface-free resources set, and the Q2 are eated dishes without rice or wine Resource collection and the Q2 alternative wireless signal groups correspond, the alternative nothing of Q2 belonging to the first wireless signal group Alternative wireless signal group in line signal group is the first alternative wireless signal group, second corresponding to the first wireless signal group The occupied interface-free resources of class wireless signal belong to interface-free resources set corresponding to the described first alternative wireless signal group.

As one embodiment, the detection is realized by energy measuring.

As one embodiment, the detection is realized by related (Correlation).

As one embodiment, the detection is laggard by carrying out over-sampling to the P2 first kind wireless signal group What row correlation (Correlation) was realized.

As one embodiment, the detection is realized by sliding related (Sliding Correlation).

As one embodiment, the detection is by carrying out the sampled data of the P2 first kind wireless signal group Inner product operation realization is carried out after DFT transform.

As one embodiment, if the P2 first kind wireless signal group is detected, the P2 second is received Class wireless signal refers to: if there are one in each first kind wireless signal group in the P2 first kind wireless signal group First kind wireless signal is detected, and receives the P2 the second class wireless signals.

As one embodiment, if the P2 first kind wireless signal group is detected, the P2 second is received Class wireless signal refers to: if there are one in a first kind wireless signal group in the P2 first kind wireless signal group First kind wireless signal is detected, and receives its corresponding second class wireless signal in the P2 the second class wireless signals.

Embodiment 7

Embodiment 7 illustrates P2 first kind wireless signal group and P2 the second class according to one embodiment of the application The schematic diagram of the relationship of wireless signal, as shown in Fig. 7.In fig. 7, horizontal axis represents the time, and each petal represents a sky Between domain transmitting filter, each rectangle (thin frame) above represents a first kind wireless signal, and each rectangle below is (thick Frame) represent a second class wireless signal.

In embodiment 7, the P1 first kind wireless signal in the application is divided into the P2 in the application The P2 the second class wireless signals in a first kind wireless signal group, the P2 first kind wireless signal group and the application It corresponds, the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 the second classes are wireless Any of signal the second class wireless signal and its corresponding first kind in the P2 first kind wireless signal group are wireless First kind wireless signal in signal group uses identical spatial domain transmitting filter；In the P2 the second class wireless signals At least one of any one occupied interface-free resources of the second class wireless signal and used modulation coding scheme and its The corresponding occupied interface-free resources of first kind wireless signal group are related in the P2 first kind wireless signal group.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission antenna port set, and one of transmission antenna port set includes positive integer A transmission antenna port.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: be used to receive the P2 second The space of any of class wireless signal the second class wireless signal receives parameter group (Spatial RX parameters) and quilt For receive its first kind in the P2 first kind wireless signal group in corresponding first kind wireless signal group without It is related that the space of line signal receives parameter group.

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission wave beam (TX Beam).

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission wave beam formed matrix (TX Beamforming Matrix).

As one embodiment, the second class wireless signal of any of the P2 second class wireless signals is with it in institute The first kind wireless signal in P2 first kind wireless signal group in corresponding first kind wireless signal group is stated using identical sky Between domain transmitting filter (Spatial Domain Transmission Filter) refer to: the P2 the second class wireless signals Any of the second class wireless signal and its corresponding first kind wireless signal in the P2 first kind wireless signal group First kind wireless signal in group uses identical transmission wave beam forming vector (TX Beamforming Vector).

As one embodiment, there are wrap in a first kind wireless signal group in the P2 first kind wireless signal group It includes and is greater than 1 first kind wireless signal.

As one embodiment, there are two first kind wireless signals using different in the P1 first kind wireless signal Transmit antenna port group send.

As one embodiment, there are two first kind wireless signals using different in the P1 first kind wireless signal Spatial domain transmitting filter.

As one embodiment, in any one first kind wireless signal group in the P2 first kind wireless signal group First kind wireless signal all received using different spatial domain receiving filter.

As one embodiment, in the P2 first kind wireless signal group there are in a first kind wireless signal group Two first kind wireless signals using identical spatial domain receiving filter receive.

