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HamiltonJacobi Formulation of Supermembrane
 EJTP 12, NO. 33 (2015) 149–154 ELECTRONIC JOURNAL OF THEORETICAL PHYSICS
, 2015
"... The HamiltonJacobi formalism of constrained systems is applied to Supermembrane system. The equations of motion for a singular system are obtained as total differential equations in many variables. These equations of motion are in exact agreement with those obtained by Dirac’s method. ..."
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The HamiltonJacobi formalism of constrained systems is applied to Supermembrane system. The equations of motion for a singular system are obtained as total differential equations in many variables. These equations of motion are in exact agreement with those obtained by Dirac’s method.
Fronts propagating with curvature dependent speed: algorithms based on Hamilton–Jacobi formulations
, 1988
"... We devise new numerical algorithms, called PSC algorithms, for following fronts propagating with curvaturedependent speed. The speed may be an arbitrary function of curvature, and the front also can be passively advected by an underlying flow. These algorithms approximate the equations of motion, w ..."
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Cited by 1167 (60 self)
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, which resemble HamiltonJacobi equations with parabolic righthand sides, by using techniques from hyperbolic conservation laws. Nonoscillatory schemes of various orders of accuracy are used to solve the equations, providing methods that accurately capture the formation of sharp gradients and cusps
HamiltonJacobi Formulation of KS Entropy for Classical and Quantum Dynamics
, 2001
"... A HamiltonJacobi formulation of the Lyapunov spectrum and KS entropy is developed. It is numerically efficient and reveals a close relation between the KS invariant and the classical action. This formulation is extended to the quantum domain using the MadelungBohm orbits associated with the Schroe ..."
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A HamiltonJacobi formulation of the Lyapunov spectrum and KS entropy is developed. It is numerically efficient and reveals a close relation between the KS invariant and the classical action. This formulation is extended to the quantum domain using the MadelungBohm orbits associated
The Gauged O(3) Sigma Model: Schrödinger Representation and HamiltonJacobi Formulation
, 2003
"... We first study a free particle on an (n − 1)sphere in an extended phase space, where the originally secondclass Hamiltonian and constraints are now in strong involution. This allows for a Schrödinger representation and a HamiltonJacobi formulation of the model. We thereby obtain the free particle ..."
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We first study a free particle on an (n − 1)sphere in an extended phase space, where the originally secondclass Hamiltonian and constraints are now in strong involution. This allows for a Schrödinger representation and a HamiltonJacobi formulation of the model. We thereby obtain the free
HamiltonJacobi formulation for reachavoid problems with an application to air traffic management
 Amer. Cont. Conf
"... Abstract. A new framework for formulating reachability problems with competing inputs, nonlinear dynamics and state constraints as optimal control problems is developed. Such reachavoid problems arise in, among others, the study of safety problems in hybrid systems. Earlier approaches to reachavoi ..."
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Cited by 4 (0 self)
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Abstract. A new framework for formulating reachability problems with competing inputs, nonlinear dynamics and state constraints as optimal control problems is developed. Such reachavoid problems arise in, among others, the study of safety problems in hybrid systems. Earlier approaches to reach
(Analyse numérique/Numerical Analysis) A Vector HamiltonJacobi Formulation for the Numerical Simulation of Euler Flows
"... Abstract. A Vector HamiltonJacobi formulation of the Euler equations for fluids is studied numerically. The long term objective is to find the sentivity of a flow with respect to a parameter, which is solution of the linearized Euler equations with Dirac singularities in the initial conditions. A ..."
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Abstract. A Vector HamiltonJacobi formulation of the Euler equations for fluids is studied numerically. The long term objective is to find the sentivity of a flow with respect to a parameter, which is solution of the linearized Euler equations with Dirac singularities in the initial con
A timedependent HamiltonJacobi formulation of reachable sets for continuous dynamic games
 IEEE TRANSACTIONS ON AUTOMATIC CONTROL
, 2005
"... We describe and implement an algorithm for computing the set of reachable states of a continuous dynamic game. The algorithm is based on a proof that the reachable set is the zero sublevel set of the viscosity solution of a particular timedependent Hamilton–Jacobi–Isaacs partial differential equati ..."
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Cited by 97 (25 self)
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We describe and implement an algorithm for computing the set of reachable states of a continuous dynamic game. The algorithm is based on a proof that the reachable set is the zero sublevel set of the viscosity solution of a particular timedependent Hamilton–Jacobi–Isaacs partial differential
Electronic Journal of Theoretical Physics HamiltonJacobi Formulation of A NonAbelian YangMills Theories
"... Abstract: A nonAbelian theory of fermions interacting with gauge bosons is treated as a constrained system using the HamiltonJacobi approach. The equations of motion are obtained as total differential equations in many variables. The integability conditions are satisfied, and the set of equations ..."
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Abstract: A nonAbelian theory of fermions interacting with gauge bosons is treated as a constrained system using the HamiltonJacobi approach. The equations of motion are obtained as total differential equations in many variables. The integability conditions are satisfied, and the set of equations
Results 1  10
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99,996