CN110140318A - (UL) uplink (BW) bandwidth self-adaption and the operation of more portions of bandwidth in NR (new radio) - Google Patents

Abstract

Technology discussed herein can promote the BW (bandwidth) for being related to multiple parts BW for NR (new radio) UL (uplink) adaptive and operation.It can include: processing circuit by the exemplary embodiment that UE (user equipment) uses, it is configured to: the first signaling of processing, first group frequency resource (including first RF (radio frequency) BW or one or more first BW part at least one of) of first signaling instruction for NR UL data channel and second group of frequency resource (including at least one of the 2nd RF BW or the part the 2nd BW of one or more) for NR UL control channel；Generate NR UL data channel and/or NR UL control channel；And one or more of first group of frequency resource or second group of frequency resource are based at least partially on to map NR UL data channel and/or NR UL control channel.

Description

(UL) uplink (BW) bandwidth self-adaption and more bandwidth portions in NR (new radio) Divide operation

Citation of related applications

This application claims " UL BANDWIDTH ADAPTATION AND submitting, entitled on January 9th, 2017 U.S. Provisional Application No. 62/444,195 equity of MULTI-SUBBAND OPERATION IN NR ", entire contents are logical It crosses and is incorporated herein by reference.

Technical field

This disclosure relates to wireless technology, and more particularly, to being used for and NR (new radio) UL (uplink) phase The technology using bandwidth self-adaption and more BW (bandwidth) part operation of pass.

Background technique

Mobile communication develops to highly complex integrated communications platform this early stage voice system.It is next-generation wireless Communication system 5G or new radio (NR), which will be provided, comes access information and shared data whenever and wherever possible by various users and application. It is expected that NR, which becomes, seeks to fill that completely different and conflicting performance dimension and service sometimes Unified Network/system.This The diversified Multidimensional object of sample is by different service and application drive.In general, NR will be based on 3GPP LTE-Advanced Carry out evolution, wherein using additional potential new wireless access technology (RAT), wirelessly to connect by more preferable, simple and seamless Solution is connect to enrich people's lives.NR will make any object by wirelessly to connect, and provide in quick, abundant Hold and services.

Detailed description of the invention

Fig. 1 is the block diagram for showing the exemplary user equipment (UE) used in combination with various aspects as described herein.

Fig. 2 is the diagram for showing the exemplary components for the equipment that can be used according to various aspects discussed herein.

Fig. 3 is to show the example interface of the baseband circuit that can use according to various aspects discussed herein to show Figure.

Fig. 4 is the frame for showing the system that can be used at UE (user equipment) according to various aspects as described herein Figure promotes bandwidth self-adaption relevant to NR (new radio) UL (uplink) transmission and/or frequency hopping.

Fig. 5 is the block diagram for showing the system that can be used at BS (base station) according to various aspects as described herein, Promote to transmit phase with (one or more) NR (new radio) UL (uplink) from one or more UE (user equipment) The bandwidth self-adaption and/or frequency hopping of pass.

Fig. 6 is shown according to the interior with short lasting in UL (uplink) data slot of various aspects discussed herein The exemplary diagram of the NR PUCCH (physical uplink control channel) of time and long duration.

Fig. 7 is the UL data and control channel configured with different RF bandwidth shown according to various aspects discussed herein Exemplary a pair of of diagram.

Fig. 8 is to show the wherein RF bandwidth according to various aspects discussed herein for holding with short duration and length The UL control channel of continuous time can be respectively identical or different exemplary a pair of of diagram.

Fig. 9 is one shown according to the time slot between the UL of various aspects discussed herein control and data channel A exemplary diagram.

Figure 10 is that show can be in the last one in a time slot according to the wherein UE of various aspects discussed herein The diagram of an exemplary scene of UL control channel is abandoned in symbol.

Figure 11 is to show being multiplexed with the UL control channel with long duration according to various aspects as described herein UL data an exemplary diagram.

Figure 12 is one for showing four portions of bandwidth in system bandwidth relevant to various aspects discussed herein Exemplary diagram.

Figure 13 is the part BW of two configurations in four continuous slots shown according to various aspects discussed herein In frequency hopping an exemplary diagram.

Figure 14 is shown according to various aspects discussed herein for URLLC uplink data transmission across multiple One exemplary diagram of the frequency hopping pattern of the part BW.

Figure 15 is promoted according to the flow chart of the exemplary method that can be used at UE of various aspects discussed herein According to the bandwidth self-adaption relevant to NR (new radio) UL (uplink) transmission of various aspects as described herein and/or Frequency hopping.

Figure 16 is the flow chart for the exemplary method that can be used at BS, and (user sets with one or more UE is come from for promotion It is standby) (one or more) NR (new radio) UL (uplink) transmit relevant bandwidth self-adaption and/or frequency hopping.

Specific embodiment

It will now be described with reference to the attached figures the disclosure, wherein identical appended drawing reference is used to indicate identical element always, And wherein illustrated structure and equipment are not drawn necessarily to scale.As used herein, term " component ", " system ", Intentions such as " interfaces " refer to and computer-related entity, hardware, software (for example, in executing) and/or firmware.For example, component It can be processor (for example, microprocessor, controller or other processing equipments), the process that runs on a processor, control Device, object, executable program, program, storage equipment, computer, the tablet PC with processing equipment and/or user equipment (example Such as, mobile phone etc.).For example, the application program run on the server and the server are also possible to component.One Or multiple components may reside in process, and component can be located on a computer and/or be distributed in two or more Between platform computer.One set of pieces or one group of other assemblies can be described here, wherein term " group " can be interpreted " one Or multiple ".

Further, these components can be from the various computer-readable storages with the various data structures being stored thereon It is executed in medium, such as, uses module.Component can be communicated via locally and/or remotely process, such as according to one A or multiple data groupings signal (for example, from local system, distributed system, and/or network (such as, internet, Local area network, wide area network carry out the similar network interacted with other systems via signal) in another component interaction a component Data).

As another example, component can be with the specific function provided by the mechanical part of electrically or electronically circuit operation Can device, wherein electrically or electronically circuit can be by the software application or firmware that are performed by one or more processors Application program operation.One or more of processors can be inside or outside device, and can execute software or solid At least part of part application program.As another example, component can be is provided by the electronic building brick of not mechanical part The device of specific function；Electronic building brick can include one or more processors wherein, at least partly assign electricity to execute The software and/or firmware of the function of sub-component.

Using exemplary word it is intended to that concept is presented in specific ways.As used in this specification, term "or" purport Indicating the "or" of inclusive rather than exclusive "or".That is, it is unless otherwise indicated or clear from the context, it is no Then " X uses A or B " is intended to indicate that any naturally inclusive arrangement.That is, if X uses A；X uses B；Or X is adopted With both A and B, then meet " X uses A or B " under any afore-mentioned.In addition, understanding unless otherwise indicated or from context Ground is directed toward singular, otherwise, "one" and "an" of article used in the application and appended claims it is generally understood that For expression "/kind or multiple/kind ".In addition, just in specific embodiment part and claim using word " comprising ", For "comprising", " having ", " having ", " having " or its modification, such term is intended to and the mode similar to word " comprising " It and is inclusive.In addition, in the case of one or more numbered entries are discussed (for example, " the first X ", " the 2nd X " etc.), although In some cases, context can be shown that they be different or they be it is identical, still, usually it is one or more of Numbered entry can be different or they can be it is identical.

As used herein, term " circuit " may refer to following circuits, for following circuits a part or including Following circuits: the specific integrated circuit (ASIC), electronic circuit, processor of one or more softwares or firmware program are executed (altogether Enjoy, dedicated or group) and/or memory (shared, dedicated or group), combinational logic circuit, and/or its of described function is provided His suitable hardware component.In some embodiments, circuit can be realized in one or more softwares or firmware module, or Function associated with circuit can be realized by one or more softwares or firmware module.In some embodiments, circuit can be with Including the logic that can at least partly operate within hardware.

Any appropriately configured hardware and/or software can be used to realize embodiment as described herein into system. Fig. 1 shows the framework of the system 100 of network in accordance with some embodiments.System 100 is shown as including user equipment (UE) 101 With UE 102.UE 101 and 102 is illustrated as smart phone (for example, may be connected to the hand-held touch of one or more cellular networks Shield mobile computing device), but also may include any movement or stationary computing devices, such as personal digital assistant (PDA), Pager, laptop computer, desktop computer, radio hand-held equipment or any calculating equipment including wireless communication interface.

In some embodiments, any of UE 101 and 102 may include Internet of Things (IoT) UE, may include Designed network access layer is applied for using the low-power IoT of short-term UE connection.IoT UE can use such as machine and arrive The technology of machine (M2M) or machine type communication (MTC), via public land mobile network (PLMN), adjacent service (ProSe) or device-to-device (D2D) communication, sensor network or IoT network and MTC server or devices exchange data.M2M Or MTC data exchange can be the data exchange of machine initiation.IoT network describes interconnection IoT UE, may include having The unique identifiable embedding assembly equipment of (in the Internet infrastructure) connected in short term.IoT UE can execute backstage and answer With (for example, keep efficient message, state update etc.), to promote the connection of IoT network.

UE 101 and 102, which can be configured as, to be connect (for example, coupling by correspondence with wireless access network (RAN) 110 Close) --- RAN 110 can be such as evolved universal mobile communication system (UMTS) land radio access web (E-UTRAN), NextGen RAN (NG RAN) or other kinds of RAN.UE 101 and 102 is utilized respectively connection 103 and 104, each connection packet Include physical communication interface or layer (being discussed in further detail below)；In this example, connection 103 and 104 be illustrated as realizing The air interface of communicative couplings, and cellular communication protocol can be met, such as global system for mobile communications (GSM) agreement, code Point multiple access (CDMA) network protocol, push to speak (PTT) agreement, PTT (POC) agreement, Universal Mobile Communication System on honeycomb (UMTS) agreement, 3GPP long term evolution (LTE) agreement, the 5th generation (5G) agreement, new radio (NR) agreement etc..

In this embodiment, UE 101 and 102 can also be via the direct exchange communication data of ProSe interface 105.ProSe Interface 105 can be alternatively referred to as sidelinks interface comprising one or more logic channels, including but not limited to physics side chain Road control channel (PSCCH), physical side link shared channels (PSSCH), physical side link discovery channel (PSDCH) and physical side Link broadcast channel (PSBCH).

UE 102 is illustrated as being configured to access access point (AP) 106 via connection 107.Connection 107 may include local It is wirelessly connected, such as meets the connection of any 802.11 agreement of IEEE, wherein AP 106 will include Wireless Fidelity Router.In this example, AP 106 be shown connected to internet without connected to wireless system core net (below into one Step detailed description).

RAN 110 may include the one or more access nodes for enabling connection 103 and 104.These access nodes (AN) It is properly termed as base station (BS), NodeB, evolution NodeB (eNB), next generation NodeB (gNB), RAN node etc., and may include The earth station's (for example, land access point) or satellite station of covering are provided in geographic area (for example, cell).RAN 110 can be with It is small including one or more RAN nodes (for example, macro RAN node 111) for providing macrocell and for providing millimicro Area or picocell are (for example, with smaller overlay area, smaller user capacity or higher bandwidth compared with macrocell Cell) one or more RAN nodes (for example, low-power (LP) RAN node 112).

Any of RAN node 111 and 112 can terminate air interface protocol, and can be for 101 He of UE 102 first contact point.In some embodiments, any of RAN node 111 and 112 can fulfil the various of RAN 110 Logic function, including but not limited to radio network controller (RNC) function, for example, radio bearer management, uplink and under The management of line link dynamic radio resource and data packet scheduling and mobile management.

