Polyhedral complex: Difference between revisions

In mathematics, a polyhedral complex is a set of polyhedra in a real vector space that fit together in a specific way.^[1] Polyhedral complexes generalize simplicial complexes and arise in various areas of polyhedral geometry, such as tropical geometry, splines and hyperplane arrangements.

A polyhedral complex ${\displaystyle {𝒦}}$ is a set of polyhedra that satisfies the following conditions:

1. Every face of a polyhedron from ${\displaystyle {𝒦}}$ is also in ${\displaystyle {𝒦}}$.

2. The intersection of any two polyhedra ${\displaystyle {\sigma }_1,{\sigma }_2\in {𝒦}}$ is a face of both ${\displaystyle {\sigma }_1}$ and ${\displaystyle {\sigma }_2}$.

Note that the empty set is a face of every polyhedron, and so the intersection of two polyhedra in ${\displaystyle {𝒦}}$ may be empty.

• Tropical varieties are polyhedral complexes satisfying a certain balancing condition.^[2]
• Simplicial complexes are polyhedral complexes in which every polyhedron is a simplex.
• Voronoi diagrams.
• Splines.

A (polyhedral) fan is a polyhedral complex in which every polyhedron is a cone from the origin. Examples of fans include:

• The normal fan of a polytope.
• The fan associated to a toric variety (see Toric variety § Fundamental theorem for toric geometry).
• The Gröbner fan of an ideal of a polynomial ring.^[3][4]
• A tropical variety obtained by tropicalizing an algebraic variety over a valued field with trivial valuation.
• The recession fan of a tropical variety.

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