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A small cover is a smooth closed manifold [M.sup.n] which admits a locally standard [Z.sup.n.sub.2]-action whose orbit space is a simple convex polytope.

The number of orientable small covers over a product of simplices

A convex polytope satisfying these properties is called a Delzant polytope.

Toeplitz Operators, Pseudo-Homogeneous Symbols, and Moment Maps on the Complex Projective Space

Consider a dimension n convex polytope [DELTA] [subset] [([R.sup.n]).sup.*].

Toric Geometry of the Regular Convex Polyhedra

A DOP is a convex polytope containing the object, constructed by taking a number k of appropriately oriented planes at infinity and bringing it closer to the object until they collide.

Revision de literatura de jerarquia volumenes acotantes enfocados en deteccion de colisiones

Any A(p(k)) and C(p(k)) belong to a convex polytope [OMEGA] defined by

An offline formulation of MPC for LPV systems using linear matrix inequalities

Note that any convex polytope can be written in the form [[PI].sub.X](u) for suitable X and u.

Splines, lattice points, and (arithmetic) matroids

The convexity theorem of Atiyah [1] and Guillemin-Sternberg [10] implies that [mu](M) is a convex polytope in [R.sup.n].

Symplectic spectral geometry of semiclassical operators

[5] shows that every arrangement of spheres (and hence every central arrangemen of hyperplanes) is combinatorially equivalent to some convex polytope, [9] proved that there is a relation between the number of lattice point on a sphere and the volume of it.

Computing the number of integral points in 4-dimensional ball

The point (Y1, Y2), governed by (18)-(19), can never leave the (N -1)-dimensional (here N = 3) convex polytope and by definition [Y.sub.3] = 1 - [Y.sub.1] - [Y.sub.2].

A stochastic diffusion process for the Dirichlet distribution