Dr Dante Kalise

Tonon D, Aronna MS, Kalise D, 2017, Optimal Control: Novel Directions and Applications Preface, OPTIMAL CONTROL: NOVEL DIRECTIONS AND APPLICATIONS, Editors: Tonon, Aronna, Kalise, Publisher: SPRINGER-VERLAG BERLIN, Pages: VII-VIII, ISBN: 978-3-319-60770-2

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• Citations: 1

Fuentes E, Kalise D, Kennel RM, 2016, Smoothened Quasi-Time-Optimal Control for the Torsional Torque in a Two-Mass System, IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, Vol: 63, Pages: 3954-3963, ISSN: 0278-0046

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Braun P, Hernandez E, Kalise D, 2016, Reduced-order LQG control of a Timoshenko beam model, BULLETIN OF THE BRAZILIAN MATHEMATICAL SOCIETY, Vol: 47, Pages: 143-155, ISSN: 1678-7544

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• Citations: 3

Alla A, Falcone M, Kalise D, 2016, A HJB-POD feedback synthesis approach for the wave equation, BULLETIN OF THE BRAZILIAN MATHEMATICAL SOCIETY, Vol: 47, Pages: 51-64, ISSN: 1678-7544

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• Citations: 4

Albi G, Bongini M, Cristiani E, Kalise Det al., 2016, INVISIBLE CONTROL OF SELF-ORGANIZING AGENTS LEAVING UNKNOWN ENVIRONMENTS, SIAM JOURNAL ON APPLIED MATHEMATICS, Vol: 76, Pages: 1683-1710, ISSN: 0036-1399

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• Citations: 62

Kalise D, Kroener A, Kunisch K, 2016, LOCAL MINIMIZATION ALGORITHMS FOR DYNAMIC PROGRAMMING EQUATIONS, SIAM JOURNAL ON SCIENTIFIC COMPUTING, Vol: 38, Pages: A1587-A1615, ISSN: 1064-8275

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• Citations: 9

Bongini M, Fornasier M, Kalise D, 2015, (UN)CONDITIONAL CONSENSUS EMERGENCE UNDER PERTURBED AND DECENTRALIZED FEEDBACK CONTROLS, DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS, Vol: 35, Pages: 4071-4094, ISSN: 1078-0947

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• Citations: 25

Bokanowski O, Falcone M, Ferretti R, Gruene L, Kalise D, Zidani Het al., 2015, VALUE ITERATION CONVERGENCE OF ε-MONOTONE SCHEMES FOR STATIONARY HAMILTON-JACOBI EQUATIONS, DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS, Vol: 35, Pages: 4041-4070, ISSN: 1078-0947

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• Citations: 13

Alla A, Falcone M, Kalise D, 2015, An accelerated value/policy iteration scheme for optimal control problems and games, Lecture Notes in Computational Science and Engineering, Vol: 103, Pages: 489-497, ISSN: 1439-7358

We present an accelerated algorithm for the solution of static Hamilton-Jacobi-Bellman equations related to optimal control problems and differential games. The new scheme combines the advantages of value iteration and policy iteration methods by means of an efficient coupling. The method starts with a value iteration phase on a coarse mesh and then switches to a policy iteration procedure over a finer mesh when a fixed error threshold is reached.We present numerical tests assessing the performance of the scheme.

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Alla A, Falcone M, Kalise D, 2015, An accelerated value/policy iteration scheme for optimal control problems and games, Lecture Notes in Computational Science and Engineering, Vol: 103, Pages: 489-497, ISSN: 1439-7358

We present an accelerated algorithm for the solution of static Hamilton-Jacobi-Bellman equations related to optimal control problems and differential games. The new scheme combines the advantages of value iteration and policy iteration methods by means of an efficient coupling. The method starts with a value iteration phase on a coarse mesh and then switches to a policy iteration procedure over a finer mesh when a fixed error threshold is reached.We present numerical tests assessing the performance of the scheme.

