A method for depicting location attributes in a map environment. The method includes receiving a request for parameters about a first type of location. The method includes determining a first set of directional arrows, where each directional arrow is associated with a location and has a first set of properties based on the parameters about the first type of location. The method further includes determining a selection of a first directional arrow, which is associated with a first location, from the first set of directional arrows. Modifications to the first set of directional arrows are made based on the selection of the first directional arrow.

A method, a device and a computer-readable storage medium with instructions for controlling a display of an augmented reality head-up display device for a motor vehicle as well as an augmented reality head-up display device for a motor vehicle. In a first step, the position for a representation of a virtual object in front of the motor vehicle is determined (20). The virtual object is then superimposed (21), corresponding to the determined position, onto a projection surface by an imaging unit. To increase the subjective perception of the registration quality on the part of the observer, the virtual object is designed to this effect to be fault-tolerant with regard to registration errors.

Provided are an image control program, and the like, that make it possible for a user to easily ascertain the correspondence relationship between points on a route and point information symbols even after an image has been switched from an image including a route line, which has a line shape expressing the route and the points on the route, and the point information symbols to an image including a route line having a different shape and the point information symbols. The following processing is carried out in the present invention: first processing for displaying, on a display unit, a first image including a first line, which indicates a route and has a line shape expressing points on the route, and point information symbols expressing information relating to the points; and second processing for displaying, on the display unit, a second image that is displayed by being switched to from the first image and displays a second line, which indicates the route and has a different shape from that of the first line, such that the points and point information symbols are associated with each other.

In accordance with one aspect of the disclosure, a personal mobility which can efficiently transmit various information to a driver by a the transformable element provided in a handle includes: the handle; the transformable unit provided on the handle and configured to change a shape according to a control signal; a storage configured to store a plurality of shapes corresponding to a plurality of instructions for guiding a driving direction of personal mobility; and a controller configured to receive a driving direction calculated based on a current position and a destination of the personal mobility and determine and send the control signal to the transformable unit to change the transformable unit into a shape corresponding to an instruction for guiding the received driving direction among the plurality of instructions.

An electronic device may be provided with control circuitry for locating lost items. The control circuitry may determine where an item is located and may use the display or other output device to guide a user to the item. The display may display a visual guide such as an arrow, a sphere, a circle, a compass, or other visual aid that points the user in the direction of the item. The control circuitry may change the size or other characteristic of the visual aid on the display as the distance between the electronic device and the object changes. The control circuitry may change the location of the visual aid on the display as the orientation of the electronic device relative to the object changes. The display may overlay the visual aid onto live images of the user's surroundings as they are captured by a camera.

Systems and methods for presenting a map and changing a direction of an object on screen. In an aspect, an elongated map segment is presented according to a device pointing direction. In another aspect, location-based information is sorted and presented according to a device pointing direction. In other aspects, a direction in which an object faces is changed according to a device pointing direction, and a direction of motion of an object is changed according to a device pointing direction.

A context-aware voice guidance method is provided that interacts with other voice services of a user device. The voice guidance does not provide audible guidance while the user is making a verbal request to any of the voice-activated services. Instead, the voice guidance transcribes its output on the screen while the verbal requests from the user are received. In some embodiments, the voice guidance only provides a short warning sound to get the user's attention while the user is speaking on a phone call or another voice-activated service is providing audible response to the user's inquires. The voice guidance in some embodiments distinguishes between music that can be ducked and spoken words, for example from an audiobook, that the user wants to pause instead of being skipped. The voice guidance ducks music but pauses spoken words of an audio book in order to provide voice guidance to the user.

Some embodiments provide a mapping application that displays a transit map including a group of lines that each corresponds to at least one transit route and, for each line, a set of transit-related features located along the line. The mapping application receives a selection of a transit line and, in response to the selection, modifies the transit map to emphasize the selected transit line and the set of features located along the selected transit line.

An intelligent driving indication display system based on traffic indication devices and a method thereof are disclosed. In the system, a vehicle-mounted device provides destination location information and position information to a server, the server plans a driving route according to the position information and the destination location information, and queries traffic indication devices located on the driving route, and selects the closest traffic indication device from queried traffic indication devices according to the position information, and generates indication information according to the driving route and place information of the selected traffic indication device. The server transmits the indication information to the selected traffic indication device for display, thereby achieving a technical effect of displaying customized driving indication in the selected traffic indication device to reduce driving safety concerns.

Systems and methods for a more usable Augmented Reality (AR) display of navigation indications is described. A live camera image of a scene may be captured from a device. Navigation instructions may be generated from a navigation system and a navigation indication may be generated for display. A computer vision-based positioning algorithm may be performed on the camera image to determine the relative position between the viewpoint of the device and one or more landmarks in the live camera image. The location or shape of the visual display of the navigation indication may be determined based on the computer vision-based positioning algorithm.