Disclosed is a 5G or pre-5G communication system for supporting a data transmission rate higher than that of a 4G communication system such as LTE. The present invention relates to a method by which a simulator analyzes a radio wave environment in a wireless communication system, and the method of the present invention comprises the steps of: allowing a simulator to receive geographic information and position information by which a transmitter and a receiver can be positioned in the geographic information; generating, by the transmitter of the simulator arranged at a random position in accordance with the position information, radio waves for at least one direction of a sphere having a fixed radius; grouping into at least one group on the basis of a traveling route of the generated radio waves; setting each group as an operation unit (Warp/Wavefront) for a graphics processing unit (GPU); and analyzing a radio wave environment by using the GPU in which the operation unit is set.

Disclosed is a 5G or pre-5G communication system for supporting a data transmission rate higher than that of a 4G communication system such as LTE. The present invention relates to a method by which a simulator analyzes a radio wave environment in a wireless communication system, and the method of the present invention comprises the steps of: allowing a simulator to receive geographic information and position information by which a transmitter and a receiver can be positioned in the geographic information; generating, by the transmitter of the simulator arranged at a random position in accordance with the position information, radio waves for at least one direction of a sphere having a fixed radius; grouping into at least one group on the basis of a traveling route of the generated radio waves; setting each group as an operation unit (Warp/Wavefront) for a graphics processing unit (GPU); and analyzing a radio wave environment by using the GPU in which the operation unit is set.

A system includes a method for detecting a signal interference in a communication signal of a wireless communication system. An identified source of the signal interference is determined according to an interference profile of a plurality of interference profiles associated with an interference profile library having information that approximates characteristics of the signal interference. The signal interference of the communication signal is mitigated according to an interference parameter associated with the identified source by filtering the communication signal according to the interference parameter.

A radio frequency (RF) device includes a spatial orientation sensor and logic circuit configured to determine spatial orientation of the RF device relative to a reference position or relative to a RF transmitter. In particular, the RF device determines a distance between the RF receiver and the RF transmitter based on a received signal strength of the signal and a determined spatial orientation of the RF device, by determining an orientation compensation value from a stored orientation compensation profile and determining a resulting compensated received signal strength. The RF device is thereby able to determine distance in an orientationally-invariant manner.

A radio frequency (RF) device includes a spatial orientation sensor and logic circuit configured to determine spatial orientation of the RF device relative to a reference position or relative to a RF transmitter. In particular, the RF device determines a distance between the RF receiver and the RF transmitter based on a received signal strength of the signal and a determined spatial orientation of the RF device, by determining an orientation compensation value from a stored orientation compensation profile and determining a resulting compensated received signal strength. The RF device is thereby able to determine distance in an orientationally-invariant manner.

An electronic device according to the present disclosure includes a processing circuit configured to: determine an interference user according to multiple available passive signal reflection apparatuses of user equipment; determine a set of available beam pairs according to the multiple available passive signal reflection apparatuses of the user equipment; select an available beam pair from the set of available beam pairs according to the reception signal quality of the user equipment and the reception signal quality of the interference user; and adjust, into two beams, the reflecting directions of two available passive signal reflection apparatuses to which the two beams in the selected available beam pair belong. By using the electronic device, the wireless communication method and the computer-readable storage medium according to the present disclosure, the reflecting direction of a passive signal reflection apparatus can be reasonably selected, thereby reducing interference to cell users while improving communication quality.

An electronic device according to the present disclosure includes a processing circuit configured to: determine an interference user according to multiple available passive signal reflection apparatuses of user equipment; determine a set of available beam pairs according to the multiple available passive signal reflection apparatuses of the user equipment; select an available beam pair from the set of available beam pairs according to the reception signal quality of the user equipment and the reception signal quality of the interference user; and adjust, into two beams, the reflecting directions of two available passive signal reflection apparatuses to which the two beams in the selected available beam pair belong. By using the electronic device, the wireless communication method and the computer-readable storage medium according to the present disclosure, the reflecting direction of a passive signal reflection apparatus can be reasonably selected, thereby reducing interference to cell users while improving communication quality.

Methods for determining a Sidelink (SL) relay node, an SL relay node, and a terminal are provided. A method for determining an SL relay node is performed by a first SL relay node and includes: obtaining SL connection request information of a first terminal; and sending SL connection forwarding information in a case that the first SL relay node meets a first preset condition. The SL connection forwarding information includes the SL connection request information.

Methods for determining a Sidelink (SL) relay node, an SL relay node, and a terminal are provided. A method for determining an SL relay node is performed by a first SL relay node and includes: obtaining SL connection request information of a first terminal; and sending SL connection forwarding information in a case that the first SL relay node meets a first preset condition. The SL connection forwarding information includes the SL connection request information.

A user equipment (UE) may sense a first transmission by a first sidelink UE and a second transmission by a second sidelink UE and send a conflict indication to at least one of the first or second sidelink UEs in response to identifying a collision between the first and second transmissions, or identifying a prospective collision based on a prospective use of respective first and second resources identified in the respective first and second transmissions. A collision or prospective collision may be detected by detecting a complete or partial overlap of the first and second transmissions or of the prospective first and second resources identified in the transmissions, or by determining that any portions of the first resource and the second resource prospectively occupy a slot common to the first and second resources, and the first sidelink UE and the second sidelink UE prospectively operate in a half-duplex mode.