Your search keyword '"Exponential map (Riemannian geometry)"' showing total 1,486 results

1. Conjugate and cut points in ideal fluid motion

Author

Gerard Misiołek, Tsuyoshi Yoneda, Theodore D. Drivas, and Bin Shi

Subjects

symbols.namesake, Geodesic, Flow (mathematics), General Mathematics, Mathematical analysis, Conjugate points, Euler's formula, symbols, Fluid dynamics, Perfect fluid, Configuration space, Exponential map (Riemannian geometry), Mathematics

Abstract

Two fluid configurations along a flow are conjugate if there is a one parameter family of geodesics (fluid flows) joining them to infinitesimal order. Geometrically, they can be seen as a consequence of the (infinite dimensional) group of volume preserving diffeomorphisms having sufficiently strong positive curvatures which ‘pull’ nearby flows together. Physically, they indicate a form of (transient) stability in the configuration space of particle positions: a family of flows starting with the same configuration deviate initially and subsequently re-converge (resonate) with each other at some later moment in time. Here, we first establish existence of conjugate points in an infinite family of Kolmogorov flows—a class of stationary solutions of the Euler equations—on the rectangular flat torus of any aspect ratio. The analysis is facilitated by a general criterion for identifying conjugate points in the group of volume preserving diffeomorphisms. Next, we show non-existence of conjugate points along Arnold stable steady states on the annulus, disk and channel. Finally, we discuss cut points, their relation to non-injectivity of the exponential map (impossibility of determining a flow from a particle configuration at a given instant) and show that the closest cut point to the identity is either a conjugate point or the midpoint of a time periodic Lagrangian fluid flow.

Published

2021

2. On the Free Surface Motion of Highly Subsonic Heat-Conducting Inviscid Flows

Author

Huihui Zeng and Tao Luo

Subjects

Physics, Mechanical Engineering, Second fundamental form, 010102 general mathematics, Mathematical analysis, Boundary (topology), 01 natural sciences, Symmetry (physics), 010101 applied mathematics, Sobolev space, Mathematics (miscellaneous), Flow velocity, Inviscid flow, Free surface, 0101 mathematics, Exponential map (Riemannian geometry), Analysis

Abstract

For the free surface problem of highly subsonic heat-conducting inviscid flow in 2-D and 3-D, a priori estimates for geometric quantities of free surfaces, such as the second fundamental form and the injectivity radius of the normal exponential map, and the Sobolev norms of fluid variables, are proved by investigating the coupling of the boundary geometry and the interior solutions. An interesting feature for the free surface problem studied in this paper is the loss of one more derivative than the problem of incompressible Euler equations, for which a geometric approach was introduced by Christodoulou and Lindblad [11]. Due to the loss of the one more derivative and loss of the symmetry of equations which create significant difficulties in closing the estimates in Sobolev spaces of finite regularity, the geometric approach in [11] needs to be substantially developed and extended by exploring the interaction of large variation of temperature, heat-conduction, non-zero divergence of the fluid velocity and the evolution of free surfaces.

Published

2021

3. Cayley Map for Symplectic Groups

Author

Ivaïlo M. Mladenov and Clementina D. Mladenova

Subjects

Pure mathematics, Applied Mathematics, Scheme (mathematics), Dimension (graph theory), Symmetric matrix, Geometry and Topology, Exponential map (Riemannian geometry), Mathematical Physics, Cayley map, Mathematics, Symplectic geometry

Abstract

Despite of their importance, the symplectic groups are not so popular like orthogonal ones as they deserve. The only explanation of this fact seems to be that their algebras can not be described so simply. While in the case of the orthogonal groups they are just the anti-symmetric matrices, those of the symplectic ones should be split in four blocks that have to be specified separately. It turns out however that in some sense they can be presented by the even dimensional symmetric matrices. Here, we present such a scheme and illustrate it in the lowest possible dimension via the Cayley map. Besides, it is proved that by means of the exponential map all such matrices generate genuine symplectic matrices.

Published

2021

4. An Analytic Characterization of <math xmlns='http://www.w3.org/1998/Math/MathML' id='M1'> <mfenced open='(' close=')' separators='|'> <mrow> <mi>p</mi> <mo>,</mo> <mi>q</mi> </mrow> </mfenced> </math>-White Noise Functionals

Author

Amine Ettaieb, Ziyad Ali Alhussain, Wathek Chammam, and Anis Riahi

Subjects

Pure mathematics, General Mathematics, Entire function, 010102 general mathematics, MathematicsofComputing_GENERAL, White noise, Space (mathematics), 01 natural sciences, Noncommutative geometry, Fock space, 010104 statistics & probability, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Quantum harmonic oscillator, Unitary operator, 0101 mathematics, Exponential map (Riemannian geometry), GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Mathematics

Abstract

In this paper, a characterization theorem for the S -transform of infinite dimensional distributions of noncommutative white noise corresponding to the p , q -deformed quantum oscillator algebra is investigated. We derive a unitary operator U between the noncommutative L 2 -space and the p , q -Fock space which serves to give the construction of a white noise Gel’fand triple. Next, a general characterization theorem is proven for the space of p , q -Gaussian white noise distributions in terms of new spaces of p , q -entire functions with certain growth rates determined by Young functions and a suitable p , q -exponential map.

Published

2020

5. The azimuthal equidistant projection for a Finsler manifold by the exponential map

Author

Toshiki Kondo, Katsuhiro Shiohama, Yoe Itokawa, Tetsuya Nagano, and Nobuhiro Innami

Subjects

General Mathematics, Azimuthal equidistant projection, Mathematical analysis, Finsler manifold, Exponential map (Riemannian geometry), Mathematics

Published

2020

6. A new numerical scheme for discrete constrained total variation flows and its convergence

Author

Kazutoshi Taguchi, Koya Sakakibara, Masaaki Uesaka, and Yoshikazu Giga

Subjects

Function space, Applied Mathematics, Numerical analysis, 010102 general mathematics, Regular polygon, Riemannian manifold, 01 natural sciences, Manifold, 010101 applied mathematics, Constraint (information theory), Computational Mathematics, Convergence (routing), Applied mathematics, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics

Abstract

In this paper, we propose a new numerical scheme for a spatially discrete model of total variation flows whose values are constrained to a Riemannian manifold. The difficulty of this problem is that the underlying function space is not convex; hence it is hard to calculate a minimizer of the functional with the manifold constraint even if it exists. We overcome this difficulty by “localization technique” using the exponential map and prove a finite-time error estimate. Finally, we show a few numerical results for the target manifolds$$S^2$$S2andSO(3).

Published

2020

7. Axisymmetric Diffeomorphisms and Ideal Fluids on Riemannian 3-Manifolds

Author

Leandro Lichtenfelz, Gerard Misiołek, and Stephen C. Preston

Subjects

Mathematics - Differential Geometry, Ideal (set theory), General Mathematics, 010102 general mathematics, Mathematical analysis, Riemannian geometry, Submanifold, Space (mathematics), 01 natural sciences, Manifold, 010305 fluids & plasmas, Euler equations, Physics::Fluid Dynamics, symbols.namesake, Differential Geometry (math.DG), 0103 physical sciences, Homogeneous space, FOS: Mathematics, symbols, Mathematics::Differential Geometry, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Mathematics

Abstract

We study the Riemannian geometry of 3D axisymmetric ideal fluids. We prove that the $L^2$ exponential map on the group of volume-preserving diffeomorphisms of a $3$-manifold is Fredholm along axisymmetric flows with sufficiently small swirl. Along the way, we define the notions of axisymmetric and swirl-free diffeomorphisms of any manifold with suitable symmetries and show that such diffeomorphisms form a totally geodesic submanifold of infinite $L^2$ diameter inside the space of volume-preserving diffeomorphisms whose diameter is known to be finite. As examples, we derive the axisymmetric Euler equations on $3$-manifolds equipped with each of Thurston’s eight model geometries.