As one embodiment, in any one first kind wireless signal group in the P2 first kind wireless signal group First kind wireless signal all use different reception wave beams (RX Beam) receive.

As one embodiment, in the P2 first kind wireless signal group there are in a first kind wireless signal group Two first kind wireless signals using identical reception wave beam (RX Beam) receive.

As one embodiment, the recipient of the P1 first kind wireless signal, which decides in its sole discretion, receives described P1 first The spatial domain receiving filter of class wireless signal.

As one embodiment, the recipient of the P1 first kind wireless signal, which decides in its sole discretion, receives described P1 first The reception wave beam (RX Beam) of class wireless signal.

As one embodiment, the recipient of the P2 the second class wireless signals, which decides in its sole discretion, receives described P2 second The spatial domain receiving filter of any of class wireless signal the second class wireless signal.

As one embodiment, the recipient of the P2 the second class wireless signals, which decides in its sole discretion, receives described P2 second The reception wave beam (RX Beam) of any of class wireless signal the second class wireless signal.

Embodiment 8

Embodiment 8 illustrates showing for the relationship of the second time window and object time window according to one embodiment of the application It is intended to, as shown in Fig. 8.In attached drawing 8, horizontal axis represents the time, and it is wireless that each cross spider filling rectangle represents the P1 first kind A first kind wireless signal in signal, it is each to represent the P1 in the alternative wireless signal of the Q1 first kind a the without filling rectangle An alternative wireless signal of the first kind except a kind of wireless signal.

In embodiment 8, second information in this application is used for determining the alternative wireless signal of the Q1 first kind, It is alternative that each first kind wireless signal in the P1 first kind wireless signal in the application belongs to the Q1 first kind Wireless signal；The first information in the application be used to determine that Q2 is a standby in the alternative wireless signal of the Q1 first kind Wireless signal group is selected, any one first kind line signal group in the P2 first kind wireless signal group belongs to the Q2 alternatively An alternative wireless signal group in wireless signal group；The Q2 is positive integer, and the Q1 is greater than the positive integer of the Q2.

The alternative wireless communication of any two first kind as one embodiment, in the alternative wireless signal of the Q1 first kind Number occupied interface-free resources are orthogonal.

The alternative wireless communication of any two first kind as one embodiment, in the alternative wireless signal of the Q1 first kind Number occupied time-domain resource is orthogonal.

The alternative wireless communication of any one first kind as one embodiment, in the alternative wireless signal of the Q1 first kind Number for primary complete PRACH (Physical Random Access Channel, Physical Random Access Channel) potential biography It is defeated.

The alternative wireless communication of any one first kind as one embodiment, in the alternative wireless signal of the Q1 first kind Number for PRACH (Physical Random Access Channel, Physical Random Access Channel) potential part biography It is defeated.

The alternative wireless signal of each first kind as one embodiment, in the alternative wireless signal of the Q1 first kind It can be transmitted by PRACH (Physical Random Access Channel, Physical Random Access Channel).

The alternative wireless signal of each first kind as one embodiment, in the alternative wireless signal of the Q1 first kind A complete leader sequence (Preamble) can be carried.

As one embodiment, there are two alternative wireless signals of the first kind in the alternative wireless signal of the Q1 first kind It can be transmitted by an identical PRACH (Physical Random Access Channel, Physical Random Access Channel).

The alternative wireless communication of any two first kind as one embodiment, in the alternative wireless signal of the Q1 first kind Number can pass through two different PRACH (Physical Random Access Channel, Physical Random Access Channel) passes It is defeated.

The alternative wireless communication of any one first kind as one embodiment, in the alternative wireless signal of the Q1 first kind It number is generated by characteristic sequence, the characteristic sequence is ZC (Zadoff-Chu) one of sequence or pseudo-random sequence.

The alternative wireless communication of any one first kind as one embodiment, in the alternative wireless signal of the Q1 first kind It number is generated by characteristic sequence, the characteristic sequence is one of integer orthogonal sequence or non-orthogonal sequences.