According to some embodiments, UE 101 and 102 be can be configured as: (such as, but not limited to according to the various communication technologys Orthogonal frequency division multiple access (OFDMA) communication technology (for example, being used for downlink communication) or single-carrier frequency division multiple access (SC-FDMA) are logical Letter technology (for example, for uplink and ProSe or sidelinks communication), uses orthogonal frequency division multiplexing over a multicarrier communication channel It is communicated each other or with any of RAN node 111 and 112 with (OFDM) signal of communication, but the range of embodiment is unlimited In this.Ofdm signal may include multiple orthogonal sub-carriers.

In some embodiments, down-chain resource grid can be used for from any of RAN node 111 and 112 to The downlink transmission of UE 101 and 102, and uplink transmission can use similar technology.Grid can be referred to as resource The time frequency grid of grid or running time-frequency resource grid is the physical resource in downlink in each time slot.This time-frequency plane Expression is the common practice of ofdm system, this makes radio resources allocation be intuitive.The each column of resource grid and every row point It Dui Yingyu not an OFDM symbol and an OFDM subcarrier.The duration of resource grid in the time domain corresponds in radio frames A time slot.Minimum time frequency unit in resource grid is known as resource element.Each resource grid includes multiple resource blocks, Describe the mapping of some physical channels to resource element.Each resource block includes the set of resource element；In a frequency domain, this can To indicate the least resource amount that can be currently assigned.In the presence of several different physical downs transmitted using such resource block Link channel.

User data and higher level signaling can be carried to 101 He of UE by physical down link sharing channel (PDSCH) 102.Physical downlink control channel (PDCCH) can be carried about transformat related with PDSCH channel and resource point The information etc. matched.It can also notify transformat related with uplink shared channel, resource allocation to UE 101 and 102 With H-ARQ (hybrid automatic repeat-request) information.In general, can be based on the channel fed back from any of UE 101 and 102 Quality information is located execution downlink scheduling in any of RAN node 111 and 112 and (by control channel resource block and is shared Channel resource block is dispatched to the UE 102 in cell).It can be for each of (for example, being dispatched to) UE 101 and 102 PDCCH on send downlink resource assignment information.

Control channel element (CCE) can be used to convey control information in PDCCH.Before being mapped to resource element, PDCCH complex-valued symbol can be organized into four-tuple first, and sub-block interleaver then can be used and arranged, to be used for rate Matching.One or more of these CCE can be used to send each PDCCH, wherein each CCE can correspond to nine groups Referred to as four physical resource elements of resource element groups (REG).Four quadrature phase shift keying (QPSK) symbols can be mapped to Each REG.One or more CCE can be used to send PDCCH, this depends on the size of down link control information (DCI) And channel condition.Can be defined in LTE with different number CCE (for example, polymerization grade, L=1,2,4 or 8) four kinds Or more different PDCCH formats.

It is that control channel information carries out resource allocation that some embodiments, which can be used as the concept of the extension of above-mentioned concept,. For example, some embodiments can use enhancing physical downlink control channel (EPDCCH), controlled using PDSCH resource Information transmission processed.One or more enhancings control channel element (ECCE) can be used to send EPDCCH.It is similar to above, often A ECCE can correspond to nine groups of four physical resource elements for being known as enhancing resource element groups (EREG).In some cases, ECCE can have the EREG of other quantity.

RAN 110 is illustrated as being communicably coupled to core net (CN) 120 via S1 interface 113.In embodiment, CN 120 can be the CN of evolution block core (EPC) network, next-generation block core (NPC) network or some other types.At this In embodiment, S1 interface 113 is divided into two parts: S1-U interface 114, carries RAN node 111 and 112 and gateway (S- GW) the business datum between 122；And S1 mobility management entity (MME) interface 115, be RAN node 111 and 112 with Signaling interface between MME 121.

In this embodiment, CN 120 includes MME 121, S-GW 122, packet data network (PDN) gateway (P-GW) 123 and home subscriber servers (HSS) 124.MME 121 can be functionally similar to legacy services general packet radio service (GPRS) the control plane of supporting node (SGSN).In terms of MME 121 can manage the mobility in access, such as gateway selection And tracking zone list management.HSS 124 may include the database for the network user, including for supporting at network entity Manage the subscription related information of communication session.CN 120 may include one or more HSS 124, this depends on the number of mobile subscriber Amount, the capacity of equipment, the tissue of network etc..It is sought for example, HSS 124 can be provided to routing/roaming, authentication, authorization, name/ The support of location solution, position dependence etc..

S-GW 122 can terminate the S1 interface 113 for going to RAN 110, and route between RAN 110 and CN 120 Data grouping.In addition, S-GW 122 can be the local mobility anchor for the switching of RAN intermediate node, and can also provide For anchoring ambulant between 3GPP.Other responsibilities may include lawful interception, charging and certain strategy implement.

P-GW 123 can terminate the SGi interface for going to PDN.P-GW 123 can be via Internet protocol (IP) interface 125, EPC network 123 and external network (e.g., including the net of application server 130 (being alternatively referred to as application function (AF)) Network) between route data grouping.Application server 130 can be to core net provide using IP bearing resource application (for example, The domain UMTS packet service (PS), LTE PS data service etc.) element.In this embodiment, P-GW 123 is illustrated as via IP Communication interface 125 is communicably coupled to application server 130.Application server 130 can be additionally configured to via CN 120 support for UE 101 and 102 one or more communication services (for example, voice (VoIP) session in Internet protocol, PTT session, group communication sessions, social networking service etc.).

P-GW 123 can also be the node for strategy implement and accounting data collection."Policy and Charging Rules Function (PCRF) 126 be CN 120 strategy and charging control element.In non-roaming scene, in Home Public Land Mobile Network network (HPLMN) there may be the single PCRF with the Internet protocol connectivity of UE access net (IP-CAN) session association in.In industry Business is detached from local roaming scence, and there may be the ownership in two PCRF:HPLMN of the IP-CAN session association with UE Access PCRF (V-PCRF) in PCRF (H-PCRF) and access public land mobile network (VPLMN).PCRF 126 can be through Application server 130 is communicably coupled to by P-GW 123.Application server 130 can signal PCRF 126 with It indicates new service flow, and selects service quality appropriate (QoS) and billing parameter.The rule can be supplied to by PCRF 126 Strategy and charge execution function (PCEF) with traffic flow template appropriate (TFT) and QoS class identifier (QCI) (do not show Out), start the QoS specified by application server 130 and charging.

Fig. 2 shows the exemplary components of equipment 200 in accordance with some embodiments.In some embodiments, equipment 200 can be with Including application circuit 202, baseband circuit 204, radio frequency (RF) circuit 206, front-end module (FEM) circuit 208, one or more days Line 210 and electric power management circuit (PMC) 212, are at least coupled as shown together.Shown in the component of equipment 200 can To be included in UE or RAN node.In some embodiments, equipment 200 may include less element (for example, RAN node can It not utilize application circuit 202, is changed to include processor/controller to handle from the received IP data of EPC).In some implementations In example, equipment 200 may include add ons, such as memory/storage, display, camera, sensor or input/output (I/ O) interface.In other embodiments, component described below may include in more than one equipment (for example, for cloud RAN (C-RAN) implementation, the circuit can individually comprise in more than one equipment).

Application circuit 202 may include one or more application processor.For example, application circuit 202 may include for example But it is not limited to the circuit of one or more single or multiple core processors.Processor may include general processor and application specific processor Any combination of (for example, graphics processor, application processor etc.).Processor can couple with memory/storage or can be with It including them, and can be configured as: the instruction being stored in memory/storage executed, so that various applications or operation System can be run on the device 200.In some embodiments, the processor of application circuit 202 can handle received from EPC IP data grouping.

Baseband circuit 204 may include the circuit of such as, but not limited to one or more single or multiple core processors.Base band Circuit 204 may include one or more baseband processor or control logic, to handle the reception signal path from RF circuit 206 Received baseband signal, and generate the baseband signal of the transmission signal path for RF circuit 206.Baseband circuit 204 can be with 202 interface of application circuit for generating and handling baseband signal, and controls the operation of RF circuit 206.For example, in some implementations In example, baseband circuit 204 may include the third generation (3G) baseband processor 204A, forth generation (4G) baseband processor 204B, the In five generations (5G) baseband processor 204C or generation for generation or the following exploitation in other existing generations, exploitation, are (for example, the second generation (2G), the 6th generation (6G) etc.) other baseband processor 204D.Baseband circuit 204 is (for example, in baseband processor 204A-D It is one or more) it can handle and to carry out communicating via RF circuit 206 and one or more radio nets Various radio control functions.In other embodiments, some or all functions of baseband processor 204A-D may include It is stored in memory 204G and via in the module of central processing unit (CPU) 204E execution.Radio control functions can be with Including but not limited to signal modulation/demodulation, coding/decoding, radio frequency displacement etc..In some embodiments, baseband circuit 204 Modulation/demodulation circuit may include Fast Fourier Transform (FFT) (FFT), precoding or constellation mapping/demapping function.In some realities It applies in example, the coding/decoding circuit of baseband circuit 204 may include that convolution, tail biting convolution, turbo, Viterbi or low-density are odd Even parity check (LDPC) coder/decoder functionalities.The embodiment of modulating/demodulating and coder/decoder functionalities is not limited to these Example, and in other embodiments may include other suitable functions.

In some embodiments, baseband circuit 204 may include one or more audio digital signal processors (DSP) 204F.Audio DSP 204F may include the element for compression/de-compression and echo cancellor, and in other embodiments may be used To include other suitable processing elements.In some embodiments, the component of baseband circuit can be combined suitably in single core In piece, one single chip group, or it is arranged on same circuit board.In some embodiments, baseband circuit 204 and application circuit 202 some or all of composition components may be implemented together in such as system on chip (SOC).

In some embodiments, baseband circuit 204 can provide the communication compatible with one or more radio technologies.Example Such as, in some embodiments, baseband circuit 204 can be supported and evolved universal terrestrial wireless access network (EUTRAN) or other nothings The communication of line Metropolitan Area Network (MAN) (WMAN), WLAN (WLAN), wireless personal area network (WPAN).Baseband circuit 204 is configured as propping up The embodiment for holding the radio communication of more than one wireless protocols can be referred to as multimode baseband circuit.

RF circuit 206 can realize the communication with wireless network by non-solid medium using modulated electromagnetic radiation.? In various embodiments, RF circuit 206 may include switch, filter, amplifier etc., to promote the communication with wireless network.RF Circuit 206 may include receive signal path, may include for down coversion from the received RF signal of FEM circuit 208 and to The circuit of the offer baseband signal of baseband circuit 204.RF circuit 206 can also include sending signal path, may include being used for The baseband signal of the offer of up-conversion baseband circuit 204 and the electricity that RF output signal is supplied to FEM circuit 208 to be used for transmission Road.

In some embodiments, the reception signal path of RF circuit 206 may include mixer 206A, amplifier electricity Road 206B and filter circuit 206C.In some embodiments, the transmission signal path of RF circuit 206 may include filter electricity Road 206C and mixer 206A.RF circuit 206 can also include synthesizer circuit 206D, for synthesizing by reception signal road The frequency that diameter and the mixer 206A for sending signal path are used.In some embodiments, the mixing of signal path is received Device circuit 206A can be configured as: the frequency synthesis provided based on synthesizer circuit 206D is to from the received RF of FEM circuit 208 Signal carries out down coversion.Amplifier circuit 206B can be configured as the signal after amplification down coversion, and filter circuit 206C can be low-pass filter (LPF) or bandpass filter (BPF), is configured as: removing not from the signal after down coversion Desired signal, to generate output baseband signal.Output baseband signal can be supplied to baseband circuit 204, to be used for into one Step processing.In some embodiments, output baseband signal can be zero frequency baseband signal, but this is not required that.In some realities It applies in example, the mixer 206A for receiving signal path may include passive frequency mixer, but the range of embodiment is not limited to This.

