Abstract: Provided is a drawing assist device and the like which assists a drawing operation while improving efficiency thereof. According to the drawing assist device of the present invention, whether or not a first factor of an element defined according to a positional trajectory of a pointer moved by an agent is adequate in design for a subject represented by the element is determined. The agent is notified if the determination result thereof is negative. According thereto, the agent can progress the drawing operation while confirming whether or not the subject drawn personally is adequate in design.

Abstract: A method performed by one or more processors, comprising: receiving information indicative of a geometric domain; generating, based on the information indicative of the geometric domain, a mesh of geometric elements; transforming a plurality of the geometric elements from a first type of geometric element to a second type of geometric element; and subdividing the plurality of the geometric elements transformed from the second type of geometric element into a third type of geometric element.

Abstract: Provided is a drawing assist device and the like which assists a drawing operation while improving efficiency thereof. According to the drawing assist device of the present invention, whether or not a first factor of an element defined according to a positional trajectory of a pointer moved by an agent is adequate in design for a subject represented by the element is determined. The agent is notified if the determination result thereof is negative. According thereto, the agent can progress the drawing operation while confirming whether or not the subject drawn personally is adequate in design.

Abstract: A computer-implemented method for extracting an approximated medial surface from a solid having a thin-wall geometry. The method includes generating a first mesh representative of the solid and including a plurality of mesh elements. The method further includes defining a mid-surface element for each of at least a portion of the volumetric mesh elements, segmenting a surface collectively formed by the mid-surface elements to form a plurality of surface regions, defining a boundary for each surface region, and fitting an approximate surface to each surface region and its corresponding boundary. The approximate surfaces collectively define the approximated medial surface.

Abstract: A modular approach to designing all-hex mesh conversion templates where triangular and rectangular subdivision patterns may arbitrarily be combined on the exterior faces of the templates. The templates can be created for any arbitrary-shaped, complex geometric domain. The all-hex conversion software according to the present invention take as input any type of a hex-dominant mesh and converts it to an all-hex mesh automatically. An all-hex template according to the present invention is a family of modular sub-templates. These sub-templates can be assembled to form all-hex conversion templates for hexes, pyramids, and prisms. There are two types of modular sub-templates, called a core and a cap. For a hex or prism element, one core is defined, which specifies the subdivision patterns of two faces of the input hex or prism. Then four caps are defined for a hex and three caps for a prism to specify the subdivision patterns of the other faces.