It include just whole in the alternative wireless signal group of each of the Q2 alternative wireless signal groups as one embodiment Several alternative wireless signals of the first kind.

As one embodiment, include in the alternative wireless signal group of any two in the Q2 alternative wireless signal groups The alternative wireless signal of the first kind quantity it is equal.

As one embodiment, in the alternative wireless signal groups of the Q2 there are include in two alternative wireless signal groups The alternative wireless signal of the first kind quantity it is unequal.

As one embodiment, wrapped in any one first kind wireless signal group in the P2 first kind wireless signal group The quantity of the first kind wireless signal included is equal to an alternative wireless communication in the Q2 alternative wireless signal groups belonging to it The quantity for the alternative wireless signal of the first kind for including in number group.

As one embodiment, wrapped in any one first kind wireless signal group in the P2 first kind wireless signal group The quantity of the first kind wireless signal included is less than an alternative wireless communication in the Q2 alternative wireless signal groups belonging to it The quantity for the alternative wireless signal of the first kind for including in number group.

As one embodiment, the sender of the P2 first kind wireless signal group is in the Q2 alternative wireless signals Voluntarily selection includes P2 alternative wireless signal groups of the P2 first kind wireless signal group in group.

As one embodiment, the sender of the P1 first kind wireless signal is in the Q1 alternative wireless signals Voluntarily select the P1 first kind wireless signal.

As one embodiment, the recipient of the P1 first kind wireless signal assumes: if the Q1 first kind Alternative wireless signal is all sent, and the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is standby Wireless signal is selected all to send using identical spatial domain transmitting filter.

As one embodiment, the recipient of the P1 first kind wireless signal assumes: if the Q1 first kind Alternative wireless signal is all sent, and the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is standby Wireless signal is selected all to send using identical transmission wave beam (TX Beam).

As one embodiment, the recipient of the P1 first kind wireless signal assumes: if the Q1 first kind Alternative wireless signal is all sent, and the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is standby Wireless signal is selected all to send using identical transmission antenna port set, wherein each transmission antenna port set includes positive integer hair Antennas port.

As one embodiment, the recipient of the P1 first kind wireless signal assumes: if the Q1 first kind Alternative wireless signal is all sent, and the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is standby Wireless signal is selected all to send using identical transmission wave beam forming vector.

As one embodiment, the recipient of the P1 first kind wireless signal assumes: if the Q1 first kind Alternative wireless signal is all sent, and the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is standby The alternative wireless signal of the first kind except wireless signal and alternative wireless signal group described in it is selected all to use different spatial domains Transmitting filter is sent.

Recipient for one embodiment, the P1 first kind wireless signal assumes: if the Q1 first kind is standby Wireless signal is selected all to be sent, the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is alternative The alternative wireless signal of the first kind except wireless signal and alternative wireless signal group described in it all uses different transmission wave beams It sends.

Recipient for one embodiment, the P1 first kind wireless signal assumes: if the Q1 first kind is standby Wireless signal is selected all to be sent, the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is alternative The alternative wireless signal of the first kind except wireless signal and alternative wireless signal group described in it all uses different transmission antennas Port set is sent, wherein each transmission antenna port set includes positive integer transmission antenna port.

As one embodiment, the recipient of the P1 first kind wireless signal assumes: if the Q1 first kind Alternative wireless signal is all sent, and the first kind in the alternative wireless signal group of any of the Q2 alternative wireless signal groups is standby The alternative wireless signal of the first kind except wireless signal and alternative wireless signal group described in it is selected all to use different send waves Beam figuration vector is sent.

As one embodiment, the Q2 is not less than the P2.

As one embodiment, the Q1 is not less than the P1.

Embodiment 9

Embodiment 9 illustrates long according to the first free time length of one embodiment of the application and the second free time The schematic diagram of degree, as shown in Fig. 9.In attached drawing 9, horizontal axis represents time domain, and horizontal longitudinal axis represents frequency domain, and vertical axis represents code Domain, the rectangle of each cross spider filling represent a first kind wireless signal in the first wireless signal group, each dot filling Rectangle represent an alternative interface-free resources in the alternative interface-free resources of X2, dotted line connection represents incidence relation.

