Differential geometry II
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1 Differential geometry II Lecture 2 Alexander & Michael Bronstein tosca.cs.technion.ac.il/book Numerical geometry of non-rigid shapes Stanford University, Winter 2009
2 Intrinsic & extrinsic geometry 2 First fundamental form describes completely the intrinsic geometry. Second fundamental form describes completely the extrinsic geometry the layout of the shape in ambient space. First fundamental form is invariant to isometry. Second fundamental form is invariant to rigid motion (congruence). If and are congruent (i.e., ), then they have identical intrinsic and extrinsic geometries. Fundamental theorem: a map preserving the first and the second fundamental forms is a congruence. Said differently: an isometry preserving second fundamental form is a restriction of Euclidean isometry.
3 An intrinsic view 3 Our definition of intrinsic geometry (first fundamental form) relied so far on ambient space. Can we think of our surface as of an abstract manifold immersed nowhere? What ingredients do we really need? Smooth two-dimensional manifold Tangent space Inner product at each point. These ingredients do not require any ambient space!
4 Riemannian geometry 4 Riemannian metric: bilinear symmetric positive definite smooth map Abstract inner product on tangent space of an abstract manifold. Coordinate-free. In parametrization coordinates is expressed as first fundamental form. Bernhard Riemann ( ) A farewell to extrinsic geometry!
5 An intrinsic view 5 We have two alternatives to define the intrinsic metric using the path length. Extrinsic definition: Intrinsic definition: The second definition appears more general.
6 Nash s embedding theorem 6 Embedding theorem (Nash, 1956): any Riemannian metric can be realized as an embedded surface in Euclidean space of sufficiently high yet finite dimension. Technical conditions: Manifold is For an -dimensional manifold, embedding space dimension is John Forbes Nash (born 1928) Practically: intrinsic and extrinsic views are equivalent!
7 Uniqueness of the embedding 7 Nash s theorem guarantees existence of embedding. It does not guarantee uniqueness. Embedding is clearly defined up to a congruence. Are there cases of non-trivial non-uniqueness? Formally: Given an abstract Riemannian manifold, and an embedding, does there exist another embedding such that and are incongruent? Said differently: Do isometric yet incongruent shapes exist?
8 Bending 8 Shapes admitting incongruent isometries are called bendable. Plane is the simplest example of a bendable surface. Bending: an isometric deformation transforming into.
9 Bending and rigidity 9 Existence of two incongruent isometries does not guarantee that can be physically folded into without the need to cut or glue. If there exists a family of bendings continuous w.r.t. such that and, the shapes are called continuously bendable or applicable. Shapes that do not have incongruent isometries are rigid. Extrinsic geometry of a rigid shape is fully determined by the intrinsic one.
10 Alice s wonders in the Flatland 10 Subsets of the plane: Second fundamental form vanishes everywhere Isometric shapes and have identical first and second fundamental forms Fundamental theorem: and are congruent. Flatland is rigid!
11 Rigidity conjecture 11 If the faces of a polyhedron were made of metal plates and the polyhedron edges were replaced by hinges, the polyhedron would be rigid. In practical applications shapes are represented as polyhedra (triangular meshes), so Leonhard Euler ( ) Do non-rigid shapes really exist?
12 12 Rigidity conjecture timeline 1766 Euler s Rigidity Conjecture: every polyhedron is rigid 1813 Cauchy: every convex polyhedron is rigid Cohn-Vossen: all surfaces with positive Gaussian curvature are rigid Gluck: almost all simply connected surfaces are rigid Connelly finally disproves Euler s conjecture
13 Connelly sphere 13 Isocahedron Rigid polyhedron Connelly sphere Non-rigid polyhedron Connelly, 1978
14 Almost rigidity 14 Most of the shapes (especially, polyhedra) are rigid. This may give the impression that the world is more rigid than non-rigid. This is probably true, if isometry is considered in the strict sense Many objects have some elasticity and therefore can bend almost Isometrically No known results about almost rigidity of shapes.
15 Gaussian curvature a second look 15 Gaussian curvature measures how a shape is different from a plane. We have seen two definitions so far: Product of principal curvatures: Determinant of shape operator: Both definitions are extrinsic. Here is another one: For a sufficiently small, perimeter of a metric ball of radius is given by
16 Gaussian curvature a second look 16 Riemannian metric is locally Euclidean up to second order. Third order error is controlled by Gaussian curvature. Gaussian curvature measures the defect of the perimeter, i.e., how is different from the Euclidean. positively-curved surface perimeter smaller than Euclidean. negatively-curved surface perimeter larger than Euclidean.
17 Theorema egregium 17 Our new definition of Gaussian curvature is intrinsic! Gauss Remarkable Theorem formula itaque sponte perducit ad egregiumtheorema: si superficies curva in quamcunque aliam superficiem explicatur, mensura curvaturae in singulis punctis invariata manet. Karl Friedrich Gauss ( ) In modern words: Gaussian curvature is invariant to isometry.
18 An Italian connection 18
19 Intrinsic invariants 19 Gaussian curvature is a local invariant. Isometry invariant descriptor of shapes. Problems: Second-order quantity sensitive to noise. Local quantity requires correspondence between shapes.
20 Gauss-Bonnet formula 20 Solution: integrate Gaussian curvature over the whole shape is Euler characteristic. Related genus by Stronger topological rather than geometric invariance. Result known as Gauss-Bonnet formula. Pierre Ossian Bonnet ( )
21 Intrinsic invariants 21 We all have the same Euler characteristic. Too crude a descriptor to discriminate between shapes. We need more powerful tools.
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