Embodiments of the present disclosure provide methods, apparatus, systems, computing devices, and computing entities for displaying content found in technical documentation for an item via an IETM viewer. In accordance with one embodiment, a method is provided comprising: providing a window for display via the IETM viewer, the window displaying the content found in the technical documentation; receiving a focus of a first portion of the content received based at least in part on the user performing a first action; and in response, causing the first portion to be conveyed using a first enhancing format; and thereafter: receiving a focus of a second portion of the content received based at least in part on the user performing a second action; and in response: causing the first portion to no longer be conveyed using the first enhancing format; and causing the second portion to be conveyed using a second enhancing format.

A method for improving visualization of processed images which may include: determining a plurality of annotated points associated with a selected image, determining a default visualization of each annotated point of the plurality of annotated points in the selected image, determining a display image by determining a blended visualization for each pixel of the display image based on the plurality of annotated points of the selected image corresponding to the pixel, and displaying the determined display image.

In an example, a method includes obtaining, from an odometry system, odometry data comprising distance data. The distance data includes data indicative of wireless signals at each respective distance. An initial path is generated using the odometry data. The initial path is displayed on a display device and adjustments to the initial path are received from a user. The initial path is changed based on the adjustments, and an updated path is displayed.

The image processing device 1X includes a detection model evaluation means 31X and a display control means 33X. The detection model evaluation means 31X is configured to perform an evaluation on suitability of a detection model for detecting an attention area to be noted based on a captured image Ic in which an inspection target is photographed by a photographing unit provided in an endoscope. The display control means 33X is configured to display candidate area information according to a display mode determined based on a result of the evaluation, the candidate area information indicating one or more candidate areas that are one or more candidates of the attention area, the candidate areas being detected by one or more detection models included in detection model(s) subjected to the evaluation, the candidate area information being superimposed on the captured image Ic which is displayed by a display device 2X.

Mixed reality images are inked with strokes and other annotations, permitting a headset, robot, or drone operator to see coherent graphical additions made by a remote user. Some embodiments get an ink stroke in an annotation which includes multiple points in a screen space, select a ray origin point based on at least samples of the annotation points, obtain a spatial mesh representation of at least a portion of an object which is at least partially shown in a mixed reality image, cast a ray from the ray origin point to the spatial mesh representation, thereby determining a ray-mesh intersection point, choose a projection plane, project the annotation onto the projection plane, and configure a display with the mixed reality image including the projected ink stroke or other annotation.

This disclosure describes one or more implementations of systems, non-transitory computer-readable media, and methods that enable customization of typography elements through electronic sketching interactions. For instance, the disclosed systems identify, via a user interaction, an electronic sketch interaction on a visual glyph representation. The disclosed systems generate a modified visual glyph representation by modifying one or more curve segments of the visual glyph representation utilizing a sketch outline curve path corresponding to the electronic sketch interaction. Moreover, in some implementations, the disclosed systems utilize the modified visual glyph representation as an additional editable typography element.

A drawing method and an electronic device for performing the method are disclosed. A drawing method according to an embodiment of the present invention may comprise the steps of: providing a feature line included in a drawing object in a first grid on the basis of the drawing object; providing first feature points corresponding to the feature line; providing second feature points corresponding to the first feature points in a second grid corresponding to the first grid; receiving an input line that is along the second feature points; and determining whether the input line corresponds to the feature line.

The present disclosure makes it possible to realize with ease whether a student has been able to answer a question in an expected state. A computer includes a processor and a memory storing a program that, when executed by the processor, causes the computer to acquire a plurality of pieces of stroke data, determine whether the pieces of stroke data have been input in a particular state, and control a display state when the pieces of stroke data are displayed based on a result of determining whether the pieces of stroke data have been input in the particular state.

Techniques for generating a stylized drawing of three-dimensional (3D) shapes using neural networks are disclosed. A processing device generates a set of vector curve paths from a viewpoint of a 3D shape; extracts, using a first neural network of a plurality of neural networks of a machine learning model, surface geometry features of the 3D shape based on geometric properties of surface points of the 3D shape; determines, using a second neural network of the plurality of neural networks of the machine learning model, a set of at least one predicted stroke attribute based on the surface geometry features and a predetermined drawing style; generates, based on the at least one predicted stroke attribute, a set of vector stroke paths corresponding to the set of vector curve paths; and outputs a two-dimensional (2D) stylized stroke drawing of the 3D shape based at least on the set of vector stroke paths.

Example graffiti pattern generation methods, electronic devices, and storage media are provided. One example graffiti pattern generation method includes displaying a setting interface of a graffiti pattern of the electronic device. Text information entered by a user in the setting interface is obtained. Attribute information of a graffiti letter image associated with the text information is determined based on the text information. A combination command corresponding to the attribute information is executed, and combination processing is performed on the graffiti letter image to obtain the graffiti pattern.