EuDML | Browse

Any collection of non-blocking four-dimensional cubes, whose total volume does not exceed 17/81, can be packed into the unit four-dimensional cube. This bound is tight for the parallel packing.

Packing unit squares in a rectangle.

Nagamochi, Hiroshi (2005)

The Electronic Journal of Combinatorics [electronic only]

Packing unit squares in squares: A survey and new results.

Friedman, Erich (1998)

The Electronic Journal of Combinatorics [electronic only]

Packungen kongruenter Stäbchen mit konstanter Nachbarnzahl.

J. Linhart, F. Österreicher (1982)

Elemente der Mathematik

Pairs of convex bodies in a hyperspace over a Minkowski two-dimensional space joined by a unique metric segment

Agnieszka Bogdewicz, Jerzy Grzybowski (2009)

Banach Center Publications

Let $(ℝ, | | \cdot | |_{)}$ be a Minkowski space with a unit ball and let $ϱ_{H}^{}$ be the Hausdorff metric induced by ${| | \cdot | |}_{}$ in the hyperspace of convex bodies (nonempty, compact, convex subsets of ℝ). R. Schneider [RSP] characterized pairs of elements of which can be joined by unique metric segments with respect to $ϱ_{H}^{B ⁿ}$ for the Euclidean unit ball Bⁿ. We extend Schneider’s theorem to the hyperspace $(², ϱ_{H}^{})$ over any two-dimensional Minkowski space.

Pairs of sets with convex union.

Ryszard Urbanski (1997)

Collectanea Mathematica

In this paper the notion of convex pairs of convex bounded subsets of a Hausdorff topological vector space is introduced. Criteria of convexity pair are proved.

Paraconvex analysis

Stefan Rolewicz (2005)

Control and Cybernetics

Paradan’s wall crossing formula for partition functions and Khovanski-Pukhlikov differential operator

Arzu Boysal, Michèle Vergne (2009)

Annales de l’institut Fourier

Let $P (s)$ be a family of rational polytopes parametrized by inequations. It is known that the volume of $P (s)$ is a locally polynomial function of the parameters. Similarly, the number of integral points in $P (s)$ is a locally quasi-polynomial function of the parameters. Paul-Émile Paradan proved a jump formula for this function, when crossing a wall. In this article, we give an algebraic proof of this formula. Furthermore, we give a residue formula for the jump, which enables us to compute it.

Parallel methods in image recovery by projections onto convex sets

Gilbert Crombez (1992)

Czechoslovak Mathematical Journal

Parallel projection of matroid spheres

Cordovil, Raúl, Guedes de Oliveira, A., Moreira, M. Leonor (1988)

Portugaliae mathematica

Parallel synchronous algorithm for nonlinear fixed point problems.

Addou, Ahmed, Benahmed, Abdenasser (2005)

International Journal of Mathematics and Mathematical Sciences

Parallelbeleuchtung konvexer Körper mit glatten Rändern

H. Martini (1986)

Beiträge zur Algebra und Geometrie = Contributions to algebra and geometry

Parallelepipeds circumscribed about a convex body in 3-space.

Makeev, V.V. (2005)

Journal of Mathematical Sciences (New York)

Parallelograms inscribed in a curve having a circle as π/2-isoptic

Andrzej Miernowski (2008)

Annales UMCS, Mathematica

Jean-Marc Richard observed in [7] that maximal perimeter of a parallelogram inscribed in a given ellipse can be realized by a parallelogram with one vertex at any prescribed point of ellipse. Alain Connes and Don Zagier gave in [4] probably the most elementary proof of this property of ellipse. Another proof can be found in [1]. In this note we prove that closed, convex curves having circles as π/2-isoptics have the similar property.

Partial inflation of closed polygons in the plane.

Wegner, Bernd (1993)

Beiträge zur Algebra und Geometrie

Partitioning Arrangements of Lines, II: Applications.

P.K. Agarwal (1990)

Discrete & computational geometry

Currently displaying 1 – 20 of 94

Page 1 Next