The launch of this Advanced Lectures in Mathematics series is aimed at keepingmathematicians informed of the latest developments in mathematics, as well asto aid in the learning of new mathematical topics by students all over the world.Each volume consists of either an expository monograph or a collection of signifi-cant introductions to important topics. This series emphasizes the history andsources of motivation for the topics under discussion, and also gives an overviewof the current status of research in each particular field. These volumes are thefirst source to which people will turn in order to learn new subjects and to dis-cover the latest results of many cutting-edge fields in mathematics. |
1 introduction 1.1 variational principle and isoperimetric problems 1.2 polyhedral metrics and polyhedral surfaces 1.3 a brief history on geometry of polyhedral surface 1.4 recent works on polyhedral surfaces 1.5 some of our results 1.6 the method of proofs and related works 2 spherical geometry and cauchy rigidity theorem 2.1 spherical geometry and spherical triangles 2.2 the cosine law and the spherical dual 2.3 the cauchy rigidity theorem 3 a brief introduction to hyperbolic geometry 3.1 the hyperboloid model of the hyperbolic geometry 3.2 the klein model of hn 3.3 the upper half space model of hn 3.4 the poincar6 disc model bn of hn 3.5 the hyperbolic cosine law and the gauss-bonnet formula 4 the cosine law and polyhedral surfaces 4.1 introduction . 4.2 polyhedral surfaces and action functional of variational framework 5 spherical polyhedral surfaces and legendre transformation 5.1 the space of all spherical triangles 5.2 a rigidity theorem for spherical polyhedral surfaces 5.3 the legendre transform 5.4 the cosine law for euclidean triangles 6 rigidity of euclidean polyhedral surfaces 6.1 a local and a global rigidity theorem 6.2 rivin's theorem on global rigidity of curvature 7 polyhedral surfaces of circle packing type 7.1 introduction 7.2 the cosine law and the radius parametrization 7.3 colin de verdiere's proof of thurston-andreev rigidity theorem 7.4 aproofofleibon's theorem 7.5 a sketch of a proof of theorem 73(c) 7.6 marden-rodin's proof thurston-andreev theorem 8 non-negative curvature metrics and delaunay polytopes 8.1 non-negative and curvature metrics and delaunay condition .. 8.2 relationship between, curvature and the discrete curvature ko 8.3 the work of rivin and leibon on delaunay polyhedral surfaces 9 a brief introduction to teichmiiller space 9.1 introduction 9.2 hyperbolic hexagons, hyperbolic 3-holed spheres and the cosine law 9.3 ideal triangulation of surfaces and the length coordinate of the teichmuller spaces 9.4 new coordinates for the teichmuller space 10 parameterizatios of teichmuller spaces 10.1 a proof of theorem 10.1 10.2 degenerations of hyperbolic hexagons 10.3 a proof of theorem 10.2 11 surface ricci flow 11.1 conformal deformation 11.2 surface ricci flow 12 geometric structure 12.1 (x, g) geometric structure 12.2 affine structures on surfaces 12.3 spherical structure 12.4 euclidean structure 12.5 hyperbolic structure 12.6 real projective structure 13 shape acquisition and representation 13.1 shape acquisition 13.2 triangular meshes 13.3 half-edge data structure 14 discrete ricci flow 14.1 circle packing metric 14.2 discrete gaussian curvature 14.3 discrete surface ricci flow 14.4 newton's method 14.5 isometric planar embedding 14.6 surfaces with boundaries 14.7 optimal parameterization using ricci flow 15 hyperbolic ricci flow 15.1 hyperbolic embedding 15.1.1 embedding one face 15.1.2 hyperbolic embedding of the universal covering space 15.2 surfaces with boundaries reference index |
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