A system comprising: a transmitting device configured to transmit, in at least one plane, a plurality of directional signals each covering an angular sector, wherein every adjacent pair of said angular sectors overlaps partially to create a logical sector, and wherein each of said plurality of directional signals encodes at least an indication regarding each said logical sector associated therewith; and a client device comprising program instructions executable by at least one hardware processor to: cause the client device to receive at least some of said plurality of directional signals, calculate a signal strength level (RSL) value for each of said received directional signals, and determine that said client device is located within a said logical sector, when two highest said RSL values (i) are related to two said directional signals associated with said logical sector, and (ii) are within a specified value range of each other.

The present invention provides Augmented Virtual Models accessible via Orienteering using a smart device. The smart device is operative to identify a position within a building and use fine-grain location monitoring to guide a user to a desired location. Upon reaching the desired location, the user can point the smart device at a wall or component and learn, query, or supplement technical details and other information about the wall or component. Technical details and other information are stored in an augmented virtual model of the building.

A method of inspecting a navigation aid, the method comprising: receiving navigation data relating to the navigation aid from a plurality of vehicles; statistically analyzing the received navigation data; determining the accuracy of the navigation aid based on the statistically analyzed navigation data; and calibrating the navigational aid based on the determined accuracy of the navigation aid.

A method of inspecting a navigation aid, the method comprising: receiving navigation data relating to the navigation aid from a plurality of vehicles; statistically analyzing the received navigation data; determining the accuracy of the navigation aid based on the statistically analyzed navigation data; and calibrating the navigational aid based on the determined accuracy of the navigation aid.

According to one of the aspects of the proposed technology, there is provided a method for positioning of a target device in a wireless communication system. The method comprises obtaining beam quality information relating to reference beams transmitted from at least two network nodes according to specific beam patterns, and obtaining beam pattern information representative of the specific beam patterns. The method also comprises determining a position of the target device based on the beam quality information and the beam pattern information. In this way, improved positioning accuracy may be obtained in an efficient manner.

According to one of the aspects of the proposed technology, there is provided a method for positioning of a target device in a wireless communication system. The method comprises obtaining beam quality information relating to reference beams transmitted from at least two network nodes according to specific beam patterns, and obtaining beam pattern information representative of the specific beam patterns. The method also comprises determining a position of the target device based on the beam quality information and the beam pattern information. In this way, improved positioning accuracy may be obtained in an efficient manner.

This disclosure provides methods, devices, and systems for multi-level configuration and reporting for positioning in new radio (NR) wireless communications systems. In some wireless communications systems, a network entity may determine a position or location of a supported user equipment (UE) using radio access network information. The information may be associated with UE-assisted positioning techniques, such as a positioning reference signal (PRS) transmission by the base station and reporting of radio signaling measurements by the UE. The UE may support a multi-level configuration for reporting the radio signaling measurements, including determined report quantities on one or more of a resource level, a set level, or a setting level for the PRS transmission, or generally for the network entity. The described techniques may improve robustness associated with the reporting and, in some examples, reduce signaling overhead associated with determining a positioning and location of the UE.

Certain cellular communication systems may use beamforming to create distinct signal beams in different radial directions relative to a base station. Upon receiving a request for the location of a mobile device, a position calculation function is used to calculate the location of the mobile device based on multiple types of location-related data. The location-related data may indicate the direction of the directional signal beam that is currently being used for communications between the mobile device and a base station. The direction may be used in conjunction with other location-related data, such as distance information, to estimate the location of the mobile device.

A system comprising: a transmitting device configured to transmit, in at least one plane, a plurality of directional signals each covering an angular sector, wherein every adjacent pair of said angular sectors overlaps partially to create a logical sector, and wherein each of said plurality of directional signals encodes at least an indication regarding each said logical sector associated therewith; and a client device comprising program instructions executable by at least one hardware processor to: cause the client device to receive at least some of said plurality of directional signals, calculate a signal strength level (RSL) value for each of said received directional signals, and determine that said client device is located within a said logical sector, when two highest said RSL values (i) are related to two said directional signals associated with said logical sector, and (ii) are within a specified value range of each other.

A system comprising: a transmitting device configured to transmit, in at least one plane, a plurality of directional signals each covering an angular sector, wherein every adjacent pair of said angular sectors overlaps partially to create a logical sector, and wherein each of said plurality of directional signals encodes at least an indication regarding each said logical sector associated therewith; and a client device comprising program instructions executable by at least one hardware processor to: cause the client device to receive at least some of said plurality of directional signals, calculate a signal strength level (RSL) value for each of said received directional signals, and determine that said client device is located within a said logical sector, when two highest said RSL values (i) are related to two said directional signals associated with said logical sector, and (ii) are within a specified value range of each other.