In some embodiments, the mixer 206A for sending signal path can be configured as: based on synthesizer electricity The frequency synthesis that road 206D is provided carries out up-conversion to input baseband signal, and the RF with generation for FEM circuit 208 exports letter Number.Baseband signal can be to be provided by baseband circuit 204, and can be filtered by filter circuit 206C.

In some embodiments, it receives the mixer 206A of signal path and sends the mixer of signal path 206A may include two or more frequency mixers, and can be arranged to quadrature frequency conversion and up-conversion respectively.One In a little embodiments, the mixer 206A for receiving signal path and the mixer 206A for sending signal path may include Two or more frequency mixers, and mirror image can be arranged to and inhibit (for example, Hartley mirror image inhibits).In some realities It applies in example, the mixer 206A of the mixer 206A and transmission signal path that receive signal path can be by cloth respectively It sets for Direct-conversion and Direct conversion.In some embodiments, the mixer 206A and hair of signal path are received Send the mixer 206A of signal path that can be configured for superheterodyne operation.

In some embodiments, output baseband signal and input baseband signal can be analog baseband signal, but implement The range of example is without being limited thereto.In some alternative embodiments, output baseband signal and input baseband signal can be digital baseband Signal.In these alternative embodiments, RF circuit 206 may include analog-digital converter (ADC) and digital analog converter (DAC) electricity Road, and baseband circuit 204 may include digital baseband interface, to be communicated with RF circuit 206.

In some bimodulus embodiments, individual radio IC circuit can be provided, with the letter for handling each frequency spectrum Number, but the range of embodiment is without being limited thereto.

In some embodiments, synthesizer circuit 206D can be decimal N synthesizer or decimal N/N+1 synthesizer, still The range of embodiment is without being limited thereto, because other kinds of frequency synthesizer can be suitably.For example, synthesizer circuit 206D It can be delta-sigma synthesizer, frequency multiplier or the synthesizer including having the phaselocked loop of frequency divider.

Synthesizer circuit 206D can be configured as: synthesize output frequency based on frequency input and divider control input So that the mixer 206A of RF circuit 206 is used.In some embodiments, synthesizer circuit 206D can be decimal N/N+ 1 synthesizer.

In some embodiments, frequency input can be provided by voltage controlled oscillator (VCO), but this is not required that.Divider Control input can be provided by baseband circuit 204 or application processor 202, this depends on desired output frequency.In some realities It applies in example, divider control input (for example, N) can be determined from look-up table based on the channel indicated by application processor 202.

The synthesizer circuit 206D of RF circuit 206 may include divider, delay phase-locked loop (DLL), multiplexer and phase Accumulator.In some embodiments, divider can be bimodulus divider (DMD), and phase accumulator can be digital phase Bit accumulator (DPA).In some embodiments, DMD can be configured as: by input signal divided by N or N+1 (for example, based on into Position), to provide division of decimal ratio.In some example embodiments, DLL may include one group of cascade tunable delay member Part, phase detectors, charge pump and d type flip flop.In these embodiments, delay element can be configured as the VCO period point Solution is Nd equal phase groupings, and wherein Nd is the quantity of the delay element in delay line.By this method, DLL provides negative anti- Feedback, to assist in ensuring that the total delay by delay line is a VCO period.

In some embodiments, synthesizer circuit 206D, which can be configured as, generates carrier frequency as output frequency, and In other embodiments, output frequency can be carrier frequency multiple (for example, twice of carrier frequency, carrier frequency four Times), and is used in combination with quadrature generator and divider circuit, with generate at the carrier frequencies relative to each other with it is multiple not Multiple signals of same-phase.In some embodiments, output frequency can be LO frequency (fLO).In some embodiments, RF electricity Road 206 may include IQ/ polar converter.

FEM circuit 208 may include receiving signal path, may include being configured as to from one or more antennas 210 received RF signals are operated, and amplify received signal and the amplified version of received signal is supplied to RF circuit 206 With circuit for further processing.FEM circuit 208 can also include sending signal path, may include being configured as putting Greatly by RF circuit 206 provide for transmission signal with for by one or more antennas 210 one or more send Circuit.It in various embodiments, can be only in RF circuit 206 by sending the amplification of signal path or reception signal path It completes, is only completed in FEM 208, or completed in RF circuit 206 and FEM 208.

In some embodiments, FEM circuit 208 may include TX/RX switch, in sending mode and reception pattern behaviour Switch between work.FEM circuit may include receiving signal path and transmission signal path.The reception signal path of FEM circuit can To include LNA, provide for amplifying received RF signal, and using the reception RF signal of amplification as output (for example, to RF circuit 206).The transmission signal path of FEM circuit 208 may include: power amplifier (PA), for amplifying (for example, by RF circuit 206 offers) input rf signal；And one or more filters, for generating RF signal, with for (for example, by one or One or more in mutiple antennas 210 carry out) subsequent transmission.

In some embodiments, PMC 212 can manage the power for being supplied to baseband circuit 204.Particularly, 212 PMC It can control power supply selection, voltage scaling, battery charging or DC-DC conversion.When equipment 200 can be battery powered, such as It usually may include PMC 212 when equipment is included in UE.Power conversion efficiency can be improved in PMC 212, provides simultaneously Desired realization size and heat dissipation characteristics.

Although Fig. 2 shows PMC 212 only to couple with baseband circuit 204, in other embodiments, PMC 212 can Additionally or alternatively to couple with other assemblies, and similar power management operations are executed for other assemblies, such as but not It is limited to application circuit 202, RF circuit 206 or FEM 208.

In some embodiments, PMC 212 can control the various power saving mechanisms of equipment 200, or be part of it.Example Such as, if equipment 200 be in RRC_Connected state (wherein, it is still attached to RAN node because it be expected soon it After will receive business), then it can after an inactive period enter be known as discontinuous reception pattern (DRX) state.? During the state, equipment 200 can be following electric up to of short duration time interval, to save electric power.

If not having data service activity within the extended period, equipment 200 may switch to RRC_Idle state (wherein, it is disconnected with network, and the operation such as do not execute channel-quality feedback, switching).Equipment 200 enters very The state of low-power, and it executes paging, and wherein it is periodically waken up again to listen to network, then lower electric again.If Standby 200 cannot receive data in this state, and in order to receive data, it must convert back RRC_Connected state.

Additional battery saving mode can permit equipment it is unavailable to network up to period longer than paging interval (range from several seconds to A few houres).During between at this moment, the completely unreachable network of equipment and can be with power-off.What is sent during between at this moment appoints What data can all generate big delay, and assume that the delay is acceptable.

The processor of application circuit 202 and the processor of baseband circuit 204 can be used for executing one or more of protocol stack The element of a example.For example, the processor (either individually or in combination) of baseband circuit 204 can be used for execution level 3, layer 2 or layer 1 Function, and the processor of application circuit 204 can use from these layer of received data (for example, packet data), and further 4 layer function of execution level (for example, transport communication protocol (TCP) and User Datagram Protocol (UDP) layer).As mentioned in this article, Layer 3 may include wireless heterogeneous networks (RRC) layer, be described more fully.As mentioned in this article, layer 2 can wrap M AC (MAC) layer, wireless spread-spectrum technology (RLC) layer and Packet Data Convergence Protocol (PDCP) layer are included, it below will be into One step detailed description.As mentioned in this article, layer 1 may include physics (PHY) layer of UE/RAN node, below will be further detailed Thin description.

Fig. 3 shows the example interface of baseband circuit in accordance with some embodiments.As discussed above, the base band electricity of Fig. 2 Road 204 may include processor 204A-204E and the memory 204G that is used by the processor.In processor 204A-204E Each can respectively include memory interface 304A-304E, with sent to/from memory 204G/receive data.

Baseband circuit 204 can also include connecing for being communicably coupled to other circuit/equipment one or more Mouthful, such as memory interface 312 is (for example, for sending/receiving connecing for data to/from the memory outside baseband circuit 204 Mouthful), application circuit interface 314 (for example, for to/from Fig. 2 202 transmissions of application circuit/reception data interface), RF circuit Interface 316 (for example, for 206 transmissions of RF circuit/reception data interface to/from Fig. 2), radio hardware connecting interface 318 (for example, for to/from near-field communication (NFC) component,Component is (for example, low-power consumption)、Component Send/receive the interface of data with other communication components) and power-management interface 320 (for example, for to/from PMC 212 send out It send/receives power or control the interface of signal).

With reference to Fig. 4, the system that can be used at UE (user equipment) according to various aspects as described herein is shown 400 block diagram promotes bandwidth self-adaption relevant to NR (new radio) UL (uplink) transmission and/or frequency hopping.System 400 may include one or more processors 410 (for example, one or more baseband processor, such as in conjunction with Fig. 2 and/or Fig. 3 One or more baseband processor of discussion comprising processing circuit and (one or more) associated interface (for example, in conjunction with One or more interfaces of Fig. 3 discussion)), transceiver circuit 420 (e.g., including part or all of RF circuit 206, can With include transmitter circuitry (for example, associated with one or more send chains) and/or receiver circuit (for example, with one or Multiple reception chains are associated), can using omnibus circuit element, different circuit elements, or combinations thereof) and memory 430 (it may include any one of various storage mediums and can store and one or more processors 410 or transceiver The associated instruction of circuit 420 and/or data).In in all fields, system 400 may include in user equipment (UE).Such as It is described more fully below, system 400 can promote the configuration for sending (one or more) NR UL transmission, which passes One or more of the defeated bandwidth self-adaption being related on multiple parts BW and/or frequency hopping.

In the various aspects discussed herein, it can be generated with output signal and/or message to be used for transmission, and/or It can receive and handle transmitted message.Depending on signal generated or the type of message, the output (example that is used for transmission Such as, pass through (one or more) processor 410, (one or more) processor 510 etc.) it may include one of the following or more It is a: generate one group of associated bit of the content of indication signal or message, coding (for example, its may include addition recycle it is superfluous Remaining verification (CRC) and/or via one in turbo code, low-density checksum (LDPC) code, tail-biting convolutional code (TBCC) etc. Or multiple encode), scrambling (for example, based on Scrambling seeds), modulation is (for example, via binary phase shift keying (BPSK), orthogonal One of phase-shift keying (PSK) (QPSK) or some form of quadrature amplitude modulation (QAM) etc.), and/or resource impact (for example, arriving The resource set of scheduling, one group of time and frequency resource that uplink transmission is used for authorization, etc.).It is received depending on institute The type of signal or message, processing (for example, passing through (one or more) processor 410, (one or more) processor 510 etc.) It may include one of the following or multiple: identification physical resource associated with signal/message, detection signal/message, resource Element group deinterleaves, and demodulates, descrambling, and/or decoding.

