867 research outputs found
On the number of tetrahedra with minimum, unit, and distinct volumes in three-space
We formulate and give partial answers to several combinatorial problems on
volumes of simplices determined by points in 3-space, and in general in
dimensions. (i) The number of tetrahedra of minimum (nonzero) volume spanned by
points in \RR^3 is at most , and there are point sets
for which this number is . We also present an time
algorithm for reporting all tetrahedra of minimum nonzero volume, and thereby
extend an algorithm of Edelsbrunner, O'Rourke, and Seidel. In general, for
every k,d\in \NN, , the maximum number of -dimensional
simplices of minimum (nonzero) volume spanned by points in \RR^d is
. (ii) The number of unit-volume tetrahedra determined by
points in \RR^3 is , and there are point sets for which this
number is . (iii) For every d\in \NN, the minimum
number of distinct volumes of all full-dimensional simplices determined by
points in \RR^d, not all on a hyperplane, is .Comment: 19 pages, 3 figures, a preliminary version has appeard in proceedings
of the ACM-SIAM Symposium on Discrete Algorithms, 200
On distinct distances in homogeneous sets in the Euclidean space
A homogeneous set of points in the -dimensional Euclidean space
determines at least distinct distances
for a constant . In three-space, we slightly improve our general bound
and show that a homogeneous set of points determines at least
distinct distances
A point-line incidence identity in finite fields, and applications
Let be a set in the 2-dimensional vector space
over a finite field with elements. We prove an identity for the second
moment of its incidence function and deduce a variety of existing results from
the literature, not all naturally associated with lines in , in
a unified and elementary way.Comment: 30 page
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