Abstract:
Techniques are described to perform sub-slot based codebook construction. An example wireless communication method includes determining, by a communication node, a plurality of shared channels that are valid for constructing a hybrid automatic repeat request (HARQ) acknowledgement (ACK) codebook for a first time slot, where the plurality of shared channels are determined based on locations of the plurality of shared channels relative to one or more second time slots; determining, by the communication node, one or more groups of shared channels for the plurality of shared channels for the first time slot, where each group of shared channels comprises at least one shared channel from the plurality of shared channels; and performing, by the communication node, the HARQ-ACK codebook transmission.
Abstract:
Provided are a resource allocation method and device, a storage medium and an electronic device. The method includes the following operations. A first communication node determines resources needing to be allocated to a second communication node, where the resources include K clusters, each cluster includes one or more continuous resources, a maximum value of K is Kmax, Kmax is a predefined value or a value agreed in advance between the first communication node and the second communication node, and Kmax is a positive integer greater than 1. The first communication node notifies the second communication node of the resources, wherein the resources are resources needing to be avoided when the second communication node receives and/or sends a channel or a signal, or resources from which the second communication node, when needing to send data, selects one or more clusters of resources to send the data.
Abstract:
A method of wireless communication includes receiving, at a communication device, an interrupt indication indicating an interruption to occur on a first transmission resource, interrupting, based on the interrupt indication, a transmission scheduled to occur using a second transmission resource on a channel, where the first transmission resource and the second transmission resource at least partially overlap, and transmitting, in case that the transmission included a control information, the control information, using a third transmission resource.
Abstract:
Provided are a method and apparatus for signal transmission and a terminal. The method includes determining the sending mode of multiple uplink channels by a user equipment (UE) in a case where overlapped symbols of the uplink channels exist in time domain; and sending uplink signals carried by the uplink channels according to the determined sending mode.
Abstract:
Disclosed are a method for transferring control information, a transmitting device and a receiving device, the method includes that: a transmitting end orderly selects an element yn or two elements y2m-1, y2m, from a sequence Y to be modulated corresponding to control information B newly added, then it selects pairing elements x2p-1, x2p from a sequence X to be modulated corresponding to related control information A, and groups yn or y2m-1, y2m and the x2p-1, x2p into an element group (x2p-1, x2p, yn) or (x2p-1, x2p, y2m-1, y2m) and maps (x2p-1, x2p, yn) or (x2p-1, x2p, y2m-1, y2m) as specified constellation points of a specified constellation diagram, and takes the constellation points as modulation symbols; it takes each two elements in the elements of the sequence X which are not used for pairing as an element group to perform QPSK modulation, modulating into QPSK modulation symbols; and it maps the constellation points and the QPSK modulation symbols to part of or all resources occupied by a corresponding control channel to be transmitted.
Abstract:
Systems, methods, non-transitory processor-readable media, and apparatuses for determining, by a wireless communication device, a transmission power for multiple Physical Random Access Channel (PRACH) transmissions in a PRACH transmission bundle and transmitting, by the wireless communication device to a base station, the multiple PRACH transmissions using the transmission power.
Abstract:
The present disclosure describes methods, systems and devices for transmitting information with limited channel bandwidth. The method includes transmitting, by a base station, a synchronization signal or physical broadcast channel (SS/PBCH) block (SSB) to a user equipment (UE), wherein a channel bandwidth is smaller than a bandwidth of the SSB, by at least one of: indicating, by the base station, an SSB index with at least one bit carried on a PBCH or a PBCH demodulation reference signal (DMRS) in the SSB; mapping, by the base station, at least one of PBCH DMRS or PBCH data on the channel bandwidth or the bandwidth of the SSB; and configuring, by the base station, a resource of a control resource set (CORESET) according to a frequency granularity.
Abstract:
Provided are a method and device for transmitting information, and a storage medium. The method includes: determining N transmission units for a bundled transmission, wherein N>1; transmitting information over the N transmission units; and each of the transmission units includes more than one transmission block, and the transmission block supports self-decoding. Information transmitted over each of the transmission units is the same.
Abstract:
Embodiments of the present disclosure provide a method and apparatus for the transmission of uplink control information, wherein this method comprises: receiving downlink information and using a predefined physical uplink shared channel (PUSCH) format to transmit a hybrid automatic repeat request-acknowledgment (HARQ-ACK) corresponding to the downlink information. The implementation of the present invention solves the problem in prior art of not being able to transmit HARQ-ACK on the PUSCH through its ability to transmit HARQ-ACK on the PUSCH.
Abstract:
The present disclosure provides a synchronization signal transmission method, device, and system. The method includes: periodically transmitting, by a base station, a synchronization signal and a Physical Broadcast Channel PBCH to a terminal according to a preset transmission subframe pattern, wherein the synchronization signal comprises a primary synchronization signal PSS and a secondary synchronization signal SSS, and the transmission subframe pattern indicates positions of transmission subframes of the synchronization signal and the PBCH in a plurality of radio frames within a predetermined period of time.