Constantinos Theodoropoulos scite author profile

We introduce a numerical approach to perform the effective (coarse-scale) bifurcation analysis of solutions of dissipative evolution equations with spatially varying coefficients. The advantage of this approach is that the 'coarse model' (the averaged, effective equation) need not be explicitly constructed. The method only uses a time-integrator code for the detailed problem and judicious choices of initial data and integration times; the bifurcation computations are based on the so-called recursive projection method (Shroff and Keller 1993 SIAM J. Numer. Anal. 30 1099-120).

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Constantinos Theodoropoulos

‘Coarse’ integration/bifurcation analysis via microscopic simulators: micro-Galerkin methods

“Coarse” stability and bifurcation analysis using time-steppers: A reaction-diffusion example

A techno-economic analysis of biodiesel biorefineries: Assessment of integrated designs for the co-production of fuels and chemicals

Effective bifurcation analysis: a time-stepper-based approach

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