Published

2020

8. The Vector Heat Method

Author

Nicholas Sharp, Yousuf Soliman, and Keenan Crane

Subjects

FOS: Computer and information sciences, Parallel transport, Geodesic, Delaunay triangulation, Computer science, Connection (vector bundle), Mathematical analysis, Point cloud, 020207 software engineering, 02 engineering and technology, Computer Graphics and Computer-Aided Design, Graphics (cs.GR), Manifold, Computer Science - Graphics, Level set, Polygon, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Vector field, Polygon mesh, Tangent vector, Discrete differential geometry, Voronoi diagram, Exponential map (Riemannian geometry), Laplace operator

Abstract

This paper describes a method for efficiently computing parallel transport of tangent vectors on curved surfaces, or more generally, any vector-valued data on a curved manifold. More precisely, it extends a vector field defined over any region to the rest of the domain via parallel transport along shortest geodesics. This basic operation enables fast, robust algorithms for extrapolating level set velocities, inverting the exponential map, computing geometric medians and Karcher/Fr\'{e}chet means of arbitrary distributions, constructing centroidal Voronoi diagrams, and finding consistently ordered landmarks. Rather than evaluate parallel transport by explicitly tracing geodesics, we show that it can be computed via a short-time heat flow involving the connection Laplacian. As a result, transport can be achieved by solving three prefactored linear systems, each akin to a standard Poisson problem. To implement the method we need only a discrete connection Laplacian, which we describe for a variety of geometric data structures (point clouds, polygon meshes, etc). We also study the numerical behavior of our method, showing empirically that it converges under refinement, and augment the construction of intrinsic Delaunay triangulations (iDT) so that they can be used in the context of tangent vector field processing., Comment: 19 pages

Published

2019

9. Exponential map and normal form for cornered asymptotically hyperbolic metrics

Author

Stephen E. McKeown

Subjects

Applied Mathematics, General Mathematics, media_common.quotation_subject, 010102 general mathematics, Mathematical analysis, Boundary (topology), Type (model theory), Submanifold, Infinity, Mathematics::Geometric Topology, 01 natural sciences, Mathematics::Differential Geometry, 0101 mathematics, Exponential map (Riemannian geometry), media_common, Mathematics

Abstract

This paper considers asymptotically hyperbolic manifolds with a finite boundary intersecting the usual infinite boundary, cornered asymptotically hyperbolic manifolds, and proves a theorem of Cartan–Hadamard-type near infinity for the normal exponential map on the finite boundary. As a main application, a normal form for such manifolds at the corner is then constructed, analogous to the normal form for usual asymptotically hyperbolic manifolds and suited to studying geometry at the corner. The normal form is at the same time a submanifold normal form near the finite boundary and an asymptotically hyperbolic normal form near the infinite boundary.

Published

2019

10. Exponential maps of a polynomial ring in two variables

Author

Leonid Makar-Limanov and Anthony J. Crachiola

Subjects

Ring (mathematics), General Mathematics, Image (category theory), Polynomial ring, 010102 general mathematics, Field (mathematics), Composition (combinatorics), Automorphism, 01 natural sciences, Exponential function, Combinatorics, Computational Theory and Mathematics, 0103 physical sciences, 010307 mathematical physics, 0101 mathematics, Statistics, Probability and Uncertainty, Exponential map (Riemannian geometry), Mathematics

Abstract

Let k be a field. We show that the ring of invariants of every exponential map on k[x, y] is generated by the image of x or y under a composition of triangular automorphisms. From this we obtain two well-known theorems on k[x, y] with no restriction on the characteristic of k: the Rentschler–Miyanishi theorem and the Jung–van der Kulk theorem.

Published

2019

11. Pierrot's theorem for singular Riemanian foliations

Author

Robert Wolak

Subjects

Pure mathematics, Mathematics::Dynamical Systems, General Mathematics, Mathematical analysis, Foliation (geology), Tangent, Vector field, Mathematics::Differential Geometry, Riemannian manifold, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Mathematics

Abstract

Let $\Cal F$ be a singular Riemannian foliation on a compact connected Riemannian manifold $M$. We demonstrate that global foliated vector fields generate a distribution tangent to the strata defined by the closures of leaves of $\Cal F$ and which, in each stratum, is transverse to these closures of leaves.

Published

2021

12. Lévy processes on smooth manifolds with a connection

Author

Veno Mramor and Aleksandar Mijatović

Subjects

Statistics and Probability, Connection (fibred manifold), Pure mathematics, Geodesic, Holonomy, Lie group, Riemannian manifold, Manifold, Stochastic differential equation, Mathematics::Probability, Mathematics::Differential Geometry, Statistics, Probability and Uncertainty, QA, Exponential map (Riemannian geometry), Mathematics

Abstract

We define a Lévy process on a smooth manifold M with a connection as a projection of a solution of a Marcus stochastic differential equation on a holonomy bundle of M, driven by a holonomy-invariant Lévy process on a Euclidean space. On a Riemannian manifold, our definition (with Levi-Civita connection) generalizes the Eells-Elworthy-Malliavin construction of the Brownian motion and extends the class of isotropic Lévy process introduced in Applebaum and Estrade [3]. On a Lie group with a surjective exponential map, our definition (with left-invariant connection) coincides with the classical definition of a (left) Lévy process given in terms of its increments.\ud \ud Our main theorem characterizes the class of Lévy processes via their generators on M, generalizing the fact that the Laplace-Beltrami operator generates Brownian motion on a Riemannian manifold. Its proof requires a path-wise construction of the stochastic horizontal lift and anti-development of a discontinuous semimartingale, leading to a generalization of Pontier and Estrade [32] to smooth manifolds with non-unique geodesics between distinct points.

Published

2021

13. Asymptotic Behaviors of Trajectories on a Hadamard Kähler Manifold

Author

Qingsong Shi and Toshiaki Adachi

Subjects

Hadamard transform, General Mathematics, Mathematical analysis, Tangent space, Boundary (topology), Absolute value (algebra), Kähler manifold, Mathematics::Differential Geometry, Exponential map (Riemannian geometry), Upper and lower bounds, 53C22, Homeomorphism, Mathematics

Abstract

With the aid of estimates on widths of trajectory-horns and trajectory-harps from above, we show that the magnetic exponential map at an arbitrary point on a Hadamard Kähler manifold induces a homeomorphism of the unit tangent space onto the ideal boundary if the strength of magnetic field is not greater than the square root of the absolute value of the upper bound of sectional curvatures.

