Search results for "Dynamic problem"

showing 10 items of 11 documents

Perimeter symmetrization of some dynamic and stationary equations involving the Monge-Ampère operator

2017

We apply the perimeter symmetrization to a two-dimensional pseudo-parabolic dynamic problem associated to the Monge-Ampere operator as well as to the second order elliptic problem which arises after an implicit time discretization of the dynamical equation. Curiously, the dynamical problem corresponds to a third order operator but becomes a singular second order parabolic equation (involving the 3-Laplacian operator) in the class of radially symmetric convex functions. Using symmetrization techniques some quantitative comparison estimates and several qualitative properties of solutions are given.

DiscretizationMathematical analysisPerimeter symmetrizationPseudoparabolic dynamic Monge-Ampère equationThird orderOperator (computer programming)Dynamic problemSettore MAT/05 - Analisi MatematicaTwo-dimensional domainSymmetrizationOrder (group theory)AmpereConvex functionMathematics
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Learning about Dynamic Problems with Computer Simulators: A Case of System Dynamics Simulation Models

2008

A vast body of research shows that people by and large fail to understand and manage dynamic environments. Given the increasing complexity of our world, there is an urgent need to develop more effective ways to present dynamic problems. Many studies propose computer simulators as virtual learning environments to help people understand and manage complex problems. Still, experimental data show that simulators often carry problems from reality into the virtual laboratory. An analysis from the perspective of cognitive load theory suggests that learning about complex problems could be improved by enhancing descriptions with simulation elements that would facilitate interactive exploration of th…

Dynamic problemHuman–computer interactionVirtual machineComputer scienceVirtual LaboratoryVirtual learning environmentcomputer.software_genrecomputerJava appletCognitive loadTechnology managementSystem dynamics2008 Eighth IEEE International Conference on Advanced Learning Technologies
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Extension of the line element-less method to dynamic problems

2020

The line element-less method is an efficient approach for the approximate solution of the Laplace or biharmonic equation on a general bidimensional domain. Introducing generalized harmonic polynomials as approximation functions, we extend the line element-less method to the inhomogeneous Helmholtz equation and to the eigenvalue problem for the Helmholtz equation. The obtained approximate solutions are critically discussed and advantages as well as limitations of the approach are pointed out.

Helmholtz equationLaplace transformLine elementMechanical EngineeringHarmonic (mathematics)02 engineering and technologyLaplace equationLine element-less methodCondensed Matter Physics01 natural sciences020303 mechanical engineering & transports0203 mechanical engineeringDynamic problemMechanics of Materials0103 physical sciencesLine (geometry)Biharmonic equationApplied mathematicsHelmholtz equationSettore ICAR/08 - Scienza Delle Costruzioni010301 acousticsEigenvalues and eigenvectorsMathematics
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ROBUST CONTROL STRATEGIES FOR MULTI—INVENTORY SYSTEMS WITH AVERAGE FLOW CONSTRAINTS

2006

Abstract In this paper we consider multi—inventory systems in presence of uncertain demand. We assume that i) demand is unknown but bounded in an assigned compact set and ii) the control inputs (controlled flows) are subject to assigned constraints. Given a long—term average demand, we select a nominal flow that feeds such a demand. In this context, we are interested in a control strategy that meets at each time all possible current demands and achieves the nominal flow in the average. We provide necessary and sufficient conditions for such a strategy to exist and we characterize the set of achievable flows. Such conditions are based on linear programming and thus they are constructive. In …

Inventory controlMathematical optimizationManufacturing systemLinear programmingBounded disturbancesBounded disturbanceBounded disturbances; Inventory control; Linear programming; Manufacturing systems; Robust controlRobust controlContext (language use)General MedicineDynamic problemFlow (mathematics)Inventory control Robust control Bounded disturbances Manufacturing systems Linear programming.Control and Systems EngineeringControl theoryBounded functionLinear programmingSettore MAT/09 - Ricerca OperativaManufacturing systemsElectrical and Electronic EngineeringSpecial caseRobust controlMathematicsInventory control
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Reliability-based design optimization of trusses under dynamic shakedown constraints

2019

A reliability-based design optimization problem under dynamic shakedown constraints for elastic perfectly plastic truss structures subjected to stochastic wind actions is presented. The simultaneous presence of quasi-static (cyclic) thermal loads is also considered. As usual in the shakedown theory, the quasi-statical loads will be defined as variable within a deterministic domain, while the dynamic problem will be treated considering an extended Ceradini-Gavarini approach. Some sources of uncertainties are introduced in the structural system and in the load definition. The reliability-optimization problem is formulated as the minimization of the volume of the structure subjected to determi…

Mathematical optimizationControl and OptimizationOptimization problemComputer scienceMonte Carlo methodStructural system0211 other engineering and technologiesTruss02 engineering and technology0203 mechanical engineeringDynamic problemReliability-based designDynamic shakedownReliability (statistics)021106 design practice & managementElastic plastic trusseProbabilistic logicComputer Science Applications1707 Computer Vision and Pattern RecognitionComputer Graphics and Computer-Aided DesignComputer Science ApplicationsShakedown020303 mechanical engineering & transportsControl and Systems EngineeringSettore ICAR/08 - Scienza Delle CostruzioniSoftwareStochastic wind loadStructural and Multidisciplinary Optimization
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Maintaining Dynamic Minimum Spanning Trees: An Experimental Study

