Abstract: A method for assessing a state of a radio channel. The method includes: ascertaining or providing a piece of state information, which characterizes a simulated state of a spatial arrangement of components of the surroundings of the wireless communication network; ascertaining at least one prediction based on a machine-trained model, the state information being provided as an input parameter in an input section of a machine-trained model, the state information being propagated by the machine-trained model, and the at least one prediction of a piece of channel state information based on the machine-trained model, which characterizes a state of at least one radio channel between two communication modules, being provided in an output section of the machine-trained model.

Abstract: A system and method for quadrangulating a triangle mesh is taught herein. After constructing an as smooth as possible symmetric cross field satisfying a sparse set of directional constraints (t) capture the geometric structure of the surface), the mesh is cut open in order to enable a low distortion unfolding. Then, a seamless globally smooth parametrization is computed whose iso-parameter lines follow the cross field directions. Notably, sparsely distributed directional constraints are sufficient to automatically determine the appropriate number, type and position of singularities in the quadrangulation. Both steps of the algorithm (cross field and parametrization) can be formulated as a mixed-integer problem which is solved very efficiently by an adaptive greedy solver, in order to generate high quality quad meshes in a fully automatic manner.