The disclosure provides an augmented reality (AR) information transmission system and an AR information transmission method. The AR information transmission system includes a wireless information transmission device. The wireless information transmission device includes a directivity transmitter and a processor. The processor is configured to: obtain AR information and convert the AR information into a wireless signal; and control the directivity transmitter to send the wireless signal toward a designated direction.

A method performed by a first network node (111). The method is for handling charging of a wireless device (130). The first network node (111) and the wireless device (130) operate in a wireless communications network (100). The first network node (111) modulates (307) one or more beam forming beams (121) in an antenna array (124) controlled by the first network node (111) with a pulse width modulation. The first network node (111) then charges (308), wirelessly, the wireless device (130), with the modulated one or more beam forming beams (121).

A method performed by a first network node (111). The method is for handling charging of a wireless device (130). The first network node (111) and the wireless device (130) operate in a wireless communications network (100). The first network node (111) modulates (307) one or more beam forming beams (121) in an antenna array (124) controlled by the first network node (111) with a pulse width modulation. The first network node (111) then charges (308), wirelessly, the wireless device (130), with the modulated one or more beam forming beams (121).

Disclosed in the present invention are a method for transmitting and receiving a physical channel in a wireless communication system, and a device for same. Specifically, a method for a UE (User equipment) to transmit and receive a physical channel in a wireless communication system comprises the steps of: receiving configuration information; receiving control information including a plurality of beam information; and transmitting an uplink channel or receiving a downlink channel on the basis of the control information, wherein: a repetitive transmission scheme is configured on the basis of the configuration information; a plurality of transmission occasions are set on the basis of the repetitive transmission scheme, each of the transmission occasions being indexed; and the plurality of pieces of beam information respectively correspond to the transmission occasions according to the order of the plurality of transmission occasions on the basis of predefined rules.

User equipment includes an antenna, a controller, a transmitter, and a receiver. The transmitter sends a first radio frequency signal for communication with a primary cell to the antenna according to a first timing advance set by the controller, and sends a second radio frequency signal for communication with a secondary cell to the antenna according to a second timing advance set by the controller. The receiver sends received data to the controller including information regarding at least one of the first timing advance and the second timing advance. The first timing advance indicating a first uplink transmission timing alignment value and the second timing advance indicating a second uplink transmission timing alignment value.

An electronic device according to various embodiments of the present invention may include a communication circuit, and a processor operatively connected with the communication circuit, and the processor may be configured to detect that a reception beam for a first base station is changed, and change a reception beam for a second base station based on first change information of the reception beam for the first base station. Other embodiments are also possible.

A method of operating a network node (140) of a network (100) is provided. The network (100) comprising a first access node (191) and at least one second access node (192-195). The method includes establishing a first state of one or more first beams (71-78) of a first transmission between the first access node (191) and a mobile device (90). The method further includes determining whether a certain one of one or more second beams (71-78) of a second transmission between the at least one second access node (192-195) and the mobile device (90) is to be activated, based on the first state and a predetermined mapping (51) between the first state and a second state of the one or more second beams (71-78), the second transmission comprising positioning reference signals (3056).

A method of operating a network node (140) of a network (100) is provided. The network (100) comprising a first access node (191) and at least one second access node (192-195). The method includes establishing a first state of one or more first beams (71-78) of a first transmission between the first access node (191) and a mobile device (90). The method further includes determining whether a certain one of one or more second beams (71-78) of a second transmission between the at least one second access node (192-195) and the mobile device (90) is to be activated, based on the first state and a predetermined mapping (51) between the first state and a second state of the one or more second beams (71-78), the second transmission comprising positioning reference signals (3056).

Methods provide wireless communication using a plurality of Antenna Processing Units APUs distributed along a radio stripe and sharing a bus along the radio stripe. Access is provided to a plurality of APU activation/deactivation states for a respective plurality of environmental conditions, wherein each one of the plurality of APU activation/deactivation states defines APUs of the plurality of APUs that are activated and APUs of the plurality of APUs that are deactivated for the respective one of the plurality of environmental conditions. Responsive to detecting a first one of the plurality of environmental conditions, a first one of the plurality of APU activation/deactivation states corresponding to the first one of the plurality of environmental conditions is applied to activate a first subset of the APUs and to deactivate a second subset of the APUs, wherein the first and second subsets of APUs are mutually exclusive.

Methods provide wireless communication using a plurality of Antenna Processing Units APUs distributed along a radio stripe and sharing a bus along the radio stripe. Access is provided to a plurality of APU activation/deactivation states for a respective plurality of environmental conditions, wherein each one of the plurality of APU activation/deactivation states defines APUs of the plurality of APUs that are activated and APUs of the plurality of APUs that are deactivated for the respective one of the plurality of environmental conditions. Responsive to detecting a first one of the plurality of environmental conditions, a first one of the plurality of APU activation/deactivation states corresponding to the first one of the plurality of environmental conditions is applied to activate a first subset of the APUs and to deactivate a second subset of the APUs, wherein the first and second subsets of APUs are mutually exclusive.