In embodiment 9, the first wireless signal group is one of the P2 first kind wireless signal group in the application, The first wireless signal group includes X1 first kind wireless signal, and the X1 first kind wireless signal is used for determining X2 Alternative interface-free resources, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group are the X2 One of a alternative interface-free resources, the X1 are greater than 1 positive integer, and the X2 is positive integer.

As one embodiment, the first kind communication node is in the alternative interface-free resources of the X2 voluntarily described in selection The second occupied interface-free resources of class wireless signal corresponding to first wireless signal group.

As one embodiment, the X1 is equal to the X2, and the X1 first kind wireless signal and the X2 are a alternative Interface-free resources correspond.

As one embodiment, the X1 is not equal to the X2.

As one embodiment, the X2 is greater than 1, wantonly one or two of alternative interface-free resources in the X2 alternative interface-free resources It is orthogonal.

As one embodiment, the X2 is greater than 1, and there are two alternative interface-free resources in the X2 alternative interface-free resources It is nonopiate.

As one embodiment, the X2 is equal to 1.

As one embodiment, the X1 first kind wireless signal is used for determining that the X2 alternative interface-free resources are Refer to: the X2 alternative interface-free resources are associated with the X1 first kind wireless signal by specific mapping relations.

As one embodiment, the X1 first kind wireless signal is used for determining that the X2 alternative interface-free resources are Refer to: it is occupied that the alternative interface-free resources of the X2 by specific mapping relations are associated with the X1 first kind wireless signal Interface-free resources.

Embodiment 10

Embodiment 10 illustrates the Q2 interface-free resources set and Q2 alternative wireless signals of one embodiment of the application The schematic diagram of the relationship of group, as shown in Fig. 10.In fig. 10, the rectangle of each cross spider filling represents the first wireless signal An alternative wireless signal of the first kind in group, each packless rectangle represent the first nothing in Q2 alternative wireless signal groups An alternative wireless signal of the first kind except line signal group, it is right that the rectangle of each horizontal line filling represents the first wireless signal group institute The rectangle of the second occupied interface-free resources of class wireless signal answered, each dot filling represents in Q2 interface-free resources set An alternative interface-free resources except the second occupied interface-free resources of class wireless signal corresponding to first wireless signal group, Corresponding incidence relation is represented in the same dotted line frame.

In embodiment 10, the third information in the application is used for determining Y alternative interface-free resources, and the P2 is a The occupied interface-free resources of the second class wireless signal of any of second class wireless signal belong to the Y and alternatively eat dishes without rice or wine to provide One of source, the Y are no less than the positive integer of the P2；The Y alternative interface-free resources are divided into Q2 interface-free resources collection It closes, the Q2 interface-free resources set and the Q2 alternative wireless signal groups correspond, the first wireless signal group institute The alternative wireless signal group in the alternative wireless signal group of the Q2 belonged to is the first alternative wireless signal group, first wireless communication The second occupied interface-free resources of class wireless signal corresponding to number group belong to corresponding to the described first alternative wireless signal group Interface-free resources set.

As one embodiment, the alternative interface-free resources of any two are orthogonal in the Y alternative interface-free resources.

As one embodiment, there are two alternative interface-free resources are nonopiate in the Y alternative interface-free resources.

It is standby included by any two interface-free resources set in the Q2 interface-free resources set as one embodiment Select the quantity of interface-free resources equal.

As one embodiment, in the Q2 interface-free resources set there are standby included by two interface-free resources set Select the quantity of interface-free resources unequal.

As one embodiment, each interface-free resources set in the Q2 interface-free resources set includes that positive integer is standby Select interface-free resources.

As one embodiment, in the Q2 interface-free resources set includes being greater than 1 there are an interface-free resources set A alternative interface-free resources.

As one embodiment, the Q2 interface-free resources set and the Q2 alternative wireless signal groups are one-to-one Relationship is configurable.

