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Computing intersection numbers of Chern classes
KTH, School of Engineering Sciences (SCI), Mathematics (Dept.), Mathematics (Div.).
##### Abstract [en]

Let Z $\subset$ Pr be a smooth variety of dimension n and let c0, . . . , cn be the Chern classes of Z. We present an algorithm to compute the degree of any monomial in {c0, . . . , cn}. The method is based on intersection theory and may be implemented as a numeric, symbolic, or as a numeric/symbolic hybrid algorithm.

Mathematics
##### Identifiers
OAI: oai:DiVA.org:kth-26109DiVA: diva2:370129
##### Note
QC 20101115Available from: 2010-11-15 Created: 2010-11-15 Last updated: 2010-11-15Bibliographically approved
##### In thesis
1. Topics in computation, numerical methods and algebraic  geometry
Open this publication in new window or tab >>Topics in computation, numerical methods and algebraic  geometry
2010 (English)Doctoral thesis, comprehensive summary (Other academic)
##### Abstract [en]

This thesis concerns computation and algebraic geometry. On the computational side we have focused on numerical homotopy methods. These procedures may be used to numerically solve systems of polynomial equations. The thesis contains four papers.

In Paper I and Paper II we apply continuation techniques, as well as symbolic algorithms, to formulate methods to compute Chern classes of smooth algebraic varieties. More specifically, in Paper I we give an algorithm to compute the degrees of the Chern classes of smooth projective varieties and in Paper II we extend these ideas to cover also the degrees of intersections of Chern classes.

In Paper III we formulate a numerical homotopy to compute the intersection of two complementary dimensional subvarieties of a smooth quadric hypersurface in projective space. If the two subvarieties intersect transversely, then the number of homotopy paths is optimal. As an application we give a new solution to the inverse kinematics problem of a six-revolute serial-link mechanism.

Paper IV is a study of curves on certain special quartic surfaces in projective 3-space. The surfaces are invariant under the action of a finite group called the level (2,2) Heisenberg group. In the paper, we determine the Picard group of a very general member of this family of quartics. We have found that the general Heisenberg invariant quartic contains 320 smooth conics and we prove that in the very general case, this collection of conics generates the Picard group.

##### Place, publisher, year, edition, pages
Stockholm: KTH, 2010. v, 20 p.
##### Series
Trita-MAT. MA, ISSN 1401-2278 ; 10:13
Mathematics
##### Identifiers
urn:nbn:se:kth:diva-25941 (URN)978-91-7415-770-3 (ISBN)
##### Public defence
2010-11-29, Sal F3, Lindstedtsvägen 26, KTH, Stockholm, 13:00 (English)
##### Note
QC 20101115Available from: 2010-11-15 Created: 2010-11-05 Last updated: 2010-11-15Bibliographically approved

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Cite
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v. 2.29.1
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