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Paper detail

Max-Plus Representation for the Fundamental Solution of the Time-Varying Differential Riccati Equation

Using the tools of optimal control, semiconvex duality and \maxp algebra, this work derives a unifying representation of the solution for the matrix differential Riccati equation (DRE) with time-varying coefficients. It is based upon a special case of the \maxp fundamental solution, first proposed in \cite{FlemMac}. Such fundamental solution can extend a special solution of certain bivariate DRE into the general solution, and can analytically solve the DRE starting from any initial condition. This paper also shows that under a fixed duality kernel, the semiconvex dual of a DRE solution satisfies another dual DRE, whose coefficients satisfy the matrix compatibility conditions involving Hamiltonian and certain symplectic matrices. For the time invariant DRE, this allows us to make dual DRE linear and thereby solve the primal DRE analytically. This paper also derives various kernel/duality relationships between the primal and time shifted dual DREs, which leads to an array of DRE solutions. Time invariant analogue of one of these methods was first proposed in \cite{Funda}.

preprint2010arXivOpen access
Ameet Deshpande
math.OAmath.APmath.OCmath.DS
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Ameet Deshpande

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