Published

2020

14. Radial kinetic nonholonomic trajectories are Riemannian geodesics!

Author

David Martín de Diego, Juan Carlos Marrero, Alexandre Anahory Simoes, Ministerio de Ciencia e Innovación (España), and European Commission

Subjects

Nonholonomic system, Physics, Mathematics - Differential Geometry, Algebra and Number Theory, Geodesic, Image (category theory), Mathematics::Optimization and Control, Motion (geometry), FOS: Physical sciences, Mathematical Physics (math-ph), Fixed point, Submanifold, Kinetic energy, 70G45 (Primary), 53B20, 53C21, 37J60, 70F25 (Secondary), Computer Science::Robotics, Nonlinear Sciences::Exactly Solvable and Integrable Systems, Differential Geometry (math.DG), FOS: Mathematics, Mathematics::Mathematical Physics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Analysis, Mathematical Physics, Mathematical physics

Abstract

Nonholonomic mechanics describes the motion of systems constrained by nonintegrable constraints. One of its most remarkable properties is that the derivation of the nonholonomic equations is not variational in nature. However, in this paper, we prove (Theorem 1.1) that for kinetic nonholonomic systems, the solutions starting from a fixed point q are true geodesics for a family of Riemannian metrics on the image submanifold Mnh q of the nonholonomic exponential map. This implies a surprising result: the kinetic nonholonomic trajectories with starting point q, for sufficiently small times, minimize length in Mnhq!, D. Martín de Diego and A. Anahory Simoes acknowledge financial support from the Spanish Ministry of Science and Innovation, under grants PID2019-106715GB-C21 and ?Severo OchoaProgramme for Centres of Excellence in R&D? (CEX2019-000904-S). A. Anahory Simoes is supported by the FCT (Portugal) research fellowship SFRH/BD/129882/2017 partially funded by the European Union (ESF). J.C. Marrero acknowledges the partial support by European Union (Feder) grant PGC2018-098265-B-C32.

Published

2020

15. Mesures d’indépendance linéaire de logarithmes dans un groupe algébrique commutatif dans le cas rationnel

Author

François Ballaÿ

Subjects

Combinatorics, Hyperplane, General Mathematics, Algebraic group, Tangent space, Lie group, Vector bundle, Linear independence, Exponential map (Riemannian geometry), Linear subspace, Mathematics

Abstract

We establish new measures of linear independence of logarithms on a commutative algebraic group. Let G be a connected commutative algebraic group over Q−− and let tG be the tangent space at the origin. We consider a vector u∈tG⊗Q−C such that its image by the exponential map of the Lie group G(C) is an algebraic point p∈G(Q−−). Let V be a hyperplane in tG. We obtain lower bounds for the distance d(u,V) between u and V⊗Q−C in the rational case, where V=tH is the tangent space at the origin of an algebraic connected subgroup of G. These lower bounds are the best currently known in terms of the height h(p) of p. They generalize measures of linear forms in logarithms previously obtained by Gaudron. Our approach is based on new arguments which allow us to exclude the so-called periodic case in the demonstration, by revisiting previous work of Bertrand and Philippon. Our proofs also rely on tools from Bost’s slope theory of hermitian vector bundles. Moreover, we present ultrametric analogues of our results, and we deal with the case where V=tH is a linear subspace of any dimension.

Published

2019

16. On the indivisibility of derived Kato’s Euler systems and the main conjecture for modular forms

Author

Hae-Sang Sun, Myoungil Kim, and Chan Ho Kim

Subjects

Pure mathematics, Conjecture, Mathematics::Number Theory, General Mathematics, 010102 general mathematics, Modular form, Good prime, General Physics and Astronomy, 01 natural sciences, Image (mathematics), symbols.namesake, Simple (abstract algebra), Euler's formula, symbols, Congruence (manifolds), 0101 mathematics, Exponential map (Riemannian geometry), Mathematics

Abstract

We provide a simple and efficient numerical criterion to verify the Iwasawa main conjecture and the indivisibility of derived Kato’s Euler systems for modular forms of weight two at any good prime under mild assumptions. In the ordinary case, the criterion works for all members of a Hida family once and for all. The key ingredient is the explicit computation of the integral image of the derived Kato’s Euler systems under the dual exponential map. We provide explicit new examples at the end. This work does not appeal to the Eisenstein congruence method at all.

Published

2020

17. Measures of goodness of fit obtained by almost-canonical transformations on Riemannian manifolds

Author

Peter E. Jupp, Alfred Kume, and University of St Andrews. Statistics

Subjects

Statistics and Probability, Pure mathematics, Uniform distribution (continuous), T-NDAS, Directional statistics, 02 engineering and technology, Compositional data, 01 natural sciences, 010104 statistics & probability, Goodness of fit, Probability integral transform, 0202 electrical engineering, electronic engineering, information engineering, QA Mathematics, 0101 mathematics, Exponential map (Riemannian geometry), QA, Mathematics, Numerical Analysis, Simplex, Shape space, Isotropy, 020206 networking & telecommunications, Exponential map, Distribution (mathematics), Statistics, Probability and Uncertainty, Cartan-Hadamard manifold

Abstract

The standard method of transforming a continuous distribution on the line to the uniform distribution on [ 0 , 1 ] is the probability integral transform. Analogous transforms exist on compact Riemannian manifolds, X , in that for each distribution with continuous positive density on X , there is a continuous mapping of X to itself that transforms the distribution into the uniform distribution. In general, this mapping is far from unique. This paper introduces the construction of an almost-canonical version of such a probability integral transform. The construction is extended to shape spaces, Cartan–Hadamard manifolds, and simplices. The probability integral transform is used to derive tests of goodness of fit from tests of uniformity. Illustrative examples of these tests of goodness of fit are given involving (i) Fisher distributions on S 2 , (ii) isotropic Mardia–Dryden distributions on the shape space Σ 2 5 . Their behaviour is investigated by simulation.

Published

2020

18. Clustering Brain-Network Time Series by Riemannian Geometry

Author

David S. Wack, Jean M. Vettel, Sarah F. Muldoon, Henry E. Baidoo-Williams, Matthew Cieslak, Konstantinos Slavakis, Shiva Salsabilian, and Scott T. Grafton

Subjects

Computer Networks and Communications, Computer science, 020206 networking & telecommunications, 02 engineering and technology, Fundamental theorem of Riemannian geometry, Riemannian geometry, Riemannian manifold, Topology, Manifold, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, symbols, Mathematics::Differential Geometry, Information geometry, Cluster analysis, Exponential map (Riemannian geometry), 030217 neurology & neurosurgery, Information Systems, Scalar curvature

Abstract

This paper advocates Riemannian multi-manifold modeling for network-wide time-series analysis: Dynamic brain-network data yield features which are viewed as points in or close to a union of a finite number of submanifolds of a Riemannian manifold. Distinguishing disparate time series amounts then to clustering multiple Riemannian submanifolds. To this end, two feature-generation schemes for network-wide dynamic time series are put forth. The first one is motivated by Granger-causality arguments and uses an auto-regressive moving average model to map low-rank linear vector subspaces, spanned by column vectors of observability matrices, to points into the Grassmann manifold. The second one utilizes (non-linear) dependencies among network nodes by introducing kernel-based partial correlations to generate points in the manifold of positive-definite matrices. Capitalizing on recently developed research on Riemannian-submanifold clustering, an algorithm is provided to differentiate time series based on their Riemannian-geometry properties. Extensive numerical tests on synthetic and real fMRI data demonstrate that the proposed framework outperforms classical and state-of-the-art techniques in clustering brain-network states/structures.

Published

2018

19. Skew symmetric logarithms and geodesics on O n (ℝ)

Author

Donato Pertici and Alberto Dolcetti

Subjects

Pure mathematics, Geodesic, Group (mathematics), 010102 general mathematics, 02 engineering and technology, Space (mathematics), 01 natural sciences, Manifold, Metric (mathematics), 0202 electrical engineering, electronic engineering, information engineering, Skew-symmetric matrix, 020201 artificial intelligence & image processing, Geometry and Topology, Orthogonal matrix, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics

Abstract

We investigate the connections between the differential-geometric properties of the exponential map from the space of real skew symmetric matrices onto the group of real special orthogonal matrices and the manifold of real orthogonal matrices equipped with the Riemannian structure induced by the Frobenius metric.