With reference to Fig. 5, show according to the systems 500 that can be used at BS (base station) of various aspects as described herein Block diagram promotes and (one or more) NR (new radio) UL (uplink) from one or more UE (user equipment) Transmit relevant bandwidth self-adaption and/or frequency hopping.System 500 may include: one or more processors 510 (for example, one or Multiple baseband processor, the one or more baseband processor such as discussed in conjunction with Fig. 2 and/or Fig. 3, the processor include place Manage circuit and (one or more) associated interface (for example, the one or more interfaces discussed in conjunction with Fig. 3)；Telecommunication circuit 520 (for example, it may include the portion of the circuit and/or RF circuit 206 for one or more wired (for example, X2 etc.) connection Divide or whole, may include transmitter circuitry (for example, associated with one or more send chains) or receiver circuit (example One or more of such as, associated with one or more reception chains), wherein transmitter circuitry and receiver circuit can use Omnibus circuit element, different circuit elements, or combinations thereof)；And (it may include in various storage mediums to memory 530 Any one, and can store associated with one or more of (one or more) processor 510 or telecommunication circuit 520 Instruction and/or data).In in all fields, system 500 may include in evolved universal terrestrial wireless access network (E- UTRAN) in node B (evolution node B, eNodeB or eNB), next generation node B (gNodeB or gNB) or cordless communication network Other base stations or TRP (transmission/receiving point) in.In certain aspects, (one or more) processor 510, telecommunication circuit 520 and memory 530 may include in one single, and in other respects in, they may include in different equipment In, a part of such as distributed structure/architecture.As described in more detail below, system 500 can promote (one or more) UE Configuration with the transmission for (one or more) NR UL transmission, it is adaptive which transmits the bandwidth that is related on multiple parts BW It answers and/or one or more of frequency hopping.

As reached an agreement in RAN 1 (RAN (wireless access network) WG1 (working group 1)) #86bis meeting, NR is (new Radio) support the physical uplink control channel (NR PUCCH) with short duration and long duration.With reference to figure 6, show has short duration and length according to various aspects discussed herein in UL (uplink) data slot An example of the NR PUCCH of duration.It, can be with time division multiplexing (TDM) for the NR PUCCH with short duration Mode is multiplexed NR PUCCH and PUSCH (physical uplink shared channel), can be directed to low latency application.For having length The NR PUCCH of duration can distribute multiple OFDM (orthogonal frequency division multiplexing) symbols for NR PUCCH, to improve control letter The link budget and uplink in road cover.More specifically, NR PUCCH and PUSCH can be with frequency divisions for UL data slot Multiplexing (FDM) mode is multiplexed.In Fig. 6, in order to adapt to DL (downlink) to the switching time of UL and UL to DL and past back pass Broadcast delay, NR physical down link sharing channel (NR PDSCH) and NR physical uplink control channel (NR PUCCH) with And it is inserted between NR physical downlink control channel (NR PDCCH) and NR physical uplink shared channel (NR PUSCH) Protection period (GP).

In RAN1#86bis meeting, with regard to the RF bandwidth self-adaption (including part FFS (to further study)) of DL transmission Reach following consistent:

● at least for single-carrier operation, NR should allow UE to receive at least downlink control in the first RF bandwidth with it Information processed and undesirable UE is received in the 2nd RF bandwidth for being greater than the first RF bandwidth (being less than in X μ s (FFS:X value)) Mode operates.

The first RF bandwidth of ο FFS is in the 2nd RF bandwidth

The first RF bandwidth of ■ FFS is located at the center of the 2nd RF bandwidth

The maximum rate of ο FFS the first RF bandwidth and the 2nd RF bandwidth

ο FFS detailed mechanism

● FFS is used for the RF bandwidth self-adaption of RRM measurement

In in all fields, RF (radio frequency) bandwidth self-adaption also can be applied to UL transmission.As an example, can make (for example, via transceiver circuit 420) UL control channel is sent with relatively narrow RF bandwidth (for example, by (one or more) Processor 410 generates), this, which can help to reduce, sends complexity and UE power consumption.As another example, broader RF can be used Bandwidth sends (for example, via transceiver circuit 420) UL data channel (for example, NR (new radio) PUSCH (physical uplink Link shared channels), can be generated by (one or more) processor 410), to realize higher peak-data speed Rate.In the various aspects discussed herein, some mechanism and technology can be defined effectively to switch for UL control channel (for example, NR PUCCH (physical uplink control channel)) and UL data channel are (for example, both can be by (one or more It is a) generation of processor 410, it sends, is received via telecommunication circuit 520, and by (one or more) via transceiver circuit 420 Reason device 510 is handled) transmission different RF bandwidth.

In addition, UE (user equipment) ability of depending on, can configure multiple BW (bands in wide system bandwidth for a UE It is wide) part.In such scene, UE can execute frequency hopping (for example, via transceiver circuit 420 and (one across multiple parts BW It is a or multiple) processor 410) to utilize the benefit of frequency diversity.Thus, in certain aspects, it can use defined herein The some hoppings transmitted for DL or UL.

In various embodiments, UL RF bandwidth self-adaption and more BW part operations can be used for using discussed herein Mechanism and technology.For example, these mechanism may include: the mechanism that (a) is used for the bandwidth self-adaption that UL is transmitted and (b) for more The hopping of a BW part operation.

The mechanism of bandwidth self-adaption for UL transmission

As discussed above, BS (base station, for example, gNB (next-generation node B)) can be the biography of UL control and data channel Transmission & distribution are set (for example, generating via (one or more) processor 510, sending, via telecommunication circuit 520 via transceiver circuit 420 receive and by the processing of (one or more) processor 410 configuration signals (for example, high-level signaling)) different RF band It is wide.For example, relatively narrow RF bandwidth can be configured (for example, raw via (one or more) processor 510 for UL control channel At, via telecommunication circuit 520 send, via transceiver circuit 420 receive and by (one or more) processor 410 processing Configuration signal) to reduce send complexity and UE power consumption, and for UL data channel, wider RF bandwidth (example can be configured Such as, it is generated by (one or more) processor 510, is sent via telecommunication circuit 520, received via transceiver circuit 420, and Handled by (one or more) processor 410) to realize higher peak data rate.With reference to Fig. 7, show according to institute here A pair of of diagram of the various aspects of discussion, it illustrates the examples of UL data and control channel configured with different RF bandwidth.

As discussed above, NR can support the UL control channel with short duration and/or long duration.With reference to Fig. 8 shows a pair of of diagram according to various aspects discussed herein, which respectively show for short duration and The UL control channel of long duration, RF bandwidth can be identical or different.In in all fields, there is short duration and length to hold The RF bandwidth of the UL control channel of continuous time can partly overlap, completely overlapped or non-intersecting.In in all fields, for having The UL control channel of long duration, BS (for example, gNB etc.) can be configured (for example, raw by (one or more) processor 510 At via the transmission of telecommunication circuit 520, via the reception of transceiver circuit 420, and by the processing of (one or more) processor 410) Wider RF bandwidth, this can contribute to when using frequency hopping (for example, at by transceiver circuit 420 and (one or more) Manage device 410) utilize the benefit of frequency diversity.

In in all fields, the mechanism being discussed below can be used for UL control and the bandwidth of data channel transmission is adaptive It answers.Each embodiment can also be applied to wherein configuration (for example, being generated by (one or more) processor 510, via communication electricity Road 520 is sent, and is received via transceiver circuit 420, and is handled by (one or more) processor 410) single UL RF bandwidth The case where, wherein data and the transmission BW of control can be different, and may be located on different frequency fields.

In in all fields, when the RF bandwidth of UL control channel is located in the RF bandwidth of UL data channel, UE can make (for example, via transceiver circuit 420) UL control channel is sent (for example, by (one with for the RF bandwidth of UL data channel Or multiple) generation of processor 410).In in all fields, for wherein UL control channel and UL data channel in a time slot Last (one or more) symbol in be multiplexed in a manner of FDM (for example, by (one or more) processor 410 and (one or It is multiple) processor 510) scene, similar technology can be applied.

In in all fields, it is located at except the RF bandwidth for UL data channel assignment when for the RF bandwidth of UL control channel When, UE can send (for example, via transceiver circuit 420) UL control channel and data channel using biggish RF bandwidth Both (for example, being generated by (one or more) processor 410).Biggish RF bandwidth can be for UL control channel and data The combination of the RF bandwidth of both channels.

In in all fields, it is located at except the RF bandwidth for UL data channel assignment when for the RF bandwidth of UL control channel When, and when the time interval between UL control and data channel is greater than UE switching time, UE, which can be used to control for UL, to be believed The RF bandwidth of road distribution sends (for example, via transceiver circuit 420) UL control channel (for example, by (one or more) It manages device 410 to generate).As mentioned above, this can be applied equally to the case where configuring single UL RF bandwidth, and UL data Can be different with the transmission BW of control channel and it can be located in different frequency fields.

With reference to Fig. 9, show according to various aspects discussed herein show between UL control and data channel when Between gap an exemplary diagram.In the scene shown in Fig. 9, it is assumed that gap is greater than UE RF bandwidth switching time, and UE can With use for UL control channel distribution RF bandwidth come send (for example, via transceiver circuit 420) UL control channel (for example, It is generated by (one or more) processor 410).In in all fields, depends on UE ability and/or RF bandwidth, switching time can It can define by difference or in a manner of specific to UE.

In in all fields, it is located at except the RF bandwidth for UL data channel assignment when for the RF bandwidth of UL control channel When, depending on the priority of UL data and control channel, UE can abandon (for example, via (one or more) processor 410) One of UL control or data channel.

With reference to Figure 10, show according to various aspects discussed herein show UE can abandon (for example, via (one or more) processor 410) exemplary scene of UL control channel in last symbol in a time slot shows Figure.In the example in Figure 10, very close to each other between UL data and control channel, and the UL control RF bandwidth of short duration exists Except the RF bandwidth of UL data channel, in such a scenario, UE can be abandoned (for example, via (one or more) processor 410) the UL control channel in last symbol.

Technology and mechanism discussed above can extend to the UL number with long duration in a similar way It is believed that the scene in road and UL control channel.In one example, when the RF band for the UL control channel with long duration Width be located at for UL data channel RF bandwidth except when, UE can using (for example, via transceiver circuit 420 and (one or It is multiple) processor 410) it biggish RF bandwidth or abandons (for example, via (one or more) processor 410) UL and controls or data One of channel.

In another example, believe when the RF bandwidth for the UL control channel with long duration is located at for UL data When in the RF bandwidth in road and supporting to transmit while UL control and data channel, UE can send (example in the resource of configuration Such as, via transceiver circuit 420) have the UL control channel of long duration (for example, by (one or more) processor 410 It generates).In addition, in all fields, UL data channel (for example, being generated by (one or more) processor 410) can for (puncture) or rate-matched are punched around the resource of UL control channel distribution with long duration.With reference to figure 11, show showing with the UL control channel with long duration (for example, passing through according to various aspects as described herein (one or more) processor 410 generates) multiplexing (for example, passing through transceiver circuit 420 and (one or more) processor 410) UL data channel (for example, being generated by processor 410) exemplary diagram.

Optionally, (for example, via transceiver circuit 420 and (one or more) processor 410) UL data are multiplexed in UE Channel (for example, being generated by (one or more) processor 410) is with the UL control channel with long duration (for example, by (one It is a or multiple) processor 410 generates) scene in, UL control channel can be used and carry uplink in UL data channel Control information (UCI) mechanism identical mechanism in road (is handled to be embedded in for example, passing through transceiver circuit 420 and (one or more) Device 410) UL data channel.

Hopping for the operation of more portions of bandwidth

In in all fields, wide system bandwidth can be divided into multiple BW (bandwidth) part.With reference to Figure 12, show with The exemplary diagram of relevant four shown in system bandwidth the portions of bandwidth of various aspects discussed herein.In all fields In, the size of the part BW can be identical or different, and can depend on configuration or application and different mini-slot, time slot, Change between subframe or frame.

