Search results for "singular"

showing 10 items of 589 documents

Symmetric Galerkin Boundary Element Methods

1998

This review article concerns a methodology for solving numerically, for engineering purposes, boundary and initial-boundary value problems by a peculiar approach characterized by the following features: the continuous formulation is centered on integral equations based on the combined use of single-layer and double-layer sources, so that the integral operator turns out to be symmetric with respect to a suitable bilinear form. The discretization is performed either on a variational basis or by a Galerkin weighted residual procedure, the interpolation and weight functions being chosen so that the variables in the approximate formulation are generalized variables in Prager’s sense. As main con…

DiscretizationMechanical EngineeringMathematical analysisBoundary (topology)Singular integralGalerkin methodSingular boundary methodBoundary knot methodBoundary element methodFinite element methodMathematicsApplied Mechanics Reviews
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The indirect force method

1990

Abstract It is known that the matrix force method shows some advantages over the displacement method for certain classes of problems, particularly in optimization and in the stress concentration analysis. Notwithstanding this, few efforts have been made to employ this method in engineering problems. In this paper, within the elastic analysis of frames and trusses, the indirect force method, utilizing beam-node type finite elements, is proposed. This method is based on the kinematical and mechanical study of nodes and of beams, the latter connected with the nodes by their first extremes according to a preliminary arrangement. In this formulation kinematical singularities are included, in the…

DiscretizationMechanical EngineeringMathematical analysisFrame (networking)Structure (category theory)TrussGeometryFinite element methodComputer Science ApplicationsMatrix (mathematics)Modeling and SimulationGeneral Materials ScienceGravitational singularityCivil and Structural EngineeringEquation solvingMathematicsComputers & Structures
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Mappings of finite distortion: Removable singularities for locally homeomorphic mappings

2004

Let f be a locally homeomorphic mapping of finite distortion in dimension larger than two. We show that when the distortion of f satisfies a certain subexponential integrability condition, small sets are removable. The smallness is measured by a weighted modulus.

Distortion (mathematics)Dimension (vector space)Applied MathematicsGeneral MathematicsMathematical analysisModulusGravitational singularityMathematicsProceedings of the American Mathematical Society
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Mappings of finite distortion: Removable singularities

2003

We show that certain small sets are removable for bounded mappings of finite distortion for which the distortion function satisfies a suitable subexponential integrability condition. We also give an example demonstrating the sharpness of this condition.

Distortion (mathematics)Distortion functionGeneral MathematicsBounded functionMathematical analysisGravitational singularityAlgebra over a fieldRemovable singularityMathematicsIsrael Journal of Mathematics
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Stochastic response determination of structural systems modeled via dependent coordinates: a frequency domain treatment based on generalized modal an…

2019

Generalized independent coordinates are typically utilized within an analytical dynamics framework to model the motion of structural and mechanical engineering systems. Nevertheless, for complex systems, such as multi-body structures, an explicit formulation of the equations of motion by utilizing generalized, independent, coordinates can be a daunting task. In this regard, employing a set of redundant coordinates can facilitate the formulation of the governing dynamics equations. In this setting, however, standard response analysis techniques cannot be applied in a straightforward manner. For instance, defining and determining a transfer function within a frequency domain response analysis…

Dynamical systems theoryComputer scienceMechanical EngineeringModal analysisEquations of motion02 engineering and technologyCondensed Matter Physics01 natural sciencesTransfer functionAnalytical dynamicsTransfer function matrixMatrix (mathematics)Power spectral density matrix020303 mechanical engineering & transports0203 mechanical engineeringMechanics of MaterialsFrequency domain0103 physical sciencesAnalytical dynamicApplied mathematicsRandom vibration010301 acousticsSingular matrix
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Polar motion prediction using the combination of SSA and Copula-based analysis

2018

The real-time estimation of polar motion (PM) is needed for the navigation of Earth satellite and interplanetary spacecraft. However, it is impossible to have real-time information due to the complexity of the measurement model and data processing. Various prediction methods have been developed. However, the accuracy of PM prediction is still not satisfactory even for a few days in the future. Therefore, new techniques or a combination of the existing methods need to be investigated for improving the accuracy of the predicted PM. There is a well-introduced method called Copula, and we want to combine it with singular spectrum analysis (SSA) method for PM prediction. In this study, first, we…