Published

2018

20. A Bug’s Eye View: The Riemannian Exponential Map on Polyhedral Surfaces

Author

David Glickenstein

Subjects

Surface (mathematics), business.industry, Computer science, General Mathematics, Perspective (graphical), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer Science::Software Engineering, Cloaking, Polyhedron, History and Philosophy of Science, First person, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, Tangent space, Computer Science::Programming Languages, Computer vision, Artificial intelligence, Exponential map (Riemannian geometry), business, Computer Science::Operating Systems, MathematicsofComputing_DISCRETEMATHEMATICS, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

We explore the perspective of a bug living on the two-dimensional surface of a polyhedron. Images of various kinds of effects like lensing and cloaking are shown via color pictures of three viewpoints: the first person perspective of the bug, a map of the bug's viewpoint, and a look at the bug on the embedded polyhedron from a three-dimensional exterior viewer. The pictures were constructed by computing the exponential map of a polyhedron by cutting and rotating faces into the tangent plane of the bug.

Published

2018

21. Linking curves, sutured manifolds and the Ambrose conjecture for generic 3-manifolds

Author

Pablo Angulo

Subjects

Pure mathematics, Lemma (mathematics), Conjecture, Geodesic, Parallel transport, Matemáticas, Applied Mathematics, 010102 general mathematics, Dimension (graph theory), Conjugate points, Topology, Mathematics::Geometric Topology, 01 natural sciences, Manifold, 010101 applied mathematics, Discrete Mathematics and Combinatorics, Mathematics::Differential Geometry, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Analysis, Mathematics

Abstract

We present a new strategy for proving the Ambrose conjecture, a global version of the Cartan local lemma. We introduce the concepts of linking curves, unequivocal sets and sutured manifolds, and show that any sutured manifold satisfies the Ambrose conjecture. We then prove that the set of sutured Riemannian manifolds contains a residual set of the metrics on a given smooth manifold of dimension $3$.

Published

2018

22. Mean and Median of PSD Matrices on a Riemannian Manifold: Application to Detection of Narrow-Band Sonar Signals

Author

Huiying Jiang, Kon Max Wong, Jian-Kang Zhang, and Jiaping Liang

Subjects

Geodesic, 020206 networking & telecommunications, 02 engineering and technology, Riemannian manifold, Topology, Pseudo-Riemannian manifold, Manifold, Statistical manifold, symbols.namesake, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, Tangent space, symbols, 020201 artificial intelligence & image processing, Mathematics::Differential Geometry, Information geometry, Electrical and Electronic Engineering, Exponential map (Riemannian geometry), Mathematics

Abstract

The rich information in the power spectral density (PSD) matrix of a received signal can be extracted in different ways for various purposes in signal processing. Care, however, must be taken when distances between PSD matrices are considered because these matrices form a Riemannian manifold in the signal space. In this paper, two Riemannian distances (RD) are introduced for the measurement of distances between PSD matrices on the manifold. The principle by which the geodesics on the manifold can be lifted to a Euclidean subspace isometric with the tangent space of the manifold is also explained and emphasized. This leads to the concept that any optimization involving the RD on the manifold can be equivalently performed in this Euclidean subspace. The application of this principle is illustrated by the development of iterative algorithms to find the Riemannian means and Riemannian medians according to the two RD. These distance measures are then applied to the detection of narrow-band sonar signals. Exploration of the translation of measure reference as well as the application of optimum weighting show substantial improvement in detection performance over classical detection method.

Published

2017

23. Riemannian Optimal Control and Model Matching of Linear Port-Hamiltonian Systems

Author

Kazuhiro Sato

Subjects

0209 industrial biotechnology, Closed manifold, Invariant manifold, 02 engineering and technology, Topology, Pseudo-Riemannian manifold, Computer Science Applications, Statistical manifold, symbols.namesake, 020901 industrial engineering & automation, Control and Systems Engineering, 0202 electrical engineering, electronic engineering, information engineering, symbols, Hermitian manifold, Applied mathematics, 020201 artificial intelligence & image processing, Mathematics::Differential Geometry, Information geometry, Electrical and Electronic Engineering, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Ricci curvature, Mathematics

Abstract

This paper presents a unified controller design method for $H^2$ optimal control and model matching problems of linear port-Hamiltonian systems. The controller design problems are formulated as optimization problems on the product manifold of the set of skew symmetric matrices, the manifold of the symmetric positive definite matrices, and Euclidean space. A Riemannian metric is chosen for the manifold in such a manner that the manifold is geodesically complete, i.e., the domain of the exponential map is the whole tangent space for every point on the manifold. In order to solve these problems, the Riemannian gradients of the objective functions are derived, and these gradients are used to develop a Riemannian steepest descent method on the product manifold. The geodesic completeness of the manifold guarantees that all points generated by the steepest descent method are on the manifold. Numerical experiments illustrate that our method is able to solve the two specified problems.

Published

2017

24. Necessary conditions and nonexistence results for connected submanifolds in a Riemannian manifold

Author

Keomkyo Seo

Subjects

Mean curvature flow, 010505 oceanography, General Mathematics, Prescribed scalar curvature problem, 010102 general mathematics, Mathematical analysis, Riemannian manifold, 01 natural sciences, Minimal volume, Mathematics::Differential Geometry, Sectional curvature, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Ricci curvature, 0105 earth and related environmental sciences, Mathematics, Scalar curvature

Abstract

In this paper, we derive density estimates for submanifolds with variable mean curvature in a Riemannian manifold with sectional curvature bounded above by a constant. This leads to distance estimates for the boundaries of compact connected submanifolds. As applications, we give several necessary conditions and nonexistence results for compact connected minimal submanifolds, Bryant surfaces, and surfaces with small L 2 norm of the mean curvature vector in a Riemannian manifold.

Published

2017

25. Fast Single-Image Super-Resolution Via Tangent Space Learning of High-Resolution-Patch Manifold

Author

Chinh Dang and Hayder Radha

Subjects

Parallelizable manifold, Geodesic, Euclidean space, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 020206 networking & telecommunications, 02 engineering and technology, Topology, Pseudo-Riemannian manifold, Manifold, Computer Science Applications, Computational Mathematics, symbols.namesake, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, symbols, Tangent space, Local tangent space alignment, 020201 artificial intelligence & image processing, Exponential map (Riemannian geometry), ComputingMethodologies_COMPUTERGRAPHICS, Mathematics

Abstract

Manifold assumption has been used in example-based super-resolution (SR) reconstruction from a single frame. Previous manifold-based SR approaches (more generally example-based SR) mainly focus on analyzing the co-occurrence properties of low-resolution and high-resolution patches. This paper develops a novel single-image SR approach based on linear approximation of the high-resolution-patch space using a sparse subspace clustering algorithm. The approach exploits the underlying high-resolution patches nonlinear space by considering it as a low-dimensional manifold in a high-dimensional Euclidean space, and by considering each training high-resolution-patch as a sample from the manifold. We utilize the sparse subspace clustering algorithm to create the set of low-dimensional linear spaces that are considered, approximately, as tangent spaces at the high-resolution samples. Furthermore, we consider and analyze each tangent space as one point in a Grassmann manifold, which helps to compute geodesic pairwise distances among these tangent spaces. An optimal subset of these tangent spaces is then selected using a min-max algorithm. The optimal subset reduces the computational cost in comparison with using the full set of tangent spaces while still preserving the quality of the high-resolution image reconstruction. In addition, we perform hierarchical clustering on the optimal subset based on the geodesic distance, which helps to further achieve much faster SR algorithm. We also analytically prove the validity of the geodesic distance based clustering under the proposed framework. A comparison of the obtained results with other related methods in both high-resolution image quality and computational complexity clearly indicates the viability of the proposed framework.