The ability of wide bandwidth is supported depending on UE, UE can be configured (for example, via (one or more) processor 510 It generates, sent via telecommunication circuit 520, received via transceiver circuit 420 and by (one or more) processor 410 The configuration signal of reason) there are multiple parts BW in wide bandwidth.In such scene, UE can execute frequency hopping across multiple parts BW (for example, via transceiver circuit 420 and (one or more) processor 410) is to utilize the benefit of frequency diversity.The part BW Polymerize BW can be more wider than the BW ability of UE, and UL RF centre frequency can at any time (for example, symbol, mini-slot, time slot, Subframe, frame etc.) change, this depends on the part BW for being used for data and/or control transmission of scheduling.In one example, system BW is 100MHz, and the UL BW ability of UE is 20MHz and the part each BW is 20MHz.It is being related to an exemplary scene In, UE can be configured only in the specific part 20MHz BW, and its UL transmission is (for example, by (one or more) processor 410 generate, and send via transceiver circuit 420, receive via telecommunication circuit 520, and by (one or more) processor 510 Processing) it may be limited in the part BW.In another operation scenario, depending on UL data and/or control scheduling (for example, through It generated, sent via telecommunication circuit 520, received via transceiver circuit 420, Yi Jiyou by (one or more) processor 510 The DCI (down link control information) of the processing of (one or more) processor 410), it can be by changing over time Tx (transmission) RF frequency is come in any BW scheduled on portions UE.In addition, the candidate UL control channel resource configured can be dispersed in system band On multiple parts BW in width (each example 100MHz, or be in other embodiments other applicable BW), for loading The flexible use of balance and resource.In such a scenario, the part all BW can include single RF carrier wave in a network System bandwidth in.However, each part BW can be taken as such as component in carrier aggregation operation from the perspective of UE Carrier wave.

When the transmission of scheduling DL or UL data channel or UL control channel is (for example, raw by (one or more) processor 510 At via the transmission of telecommunication circuit 520, via the reception of transceiver circuit 420, and by the processing of (one or more) processor 410) When, BW partial index can be obtained in the side UE.In in all fields, BW partial index can by high level configuration (for example, via RRC signaling), the dynamic instruction in down link control information (DCI), or the combination via the two.It, can in all fields To configure one group of BW partial index by RRC signaling, and a field in DCI can serve to indicate that from this group of part BW The part which BW be used for data or control channel transmission (for example, by the generation of (one or more) processor 410, via receipts It sends out electromechanical road 420 to send, be received via telecommunication circuit 520, and handled by (one or more) processor 510).In each side In face, the field in the DCI comprising BW partial information can also include the resource allocation in the part BW being configured.Some In such aspect, the single field in DCI is determined for the resource in BW partial index and the part BW for data Or control channel transmission.

In in all fields, BS (for example, gNB) can be with enabled or disabled frequency hopping.Whether enabled or disabled frequency hopping can be by High level be semi-statically configured or in DCI dynamic instruction (for example, being generated via (one or more) processor 510, via logical Believe circuit 520 send, via transceiver circuit 420 receive and by (one or more) processor 410 processing high level or DCI signaling).

In in all fields, the frequency hopping with multiple BW part operations can be applied to one or more in following situations It is a: (a) with the UL control channel of multiple time-slot durations；(b) the DL/UL data channel transmission polymerizeing in time slot；(c) half Persistence DL/UL data channel transmission；(d) the UL data for exempting from dynamic authorization for super reliable and low latency communication (URLLC) Transmission.

In in all fields, one or more of following frequency hopping and/or mechanism can be applied to multiple parts BW Operation.

It in certain aspects, can be that one or more UE configures two parts BW via high-level signaling, for example, NR is minimum System information (MSI), NR residue minimum system information (RMSI), NR other systems information (OSI) or wireless heterogeneous networks (RRC) Signaling (for example, being generated by (one or more) processor 510, sends via telecommunication circuit 520, connects via transceiver circuit 420 It receives, and is handled by (one or more) processor 410).In addition, can match across for DL or UL transmission in all fields The two BW set partially execute (for example, via transceiver circuit 420 and (one or more) processor 410) frequency hopping.No It can be identical or different with the frequency resource in the part BW.

In in all fields, DL or UL channel is (for example, respectively by (one or more) processor 510 or (one or more It is a) generation of processor 410) it can send in the identical part BW in K continuous slot (for example, respectively via telecommunication circuit 520 or transceiver circuit 420).In these aspects, DL or UL channel can be switched to (for example, respectively by (one or more) Processor 510 and telecommunication circuit 520 or by (one or more) processor 410 and transceiver circuit 420) another BW part with For frequency hopping.Value K can be predefined in specification, can be by high level via NR minimum system information (MSI), the remaining minimum system of NR It unites information (RMSI), NR other systems information (OSI) or wireless heterogeneous networks (RRC) signaling are (for example, by (one or more) It manages device 510 to generate, be sent via telecommunication circuit 520, received via transceiver circuit 420, and handled by (one or more) The processing of device 410) it configures, or the function of the quantity of mini-slot or time slot that DL or UL transmission uses can be defined as.Most Under latter situation, K can be defined asOrWherein N_slotIt is the time slot transmitted for DL or UL Quantity.

It, can be with retention gap to allow BS (for example, gNB) or UE in the scene wherein on continuous slot using frequency hopping From the switching of the part the first BW (for example, by telecommunication circuit 520 and (one or more) processor 510 or passing through transceiver respectively Circuit 420 and (one or more) processor 410) to the 2nd part BW.With reference to Figure 13, show according to discussed herein each An exemplary diagram for showing the frequency hopping in the part BW that two in four continuous slots are configured for a aspect.Scheming In 13 example, UE can be configured (for example, generating, via by (one or more) processor 510 via telecommunication circuit 520 Send, via transceiver circuit 420 receive and by (one or more) processor 410 processing configuration signal (for example, MSI, RMSI, OSI, RRC etc.) there are the part BW #0 and #3 to be used for frequency hopping (for example, by transceiver circuit 420 and (one or more It is a) processor 410).In addition, as an example it is supposed that 2 OFDM (or based on OFDM's) symbols are as the frequency hopping based on the part BW Switching time, between first symbol in last symbol and time slot # (n+2) in time slot # (n+1) can remain in advance Gap (under other scenes, depends on UE ability and/or configuration, UE can switch in symbol more or less).? In various aspects, in the scene for being related to dynamic TDD system, can for for the control area slot reservation DL between switching time and Protection period.

As discussed above, UE ability or RF bandwidth are depended on, switching time can be different or can be with specific to UE Mode define.Similarly, remain in advance the symbol in gap quantity can by high level via RRC signaling configure or Dynamic instruction or use a combination thereof by (one or more) processor 510 (for example, generated, via telecommunication circuit 520 in DCI It sends, is received via transceiver circuit 420, and handled by (one or more) processor 410).In one example, if UE can switch (for example, via transceiver circuit 420 and (one or more) processor 410) part BW in 1 symbol, then UE can omit the transmission of the signal in the last symbol in the first part BW before being switched to the 2nd part BW.

In in all fields, the frequency hopping pattern across multiple parts BW can be defined as one or more of following parameter Function: physics or virtual subdistrict ID, UE ID (for example, Cell Radio Network Temporary Identifier/Identity, Cell-RNTI symbol (C-RNTI) etc.), symbol or when Gap or mini-slot or subframe or frame index, and/or the parameter that can be indicated in DCI are (for example, by (one or more) processor 510 generate, and send via telecommunication circuit 520, receive via transceiver circuit 420, and by (one or more) processor 410 Processing).

In an example it is assumed that the N in system bandwidth_SBThe part BW can be exported as equation (1) (for example, logical Cross (one or more) processor 410 and/or (one or more) processor 510) it is used for the BW partial index that DL or UL is transmitted:

Wherein mod is modular arithmetic,It is physical district ID, n_sIt is mini-slot or time slot index.

In in all fields, exempts from the transmission of authorized uplink data for URLLC, can further apply (for example, logical Cross transceiver circuit 420 and (one or more) processor 410) hopping.In such a case, it is possible to from following parameter One or more of in export (for example, pass through (one or more) processor 410 and/or (one or more) processor 510) the BW partial index for the re-transmission of the dynamic authorization without coming from BS (for example, gNB etc.): physics or virtual subdistrict ID, UE ID (for example, Cell Radio Network Temporary Identifier/Identity, Cell-RNTI symbol (C-RNTI) etc.), symbol or time slot or mini-slot or subframe or frame rope Draw, and/or for initial transmission BW partial index.In one example, it can export as equation (2) (for example, passing through (one or more) processor 410 and/or (one or more) processor 510) for the secondary BW partial index retransmitted of kth:

With reference to Figure 14, shows and passing for URLLC uplink data according to various aspects discussed herein is shown One exemplary diagram of the defeated frequency hopping pattern across multiple parts BW.In the example in figure 14, it is assumed that for the first transmission The part BW is configured by high level in a manner of specific to UE (for example, generating via (one or more) processor 510, via communication The configuration signal that circuit 520 sends, receives via transceiver circuit 420 and handled by (one or more) processor 410), Transmission for URLLC uplink data (for example, being generated by (one or more) processor 410) is (for example, via transceiver Circuit 420) frequency hopping pattern can be aligned at UE and BS (for example, gNB etc.) (for example, via transceiver circuit 420 and (one It is a or multiple) processor 410 and telecommunication circuit 520 and (one or more) processor 510) to allow BS (for example, gNB Deng) execution soft-combine (for example, via telecommunication circuit 520 and (one or more) processor 510) at receiver, to improve Performance.Although in the example in figure 14, reserving 1 symbol in (for example, depending on UE ability and/or configuration) in all fields Off time is switched to another part BW from a part BW for UE, and still, this can change.

In in all fields, the frequency hopping pattern across multiple parts BW can be by high level via MSI, RMSI, OSI, RRC signaling Configuration or in DCI dynamic instruction or using a combination thereof (for example, by (one or more) processor 510 generate, via lead to Believe that circuit 520 is sent, received via transceiver circuit 420, and handled by (one or more) processor 410).In latter In the case of, one group of frequency hopping pattern across multiple parts BW can be configured by high level via RRC signaling, and in DCI a field Can serve to indicate that by which frequency hopping pattern in this group of frequency hopping pattern be applied to DL or UL channel (for example, respectively by (one or It is multiple) processor 510 or (one or more) processor 410 generate) transmission (for example, via telecommunication circuit 520 or receiving respectively Send out electromechanical road 420).

The DCI by NR physical downlink control channel (NR PDCCH) carrying can be used (for example, by (one or more It is a) generation of processor 510, it sends, is received via transceiver circuit 420, and by (one or more) via telecommunication circuit 520 The processing of processor 410) dispatch DL the or UL data channel across multiple time slots (for example, respectively by (one or more) processor 510 or (one or more) processor 410 generate) (one or more) transmit (for example, respectively via telecommunication circuit 520 or Transceiver circuit 420), or DL or UL data channel is dispatched semi-durablely (for example, respectively by (one or more) processor 510 or (one or more) processor 410 generate) (one or more) transmit (for example, respectively via telecommunication circuit 520 or Transceiver circuit 420), or to dispatch the UL control channel of the duration with multiple time slots (for example, by (one or more It is a) processor 410 generate) (one or more) transmission (for example, via transceiver circuit 420).

Additional embodiment

With reference to Figure 15, show according to various aspects discussed herein according to various aspects as described herein can The flow chart of the exemplary method 1500 used at UE promotes band relevant to NR (new radio) UL (uplink) transmission Wide adaptive and/or frequency hopping.In in other respects, machine readable media can store instruction associated with method 1500, institute State the movement that instruction can make UE execute method 1500 when executed.

