The present invention provides an automatic system for visual guidance and navigation using real-time visual anchor point detection, which includes an edge device, a cloud device, and a landmark database; the system of the present invention provides users with navigation directions via visual landmarks. A candidate visual landmark image is selected from the database; the system of the present invention can calculate the time of day, the current weather condition, the current season, etc. In addition, the system of the present invention can use the camera on the dashboard of the vehicle, the camera in the smartphone, or other cameras to collect real-time images; the system of the present invention can also provide feedback on the visibility or salience of landmarks to improve the visual landmark images obtained by subsequent users.

Systems and methods for communicating information related to a wearable device are disclosed. Exemplary information includes audio information.

A method and an apparatus are disclosed for providing navigation instructions. The method may include receiving, from a user apparatus, a first location and a destination location; calculating a first route from the first location to the destination location; generating, for a predetermined time period, a first set of maneuvering data corresponding to the first route, the first set of maneuvering data comprising playback cues based on a predicted user apparatus location; transmitting the first set of maneuvering data to the user apparatus; receiving, from the user apparatus, a second location; generating, for a subsequent predetermined time period, a second set of maneuvering data, the second set of maneuvering data comprising playback cues based on a further predicted user apparatus location; calculating an update set of maneuvering data based on the first and second set of maneuvering data; and transmitting the update set of maneuvering data to the user apparatus.

In some examples, a system may receive location information. The system may determine at least one landmark based on the location information. In addition, the system may determine one or more current conditions for the at least one landmark. Further, the system may receive sensor configuration information. Based on the sensor configuration information and the one or more current conditions, the system may determine the detectability of the at least one landmark.

Provided herein is a method of generating and communicating map version agnostic road link identifiers. Methods may include: receiving an indication of a new road link being joined to an existing road link along a length of the existing road link, where the existing road link extends between a first node and a second node, where the existing road link has a first road link identifier, and where a new node is formed where the new road link joins the existing road link; generating a first new identifier for a segment of the existing road link between the first node and the new node; generating a second new identifier for a segment of the existing road link between the new node and the second node, where the second new identifier is set equal to an XOR function of the first road link identifier and the first new identifier.

In some implementations, a system may identify, using a machine learning model, a pattern of events based on account information associated with a user. The system may generate a prediction of a time period during which a predicted event, associated with the pattern of events, is predicted to occur. The system may receive an indication that a vehicle, associated with the user, is to travel a route from a starting location to an ending location during the time period. The system may identify a physical location associated with the predicted event based on a location associated with the vehicle or based on the route. The system may generate a new route that includes the starting location, the physical location as a waypoint along the new route, and the ending location. The system may transmit information that identifies the new route to a device associated with the vehicle.

A method for enabling a route for automated driving operation of a vehicle involves enabling a route ahead of the vehicle for automated driving operation of the vehicle if it is determined, using a digital map, which is used during automated driving operation for landmark-based localization of the vehicle, that there are landmarks present along the route which, with regard to their suitability for longitudinal and transverse localization of the vehicle, fulfil requirements which are predefined according to a course of the route.

A system for delivering content to a user based on geolocation may include a user device with a location sensor and a software application. The system may include a server, including executable instructions configured to execute a tour module. The server may include a data storage, including user data and tour data stored thereon. The tour data may include a point of interest (POI) data object, including location data and content data. The software application may be configured to obtain a location of the user device from the location sensor and send the location to the tour module. The tour module may be configured to determine, from the location of the user device, that the user device is within a geo-fence of the POI data object and send the content data to the software application. The software application may be configured to display the content data on the user device.

A control method and control system of a mobile device perform a route guidance and POI guidance using a POI database for a commercial navigation and a POI database for AR, and enable seamless transition between commercial navigation services and AR services by removing the dependency of data through data exchange between the POI database for commercial navigation and the POI database for AR. The control method includes receiving a selection of destination; executing one of a first route guidance mode based on non-AR and a second route guidance mode based on AR, based on the selected destination; and providing a route guidance service based on AR by switching from the first route guidance mode to the second route guidance mode, in response to that a remaining distance or remaining time from a location of the mobile device to the selected destination approaches within a predetermined distance or predetermined time.

The above measurement device acquires output data from a sensor unit for detecting surrounding feature, and extracts, from the output data, data corresponding to detection result in a predetermined range in a predetermined positional relation with an own position. The predetermined range is determined in accordance with accuracy of the own position. Then, the measurement device executes predetermined processing based on the extracted data.