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2. 3-dimensional matching - Wikipedia

   en.wikipedia.org/wiki/3-dimensional_matching

   3-dimensional matchings. (a) Input T. (b)–(c) Solutions. In the mathematical discipline of graph theory, a 3-dimensional matching is a generalization of bipartite matching (also known as 2-dimensional matching) to 3-partite hypergraphs, which consist of hyperedges each of which contains 3 vertices (instead of edges containing 2 vertices in a usual graph).

3. Cayley's nodal cubic surface - Wikipedia

   en.wikipedia.org/wiki/Cayley's_nodal_cubic_surface

   This contracts the 4 sides of the complete quadrilateral to the 4 nodes of the Cayley surface, while blowing up its 6 vertices to the lines through two of them. The surface is a section through the Segre cubic. [1] The surface contains nine lines, 11 tritangents and no double-sixes. [1] A number of affine forms of the surface have been presented.

4. Maxwell's thermodynamic surface - Wikipedia

   en.wikipedia.org/wiki/Maxwell's_thermodynamic...

   Diagram of thermodynamic surface from Maxwell's book Theory of Heat. The diagram is drawn roughly from the same angle as the upper left photo above, and shows the 3D axes e (energy, increasing downwards), ϕ (entropy, increasing to the lower right and out-of-plane), and v (volume, increasing to the upper right and into-plane).

5. Shape context - Wikipedia

   en.wikipedia.org/wiki/Shape_context

   Match each point from the known shape to a point on an unknown shape. To minimize the cost of matching, first choose a transformation (e.g. affine, thin plate spline, etc.) that warps the edges of the known shape to the unknown (essentially aligning the two shapes). Then select the point on the unknown shape that most closely corresponds to ...

6. Computer representation of surfaces - Wikipedia

   en.wikipedia.org/wiki/Computer_representation_of...

   A surface may be composed of one or more patches, where each patch has its own U-V coordinate system. These surface patches are analogous to the multiple polynomial arcs used to build a spline. They allow more complex surfaces to be represented by a series of relatively simple equation sets rather than a single set of complex equations.

7. Superquadrics - Wikipedia

   en.wikipedia.org/wiki/Superquadrics

   The term may refer to the solid object or to its surface, depending on the context. The equations below specify the surface; the solid is specified by replacing the equality signs by less-than-or-equal signs. The superquadrics include many shapes that resemble cubes, octahedra, cylinders, lozenges and spindles, with rounded or sharp corners. [1]

8. Cubic surface - Wikipedia

   en.wikipedia.org/wiki/Cubic_surface

   In mathematics, a cubic surface is a surface in 3-dimensional space defined by one polynomial equation of degree 3. Cubic surfaces are fundamental examples in algebraic geometry . The theory is simplified by working in projective space rather than affine space , and so cubic surfaces are generally considered in projective 3-space P 3 ...

9. Euclidean planes in three-dimensional space - Wikipedia

   en.wikipedia.org/wiki/Euclidean_planes_in_three...

   This familiar equation for a plane is called the general form of the equation of the plane or just the plane equation. [6] Thus for example a regression equation of the form y = d + ax + cz (with b = −1) establishes a best-fit plane in three-dimensional space when there are two explanatory variables.