At 1510, configuration signal can receive, at least one of UL data channel or UL control channel configuration one A or multiple BW and/or the one or more part BW, wherein configuration signal can be configured optionally and UL data channel and/or UL The relevant frequency hopping of control channel.

At 1520, UL data channel and/or UL control channel can be sent based on configuration signal.

Additionally or alternatively, method 1500 may include described in the receiving entity aspect here in conjunction with system 400 Other one or more movements.

With reference to Figure 16, show according to the exemplary methods 1600 that can be used at BS of various aspects discussed herein Flow chart promotes and (one or more) NR (new radio) UL (uplink from one or more UE (user equipment) Road) transmit relevant bandwidth self-adaption and/or frequency hopping.In in other respects, machine readable media be can store and method 1600 Associated instruction, described instruction can make the movement of BS (for example, eNB, gNB etc.) execution method 1600 when executed.

At 1610, configuration signal can be sent, at least one of UL data channel or UL control channel configuration one A or multiple BW and/or the one or more part BW, wherein configuration signal can be configured optionally and UL data channel and/or UL The relevant frequency hopping of control channel.

At 1620, UL data channel and/or UL control channel can be received based on configuration signal.

Additionally or alternatively, method 1600 may include described in the sending entity aspect here in conjunction with system 500 Other one or more movements.

It may include for the 5th generation (5G) in combination with the first example embodiment that various aspects discussed herein use Or the system and or method of the wireless communication of new radio (NR) system: by BS (for example, gNB etc.) configuration (for example, via by (one or more) processor 510 is generated, sends via telecommunication circuit 520, is received via transceiver circuit 420 and by (one It is a or multiple) processor 410 processing configuration signal) be used for transmission (one or more) UL control and/or data channel (one It is a or multiple) at least one of radio frequency (RF) bandwidth or the part (one or more) BW be (for example, wherein described (one or more It is a) UL is controlled and/or data channel can be generated by (one or more) processor 410, it is sent via transceiver circuit 420, It receives via telecommunication circuit 520, and is handled by (one or more) processor 510)；And by UE according to the RF configured Bandwidth or BW partially send UL control and/or data channel (for example, being generated by (one or more) processor 410, via receipts It sends out electromechanical road 420 to send, be received via telecommunication circuit 520, and handled by (one or more) processor 510).

In the various aspects of the first example embodiment, the RF bandwidth of UL data channel and UL control channel can be different； And the RF bandwidth of the UL control channel with short duration and long duration can be different.

In the various aspects of the first example embodiment, can configure single UL RF bandwidth (for example, via by (one or It is multiple) processor 510 generate, via telecommunication circuit 520 send, via transceiver circuit 420 receive and by (one or more It is a) processor 410 processing configuration signal), wherein UL data and control channel are (for example, by (one or more) processor 410 It generates, sent via transceiver circuit 420, received via telecommunication circuit 520 and by (one or more) processor 510 Reason) transmission BW can be different, and may be located in different frequency fields.

In the various aspects of the first example embodiment, the RF bandwidth of UL control channel can be located at the RF of UL data channel In bandwidth, wherein the RF bandwidth for UL data channel is can be used to send (for example, via transceiver circuit 420) UL control in UE Channel (for example, being generated by (one or more) processor 410) processed.

It is UL data channel assignment when the RF bandwidth of UL control channel is located in the various aspects of the first example embodiment RF bandwidth except when, UE can using (for example, via transceiver circuit 420 and (one or more) processor 410) it is larger RF bandwidth send both (for example, via transceiver circuit 420) UL control channel and UL data channel (for example, by (one Or multiple) generation of processor 410).

It is UL data channel when the RF bandwidth for UL control channel is located in the various aspects of the first example embodiment Time slot except the RF bandwidth of distribution and between (one or more) UL control and data channel is greater than UE switching time When, the RF bandwidth for the distribution of UL control channel can be used to send UL control channel (for example, being handled by (one or more) in UE Device 410 generates, and sends via transceiver circuit 420, receives via telecommunication circuit 520, and by (one or more) processor 510 processing).

It is UL data channel when the RF bandwidth for UL control channel is located in the various aspects of the first example embodiment When except the RF bandwidth of distribution, the priority of (one or more) UL data and control channel is depended on, UE can abandon (example Such as, via (one or more) processor 410) one of UL control or data channel.

In the various aspects of the first example embodiment, UE be may be configured to multiple parts BW in wide bandwidth (for example, via being generated by (one or more) processor 510, being connect via the transmission of telecommunication circuit 520, via transceiver circuit 420 The configuration signal received and handled by (one or more) processor 410).

In the various aspects of the first example embodiment, BW partial index can be by high level via wireless heterogeneous networks (RRC) signal deployment or dynamically indicated in down link control information (DCI) or using a combination thereof (for example, wherein RRC And/or DCI can be generated by (one or more) processor 510, be sent via telecommunication circuit 520, via transceiver circuit 420 It receives, and is handled by (one or more) processor 410；Wherein, one group of BW partial index can be configured by RRC signaling, and A field in DCI can serve to indicate that the specific part BW from this group of part BW, to be used for (one or more) UL number According to and/or control channel (for example, by (one or more) processor 410 generate) transmission (for example, via transceiver circuit 420)。

In the various aspects of the first example embodiment, if enabled or disabled frequency hopping can semi-statically be matched by high level It sets, or can dynamically be indicated (for example, wherein RRC and/or DCI can be by (one or more) processor 510 in DCI It generates, is sent via telecommunication circuit 520, received via transceiver circuit 420, and by (one or more) processor 410 Reason).It can be that one or more UE configures two parts BW, high level letter via high-level signaling in various such aspects Enable for example, NR minimum system information (MSI), NR residue minimum system information (RMSI), NR other systems information (OSI) or nothing Line resources control (RRC) signaling (for example, being generated by (one or more) processor 510, sent via telecommunication circuit 520, via Transceiver circuit 420 receive, and by (one or more) processor 410 handle), wherein can be used for DL (for example, by (one or more) processor 510 generates) or UL (for example, by (one or more) processor 410 generation) transmission (for example, Via telecommunication circuit 520 or transceiver circuit 420) the two parts BW configured on execute frequency hopping (for example, passing through respectively Telecommunication circuit 520 and (one or more) processor 510 or pass through transceiver circuit 420 and (one or more) processor 410).In various such aspects, switching time can be different or can define (example in a manner of specific to UE Such as, via by (one or more) processor 510 generate, via telecommunication circuit 520 send, via transceiver circuit 420 receive, And the configuration signal handled by (one or more) processor 410)；Wherein, the quantity of the symbol of slot reservation can be by between being High level is configured via RRC signaling and is perhaps dynamically indicated or using a combination thereof in DCI (for example, wherein RRC and/or DCI It can be generated by (one or more) processor 510, be sent via telecommunication circuit 520, received via transceiver circuit 420, with And handled by (one or more) processor 410).In various such aspects, the frequency hopping pattern across multiple parts BW can be with Be defined as the function of one or more of following parameter: physics or virtual subdistrict ID, UE ID is (for example, cell-radio network Temporary identifier (C-RNTI) etc.), symbol or time slot or mini-slot or subframe or frame index, and/or can DCI (for example, by (one or more) processor 510 generates, and sends via telecommunication circuit 520, receives via transceiver circuit 420, and by (one It is a or multiple) processor 410 processing) in instruction.It, can be with for exempting from authorized uplink transmission in various such aspects BW partial index from one or more following parameter export for the not re-transmission of the instruction from gNB: physics is virtual small Area ID, UE ID (for example, Cell Radio Network Temporary Identifier/Identity, Cell-RNTI symbol (C-RNTI)), symbol or time slot or mini-slot or subframe or frame Index, and the BW partial index of transmission for the first time.In various such aspects, the frequency hopping pattern across multiple parts BW can be with By high level via MSI, RMSI, OSI or RRC signaling configuration or dynamically indicate in DCI or using a combination thereof (for example, Wherein high-level signaling and/or DCI are generated by (one or more) processor 510, are sent via telecommunication circuit 520, via transmitting-receiving Electromechanical road 420 receives, and is handled by (one or more) processor 410).

Here example may include theme, such as method, the module of the movement for executing this method or block, at least one A includes the executable machine readable media executed, when by machine (for example, processor, specific integrated circuit with memory (ASIC), field programmable gate array (FPGA) etc.) execute when, the executable instruction cause machine use according to described in Embodiment and exemplary a variety of communication technologys execute the movement of method or apparatus or system for concurrent communication.

Example 1 is arranged to the device used in UE (user equipment), comprising: memory interface；And processing electricity Road is configured to: the first signaling of processing, and first signaling instruction is used for NR (new radio) PUSCH (physical uplink link sharing Channel) first group of frequency resource and be used for NR PUCCH (physical uplink control channel) second group of frequency resource, In first group of frequency resource include the first RF (radio frequency) BW (bandwidth) or first BW of one or more at least one of partially, In second group of frequency resource include the 2nd RF BW or 2nd BW of one or more at least one of partially；Generate NR PUSCH Or at least one of NR PUCCH；Be based at least partially in first group of frequency resource or second group of frequency resource one or It is multiple to map at least one of NR PUSCH or NR PUCCH；And it sends the first signaling to via memory interface and deposits Reservoir.

Example 2 includes the theme of any modification of any example in example 1, wherein first group of frequency resource is at least partly Ground is different from second group of frequency resource.

Example 3 includes the theme of any modification of any example in example 1, wherein second group of frequency resource includes being used for The first subset of NR PUCCH with short duration and second subset for the NR PUCCH with long duration, In the first subset be at least partially different from second subset.

Example 4 includes the theme of any modification of any example in example 1-3, wherein first group of frequency resource includes the One RF BW, second group of frequency resource includes the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are public RF BW.

Example 5 includes the theme of any modification of any example in example 4, wherein processing circuit is configured as in following At least one: NR PUSCH is mapped to the first part of public RF BW, or NR PUCCH is mapped to public RF BW's Second part, wherein first part is at least partially different from second part.

Example 6 includes the theme of any modification of any example in example 1-3, wherein first group of frequency resource includes the One RF BW, second group of frequency resource includes the 2nd RF BW, wherein the first RF BW includes the 2nd RF BW, and wherein processing electricity Road is configured to NR PUCCH being mapped to the first RF BW.

Example 7 includes the theme of any modification of any example in example 1-3, wherein first group of frequency resource includes the One RF BW, second group of frequency resource includes the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are not overlapped, and is wherein located Reason circuit is configured to NR PUSCH and NR PUCCH being mapped to the 3rd BW including the first BW and the 2nd BW.

Example 8 includes the theme of any modification of any example in example 1-3, wherein first group of frequency resource includes the One RF BW, second group of frequency resource includes the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are not overlapped, wherein processing electricity Road is configured to: NR PUSCH is mapped to the first RF BW；And when NR PUSCH and time associated with NR PUCCH are provided When time slot between source is greater than the switching time of UE, NR PUCCH is mapped to the 2nd RF BW.

Example 9 includes the theme of any modification of any example in example 1-3, wherein first group of frequency resource includes the One RF BW, second group of frequency resource includes the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are not overlapped, wherein processing electricity Road is configured to: selecting channel from NR PUSCH and NR PUCCH based on the priority of NR PUSCH and NR PUCCH；It will Selected channel is mapped to the association RF BW of the first RF BW and the 2nd RF BW；And from NR PUSCH and NR PUCCH Abandon non-selected channel.

Example 10 includes the theme of any modification of any example in example 1-3, wherein one or more first parts BW Or at least one of part the 2nd BW of one or more includes multiple parts BW.

