Abstract: The present disclosure describes examples of a computer-implemented framework that helps to detect deception in charts and/or associated articles through textual and visual annotations.

Abstract: A method for tracking a head mounted display (HMD) device is provided. The method includes: tracking a pose of a mobile device in a reference coordinate system by running a pose tracking algorithm on the mobile device; tracking an image of the mobile device in the reference coordinate system by at least one sensor of the HMD device; and obtaining, by the HMD device, localization information of the HMD device based on the pose and the image of the mobile device. A head mounted display system is also provided.

Abstract: The present disclosure provides a computer-implemented method. The method includes: acquiring 3D volumetric data for representing a real-world scene; acquiring a current set of active 3D volumetric data from the 3D volumetric data in response to an activating action on the 3D volumetric data; updating a plurality of sets of active 3D volumetric data based on the current set of active 3D volumetric data, the plurality of sets of active 3D volumetric data being acquired from the 3D volumetric data; constructing a surface based on the plurality of updated sets of active 3D volumetric data; and simulating a deformation of a part of the real-world scene based on the surface, the part of the real-world scene corresponding to the plurality of updated sets of active 3D volumetric data. In addition, the present disclosure also provides an electronic device, and a storage medium.

Abstract: Techniques for occlusion and collision detection in an AR session are described. In an example, a depth sensor is used to generate a depth image. Distortions in the depth image are reduced or eliminated by at least dividing the depth image into depth layers and moving depth pixels between the layers. An RGBD image is generated from the depth image, as updated, and an RGB image generated at substantially the same time as the depth image. Occlusion of a virtual object is detected based on the RGBD image. Further, a 3D model of the real-world environment is generated from the depth images, as updated, and includes multi-level voxels. Collision with the virtual object is detected based on the multi-level voxels. Rendering of the virtual object in an AR session is based on the occlusion and collision detection.

Abstract: The present invention relates to a mineral processing technology and method for refractory chalcopyrite ores, particularly to a mineral processing technology and method for the separation of chalcopyrite from multiple natural types of copper ores containing chalcopyrite, pyrrhotite, talc and serpentine, which belongs to the technical field of mineral processing. It's characterized by: conducting a two-stage grinding on the chalcopyrite ore, with each grinding stage followed by size grading, and treating ores in different size fractions separately, wherein coarse-grain ores are separated in the presence of xanthate, with calcium oxide and CMC controlling the pH and acting as depressor respectively, while fine-grained ores are subjected to rougher in the presence of kerosene, and subsequently subjected to cleaner in the presence of xanthate.

Abstract: The present invention relates to a mineral processing technology and method for refractory chalcopyrite ores, particularly to a mineral processing technology and method for the separation of chalcopyrite from multiple natural types of copper ores containing chalcopyrite, pyrrhotite, talc and serpentine, which belongs to the technical field of mineral processing. It's characterized by: conducting a two-stage grinding on the chalcopyrite ore, with each grinding stage followed by size grading, and treating ores in different size fractions separately, wherein coarse-grain ores are separated in the presence of xanthate, with calcium oxide and CMC controlling the pH and acting as depressor respectively, while fine-grained ores are subjected to rougher in the presence of kerosene, and subsequently subjected to cleaner in the presence of xanthate.