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Alla A, Falcone M, Kalise D, 2015, AN EFFICIENT POLICY ITERATION ALGORITHM FOR DYNAMIC PROGRAMMING EQUATIONS, SIAM JOURNAL ON SCIENTIFIC COMPUTING, Vol: 37, Pages: A181-A200, ISSN: 1064-8275

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• Citations: 45

Falcone M, Kalise D, 2014, A high-order semi-Lagrangian/finite volume scheme for Hamilton-Jacobi-Isaacs equations, IFIP Advances in Information and Communication Technology, Vol: 443, Pages: 105-117, ISSN: 1868-4238

© IFIP International Federation for Information Processing 2014. We present a numerical scheme for the approximation of Hamilton-Jacobi-Isaacs equations related to optimal control problems and differential games. In the first case, the Hamiltonian is convex with respect to the gradient of the solution, whereas the second case corresponds to a non convex (minmax) operator. We introduce a scheme based on the combination of semi-Lagrangian time discretization with a high-order finite volume spatial reconstruction. The high-order character of the scheme provides an efficient way towards accurate approximations with coarse grids. We assess the performance of the scheme with a set of problems arising in minimum time optimal control and pursuit-evasion games.

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Fuentes E, Kalise D, Rodriguez J, Kennel RMet al., 2014, Cascade-Free Predictive Speed Control for Electrical Drives, IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, Vol: 61, Pages: 2176-2184, ISSN: 0278-0046

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• Citations: 110

Kalise D, 2014, A WENO-TVD FINITE VOLUME SCHEME FOR THE APPROXIMATION OF ATMOSPHERIC PHENOMENA, 14th International Conference devoted to Theory, Numerics and Applications of Hyperbolic Problems (HYP), Publisher: AMER INST MATHEMATICAL SCIENCES-AIMS, Pages: 717-724

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Kalise D, Lie I, 2012, Modeling and numerical approximation of a 2.5D set of equations for mesoscale atmospheric processes, JOURNAL OF COMPUTATIONAL PHYSICS, Vol: 231, Pages: 7274-7298, ISSN: 0021-9991

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• Citations: 2

Hernandez E, Kalise D, Otarola E, 2011, A locking-free scheme for the LQR control of a Timoshenko beam, JOURNAL OF COMPUTATIONAL AND APPLIED MATHEMATICS, Vol: 235, Pages: 1383-1393, ISSN: 0377-0427

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• Citations: 8

Hernandez E, Kalise D, Otarola E, 2010, Numerical approximation of the LQR problem in a strongly damped wave equation, COMPUTATIONAL OPTIMIZATION AND APPLICATIONS, Vol: 47, Pages: 161-178, ISSN: 0926-6003

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• Citations: 4

Martínez C, Kalise D, Barros LF, 2010, General requirement for harvesting antennae at ca and h channels and transporters., Front Neuroenergetics, Vol: 2

The production and dissipation of energy in cells is intimately linked to the movement of small molecules in and out of enzymes, channels, and transporters. An analytical model of diffusion was described previously, which was used to estimate local effects of these proteins acting as molecular sources. The present article describes a simple but more general model, which can be used to estimate the local impact of proteins acting as molecular sinks. The results show that the enzymes, transporters, and channels, whose substrates are present at relatively high concentrations like ATP, Na(+), glucose, lactate, and pyruvate, do not operate fast enough to deplete their vicinity to a meaningful extent, supporting the notion that for these molecules the cytosol is a well-mixed compartment. One specific consequence of this analysis is that the well-documented cross-talk existing between the Na(+)/K(+) ATPase and the glycolytic machinery should not be explained by putative changes in local ATP concentration. In contrast, Ca2(+) and H(+) transporters like the Na(+)/Ca2(+) exchanger NCX and the Na(+)/H(+) exchanger NHE, show experimental rates of transport that are two to three orders of magnitude faster than the rates at which the aqueous phase may possibly feed their binding sites. This paradoxical result implies that Ca2(+) and H(+) transporters do not extract their substrates directly from the bulk cytosol, but from an intermediate "harvesting" compartment located between the aqueous phase and the transport site.

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