As one embodiment, the Q2 interface-free resources set and the Q2 alternative wireless signal groups are one-to-one Relationship is predefined according to specific rule.

As one embodiment, the X2 alternative interface-free resources in the application belong to the Q2 interface-free resources collection The interface-free resources set closed.

As one embodiment, the X2 alternative interface-free resources in the application belong to the described first alternative wireless communication Interface-free resources set corresponding to number group.

Embodiment 11

Embodiment 11 illustrates the structural block diagram of the processing unit in a first kind communicating node device, such as 11 institute of attached drawing Show.In attached drawing 11, first kind communicating node device processing unit 1100 is mainly by the first receiver module 1101, the first transmitter Module 1102 and the second transmitter module 1103 composition.First receiver module 1101 include illustrations 4 in transmitter/ Receiver 456 (including antenna 460) receives processor 452 and controller/processor 490；First transmitter module 1102 includes Emitter/receiver 456 (including antenna 460) in illustrations 4, transmited processor 455 and controller/processor 490, Second transmitter module 1103 includes emitter/receiver 456 (including antenna 460), transmited processor 455 and controller/place Manage device 490.

In embodiment 11, the first receiver module 1101 receives the first information；First transmitter module 1102 sends P2 A first kind wireless signal group；Second transmitter module 1103 sends P2 the second class wireless signals；Wherein, the first information Be used for determining the P2 first kind wireless signal group, P1 first kind wireless signal be divided into the P2 first kind without Line signal group, the P2 first kind wireless signal group and the P2 the second class wireless signal correspond, and the P2 is big In 1 positive integer, the P1 is greater than the positive integer of the P2；The second class of any of the P2 the second class wireless signals Wireless signal and its first kind in the P2 first kind wireless signal group in corresponding first kind wireless signal group are wireless Signal uses identical spatial domain transmitting filter；The second class wireless signal of any of the P2 the second class wireless signals At least one of occupied interface-free resources and used modulation coding scheme and its in the P2 first kind wireless communication The corresponding occupied interface-free resources of first kind wireless signal group are related in number group；The first information is passed by air interface It is defeated.

As one embodiment, the first receiver module 1101 also receives the second information；Wherein, second information by with In determining the alternative wireless signal of the Q1 first kind, each first kind wireless signal in the P1 first kind wireless signal belongs to The alternative wireless signal of the Q1 first kind；The first information is used in the alternative wireless signal of the Q1 first kind really Determine Q2 alternative wireless signal groups, any one first kind line signal group in the P2 first kind wireless signal group belongs to described An alternative wireless signal group in Q2 alternative wireless signal groups；The Q2 is positive integer, and the Q1 is greater than the Q2's Positive integer；Second information passes through the air interface transmission.

As one embodiment, the first wireless signal group is one of described P2 first kind wireless signal group, described the One wireless signal group includes X1 first kind wireless signal, and the X1 first kind wireless signal is used for determining X2 alternative skies Mouthful resource, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group are the X2 alternative One of interface-free resources, the X1 are greater than 1 positive integer, and the X2 is positive integer.

As one embodiment, the first receiver module 1101 also receives third information；Wherein, the third information by with In determining Y alternative interface-free resources, the second class wireless signal of any of the P2 second class wireless signals is occupied Interface-free resources belong to one of the Y alternative interface-free resources, and the Y is no less than the positive integer of the P2；The third Information passes through the air interface transmission.

As one embodiment, the first receiver module 1101 also receives third information；Wherein, the third information by with In determining Y alternative interface-free resources, the second class wireless signal of any of the P2 second class wireless signals is occupied Interface-free resources belong to one of the Y alternative interface-free resources, and the Y is no less than the positive integer of the P2；The third Information passes through the air interface transmission；The Y alternative interface-free resources are divided into Q2 interface-free resources set, and described Q2 empty Mouth resource collection and the Q2 alternative wireless signal groups correspond, and the Q2 belonging to the first wireless signal group is alternative Alternative wireless signal group in wireless signal group is the first alternative wireless signal group, the corresponding to the first wireless signal group The two occupied interface-free resources of class wireless signal belong to interface-free resources set corresponding to the described first alternative wireless signal group.

