The disclosure relates to a 5G or 6G communication system for supporting a higher data rate beyond a 4G communication system such as long term evolution (LTE). A method performed by a user equipment (UE) in a wireless communication system according to the disclosure includes receiving reduced-capability UE configuration information from a base station, receiving information for configuring uplink transmission and downlink reception from the base station, determining whether to perform the uplink transmission and the downlink reception, based on the reduced-capability UE configuration information, and performing at least one of the uplink transmission and the downlink reception, based on the determination.

The method implemented at a network device includes dividing a wireless system bandwidth into a plurality of non-overlapping bandwidth ranges each including a plurality of operating channels available for channel bonding. The method also includes allocating one of the plurality of bandwidth ranges for a wireless communication between the network device and a terminal device served by the network device. The method further includes determining, from the plurality of operating channels for the bandwidth range, one operating channel as a primary channel of the wireless communication. Embodiments of the present disclosure also provide a corresponding network device, a method implemented at a terminal device and a corresponding terminal device, and a non-transitory computer-readable medium.

An example communication method in a terminal of a mobile communication system includes receiving, from a base station, first information associated with a resource allocation scheme for a first service and a second service; receiving, from the base station, control information associated with the first service; and receiving, from the base station, data for the first service on the basis of the control information and the first information.

Provided are an information feedback method and apparatus, an information receiving method and apparatus, a device, and a storage medium. The information feedback includes the following: a second node configures a report configuration and sends the report configuration to a first node; the first node receives the report configuration sent by the second node and determines channel state information according to the report configuration, where the channel state information includes a reference signal, and the reference signal satisfies a grouping criterion associated with the report configuration; the channel state information is fed back to the second node through a report instance; and the second node receives the channel state information fed back by the first node through the report instance.

Methods, systems, and devices for wireless communications are described. A communication device, otherwise known as a user equipment (UE), may identify a set of resource bandwidths of a bandwidth part (BWP) based on a BWP configuration. The UE may, for example, receive the BWP configuration from a network (e.g., a base station in wireless communication with the UE). The UE may determine that at least one resource bandwidth of the set of resource bandwidths is a master resource bandwidth (also referred to as a default resource bandwidth). The UE may communicate with a base station using the master resource bandwidth of the set of resource bandwidths for the BWP. Alternatively, the UE may communicate with the base station using another resource bandwidth of the set of resource bandwidths for the BWP.

In some implementations, a device may determine a signal to interference and noise ratio (SINR) value associated with a communication channel between a user equipment and the device. The device may select, based on the SINR value, a channel quality indicator (CQI) value associated with the communication channel or a sounding reference signal (SRS) from the UE to determine a multiple-input and multiple-output (MIMO) configuration for transmitting data to the UE. The device may determine the MIMO configuration according to the CQI value based on the SINR value being a first value. The device may determine the MIMO configuration according to the SRS based on the SINR value being a second value that is different than the first value. The device may transmit the data to the UE using the MIMO configuration.

A dual band LTE small cell base station communicates on both licensed bands and unlicensed bands. The small cell base station modifies the communication protocol utilized by the licensed band to enable communication over an unlicensed band. This modification involves replacing the physical (PHY) layer of the licensed band communication protocol with the PHY layer of a to-be-used protocol in an unlicensed band.

A method and an apparatus are described, by which a supported slot format information concerning radio frame configuration is prepared in form of a list in which supported slot formats for time division duplexing are listed, the supported slot format information is signaled to a network control device, used radio frame configuration information is prepared in form of a vector which has a length M which is the number of slots, wherein an i-th element of the vector indicates the used slot format in the i-th slot by a number indicating an entry in the list of the supported slot format information, wherein 1<=i<=M, and the used radio frame configuration information is signaled to the network control device.

A base station of a telecommunication network can determine whether a user equipment (UE) should use a two-layer uplink configuration or an uplink carrier aggregation (CA) configuration for uplink transmissions to the base station, based on radio condition metrics reported by the UE to the base station. If radio condition metrics reported by the UE satisfy two-layer uplink criteria, the base station can instruct the UE to switch to using the two-layer uplink configuration. If radio condition metrics reported by the UE do not satisfy the two-layer uplink criteria, the base station can instruct the UE to switch to using the uplink CA configuration.

An architecture to reduce or eliminate uplink interference induced by aerial user equipment (UE) when aerial UE is introduced into groups of terrestrial based UE operating in terrestrial fourth generation (4G) long term evolution (LTE), fifth generation (5G) networks. A method can comprise determining a number of terrestrial based user equipment impacted by uplink interference caused by uplink transmissions associated with aerial user equipment, wherein the aerial user equipment and the terrestrial based user equipment are controlled by serving cell equipment; determining an enclosed area that bounds the number of terrestrial based user equipment; and initiating a carrier aggregation process on the aerial user equipment, wherein the carrier aggregation divides the uplink transmissions associated with the aerial user equipment over a group of serving cell equipment included in the enclosed area.