Earth satellite010504 meteorology & atmospheric scienceslcsh:GeodesyPolar motion010502 geochemistry & geophysics01 natural sciencesCopula (probability theory)Prediction methodsddc:550Applied mathematicsEOPSSASingular spectrum analysis0105 earth and related environmental sciencespolar motionData processinglcsh:QB275-343Full Paperlcsh:QE1-996.5lcsh:Geography. Anthropology. RecreationGeologyInternational Earth Rotation and Reference Systems ServiceMatemática Aplicadaprediction550 Geowissenschaftenlcsh:Geologylcsh:GCopulaSpace and Planetary SciencePolar motionPredictionHybrid modelEarth, Planets and Space
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Role of Levinson’s theorem in neutron-deuteron quartetS-wave scattering

1990

The real part of the phase shift for elastic neutron-deuteron scattering in the quartet {ital S} wave channel, as calculated with the exact three-body theory, assumes at threshold the value {pi} if normalized to zero at infinity; that is, it does not comply with the expectations raised by a naive application of Levinson's theorem since no bound state exists in this channel. A description of this situation on an equivalent two-body level via a potential, constructed by means of the Marchenko inverse scattering theory, necessitates the introduction of a fictitious bound state. This predominantly attractive, equivalent local potential can be related via supersymmetry to a strictly phase equiva…

Elastic scatteringPhysicsMany-body problemNuclear and High Energy PhysicsSingularityScatteringQuantum mechanicsInverse scattering problemBound stateSupersymmetryScattering theoryPhysical Review C
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Elastoplastic analysis by the multidomain Symmetric Boundary Element Method

2009

Elastoplasticity Symmetric Boundary Element Method Multidomain Approach Singular Domain IntegralSettore ICAR/08 - Scienza Delle Costruzioni
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Vacuum Casimir energy densities and field divergences at boundaries

2014

We consider and review the emergence of singular energy densities and field fluctuations at sharp boundaries or point-like field sources in the vacuum. The presence of singular energy densities of a field may be relevant from a conceptual point of view, because they contribute to the self-energy of the system. They should also generate significant gravitational effects. We first consider the case of the interface between a metallic boundary and the vacuum, and obtain the structure of the singular electric and magnetic energy densities at the interface through an appropriate limit from a dielectric to an ideal conductor. Then, we consider the case of a point-like source of the electromagneti…

Electromagnetic fieldPhysicsHigh Energy Physics - Theoryvacuum fluctuationQuantum PhysicsMagnetic energyFOS: Physical sciencesfield energy densitiesCondensed Matter PhysicsGravitationCasimir effectCasimir effectsymbols.namesakeHigh Energy Physics - Theory (hep-th)Quantum electrodynamicssymbolsGeneral Materials ScienceGravitational singularityHamiltonian (quantum mechanics)Quantum Physics (quant-ph)Scalar fieldQuantum fluctuation
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Highly efficient full-wave electromagnetic analysis of 3-D arbitrarily shaped waveguide microwave devices using an integral equation technique

2015

A novel technique for the full-wave analysis of 3-D complex waveguide devices is presented. This new formulation, based on the Boundary Integral-Resonant Mode Expansion (BI-RME) method, allows the rigorous full-wave electromagnetic characterization of 3-D arbitrarily shaped metallic structures making use of extremely low CPU resources (both time and memory). The unknown electric current density on the surface of the metallic elements is represented by means of Rao-Wilton-Glisson basis functions, and an algebraic procedure based on a singular value decomposition is applied to transform such functions into the classical solenoidal and nonsolenoidal basis functions needed by the original BI-RM…

Electromagnetic fieldSolenoidal vector fieldbusiness.industryAcousticsBoundary (topology)Basis functionCondensed Matter PhysicsIntegral equationlaw.inventionOpticslawSingular value decompositionGeneral Earth and Planetary SciencesElectrical and Electronic EngineeringCoaxialbusinessWaveguideMathematicsRadio Science
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