Embodiment 12

Embodiment 12 illustrates the structural block diagram of the processing unit in a second class communicating node device, such as 12 institute of attached drawing Show.In attached drawing 12, the second class communicating node device processing unit 1200 is mainly received by third transmitter module 1201, second Machine module 1202 and third receiver module 1203 form.Third transmitter module 1201 includes the transmitting in illustrations 4 Device/receiver 416 (including antenna 420), transmited processor 415 and controller/processor 440；Second receiver module 1202 Including the emitter/receiver 416 (including antenna 420) in illustrations 4, processor 412 and controller/processor are received 440；Third receiver module 1203 includes the emitter/receiver 416 (including antenna 420) in illustrations 4, receiving area Manage device 412 and controller/processor 440.

In embodiment 12, third transmitter module 1201 sends the first information；Second receiver module 1202 detects P2 A first kind wireless signal group；If the P2 first kind wireless signal group is detected, third receiver module 1203 is connect Receive P2 the second class wireless signals；Wherein, the first information is used for determining the P2 first kind wireless signal group, and P1 is a First kind wireless signal is divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group with it is described P2 the second class wireless signals correspond, and the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2； The second class wireless signal of any of the P2 the second class wireless signals is with it in the P2 first kind wireless signal group In first kind wireless signal in corresponding first kind wireless signal group use identical spatial domain transmitting filter；The P2 The occupied interface-free resources of the second class wireless signal of any of second class wireless signal and used modulating-coding side At least one of formula and its corresponding first kind wireless signal group in the P2 first kind wireless signal group are occupied Interface-free resources are related；The first information passes through air interface transmission.

As one embodiment, third transmitter module 1201 also sends the second information；Wherein, second information by with In determining the alternative wireless signal of the Q1 first kind, each first kind wireless signal in the P1 first kind wireless signal belongs to The alternative wireless signal of the Q1 first kind；The first information is used in the alternative wireless signal of the Q1 first kind really Determine Q2 alternative wireless signal groups, belongs in any one first kind wireless signal group in the P2 first kind wireless signal group An alternative wireless signal group in the Q2 alternative wireless signal groups；The Q2 is positive integer, and the Q1 is greater than described The positive integer of Q2；Second information passes through the air interface transmission.

As one embodiment, the first wireless signal group is one of described P2 first kind wireless signal group, described the One wireless signal group includes X1 first kind wireless signal, and the X1 first kind wireless signal is used for determining X2 alternative skies Mouthful resource, the second occupied interface-free resources of class wireless signal corresponding to the first wireless signal group are the X2 alternative One of interface-free resources, the X1 are greater than 1 positive integer, and the X2 is positive integer.

As one embodiment, third transmitter module 1201 also sends third information；Wherein, the third information by with In determining Y alternative interface-free resources, the second class wireless signal of any of the P2 second class wireless signals is occupied Interface-free resources belong to one of the Y alternative interface-free resources, and the Y is no less than the positive integer of the P2；The third Information passes through the air interface transmission.

As one embodiment, third transmitter module 1201 also sends third information；Wherein, the third information by with In determining Y alternative interface-free resources, the second class wireless signal of any of the P2 second class wireless signals is occupied Interface-free resources belong to one of the Y alternative interface-free resources, and the Y is no less than the positive integer of the P2；The third Information passes through the air interface transmission；The Y alternative interface-free resources are divided into Q2 interface-free resources set, and described Q2 empty Mouth resource collection and the Q2 alternative wireless signal groups correspond, and the Q2 belonging to the first wireless signal group is alternative Alternative wireless signal group in wireless signal group is the first alternative wireless signal group, the corresponding to the first wireless signal group The two occupied interface-free resources of class wireless signal belong to interface-free resources set corresponding to the described first alternative wireless signal group.

