This application provides a method and apparatus for obtaining a resource indication value. The method includes: a terminal receives downlink control information, which includes a resource indication value determined based on a first bandwidth part and indicates a data channel occupying contiguous virtual resource blocks in a second bandwidth part, and sends or receives the data channel, wherein a number RB.sub.start identifying the starting virtual resource block of the contiguous virtual resource blocks, a quantity L.sub.RBs of the contiguous virtual resource blocks, and the resource indication value RIV satisfy following relation: RB.sub.start=└K.Math.RB′.sub.start┘, and L.sub.RBs=└K.Math.L′.sub.RBs┘, wherein K is a positive number and satisfies K≤└N.sub.RB.sup.BWP2/N.sub.RB.sup.BWP1┘, N.sub.RB.sup.BWP1 referring to a bandwidth of the first bandwidth part, and N.sub.RB.sup.BWP2 referring to a bandwidth of the second bandwidth part; and RIV=N.sub.RB.sup.BWP1(L′.sub.RBs−1)+RB′.sub.start when (L′R.sub.RBs−1)≤└N.sub.RB.sup.BWP1/2┘, or RIV=N.sub.RB.sup.BWP1(N.sub.RB.sup.BWP1−L′.sub.RBs+1)+(N.sub.RB.sup.BWP1−1−RB′.sub.start) when (L′.sub.RBs−1)>└N.sub.RB.sup.BWP1/2┘

Techniques for operating a wireless network in a plurality of radio operating environments are disclosed. In some embodiments, an apparatus receives a first parameter value set that is selected from a group of multiple parameter value sets, wherein the first parameter value set is appropriate for a first target radio operating environment that corresponds to one or more of: a first level of mobility of user devices or a first range of wireless transmission. In some embodiments, the apparatus is reconfigured to receive wireless broadcast transmissions from a second broadcast transmitter using a second parameter value set that is appropriate for a second target radio operating environment. The first and second broadcast transmitters may be the same or different. The parameter value sets may include a first parameter based upon which the apparatus is configured to determine subcarrier spacing and a second parameter that indicates a cyclic prefix size.

Various solutions for supporting out-of-order hybrid automatic repeat request (HARQ) feedback with respect to user equipment and network apparatus in mobile communications are described. An apparatus may construct a first HARQ-ACK codebook corresponding to a first physical downlink shared channel (PDSCH) and construct a second HARQ-ACK codebook corresponding to a second PDSCH received later than the first PDSCH. The apparatus may activating an out-of-order HARQ transmission to transmit the first HARQ-ACK codebook and the second HARQ-ACK codebook in an event that the priorities associated with the codebooks are different.

An infrastructure equipment that transmits signals representing data via a wireless access interface to a communications device and receives signals representing data via the wireless access interface from the communications device in accordance with a time divided structure in which the wireless access interface is divided into a plurality of repeating time units. The infrastructure equipment provides, in each of a first plurality of the time units, one of a plurality of control channels each configured to schedule one of a plurality of data channels, and provides, in each of a second plurality of time units of the signal transmitted to the communications device, one of the plurality of data channels, the plurality of data channels being formed of one or more bundles of data channels, wherein the infrastructure equipment transmits a bundle status indicator in one or more of the plurality of control channels.

A method for allocating resources by a Base Station (BS) in a wireless communication system is disclosed. The method includes configuring a Resource Block Group (RBG) dependent on whether a User Equipment (UE) operates in Full Duplex Radio (FDR) mode or Half Duplex (HD) mode, and allocating resources to the UE in units of the configured RBG. The RBG includes a plurality of Resource Blocks (RBs).

Provided are a method, device and storage medium for configuring a starting symbol position of an uplink data channel. The method includes: determining a configuration value of a first type parameter set, where the first type parameter set is a set of uplink data parameters; determining a configuration range of a starting symbol position of an uplink data channel according to the configuration value of the first type parameter set; and selecting a starting symbol position of the uplink data channel from the configuration range of the starting symbol position of the uplink data channel, and notifying a receiving end of the selected starting symbol position of the uplink data channel.

Cooperative resource allocation method and apparatus for downlink simultaneous wireless information and power transfer are proposed. A cooperative resource allocation method for downlink simultaneous wireless information and power transfer network, which is implemented through a central processor, according to one example of embodiments, may be configured to include allocating subcarrier for wireless information transfer and power transfer; and allocating power for wireless information transfer with the allocated subcarrier and divided transfer power.

Embodiments of the present application provide a data transmission method, a terminal device, and a non-transitory computer-readable storage medium. The method includes: receiving, by a terminal device, first configuration information, sent by a network device, and the first configuration is configured to determine configuration information of pre-configured resource, and in response to the pre-configured resource being activated, transmitting uplink data or receiving downlink data via the pre-configured resource by the terminal device. The terminal device includes a memory and a processor. The memory is configured to store a computer program, and the processor is configured to call and run the computer program stored in the memory to execute the above-mentioned data transmission method.

A HARQ information transmission method and apparatus, to resolve a problem that HARQ information is not fed back in a timely manner. When a first device cannot successfully send first hybrid automatic repeat request (HARQ) information on a first time-frequency resource, or a second device cannot successfully receive the first HARQ information on the first time-frequency resource, the first device retransmits the first HARQ information on a second time-frequency resource for transmitting second HARQ information corresponding to second data. First data and the second data may be data with different priorities and/or in different groups. In this way, HARQ retransmission flexibility can be improved, and the first HARQ information is transmitted in a timelier manner, so that a data processing latency is reduced as much as possible.

Methods, systems, and devices for wireless communications are described. In some systems, a user equipment (UE) may receive one or more messages scheduling a first uplink transmission over a first physical uplink control channel (PUCCH) resource on a first component carrier and a second uplink transmission over a second PUCCH resource on a second component carrier and, if the first PUCCH resource and the second PUCCH resource overlap in time, the UE 115 may transmit the first uplink transmission and the second uplink transmission using spatial relation information in accordance with a spatial relation configuration that is dedicated for selecting spatial relation information for simultaneous PUCCH transmissions on different component carriers. A network entity may configure the UE with spatial relation information for the overlapping PUCCH resources and the UE may select spatial relation information to use for the simultaneous uplink transmissions in accordance with the spatial relation configuration.