Example 11 includes the theme of any modification of any example in example 1-3, wherein processing circuit is further configured At: the second signaling of processing, second signaling instruction and the 2nd part BW of the part the first BW of one or more or one or more The associated BW partial index in the indicated part BW；And at least one of NR PUSCH or NR PUCCH is mapped to institute The part BW of instruction.

Example 12 includes the theme of any modification of any example in example 1-3, wherein processing circuit is further configured At processing third signaling, which indicates whether enabled or disabled frequency hopping relevant to NR PUSCH or NR PUCCH, Middle third signaling includes one or more of high-level signaling or DCI (down link control information) message.

Example 13 includes the theme of any modification of any example in example 1-3, wherein in NR PUSCH or NR PUCCH At least one with initially exempt to authorize NR UL transmission associated, wherein processing circuit is further configured to based in following One or more is come the associated BW partial index of re-transmission that determines with exempt to authorize NR UL transmission: with initially exempt from that NR UL is authorized to pass Defeated associated physical district ID (identifier), the ID of virtual subdistrict ID, UE, notation index, mini-slot index, time slot index, Subframe index, frame index or BW partial index.

Example 14 includes the theme of any modification of any example in example 1-2, wherein second group of frequency resource include The first subset for the NR PUCCH with short duration and the second son for the NR PUCCH with long duration Collection, wherein the first subset is at least partially different from second subset.

Example 15 includes the theme of any modification of any example in example 1-9, wherein one or more first parts BW Or at least one of part the 2nd BW of one or more includes multiple parts BW.

Example 16 includes the theme of any modification of any example in example 1-10, wherein processing circuit is further matched It is set to: the second signaling of processing, second signaling instruction and the part the first BW of one or more or one or more 2nd parts BW The associated BW partial index in the indicated part BW；And at least one of NR PUSCH or NR PUCCH is mapped to The indicated part BW.

Example 17 includes the theme of any modification of any example in example 1-11, wherein processing circuit is further matched It is set to processing third signaling, which indicates whether enabled or disabled frequency hopping relevant to NR PUSCH or NR PUSCH, Wherein third signaling includes one or more of high-level signaling or DCI (down link control information) message.

Example 18 is the device that one kind is configured to use in gNB (next-generation node B), comprising: memory interface；With And processing circuit, it is configured to: generating the first signaling, first signaling instruction is used for NR (new radio) PUSCH (physical uplink Link shared channels) first group of frequency resource and be used for NR PUCCH (physical uplink control channel) second group of frequency Resource, wherein first group of frequency resource include in the first RF (radio frequency) BW (bandwidth) or one or more first parts BW at least One, wherein second group of frequency resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；Handle NR At least one of PUSCH or NR PUCCH, wherein at least one of NR PUSCH or NR PUCCH are mapped to first group At least part of at least part of frequency resource or second group of frequency resource；And confidence will be matched via memory interface Order is sent to memory.

Example 19 includes the theme of any modification of any example in example 18, wherein processing circuit is further configured At the second signaling is generated, which indicates whether to enable frequency hopping relevant to NR PUSCH or NR PUCCH.

Example 20 includes the theme of any modification of any example in example 19, wherein processing circuit is further configured At third signaling of the instruction for a pair of of part BW of frequency hopping is generated, wherein third signaling includes one of the following or multiple: NR minimum system information (MSI), NR residue minimum system information (RMSI), NR other systems information (OSI) or radio resource control Make (RRC) signaling.

Example 21 includes the theme of any modification of any example in example 19, wherein processing circuit is further configured At the 4th signaling is generated, the 4th signaling indicates multiple portions BW of first group of frequency resource or second group of frequency resource for frequency hopping Point on frequency hopping pattern, wherein third signaling include NR minimum system information (MSI), NR residue minimum system information (RMSI), One in NR other systems information (OSI), wireless heterogeneous networks (RRC) signaling or DCI (down link control information) message Or it is multiple.

Example 22 includes the theme of any modification of any example in example 18-21, wherein first group of frequency resource is at least It is partly different in second group of frequency resource.

Example 23 includes the theme of any modification of any example in example 18-21, wherein second group of frequency resource include The first subset for the NR PUCCH with short duration and the second son for the NR PUCCH with long duration Collection, wherein the first subset is at least partially different from second subset.

Example 24 includes the theme of any modification of any example in example 18-21, wherein first group of frequency resource include First RF BW, second group of frequency resource includes the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are public RF BW.

Example 25 includes the theme of any modification of any example in example 18-21, wherein processing circuit is further matched It is set to: generating the 5th signaling of instruction BW partial index, which indicates the part the first BW of one or more or one Or the part association BW of multiple 2nd parts BW, wherein at least one of NR PUSCH or NR PUCCH are mapped to association BW Part.

Example 26 is a kind of machine readable media including instruction, and described instruction makes UE (user equipment) when executed: The first signaling is received, first signaling instruction is used for the first of NR (new radio) PUSCH (physical uplink shared channel) Group frequency resource and second group of frequency resource for being used for NR PUCCH (physical uplink control channel), wherein a set of frequencies Resource includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, wherein second group of frequency Resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；And it is based at least partially on first group One or more of frequency resource or second group of frequency resource send at least one of NR PUSCH or NR PUCCH.

Example 27 include example 26 in any example any modification theme, wherein described instruction when executed into One step makes UE receive the second signaling, which indicates whether enabled or disabled jump relevant to NR PUSCH or NR PUCCH Frequently, wherein third signaling includes one or more of high-level signaling or DCI (down link control information) message.

Example 28 include example 27 in any example any modification theme, wherein described instruction when executed into One step makes UE receive third signaling of the instruction for a pair of of part BW of frequency hopping, and wherein third signaling includes NR minimum system information (MSI), in NR residue minimum system information (RMSI), NR other systems information (OSI) or wireless heterogeneous networks (RRC) signaling One or more.

Example 29 includes the theme of any modification of any example in example 27, and wherein described instruction is when executed into one Step makes UE receive the 4th signaling, and the 4th signaling indicates the multiple of first group of frequency resource or second group of frequency resource for frequency hopping Frequency hopping pattern on the part BW, wherein third signaling includes NR minimum system information (MSI), NR residue minimum system information (RMSI), in NR other systems information (OSI), wireless heterogeneous networks (RRC) signaling or DCI (down link control information) message One or more.

Example 30 includes the theme of any modification of any example in example 27, and wherein described instruction is when executed into one Step makes UE for frequency hopping to be based at least partially on one of the following or multiple determine first group of frequency resource or second group Frequency hopping pattern on multiple parts BW of frequency resource: physical district ID (identifier), the ID of virtual subdistrict ID, UE, symbol rope Draw, mini-slot index, time slot index, subframe index, frame index or via DCI (down link control information) message sink Parameter.

Example 31 includes the theme of any modification of any example in example 26-30, wherein described instruction is when executed UE is further set to receive the 5th signaling, the number of the symbol of slot reservation between the 5th signaling is designated as between PUSCH and PUCCH Amount, wherein the 5th signaling include one in RRC (wireless heterogeneous networks) signaling or DCI (down link control information) message or It is multiple.

Example 32 is a kind of machine readable media including instruction, and described instruction makes gNB (next-generation node when executed B): send the first signaling, first signaling instruction for NR (new radio) PUSCH (physical uplink shared channel) the A set of frequencies resource and second group of frequency resource for being used for NR PUCCH (physical uplink control channel), wherein first group of frequency Rate resource includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, wherein second group of frequency Rate resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；And receive NR PUSCH or NR At least one of PUCCH, wherein at least one of NR PUSCH or NR PUCCH is mapped to first group of frequency resource At least part of at least part or second group of frequency resource.

Example 33 include example 32 in any example any modification theme, wherein described instruction when executed into One step makes gNB send the second signaling, second signaling instruction and the part the first BW of one or more or the 2nd BW of one or more The associated BW partial index in the indicated part BW in part, wherein at least one of NR PUSCH or NR PUCCH quilt It is mapped to the indicated part BW.

Example 34 includes the theme of any modification of any example in example 32-33, wherein first group of frequency resource is at least It is partly different in second group of frequency resource.

Example 35 is the device that one kind is configured to use in UE (user equipment), comprising: for receiving the first signaling Module, first signaling instruction be used for NR (new radio) PUSCH (physical uplink shared channel) a set of frequencies Resource and second group of frequency resource for being used for NR PUCCH (physical uplink control channel), wherein first group of frequency resource packet At least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more are included, wherein second group of frequency resource packet Include at least one of the 2nd RF BW or the part the 2nd BW of one or more；And for being based at least partially on first group of frequency One or more of rate resource or second group of frequency resource send the mould of at least one of NR PUSCH or NR PUCCH Block.

Example 36 includes the theme of any modification of any example in example 35, further comprises for receiving the second signaling Module, which indicates whether enabled or disabled frequency hopping relevant to NR PUSCH or NR PUCCH, and wherein third is believed Enable includes one or more of high-level signaling or DCI (down link control information) message.

Example 37 includes the theme of any modification of any example in example 36, further comprises being used for for receiving instruction The module of the third signaling of a pair of of part BW of frequency hopping, wherein third signaling include NR minimum system information (MSI), NR residue most One or more of mini system information (RMSI), NR other systems information (OSI) or wireless heterogeneous networks (RRC) signaling.

Example 38 includes the theme of any modification of any example in example 36, further comprises for receiving the 4th signaling Module, the 4th signaling indicates the jump on multiple parts BW of first group of frequency resource or second group of frequency resource for frequency hopping Frequency pattern, wherein third signaling include NR minimum system information (MSI), NR residue minimum system information (RMSI), NR other be One or more of system information (OSI), wireless heterogeneous networks (RRC) signaling or DCI (down link control information) message.

Example 39 includes the theme of any modification of any example in example 36, further comprises being used for for frequency hopping come extremely It is at least partly based on one of the following or multiple multiple portions BW to determine first group of frequency resource or second group of frequency resource The module of frequency hopping pattern on point: physical district ID (identifier), the ID of virtual subdistrict ID, UE, notation index, mini-slot rope Draw, time slot index, subframe index, frame index or the parameter via DCI (down link control information) message sink.

Example 40 includes the theme of any modification of any example in example 35-39, further comprises for receiving the 5th The module of signaling, the quantity of the symbol of slot reservation between the 5th signaling is designated as between PUSCH and PUCCH, wherein the 5th letter Enable includes one or more of RRC (wireless heterogeneous networks) signaling or DCI (down link control information) message.

Example 41 is the device that one kind is configured to use in gNB (next-generation node B), comprising: for sending first The module of signaling, first signaling instruction are used for first group of NR (new radio) PUSCH (physical uplink shared channel) Frequency resource and second group of frequency resource for being used for NR PUCCH (physical uplink control channel), wherein a set of frequencies provides Source includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, wherein second group of frequency money Source includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；And for receiving NR PUSCH or NR The module of at least one of PUCCH, wherein at least one of NR PUSCH or NR PUCCH is mapped to a set of frequencies At least part of at least part of resource or second group of frequency resource.

Example 42 includes the theme of any modification of any example in example 41, further comprises for sending the second signaling Module, the instruction of the second signaling in the part first BW of one or more or one or more 2nd part BW indicated by the portion BW The associated BW partial index of split-phase, wherein at least one of NR PUSCH or NR PUCCH are mapped to the indicated portion BW Point.

Example 43 includes the theme of any modification of any example in example 41-42, wherein first group of frequency resource is at least It is partly different in second group of frequency resource.

Example 44 includes a kind of device, including any described module operated for executing example 1-43.

Example 45 includes a kind of machine readable media, is stored for being executed by processor with any of implementation example 1-43 The instruction of described operation.