Published

2017

26. Liouville type theorem about p-harmonic function and p-harmonic map with finite L q -energy

Author

Xiangzhi Cao

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, 010102 general mathematics, Mathematical analysis, Harmonic map, Riemannian manifold, Submanifold, 01 natural sciences, Liouville number, Harmonic function, 0103 physical sciences, Mathematics::Differential Geometry, 010307 mathematical physics, 0101 mathematics, Complex manifold, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Ricci curvature, Mathematics

Abstract

This paper deals with the p-harmonic function on a complete non-compact submanifold M isometrically immersed in an (n + k)-dimensional complete Riemannian manifold $$\overline M $$ of non-negative (n−1)-th Ricci curvature. The Liouville type theorem about the p-harmonic map with finite L q -energy from complete submanifold in a partially non-negatively curved manifold to non-positively curved manifold is also obtained.

Published

2017

27. A note on Riemannian connections with skew torsion and the de Rham splitting

Author

Antonio Lotta and Giulia Dileo

Subjects

Pure mathematics, General Mathematics, 010102 general mathematics, Mathematical analysis, Holonomy, Riemannian manifold, Fundamental theorem of Riemannian geometry, Mathematics::Geometric Topology, 01 natural sciences, Levi-Civita connection, symbols.namesake, 0103 physical sciences, symbols, Mathematics::Differential Geometry, 010307 mathematical physics, Sectional curvature, 0101 mathematics, Exponential map (Riemannian geometry), Metric connection, Scalar curvature, Mathematics

Abstract

We prove that a Riemannian manifold admitting a metric connection with totally skew-symmetric torsion and reducible holonomy is locally reducible, provided it has nonpositive sectional curvature.

Published

2017

28. On the problem of geodesic mappings and deformations of generalized Riemannian spaces

Author

Marija S. Najdanović

Subjects

Geodesic deviation, Geodesic, Applied Mathematics, Infinitesimal, 010102 general mathematics, Mathematical analysis, Geodesic map, 01 natural sciences, Riemannian space, 010101 applied mathematics, Mathematics::Metric Geometry, Equidistant, Mathematics::Differential Geometry, 0101 mathematics, Exponential map (Riemannian geometry), Solving the geodesic equations, Analysis, Mathematics

Abstract

This paper is devoted to a study of geodesic mappings and infinitesimal geodesic deformations of generalized Riemannian spaces. While a geodesic mapping between two generalized Riemannian spaces any geodesic line of one space sends to a geodesic line of the other space, under an infinitesimal geodesic deformation any geodesic line is mapped to a curve approximating a geodesic with a given precision. Basic equations of the theory of geodesic mappings in the case of generalized Riemannian spaces are obtained in this paper. A new generalization of the famous Levi Civita's equation is found. Necessary and sufficient conditions for a nontrivial infinitesimal geodesic deformation are given. It is proven that a generalized Riemannian space admits nontrivial infinitesimal geodesic deformations if and only if it admits nontrivial geodesic mappings. At last it is shown that generalized equidistant spaces of primary type admit nontrivial geodesic deformations.

Published

2017

29. PSL(2, ℂ), the exponential and some new free groups

Author

Daniel Panazzolo, Institut de Recherche Mathématique Avancée (IRMA), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), and Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))

Subjects

Mathematics::Dynamical Systems, Generalization, General Mathematics, [MATH.MATH-DS]Mathematics [math]/Dynamical Systems [math.DS], Dynamical Systems (math.DS), Group Theory (math.GR), PSL, 01 natural sciences, Combinatorics, Mathematics::Group Theory, 0103 physical sciences, Classical Analysis and ODEs (math.CA), FOS: Mathematics, Finitary, Mathematics - Dynamical Systems, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics, Conjecture, Group (mathematics), 010102 general mathematics, Mathematics - Logic, Exponential function, Mathematics - Classical Analysis and ODEs, 37C10 (Primary), 20L05, 20E05, 03H05 (Secondary), [MATH.MATH-AG]Mathematics [math]/Algebraic Geometry [math.AG], 010307 mathematical physics, Affine transformation, Logic (math.LO), Mathematics - Group Theory

Abstract

We prove a normal form result for the groupoid of germs generated by PSL(2,C) and the exponential map. As consequences, we generalize a result of Cohen about the group of translations and powers, and prove that the subgroup of Homeo(R,+infinity) generated by the positive affine maps and the exponential map is isomorphic to a HNN-extension., 47 pages, revised and corrected version accepted for publication

Published

2017

30. Self-adjointness of perturbed biharmonic operators on Riemannian manifolds

Author

Ognjen Milatovic

Subjects

Curvature of Riemannian manifolds, General Mathematics, 010102 general mathematics, Mathematical analysis, Riemannian manifold, 01 natural sciences, 010101 applied mathematics, Laplace–Beltrami operator, Hermitian manifold, Mathematics::Differential Geometry, Sectional curvature, 0101 mathematics, Exponential map (Riemannian geometry), Ricci curvature, Scalar curvature, Mathematics

Abstract

We give a sufficient condition for the essential self-adjointness of a perturbed biharmonic-type operator acting on sections of a Hermitian vector bundle on a geodesically complete Riemannian manifold with Ricci curvature bounded from below by a (possibly unbounded) non-positive function depending on the distance from a reference point. We also establish the separation property in the case when the corresponding operator acts on functions.

Published

2017

31. On the scarcity of non-totally geodesic complete spacelike hypersurfaces of constant mean curvature in a Lie group with bi-invariant Lorentzian metric

Author

Luis J. Alías and A. Caminha

Subjects

Pure mathematics, Riemann curvature tensor, Mean curvature flow, 010102 general mathematics, Mathematical analysis, Riemannian manifold, Curvature, 01 natural sciences, symbols.namesake, Computational Theory and Mathematics, 0103 physical sciences, symbols, Curvature form, Mathematics::Differential Geometry, 010307 mathematical physics, Geometry and Topology, 0101 mathematics, Exponential map (Riemannian geometry), Analysis, Ricci curvature, Mathematics, Scalar curvature

Abstract

The results of this paper can be viewed as giving a sort of heuristic explanation of why it is so hard to give examples of non-totally geodesic, complete, spacelike, constant mean curvature hypersurfaces M n of a Lorentzian group G n + 1 . More precisely, let N be a timelike unit vector field on M and suppose that the Ricci curvature of G in the direction of N is greater than or equal to − H 2 n , where H is the mean curvature of M with respect to N. If M is compact and transversal to a timelike element of the Lie algebra of G, then we show that it is a lateral class of a Lie subgroup of G and, as such, totally geodesic in G. If M is noncompact and parabolic, then we get the same result, provided M has bounded hyperbolic Gauss map. We also discuss some related examples and, along the way, give a simple proof of the parabolicity of a Riemannian product of a compact and a parabolic Riemannian manifold.

