Abstract: Systems and methods for three-dimensional (3D) modeling are described. Embodiments of the inventive concept are configured to receive manipulation input for editing a scene in a static 3D modeling application, perform a physics simulation based on the manipulation input, wherein the physics simulation comprises a plurality of simulation steps performed based on a set of motion constraints configured for the static 3D modeling application, and apply a change to the scene in the static 3D modeling application based on the physics simulation.

Abstract: A multi-characteristic remeshing system that generates remeshed 3D graphical surfaces can include a compact geometric descriptive language (“CGDL”) conversion module, one or more geometric characteristic parsing modules, and a geometric computation module. The CGDL conversion module receives an input mesh for a 3D graphical object and CGDL source text that describes target characteristics of an output mesh of the 3D graphical object. Each geometric characteristic parsing module identifies inherent geometric characteristics of the input mesh, and generates a geometric characteristic map. The geometric characteristic map includes instructions to generate the output mesh with respective target characteristics. The instruction describes a relationship of the one or more inherent geometric characteristics with the respective target characteristic.

Abstract: The invention relates to a device designed to determine manufacturing data for producing objects that have variable, freely orientable orthotropic elasticity characteristics, by calculating data relating to grains of branches, which combined define branches, the number of grains of branches and the thickness of each branch being related to the desired elasticity characteristics.

Abstract: Systems and methods for three-dimensional (3D) modeling are described. Embodiments of the inventive concept are configured to receive manipulation input for editing a scene in a static 3D modeling application, perform a physics simulation based on the manipulation input, wherein the physics simulation comprises a plurality of simulation steps performed based on a set of motion constraints configured for the static 3D modeling application, and apply a change to the scene in the static 3D modeling application based on the physics simulation.

Abstract: An additive manufacturing device processes voxels representing an object to be additively manufactured by determining two graphs depending on whether the voxels indicate full or empty spaces, and redefines some of the voxels indicating an empty space as full spaces in order to ensure mechanical stability.

Abstract: The invention relates to a device designed to determine manufacturing data for producing objects that have variable, freely orientable orthotropic elasticity characteristics, by calculating data relating to grains of branches, which combined define branches, the number of grains of branches and the thickness of each branch being related to the desired elasticity characteristics.

Abstract: A data processing device applies pattern data to surface data on the basis of projection data, subdividing the surface data into voxels and determining the optimum projection data for each voxel according to its surroundings.

Abstract: A data processing device applies pattern data to surface data on the basis of projection data, subdividing the surface data into voxels and determining the optimum projection data for each voxel according to its surroundings.

Abstract: An additive manufacturing device processes voxels representing an object to be additively manufactured by determining two graphs depending on whether the voxels indicate full or empty spaces, and redefines some of the voxels indicating an empty space as full spaces in order to ensure mechanical stability.

Abstract: A method for determining a set of points to be supported for an object to be manufactured by means of an additive manufacturing method, characterised in that it comprises a step consisting of subdividing the object into successive layers, each layer corresponding to a thickness of material deposited during the manufacture of the object; and, for each layer, adding, to a set of points to be supported, points to be supported (PS) on the surface of the object that make it possible to ensure the stability of all of the sub-objects (2n), a sub-object being defined as a solid resulting from the manufacture of the i first layers (Ci) of the object.

Abstract: A support structure for supporting an object during the manufacture of same by means of an additive manufacturing method; method for generating such a structure.