Example 46 includes a kind of device, comprising: memory interface；And processing circuit, it is configured to execute example 1-43 Any described operation.

The above description (including content described in abstract) of the illustrative embodiment of the disclosure is not intended to poor It is lifting or the disclosed embodiments are limited to disclosed precise forms.Although being described herein for illustrative purpose Specific embodiment and example, but as those skilled in the relevant art are cognoscible, it is considered to be in such embodiment It is possible with the various modifications in the range of example.

In this regard, although having been combined various embodiments and corresponding attached drawing describes disclosed theme, In the case where being applicable in, it is to be understood that other similar embodiment can be used, or can be repaired to described embodiment Change and adds with identical, similar, the optional or alternative functions for executing disclosed theme without departing from disclosed master Topic.Therefore, disclosed theme should not necessarily be limited by any single embodiment as described herein, and should want according to right appended below It asks to explain width and range.

Especially with regard to the various functions by said modules or structure (component, equipment, circuit, system etc.) execution, unless It is otherwise noted, otherwise term (including the reference to " module ") for describing such components is intended to described in corresponding execute Any component or structure (for example, functionally of equal value) of the specified function of component, even if being not equal to execute this in structure In function in the exemplary realization that illustrates disclosed structure.In addition, though may be only for one in several realizations It realizes and discloses special characteristic, still, such as may expect for any given or specific application and advantageous, it is such Other one or more features that feature can be realized with other combine.

Claims (30)

1. one kind is configured to the device used in UE (user equipment), comprising:

Memory interface；And

Processing circuit is configured to:

The first signaling is handled, the first signaling instruction is used for NR (new radio) PUSCH (physical uplink shared channel) First group of frequency resource and be used for NR PUCCH (physical uplink control channel) second group of frequency resource, wherein institute It states first group of frequency resource and includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, In, second group of frequency resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；

Generate at least one of the NR PUSCH or the NR PUCCH；

One or more of first group of frequency resource or described second group of frequency resource are based at least partially on to map At least one of the NR PUSCH or the NR PUCCH；And

Memory is sent by first signaling via the memory interface.

2. device as described in claim 1, wherein first group of frequency resource is at least partially different from described second group Frequency resource.

3. device as described in claim 1, wherein second group of frequency resource includes for the NR with short duration The first subset of PUCCH and second subset for the NR PUCCH with long duration, wherein first subset is at least It is partly different in the second subset.

4. device as claimed in any one of claims 1-3, wherein first group of frequency resource includes the first RF BW, second group of frequency resource include the 2nd RF BW, wherein the first RF BW and the 2nd RF BW is public Total RF BW.

5. device as claimed in claim 4, wherein the processing circuit is configured at least one of the following: will be described NR PUSCH is mapped to the first part of the public RF BW, or the NR PUCCH is mapped to the of the public RF BW Two parts, wherein the first part is at least partially different from the second part.

6. device as claimed in any one of claims 1-3, wherein first group of frequency resource includes the first RF BW, second group of frequency resource include the 2nd RF BW, wherein and the first RF BW includes the 2nd RF BW, and And wherein, the processing circuit is configured to the NR PUCCH being mapped to the first RF BW.

7. device as claimed in any one of claims 1-3, wherein first group of frequency resource includes the first RF BW, second group of frequency resource include the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are not weighed Folded, and wherein, the processing circuit is configured to for the NR PUSCH and the NR PUCCH being mapped to including described the The 3rd BW of one BW and the 2nd BW.

8. device as claimed in any one of claims 1-3, wherein first group of frequency resource includes the first RF BW, second group of frequency resource include the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are not weighed It is folded, wherein the processing circuit is configured to:

The NR PUSCH is mapped to the first RF BW；And

When the time slot between the NR PUSCH and time resource associated with the NR PUCCH is greater than the UE's When switching time, the NR PUCCH is mapped to the 2nd RF BW.

9. device as claimed in any one of claims 1-3, wherein first group of frequency resource includes the first RF BW, second group of frequency resource include the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are not weighed It is folded, wherein the processing circuit is configured to:

It is selected from the NR PUSCH and NR PUCCH based on the priority of the NR PUSCH and the NR PUCCH Select channel；

Selected channel is mapped to the association RF BW of the first RF BW and the 2nd RF BW；And

Non-selected channel is abandoned from the NR PUSCH and the NR PUCCH.

10. device as claimed in any one of claims 1-3, wherein one or more of parts first BW or described one At least one of a or multiple parts 2nd BW include multiple parts BW.

11. device as claimed in any one of claims 1-3, wherein the processing circuit is further configured to:

Handle the second signaling, the second signaling instruction and one or more of parts first BW or one or more of the The associated BW partial index in the indicated part BW of two parts BW；And

By described in the NR PUSCH or the NR PUCCH at least one be mapped to the indicated part BW.

12. device as claimed in any one of claims 1-3, wherein the processing circuit is further configured to processing Three signalings, the third signaling indicate whether enabled or disabled frequency hopping relevant to the NR PUSCH or the NR PUCCH, Wherein, the third signaling includes one or more of high-level signaling or DCI (down link control information) message.

13. device as claimed in any one of claims 1-3, wherein the institute in the NR PUSCH or NR PUCCH It is associated with authorization NR UL transmission is initially exempted to state at least one, wherein the processing circuit is further configured to based on following One or more of come the associated BW partial index of re-transmission that determines with exempt to authorize NR UL transmission: with initially exempt to authorize NR UL transmits associated physical district ID (identifier), the ID of virtual subdistrict ID, UE, notation index, mini-slot index, time slot rope Draw, subframe index, frame index or BW partial index.

14. one kind is configured to the device used in gNB (next-generation node B), comprising:

Memory interface；And

Processing circuit is configured to:

The first signaling is generated, the first signaling instruction is used for NR (new radio) PUSCH (physical uplink shared channel) First group of frequency resource and be used for NR PUCCH (physical uplink control channel) second group of frequency resource, wherein institute It states first group of frequency resource and includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, In, second group of frequency resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；

Handle at least one of the NR PUSCH or the NR PUCCH, wherein the NR PUSCH or NR In PUCCH it is described at least one be mapped to first group of frequency resource at least part or second group of frequency money At least part in source；And

Memory is sent by the configuration signal via the memory interface.

15. device as claimed in claim 14, wherein the processing circuit is further configured to generate the second signaling, institute The second signaling is stated to indicate whether to enable frequency hopping relevant to the NR PUSCH or the NR PUCCH.

16. device as claimed in claim 15, wherein the processing circuit is further configured to generate instruction for frequency hopping A pair of of part BW third signaling, wherein the third signaling includes NR minimum system information (MSI), the remaining minimum system of NR One or more of system information (RMSI), NR other systems information (OSI) or wireless heterogeneous networks (RRC) signaling.

17. device as claimed in claim 15, wherein the processing circuit is further configured to generate the 4th signaling, institute The 4th signaling is stated to indicate on multiple parts BW of first group of frequency resource or second group of frequency resource for frequency hopping Frequency hopping pattern, wherein the third signaling includes NR minimum system information (MSI), NR residue minimum system information (RMSI), NR One in other systems information (OSI), wireless heterogeneous networks (RRC) signaling or DCI (down link control information) message or It is multiple.

18. the device as described in any one of claim 14-17, wherein first group of frequency resource is at least partly not It is same as second group of frequency resource.

19. the device as described in any one of claim 14-17, wherein second group of frequency resource includes for having The first subset of the NR PUCCH of short duration and second subset for the NR PUCCH with long duration, wherein First subset is at least partially different from the second subset.

20. the device as described in any one of claim 14-17, wherein first group of frequency resource includes described first RF BW, second group of frequency resource include the 2nd RF BW, wherein the first RF BW and the 2nd RF BW are Public RF BW.

21. the device as described in any one of claim 14-17, wherein the processing circuit is further configured to:

Generate the 5th signaling of instruction BW partial index, the BW partial index indicate one or more of parts first BW or The part association BW of one or more of 2nd parts BW,

Wherein, at least one of the NR PUSCH or the NR PUCCH are mapped to the part association BW.

22. a kind of machine readable media including instruction, described instruction makes UE (user equipment) when executed:

The first signaling is received, the first signaling instruction is used for NR (new radio) PUSCH (physical uplink shared channel) First group of frequency resource and be used for NR PUCCH (physical uplink control channel) second group of frequency resource, wherein institute It states first group of frequency resource and includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, In, second group of frequency resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；And

One or more of first group of frequency resource or described second group of frequency resource are based at least partially on to send At least one of the NR PUSCH or the NR PUCCH.

23. machine readable media as claimed in claim 22, wherein described instruction further connects the UE when executed The second signaling is received, second signaling indicates whether enabled or disabled jump relevant to the NR PUSCH or the NR PUCCH Frequently, wherein the third signaling includes one or more of high-level signaling or DCI (down link control information) message.

24. machine readable media as claimed in claim 23, wherein described instruction further connects the UE when executed Receive third signaling of the instruction for a pair of of part BW of frequency hopping, wherein the third signaling includes NR minimum system information (MSI), in NR residue minimum system information (RMSI), NR other systems information (OSI) or wireless heterogeneous networks (RRC) signaling One or more.

25. machine readable media as claimed in claim 23, wherein described instruction further connects the UE when executed Receive the 4th signaling, the 4th signaling indicates the more of first group of frequency resource or second group of frequency resource for frequency hopping Frequency hopping pattern on a part BW, wherein the third signaling includes NR minimum system information (MSI), NR residue minimum system Information (RMSI), NR other systems information (OSI), wireless heterogeneous networks (RRC) signaling or DCI (down link control information) disappear One or more of breath.

26. machine readable media as claimed in claim 23, wherein described instruction further makes the UE needle when executed It is based at least partially on one of the following to frequency hopping or multiple determines first group of frequency resource or second group described Frequency hopping pattern on multiple parts BW of frequency resource: physical district ID (identifier), the ID of virtual subdistrict ID, UE, symbol rope Draw, mini-slot index, time slot index, subframe index, frame index or via DCI (down link control information) message sink Parameter.

27. the machine readable media as described in any one of claim 22-26, wherein described instruction is when executed into one Step makes the UE receive the 5th signaling, the number of the symbol of slot reservation between the 5th signaling is designated as between PUSCH and PUCCH Amount, wherein the 5th signaling includes in RRC (wireless heterogeneous networks) signaling or DCI (down link control information) message It is one or more.

28. a kind of machine readable media including instruction, described instruction makes gNB (next-generation node B) when executed:

The first signaling is sent, the first signaling instruction is used for NR (new radio) PUSCH (physical uplink shared channel) First group of frequency resource and be used for NR PUCCH (physical uplink control channel) second group of frequency resource, wherein institute It states first group of frequency resource and includes at least one of the first RF (radio frequency) BW (bandwidth) or the part the first BW of one or more, In, second group of frequency resource includes at least one of the 2nd RF BW or the part the 2nd BW of one or more；And

Receive at least one of the NR PUSCH or the NR PUCCH, wherein the NR PUSCH or NR At least one of PUCCH is mapped at least part or second group of frequency resource of first group of frequency resource At least partially.

29. machine readable media as claimed in claim 28, wherein described instruction further makes the gNB when executed Send the second signaling, the second signaling instruction and one or more of parts first BW or one or more of 2nd BW The associated BW partial index in the indicated part BW in part, wherein in the NR PUSCH or NR PUCCH At least one is mapped to the indicated part BW.

30. the machine readable media as described in any one of claim 28-29, wherein first group of frequency resource is at least It is partly different in second group of frequency resource.