Published

2017

32. Iteration-Complexity of Gradient, Subgradient and Proximal Point Methods on Riemannian Manifolds

Author

Jefferson G. Melo, Orizon P. Ferreira, and Glaydston de Carvalho Bento

Subjects

Pure mathematics, 021103 operations research, Control and Optimization, Curvature of Riemannian manifolds, Applied Mathematics, Mathematical analysis, 0211 other engineering and technologies, 010103 numerical & computational mathematics, 02 engineering and technology, Management Science and Operations Research, Riemannian manifold, Riemannian geometry, 01 natural sciences, Manifold, Statistical manifold, symbols.namesake, symbols, Proximal Gradient Methods, Mathematics::Differential Geometry, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Subgradient method, Mathematics

Abstract

This paper considers optimization problems on Riemannian manifolds and analyzes the iteration-complexity for gradient and subgradient methods on manifolds with nonnegative curvatures. By using tools from Riemannian convex analysis and directly exploring the tangent space of the manifold, we obtain different iteration-complexity bounds for the aforementioned methods, thereby complementing and improving related results. Moreover, we also establish an iteration-complexity bound for the proximal point method on Hadamard manifolds.

Published

2017

33. Convexity and Some Geometric Properties

Author

Paulo Alexandre Araujo Sousa, João Xavier da Cruz Neto, and Ítalo Melo

Subjects

Mathematics - Differential Geometry, Pure mathematics, Control and Optimization, Invariant manifold, 0211 other engineering and technologies, 02 engineering and technology, Management Science and Operations Research, 01 natural sciences, Pseudo-Riemannian manifold, symbols.namesake, FOS: Mathematics, Hermitian manifold, Sectional curvature, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics - Optimization and Control, Mathematics::Symplectic Geometry, Ricci curvature, Mathematics, 021103 operations research, Applied Mathematics, 010102 general mathematics, Mathematical analysis, Mathematics::Geometric Topology, Statistical manifold, Differential Geometry (math.DG), Optimization and Control (math.OC), symbols, Mathematics::Differential Geometry, Scalar curvature

Abstract

The main goal of this paper is to present results of existence and non-existence of convex functions on Riemannian manifolds and, in the case of the existence, we associate such functions to the geometry of the manifold. Precisely, we prove that the conservativity of the geodesic flow on a Rieman- nain manifold with infinite volume is an obstruction to the existence of convex functions. Next, we present a geometric condition that ensures the existence of (strictly) convex functions on a particular class of complete non-compact man- ifolds, and, we use this fact to construct a manifold whose sectional curvature assumes any real value greater than a negative constant and admits a strictly convex function. In the last result we relate the geometry of a Riemannian manifold of positive sectional curvature with the set of minimum points of a convex function defined on the manifold.

Published

2017

34. Liouville-type theorems for CC-harmonic maps from Riemannian manifolds to pseudo-Hermitian manifolds

Author

Yibin Ren, Yuxin Dong, and Tian Chong

Subjects

Pure mathematics, Closed manifold, 010102 general mathematics, Mathematical analysis, Invariant manifold, Mathematics::Geometric Topology, 01 natural sciences, Pseudo-Riemannian manifold, Statistical manifold, symbols.namesake, 0103 physical sciences, symbols, Hermitian manifold, Mathematics::Differential Geometry, 010307 mathematical physics, Geometry and Topology, 0101 mathematics, Complex manifold, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Analysis, Ricci curvature, Mathematics

Abstract

In this paper, we introduce a horizontal energy functional for maps from a Riemannian manifold to a pseudo-Hermitian manifold. The critical maps of this functional will be called CC-harmonic maps. Under suitable curvature conditions on the domain manifold, some Liouville-type theorems are established for CC-harmonic maps from a complete Riemannian manifold to a pseudo-Hermitian manifold by assuming either growth conditions of the horizontal energy or an asymptotic condition at the infinity for the maps.

Published

2017

35. A finite deformation membrane based on inter-atomic potentials for the transverse mechanics of nanotubes

Author

Marino Arroyo, Ted Belytschko, Universitat Politècnica de Catalunya. Departament de Matemàtica Aplicada III, and Universitat Politècnica de Catalunya. LACÀN - Mètodes Numèrics en Ciències Aplicades i Enginyeria

Subjects

Engineering, Civil, Materials science, Born rule, Carbon nanotubes, Engineering, Multidisciplinary, Interatomic potential, Física::Física de l'estat sòlid [Àrees temàtiques de la UPC], Carbon nanotube, Deformation (meteorology), Curvature, Quasicontinuum, law.invention, law, General Materials Science, Engineering, Ocean, Exponential map (Riemannian geometry), Instrumentation, Engineering, Aerospace, Engineering, Biomedical, Continuum mechanics, Nanotubes, Carbon, Membrane, Mechanics, Elasticity (physics), Computer Science, Software Engineering, Engineering, Marine, Crystal elasticity, Exponential map, Engineering, Manufacturing, Engineering, Mechanical, Classical mechanics, Mechanics of Materials, Finite strain theory, Nanotubs de carboni, Engineering, Industrial

Abstract

A finite deformation hyper-elastic membrane theory based on inter-atomic potentials for crystalline films composed of a single atomic layer is developed. For this purpose, an extension of the standard Born rule that exploits the differential geometry concept of the exponential map is proposed to deal with the curvature of surfaces. The exponential map is approximated locally and strain measures based on the stretch and the curvature of the membrane arise. The methodology is first particularized to atomic chains in two dimensions, and then to graphene sheets. A reduced model for the transverse mechanics of carbon nanotubes is developed in detail. This model is a hyper-elastic constrained membrane which fully exploits the symmetry of the transverse deformation. Additionally, a continuum version of the non-bonded interactions is provided. The continuum model is discretized using finite elements and very good agreement with molecular mechanics simulations is obtained. Finally, several simulations illustrate the strong effect of the van der Waals interactions in the transverse deformation of carbon nanotubes.

Published

2020

36. Julia sets of Zorich maps

Author

Athanasios Tsantaris

Subjects

Mathematics::Dynamical Systems, Mathematics - Complex Variables, Applied Mathematics, General Mathematics, Escaping set, Disjoint sets, Dynamical Systems (math.DS), Julia set, Exponential function, Combinatorics, FOS: Mathematics, Uncountable set, Symmetry (geometry), Mathematics - Dynamical Systems, Complex Variables (math.CV), Exponential map (Riemannian geometry), Complex plane, Mathematics

Abstract

The Julia set of the exponential family $E_{\kappa}:z\mapsto\kappa e^z$, $\kappa>0$ was shown to be the entire complex plane when $\kappa>1/e$ essentially by Misiurewicz. Later, Devaney and Krych showed that for $0, Comment: 33 pages, 3 figures, final version, to appear in Ergodic theory and Dynamical Systems

Published

2020

37. Holomorphic Path Integrals in Tangent Space for Flat Manifolds

Author

Guillermo Capobianco and Walter Reartes

Subjects

Pure mathematics, 53Z05, 81S40, Holomorphic function, Hilbert space, Propagator, FOS: Physical sciences, Mathematical Physics (math-ph), Riemannian manifold, symbols.namesake, Tangent space, symbols, Cotangent bundle, Geometry and Topology, Configuration space, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Mathematical Physics, Mathematics

Abstract

Here we study the quantum evolution in a flat Riemannian manifold. The holomorphic functions are defined on the cotangent bundle of this manifold. We construct Hilbert spaces of holomorphic functions in which the scalar product is defined using the exponential map. The quantum evolution is proposed by means of an infinitesimal propagator and the holomorphic Feynman integral is developed via the exponential map. The integration corresponding to each step of the Feynman integral is performed in the tangent space. Moreover, the method proposed in this paper naturally takes into account paths that must be included in the development of the corresponding Feynman integral. In the last section we apply our quantization method to the case when the configuration space is a space form, and we show the evolution operator as a composition of infinitesimal evolution operators.