Those of ordinary skill in the art will appreciate that all or part of the steps in the above method can be referred to by program Related hardware is enabled to complete, described program can store in computer readable storage medium, such as read-only memory, hard disk or light Disk etc..Optionally, one or more integrated circuit can be used also to realize in all or part of the steps of above-described embodiment.Phase It answers, each modular unit in above-described embodiment, can be realized using example, in hardware, it can also be by the form of software function module It realizes, the application is not limited to the combination of the software and hardware of any particular form.First kind communicating node device in the application Either UE or terminal include but is not limited to mobile phone, tablet computer, notebook, card of surfing Internet, low power consuming devices, eMTC equipment, NB- IoT equipment, vehicular communication equipment, aircraft, aircraft, unmanned plane, the wireless telecom equipments such as telecontrolled aircraft.Second in the application Class communicating node device or base station or network side equipment include but is not limited to macrocell base stations, microcell base station, family's base It stands, relay base station, eNB, gNB transmit receiving node TRP, repeater satellite, satellite base station, the wireless telecom equipments such as air base station.

The above, the only preferred embodiment of the application, are not intended to limit the protection scope of the application.It is all Within spirit herein and principle, any modification made, equivalent replacement, improve etc., it should be included in the protection of the application Within the scope of.

Claims (12)

1. a kind of method in first kind communication node in wirelessly communicating characterized by comprising

Receive the first information；

Send P2 first kind wireless signal group；

Send P2 the second class wireless signals；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless signal quilt It is divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second class wireless communications It number corresponds, the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 the second classes without Any of line signal the second class wireless signal and its in the P2 first kind wireless signal group the corresponding first kind without First kind wireless signal in line signal group uses identical spatial domain transmitting filter；In the P2 the second class wireless signals Either one or two of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme and its The corresponding occupied interface-free resources of first kind wireless signal group are related in the P2 first kind wireless signal group；It is described The first information passes through air interface transmission.

2. the method according to claim 1, wherein further include:

Receive the second information；

Wherein, second information is used for determining the alternative wireless signal of the Q1 first kind, the P1 first kind wireless signal In each first kind wireless signal belong to the alternative wireless signal of the Q1 first kind；The first information is used for described Q2 alternative wireless signal groups, appointing in the P2 first kind wireless signal group are determined in the alternative wireless signal of the Q1 first kind One first kind line signal group belongs to an alternative wireless signal group in the Q2 alternative wireless signal groups；The Q2 is just Integer, the Q1 are greater than the positive integer of the Q2；Second information passes through the air interface transmission.

3. method described in any claim according to claim 1 or in 2, which is characterized in that the first wireless signal group is institute One of P2 first kind wireless signal group is stated, the first wireless signal group includes X1 first kind wireless signal, the X1 A first kind wireless signal is used for determining X2 alternative interface-free resources, the second class corresponding to the first wireless signal group without The occupied interface-free resources of line signal are one of the X2 alternative interface-free resources, and the X1 is greater than 1 positive integer, described X2 is positive integer.

4. according to claim 1 to method described in any claim in 3, which is characterized in that further include:

Receive third information；

Wherein, the third information is used for determining Y alternative interface-free resources, any in the P2 the second class wireless signals A occupied interface-free resources of second class wireless signal belong to one of the Y alternative interface-free resources, and the Y is no less than The positive integer of the P2；The third information passes through the air interface transmission.

5. according to the method described in claim 4, it is characterized in that, the Y alternative interface-free resources are divided into Q2 and eat dishes without rice or wine to provide Source set, the Q2 interface-free resources set and the Q2 alternative wireless signal groups correspond, first wireless signal Alternative wireless signal group in the alternative wireless signal group of the Q2 belonging to group is the first alternative wireless signal group, first nothing It is right that the second occupied interface-free resources of class wireless signal corresponding to line signal group belong to the described first alternative wireless signal group institute The interface-free resources set answered.

6. a kind of method in the second class communication node in wirelessly communicating characterized by comprising

Send the first information；

Detect P2 first kind wireless signal group；

If the P2 first kind wireless signal group is detected, P2 the second class wireless signals are received；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless signal quilt It is divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second class wireless communications It number corresponds, the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 the second classes without Any of line signal the second class wireless signal and its in the P2 first kind wireless signal group the corresponding first kind without First kind wireless signal in line signal group uses identical spatial domain transmitting filter；In the P2 the second class wireless signals Either one or two of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme and its The corresponding occupied interface-free resources of first kind wireless signal group are related in the P2 first kind wireless signal group；It is described The first information passes through air interface transmission.