2010

AbstractWe report our findings on an extensive empirical study on the performance of several algorithms for maintaining minimum spanning trees in dynamic graphs. In particular, we have implemented and tested several variants of the polylogarithmic algorithm by Holm et al., sparsification on top of Frederickson’s algorithm, and other (less sophisticated) dynamic algorithms. In our experiments, we considered as test sets several random, semi-random and worst-case inputs previously considered in the literature together with inputs arising from real-world applications (e.g., a graph of the Internet Autonomous Systems).

Random graphSpanning treeExperimental analysisMinimum spanning tree algorithmsbusiness.industryApplied MathematicsExperimental analysis; Minimum spanning tree algorithms; Dynamic graphsMinimum spanning treeGraphDistributed minimum spanning treedynamic graphs; experimental analysis; minimum spanning tree algorithmsEmpirical researchDynamic problemDiscrete Mathematics and CombinatoricsThe InternetbusinessSettore ING-INF/05 - Sistemi di Elaborazione delle InformazioniAlgorithmMathematicsDynamic graphs
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Fully Dynamic Evaluation of Sequence Pair

2013

In the electronic design automation field, as well as in other areas, problem instances and solutions are often subject to discrete changes. The foundational significance of efficient updates of the criterion value after dynamic updates, instead of recomputing it from scratch each time, has attracted a lot of research. In this paper, motivated by the significance of the sequence pair (SP) representation for floorplanning, we develop a fully dynamic algorithm of SP evaluation, that efficiently updates a criterion value after insertions and deletions of SP elements and after modifications of element weights. Our result is based on a new data structure for the predecessor problem, which mainta…

SequenceTheoretical computer scienceSequential logicDynamic problemComputer scienceElectrical and Electronic EngineeringRepresentation (mathematics)Data structureComputer Graphics and Computer-Aided DesignAlgorithmSoftwareField (computer science)FloorplanIEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
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A Problem Structuring Method

1991

Given a formal definition of problem and a formal definition of system, the equivalence between both concepts is studied. Considering a problem as a 3-tuple , where D is the set of possible data, R is the set of possible results, and P the set of conditions of the problem, classes of problems are constructed as combinations of types of data, types of results and types of conditions. For example, data can be either literal or numerical, either with uncertainty or not; conditions can be determined by rules, tables, equations, it may have uncertainty, etc. As a case of application it is outlined how some of the most common problems (knowledge representation, search, reasoning and planning, etc…

Theoretical computer scienceKnowledge representation and reasoningSystems theoryUncertain dataDynamic problemComputer scienceEquivalence (formal languages)StructuringData typeComputer Science::DatabasesFormal description
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A one-dimensional model for dynamic analysis of generally layered magneto-electro-elastic beams

2013

Abstract A new one-dimensional model for the dynamic problem of magneto-electro-elastic generally laminated beams is presented. The electric and magnetic fields are assumed to be quasi-static and a first-order shear beam theory is used. The electro-magnetic problem is first solved in terms of the mechanical variables, then the equations of motion are written leading to the problem governing equations. They involve the same terms of the elastic dynamic problem weighted by effective stiffness coefficients, which take the magneto-electro-mechanical couplings into account. Additional terms, which involve the third spatial derivative of the transverse displacement, also occur as a result of the …

Timoshenko beam theoryFrequency responseEngineeringAcoustics and Ultrasonicsbusiness.industryMechanical EngineeringMathematical analysisEquations of motionStructural engineeringCondensed Matter PhysicsFinite element methodMagnetic fieldVibrationsmart beams laminated beams magnetoelectroelastic laminatesDynamic problemMechanics of MaterialsBending momentbusinessSettore ING-IND/04 - Costruzioni E Strutture Aerospaziali
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An equivalent single-layer model for magnetoelectroelastic multilayered plate dynamics

2012

Abstract An equivalent single-layer model for the dynamic analysis of magnetoelectroelastic laminated plates is presented. The electric and magnetic fields are assumed to be quasi-static and the first-order shear deformation theory is used. The formulation of the model provides for a preliminary fulfillment of the electro-magnetic governing equations, which allows to determine the electric and magnetic potential as functions of the mechanical variables. Then, by using this result, the equations of motion are written leading to the problem governing equations. They involve the same terms of the elastic dynamic problem weighted by effective stiffness coefficients, which take the magneto-elect…

Vibration of platesEngineeringbusiness.industryAnalytical solutionMathematical analysisEquations of motionFree vibrationPiezoelectricityMagnetic fieldVibrationForced vibrationClassical mechanicsDynamic problemCeramics and CompositesBending momentMagnetic potentialbusinessSmart laminated plateSettore ING-IND/04 - Costruzioni E Strutture AerospazialiCivil and Structural Engineering
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