Application of finite state automaton theory to variable-lenght codes under constraints

Sarpel, I Murat


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Density-functional theory in the local-spin-density approximation has been applied to calculate the energy positions of law-lying resonance (autoionization) states of neutral atoms and positive ions. This method is very convenient fur a quick, approximate prediction of excitation energies in collision experiments. [S1050-2947(99)05401-3]
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In this thesis, the two-dimensional initial and boundary value problems governed by unsteady partial differential equations are solved by making use of boundary element techniques. The boundary element method (BEM) with time-dependent fundamental solution is presented as an efficient procedure for the solution of diffusion, wave and convection-diffusion equations. It interpenetrates the equations in such a way that the boundary solution is advanced to all time levels, simultaneously. The solution at a requi...
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Citation Formats
I. M. Sarpel, “Application of finite state automaton theory to variable-lenght codes under constraints,” Middle East Technical University, 1993.