Search results for "Duffing equation"

showing 6 items of 6 documents

On the number of solutions of a Duffing equation

1991

The exact number of solutions of a Duffing equation with small forcing term and homogeneous Neumann boundary conditions is given. Several bifurcation diagrams are shown.

Applied MathematicsGeneral MathematicsMathematical analysisGeneral Physics and AstronomyDuffing equationBifurcation diagramNonlinear Sciences::Chaotic DynamicsBifurcation theoryNeumann boundary conditionInitial value problemCalculus of variationsBoundary value problemNonlinear Sciences::Pattern Formation and SolitonsBifurcationMathematicsZAMP Zeitschrift f�r angewandte Mathematik und Physik
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Pseudo-force method for a stochastic analysis of nonlinear systems

1996

Nonlinear systems, driven by external white noise input processes and handled by means of pseudo-force theory, are transformed through simple coordinate transformation to quasi-linear systems. By means of Itô stochastic differential calculus for parametric processes, a finite hierarchy for the moment equations of these systems can be exactly obtained. Applications of this procedure to the first-order differential equation with cubic nonlinearity and to the Duffing oscillator show the versatility of the proposed method. The accuracy of the proposed procedure improves by making use of the classical equivalent linearization technique.

Differential equationStochastic processNumerical analysisMechanical EngineeringMathematical analysisDuffing equationAerospace EngineeringStatistical and Nonlinear PhysicsDifferential calculusOcean EngineeringWhite noiseCondensed Matter PhysicCondensed Matter PhysicsNonlinear systemNuclear Energy and EngineeringLinearizationMathematicsStatistical and Nonlinear PhysicCivil and Structural Engineering
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Non-linear systems under delta correlated processes handled by perturbation theory

1998

Statistical responses in terms of moment and correlation functions of non-linear systems driven by non-normal delta correlated external pulses are derived. The procedure takes full advantage of the perturbation theory approach. Then, by means of a proper coordinate transformation, the system is replaced by a quasi-linear system for which the statistical quantities can be exactly found.

Mechanical EngineeringDirect methodNumerical analysisCoordinate systemAerospace EngineeringDuffing equationOcean EngineeringStatistical and Nonlinear PhysicsCondensed Matter PhysicsMoment (mathematics)Nonlinear systemClassical mechanicsNuclear Energy and EngineeringRandom vibrationStatistical physicsPerturbation theoryCivil and Structural EngineeringMathematics
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On the Stochastic Response of a Fractionally-damped Duffing Oscillator

2012

A numerical method is presented to compute the response of a viscoelastic Duffing oscillator with fractional derivative damping, subjected to a stochastic input. The key idea involves an appropriate discretization of the fractional derivative, based on a preliminary change of variable, that allows to approximate the original system by an equivalent system with additional degrees of freedom, the number of which depends on the discretization of the fractional derivative. Unlike the original system that, due to the presence of the fractional derivative, is governed by non-ordinary differential equations, the equivalent system is governed by ordinary differential equations that can be readily h…

Numerical AnalysisDiscretizationDifferential equationApplied MathematicsNumerical analysisMathematical analysisStochastic responseDuffing equationViscoelasticityFractional calculusNumerical integrationModeling and SimulationOrdinary differential equationFractional derivative dampingSeries expansionSettore ICAR/08 - Scienza Delle CostruzioniMathematics
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Non-linear systems under impulsive parametric input

1999

In this paper the problem of the response of non-linear systems excited by an impulsive parametric input is treated. For such systems the response exhibits a jump depending on the amplitude of the impulse as well as on the value of the state variables immediately before the impulse occurrence. Recently, the jump prediction has been obtained in a series form. Here the incremental rule for any scalar real valued function is obtained in an analytical form involving the jump of the state variables. It is also shown that the formulation for the jump evaluation is also able to give a new step-by-step integration technique.

State variableApplied MathematicsMechanical EngineeringNumerical analysisDuffing equationImpulse (physics)Nonlinear systemReal-valued functionMechanics of MaterialsControl theoryJumpApplied mathematicsMathematicsParametric statistics
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Stochastic seismic analysis of multidegree of freedom systems

1984

Abstract A unconditionally stable step-by-step procedure is proposed to evaluate the mean square response of a linear system with several degrees of freedom, subjected to earthquake ground motion. A non-stationary modulated random process, obtained as the product of a deterministic time envelope function and a stationary noise, is used to simulate earthquake acceleration. The accuracy of the procedure and its extension to nonlinear systems are discussed. Numerical examples are given for a hysteretic system, a duffing oscillator and a linear system with several degrees of freedom.

Stochastic processMathematical analysisLinear systemDegrees of freedom (statistics)stochastic analysisDuffing equationAcceleration (differential geometry)earthquakes; probability theory; stochastic analysisSeismic analysisNonlinear systemEarthquake simulationControl theoryprobability theoryearthquakesCivil and Structural EngineeringMathematics
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