7. according to the method described in claim 6, it is characterized by further comprising:

Send the second information；

Wherein, second information is used for determining the alternative wireless signal of the Q1 first kind, the P1 first kind wireless signal In each first kind wireless signal belong to the alternative wireless signal of the Q1 first kind；The first information is used for described Q2 alternative wireless signal groups, appointing in the P2 first kind wireless signal group are determined in the alternative wireless signal of the Q1 first kind Belong to an alternative wireless signal group in the Q2 alternative wireless signal groups in one first kind wireless signal group；The Q2 It is positive integer, the Q1 is greater than the positive integer of the Q2；Second information passes through the air interface transmission.

8. method described in any claim according to claim 6 or 7, which is characterized in that the first wireless signal group is institute One of P2 first kind wireless signal group is stated, the first wireless signal group includes X1 first kind wireless signal, the X1 A first kind wireless signal is used for determining X2 alternative interface-free resources, the second class corresponding to the first wireless signal group without The occupied interface-free resources of line signal are one of the X2 alternative interface-free resources, and the X1 is greater than 1 positive integer, described X2 is positive integer.

9. the method according to any claim in claim 6 to 8, which is characterized in that further include:

Send third information；

Wherein, the third information is used for determining Y alternative interface-free resources, any in the P2 the second class wireless signals A occupied interface-free resources of second class wireless signal belong to one of the Y alternative interface-free resources, and the Y is no less than The positive integer of the P2；The third information passes through the air interface transmission.

10. according to the method described in claim 9, it is characterized in that, the Y alternative interface-free resources are divided into Q2 and eat dishes without rice or wine to provide Source set, the Q2 interface-free resources set and the Q2 alternative wireless signal groups correspond, first wireless signal Alternative wireless signal group in the alternative wireless signal group of the Q2 belonging to group is the first alternative wireless signal group, first nothing It is right that the second occupied interface-free resources of class wireless signal corresponding to line signal group belong to the described first alternative wireless signal group institute The interface-free resources set answered.

11. a kind of first kind communicating node device in wirelessly communicating characterized by comprising

First receiver module receives the first information；

First transmitter module sends P2 first kind wireless signal group；

Second transmitter module sends P2 the second class wireless signals；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless signal quilt It is divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second class wireless communications It number corresponds, the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 the second classes without Any of line signal the second class wireless signal and its in the P2 first kind wireless signal group the corresponding first kind without First kind wireless signal in line signal group uses identical spatial domain transmitting filter；In the P2 the second class wireless signals Either one or two of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme and its The corresponding occupied interface-free resources of first kind wireless signal group are related in the P2 first kind wireless signal group；It is described The first information passes through air interface transmission.

12. a kind of the second class communicating node device in wirelessly communicating characterized by comprising

Third transmitter module sends the first information；

Second receiver module detects P2 first kind wireless signal group；

Third receiver module receives P2 the second class wireless communications if the P2 first kind wireless signal group is detected Number；

Wherein, the first information is used for determining the P2 first kind wireless signal group, P1 first kind wireless signal quilt It is divided into the P2 first kind wireless signal group, the P2 first kind wireless signal group and the P2 the second class wireless communications It number corresponds, the P2 is greater than 1 positive integer, and the P1 is greater than the positive integer of the P2；The P2 the second classes without Any of line signal the second class wireless signal and its in the P2 first kind wireless signal group the corresponding first kind without First kind wireless signal in line signal group uses identical spatial domain transmitting filter；In the P2 the second class wireless signals Either one or two of at least one of the occupied interface-free resources of the second class wireless signal and used modulation coding scheme and its The corresponding occupied interface-free resources of first kind wireless signal group are related in the P2 first kind wireless signal group；It is described The first information passes through air interface transmission.