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  • 1
    Digitale Medien
    Digitale Medien
    Approximate Shortest Paths and Geodesic Diameter on a Convex Polytope in Three Dimensions (1999)
    Springer
    Discrete & computational geometry 21 (1999), S. 217-231 
    Details
    ISSN: 1432-0444
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Informatik , Mathematik
    Notizen: Abstract. Given a convex polytope P with n edges in $\Bbb R$ 3 , we present a relatively simple algorithm that preprocesses P in O(n) time, such that, given any two points $s,t \in \partial P$ , and a parameter 0 〈 $\varepsilon \le$ 1, it computes, in O(log n) /ɛ 1.5 + 1/ ɛ 3 ) time, a distance Δ P (s,t) , such that d P (s,t) $\leq$ Δ P (s,t) $\leq$ (1+ɛ )d P (s,t) , where d P (s,t) is the length of the shortest path between s and t on $\partial{P}$ . The algorithm also produces a polygonal path with O (1/ɛ 1.5 ) segments that avoids the interior of P and has length Δ P (s,t) . Our second related result is: Given a convex polytope P with n edges in $\Bbb R$ 3 , and a parameter 0 〈 $\varepsilon \leq$ 1, we present an O (n + 1/ ɛ 5 )-time algorithm that computes two points ${\frak{s}}, {\frak{t}} \in {\partial}{P}$ such that $d_P({\frak{s}}, {\frak{t}}) \geq (1-{\varepsilon}){\cal D}_P$ , where ${\cal D}_P = \max_{s, t \in {\partial}{P}} d_P(s, t)$ is the geodesic diameter of P .
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/PL00009417
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  • 2
    Digitale Medien
    Digitale Medien
    Approximation Algorithms for Minimum-Width Annuli and Shells (2000)
    Springer
    Discrete & computational geometry 24 (2000), S. 687-705 
    Details
    ISSN: 1432-0444
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Informatik , Mathematik
    Notizen: Abstract. Let S be a set of n points in \re d . The ``roundness'' of S can be measured by computing the width ω * =ω * (S) of the thinnest spherical shell (or annulus in \re 2 ) that contains S . This paper contains two main results related to computing an approximation of ω * : (i) For d=2 , we can compute in O(n log n) time an annulus containing S whose width is at most 2ω * (S) . We extend this algorithm, so that, for any given parameter ε 〉0 , an annulus containing S whose width is at most (1+ε )ω * is computed in time O(n log n + n/ε 2 ) . (ii) For d \geq 3 , given a parameter ε 〉 0 , we can compute a shell containing S of width at most (1+ε)ω * either in time O ( n / ε d ) log ( \Delata / ω * ε ) or in time O ( n / ε d-2 ) log  n + 1 / εlog  \Delata / ω * ε , where Δ is the diameter of S .
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1007/s004540010062
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