Published

2020

38. Dense images of the power maps for a disconnected real algebraic group

Author

Arunava Mandal

Subjects

Algebra and Number Theory, Group (mathematics), Image (category theory), 010102 general mathematics, Chatterjee, Group Theory (math.GR), 01 natural sciences, Power (physics), Combinatorics, Set (abstract data type), Algebraic group, 0103 physical sciences, FOS: Mathematics, 010307 mathematical physics, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics - Group Theory, Mathematics

Abstract

Let $G$ be a complex algebraic group defined over $\mathbb R$, which is not necessarily Zariski connected. In this article, we study the density of the images of the power maps $g\to g^k$, $k\in\mathbb N$, on real points of $G$, i.e., $G(\mathbb R)$ equipped with the real topology. As a result, we extend a theorem of P. Chatterjee on surjectivity of the power map for the set of semisimple elements of $G(\mathbb R)$. We also characterize surjectivity of the power map for a disconnected group $G(\mathbb R)$. The results are applied in particular to describe the image of the exponential map of $G(\mathbb R).$, Comment: Final version to appear in J. Group Theory

Published

2020

39. Empirical Means on Pseudo-Orthogonal Groups

Author

Huafei Sun, Simone Fiori, and Jing Wang

Subjects

Geodesic, Group (mathematics), General Mathematics, Computation, lcsh:Mathematics, Matrix norm, 020206 networking & telecommunications, 02 engineering and technology, lcsh:QA1-939, pseudo-orthogonal group, Metric (mathematics), 0202 electrical engineering, electronic engineering, information engineering, Computer Science (miscellaneous), pseudo-riemannian geometry, geodesic stepping, Applied mathematics, 020201 artificial intelligence & image processing, Numerical tests, gradient-based function minimization on manifolds, Exponential map (Riemannian geometry), Engineering (miscellaneous), Mathematics

Abstract

The present article studies the problem of computing empirical means on pseudo-orthogonal groups. To design numerical algorithms to compute empirical means, the pseudo-orthogonal group is endowed with a pseudo-Riemannian metric that affords the computation of the exponential map in closed forms. The distance between two pseudo-orthogonal matrices, which is an essential ingredient, is computed by both the Frobenius norm and the geodesic distance. The empirical-mean computation problem is solved via a pseudo-Riemannian-gradient-stepping algorithm. Several numerical tests are conducted to illustrate the numerical behavior of the devised algorithm.

Published

2019

40. Extended stochastic derivative-free optimization on riemannian manifolds

Author

Peter Tino and Robert Simon Fong

Subjects

Pure mathematics, Finite volume method, Generalization, 0102 computer and information sciences, 02 engineering and technology, Riemannian manifold, 01 natural sciences, Riemann hypothesis, symbols.namesake, 010201 computation theory & mathematics, Euclidean geometry, Derivative-free optimization, Convergence (routing), 0202 electrical engineering, electronic engineering, information engineering, symbols, 020201 artificial intelligence & image processing, Mathematics::Differential Geometry, Exponential map (Riemannian geometry), Mathematics

Abstract

In this work we study the generalization of Stochastic Derivative-Free Optimization (SDFO) algorithms from Euclidean spaces to Riemannian manifolds. In the literature, Riemannian adaptations of SDFO relies on the Riemannian exponential map, which imposes local restrictions. We aim to address this restriction using only the intrinsic geometry of the Riemannian manifold. We first propose Riemannian SDFO (RSDFO), a generalized framework for adapting SDFO algorithms on Euclidean spaces to Riemannian manifolds. We then propose a novel algorithm --- Extended RSDFO, and discuss its convergence behaviour on finite volume Riemann manifolds.

Published

2019

41. Global aspects of doubled geometry and pre-rackoid

Author

Shin Sasaki and Noriaki Ikeda

Subjects

High Energy Physics - Theory, Mathematics - Differential Geometry, Pure mathematics, Sigma model, Infinitesimal, 010102 general mathematics, Structure (category theory), FOS: Physical sciences, Statistical and Nonlinear Physics, Mathematical Physics (math-ph), 01 natural sciences, Manifold, Courant algebroid, High Energy Physics - Theory (hep-th), Differential Geometry (math.DG), 0103 physical sciences, Metric (mathematics), FOS: Mathematics, 010307 mathematical physics, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Realization (systems), Mathematical Physics, Mathematics

Abstract

The integration problem of a C-bracket and a Vaisman (metric, pre-DFT) algebroid which are geometric structures of double field theory (DFT) is analyzed. We introduce a notion of a pre-rackoid as a global group-like object for an infinitesimal algebroid structure. We propose that several realizations of pre-rackoid structures. One realization is that elements of a pre-rackoid are defined by cotangent paths along doubled foliations in a para-Hermitian manifold. Another realization is proposed as a formal exponential map of the algebroid of DFT. We show that the pre-rackoid reduces to a rackoid that is the integration of the Courant algebroid when the strong constraint of DFT is imposed. Finally, for a physical application, we exhibit an implementation of the (pre-)rackoid in a three-dimensional topological sigma model., 31 pages, 1 figure, version appeared in JMP

Published

2021

42. A differential-geometric analysis of the Bergman representative map

Author

Sungmin Yoo

Subjects

Mathematics - Differential Geometry, Tangent bundle, Mathematics::Functional Analysis, Pure mathematics, Geometric analysis, Mathematics - Complex Variables, Mathematics::Complex Variables, Generalization, General Mathematics, Connection (vector bundle), Holomorphic function, 32C15 (Primary), 53B35, 53C55 (Secondary), Differential Geometry (math.DG), FOS: Mathematics, Mathematics::Differential Geometry, Complex Variables (math.CV), Complex manifold, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Bergman metric, Mathematics

Abstract

We show that the exponential map of the Bochner connection on the restricted holomorphic tangent bundle of a complex manifold admitting the positive-definite Bergman metric coincides with the inverse of Bergman's representative map. We also present a generalization of the Lu theorem, as an application.

Published

2017

43. The orbit intersection problem for linear spaces and semiabelian varieties

Author

Dragos Ghioca and Khoa D. Nguyen

Subjects

Root of unity, General Mathematics, 010102 general mathematics, 01 natural sciences, Combinatorics, Matrix (mathematics), Intersection, 0103 physical sciences, Tangent space, 010307 mathematical physics, 0101 mathematics, Orbit (control theory), Variety (universal algebra), Exponential map (Riemannian geometry), Eigenvalues and eigenvectors, Mathematics

Abstract

Let f1, f2 : CN −→ CN be affine maps fi(x) := Aix + yi (where each Ai is an N -by-N matrix and yi ∈ CN ), and let x1,x2 ∈ AN (C) such that xi is not preperiodic under the action of fi for i = 1, 2. If none of the eigenvalues of the matrices Ai is a root of unity, then we prove that the set {(n1, n2) ∈ N0 : f n1 1 (x1) = f n2 2 (x2)} is a finite union of sets of the form {(m1k + `1,m2k + `2) : k ∈ N0} where m1,m2, `1, `2 ∈ N0. Using this result, we prove that for any two self-maps Φi(x) := Φi,0(x) + yi on a semiabelian variety X defined over C (where Φi,0 ∈ End(X) and yi ∈ X(C)), if none of the eigenvalues of the induced linear action DΦi,0 on the tangent space at 0 ∈ X is a root of unity (for i = 1, 2), then for any two non-preperiodic points x1, x2, the set {(n1, n2) ∈ N0 : Φ n1 1 (x1) = Φ n2 2 (x2)} is a finite union of sets of the form {(m1k + `1,m2k + `2) : k ∈ N0} where m1,m2, `1, `2 ∈ N0. We give examples to show that the above condition on eigenvalues is necessary and introduce certain geometric properties that imply such a condition. Our method involves an analysis of certain systems of polynomial-exponential equations and the padic exponential map for semiabelian varieties.

