A mobile communications system is proposed in which mobile communications devices are arranged to transmit signals to and to receive signals from a base station using one or a subset of available sub-bands, with the base station being configured to move the mobile communications devices between the sub-bands. An anchor sub-band is also provided on which idle mobile communications devices camp until they are moved to one or more other sub-bands in addition to or instead of the anchor sub-band.

A technique performed by a client on a device includes detecting one or more wireless networks in range of the device, where the one or more wireless networks support connection over at least two frequency bands; controlling the device to connect to the one or more wireless networks over at least one of the two frequency bands; and controlling the device to switch connections among different ones of the at least two frequency bands based on levels of service provided by the different ones of the at least two frequency bands.

A technique performed by a client on a device includes detecting one or more wireless networks in range of the device, where the one or more wireless networks support connection over at least two frequency bands; controlling the device to connect to the one or more wireless networks over at least one of the two frequency bands; and controlling the device to switch connections among different ones of the at least two frequency bands based on levels of service provided by the different ones of the at least two frequency bands.

The present disclosure relates to a communication method and system for converging a 5.sup.th-Generation (5G) communication system for supporting higher data rates beyond a 4.sup.th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. Disclosed are a method and an apparatus for obtaining channel congestion information of an unlicensed band and performing cell reselection for a terminal, in a next-generation mobile communication system.

Systems and methods include an access layer to perform handovers for a User Equipment (UE) using a mobility status of the UE. A source access node (e.g., a femto cell, small cell, or a macro cell) establishes a first network connection with the UE. Based on a mobility status of the UE, the source access node selects either a small cell access node or a macro cell access node as a target node for connecting to the UE with a handover (e.g., by establishing a second network connection with the UE). The UE may have a medium mobility status or a high mobility status and, in response, be connected to the macro cell access cell for continuous connectivity. Alternatively, the UE may have the low mobility status and, in response, a signal strength analysis of the access nodes may be performed to select the target node for the handover.

Systems and methods include an access layer to perform handovers for a User Equipment (UE) using a mobility status of the UE. A source access node (e.g., a femto cell, small cell, or a macro cell) establishes a first network connection with the UE. Based on a mobility status of the UE, the source access node selects either a small cell access node or a macro cell access node as a target node for connecting to the UE with a handover (e.g., by establishing a second network connection with the UE). The UE may have a medium mobility status or a high mobility status and, in response, be connected to the macro cell access cell for continuous connectivity. Alternatively, the UE may have the low mobility status and, in response, a signal strength analysis of the access nodes may be performed to select the target node for the handover.

A beam failure recovery method and a terminal are provided. The method includes: in the case that a quality of a Beam Pair Link (BPL) employed in a current information transmission meets a preset beam failure trigger condition, transmitting to a network-side equipment a beam failure recovery request; in the case that a response signaling transmitted by the network-side equipment is not received within a preset time duration, continuing to transmit to the network-side equipment the beam failure recovery request; and in the case that information related to the beam failure recovery procedure meets a first preset condition, determining that the beam failure recovery is un successful.

A beam failure recovery method and a terminal are provided. The method includes: in the case that a quality of a Beam Pair Link (BPL) employed in a current information transmission meets a preset beam failure trigger condition, transmitting to a network-side equipment a beam failure recovery request; in the case that a response signaling transmitted by the network-side equipment is not received within a preset time duration, continuing to transmit to the network-side equipment the beam failure recovery request; and in the case that information related to the beam failure recovery procedure meets a first preset condition, determining that the beam failure recovery is un successful.

A communication device for handling a bandwidth part (BWP) switching comprises at least one storage device; and at least one processing circuit, coupled to the at least one storage device. The at least one storage device stores instructions, and the at least one processing circuit is configured to execute the instructions of performing the BWP switching from a first BWP to a second BWP; generating a BWP adaptation indication according to a BWP configuration; and transmitting the BWP adaptation indication.

A communication device for handling a bandwidth part (BWP) switching comprises at least one storage device; and at least one processing circuit, coupled to the at least one storage device. The at least one storage device stores instructions, and the at least one processing circuit is configured to execute the instructions of performing the BWP switching from a first BWP to a second BWP; generating a BWP adaptation indication according to a BWP configuration; and transmitting the BWP adaptation indication.