Published

2017

44. On completeness of groups of diffeomorphisms

Author

François-Xavier Vialard and Martins Bruveris

Subjects

Pure mathematics, Group (mathematics), Applied Mathematics, General Mathematics, 010102 general mathematics, 01 natural sciences, Manifold, 010101 applied mathematics, Sobolev space, Surjective function, Completeness (order theory), Order (group theory), Diffeomorphism, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Mathematics

Abstract

We study completeness properties of the Sobolev diffeomorphism groups Ds(M) endowed with strong right-invariant Riemannian metrics when the underlying manifold M is ℝd or compact without boundary. The main result is that for dim M/2 + 1, the group Ds (M) is geodesically and metrically complete with a surjective exponential map. We also extend the result to its closed subgroups, in particular the group of volume preserving diffeomorphisms and the group of symplectomorphisms. We then present the connection between the Sobolev diffeomorphism group and the large deformation matching framework in order to apply our results to diffeomorphic image matching.

Published

2017

45. A Riemannian Gradient Sampling Algorithm for Nonsmooth Optimization on Manifolds

Author

Seyedehsomayeh Hosseini and André Uschmajew

Subjects

021103 operations research, Mathematical analysis, 0211 other engineering and technologies, 010103 numerical & computational mathematics, 02 engineering and technology, Subderivative, Riemannian geometry, Lipschitz continuity, 01 natural sciences, Stationary point, Theoretical Computer Science, symbols.namesake, Iterated function, Tangent space, symbols, Differentiable function, ddc:510, 0101 mathematics, Exponential map (Riemannian geometry), Algorithm, Software, Mathematics

Abstract

In this paper, an optimization method for nonsmooth locally Lipschitz functions on complete Riemannian manifolds is presented. The method is based on approximating the subdifferential of the cost function at every iteration by the convex hull of transported gradients from tangent spaces at randomly generated nearby points to the tangent space of the current iterate and can hence be seen as a generalization of the well known gradient sampling algorithm to a Riemannian setting. A convergence result is obtained under the assumption that the cost function is bounded below and continuously differentiable on an open set of full measure and that the employed vector transport and retraction satisfy certain conditions, which hold, for instance, for the exponential map and parallel transport. Then with probability one the algorithm produces iterates at which the cost function is differentiable, and each cluster point of the iterates is a Clarke stationary point. Modifications yielding only $\varepsilon$-stationary ...

Published

2017

46. First eigenvalue lower bound of the Laplacian operator on a compact Riemannian manifold

Author

Paul Bracken

Subjects

Pure mathematics, Closed manifold, General Mathematics, Riemannian manifold, Dirac operator, Topology, Pseudo-Riemannian manifold, symbols.namesake, Laplace–Beltrami operator, symbols, Hermitian manifold, Exponential map (Riemannian geometry), Ricci curvature, Mathematics

Published

2017

47. Slant Riemannian maps from an almost contact manifold

Author

Rajendra Prasad and Shashikant Pandey

Subjects

Riemannian submersion, General Mathematics, Mathematics::History and Overview, Mathematical analysis, Fundamental theorem of Riemannian geometry, Riemannian geometry, Mathematics::Geometric Topology, Pseudo-Riemannian manifold, Sasakian manifold, symbols.namesake, Computer Science::Computer Vision and Pattern Recognition, symbols, Hermitian manifold, Mathematics::Differential Geometry, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Scalar curvature, Mathematics

Abstract

In the present paper, we introduce slant Riemannian maps from an almost contact manifold to Riemannian manifolds. We obtain the existence condition of slant Riemannian maps from an almost contact manifold to Riemannian manifolds. Moreover, we find the necessary and sufficient condition for slant Riemannian map to be totally geodesic and investigate the harmonicity of slant Riemannian maps from Sasakian manifold to Riemannian manifolds. Finally, we obtain a decomposition theorem for the total manifolds and also provide some examples of such maps.

Published

2017

48. Geodesic Mappings Onto Riemannian Manifolds and Differentiability

Author

Irena Hinterleitner and Josef Mikeš

Subjects

Pure mathematics, Geodesic, Applied Mathematics, Geodesic map, Riemannian geometry, Topology, Mathematics::Geometric Topology, symbols.namesake, Ricci-flat manifold, symbols, Mathematics::Differential Geometry, Geometry and Topology, Differentiable function, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Mathematical Physics, Mathematics

Abstract

In this paper we study fundamental equations of geodesic mappings of manifolds with affine connection onto (pseudo-)Riemannian manifolds. We proved that if a manifold with affine (or projective) connection of differentiability class $C^r (r\geq2)$ admits a geodesic mapping onto a (pseudo-)Riemannian manifold of class $C^1$, then this manifold belongs to the differentiability class $C^{r+1}$. From this result follows if an Einstein spaces admits non-trivial geodesic mappings onto (pseudo-)Riemannian manifolds of class $C^1$ then this manifold is an Einstein space, and there exists a common coordinate system in which the components of the metric of these Einstein manifolds are real analytic functions.

Published

2017

49. On anti-invariant Riemannian submersions whose total manifolds are locally product Riemannian

Author

Fatma Özdemir, Hakan Mete Taştan, and Cem Sayar

Subjects

Pure mathematics, Riemannian submersion, Mathematics::Complex Variables, 010102 general mathematics, Mathematical analysis, Riemannian geometry, Fundamental theorem of Riemannian geometry, 01 natural sciences, 010101 applied mathematics, symbols.namesake, Ricci-flat manifold, symbols, Mathematics::Differential Geometry, Geometry and Topology, Information geometry, 0101 mathematics, Invariant (mathematics), Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Mathematics, Scalar curvature

Abstract

In this paper, we study Riemannian, anti-invariant and Lagrangian submersions from locally product Riemannian manifolds onto Riemannian manifolds. We first give a characterization theorem for Riemannian submersions. It is proved that the fibers of a Lagrangian submersion are always totally geodesic. We also consider the first variational formula of anti-invariant Riemannian submersions and give a new condition for the harmonicity of such submersions.

Published

2016

50. The Ricci flow as a geodesic on the manifold of Riemannian metrics

Author

Hajar Ghahremani-Gol and Asadollah Razavi

Subjects

Control and Optimization, Riemannian submersion, Applied Mathematics, 010102 general mathematics, Mathematical analysis, Ricci flow, Fundamental theorem of Riemannian geometry, 01 natural sciences, Pseudo-Riemannian manifold, symbols.namesake, 0103 physical sciences, symbols, Mathematics::Metric Geometry, Hermitian manifold, Mathematics::Differential Geometry, 010307 mathematical physics, 0101 mathematics, Exponential map (Riemannian geometry), Mathematics::Symplectic Geometry, Analysis, Ricci curvature, Scalar curvature, Mathematics

Abstract

The Ricci flow is an evolution equation in the space of Riemannian metrics.A solution for this equation is a curve on the manifold of Riemannian metrics. In this paper we introduce a metric on the manifold of Riemannian metrics such that the Ricci flow becomes a geodesic.We show that the Ricci solitons introduce a special slice on the manifold of Riemannian metrics.

Published

2016