Mathematical Modeling using Differential Equations, and Network Theory
Mathematical Modeling using Differential Equations, and Network Theory
English[eng]
fractional discrete calculus||discrete chaos||Tinkerbell map||bifurcation||stabilization||communication networks||maximum flow||network policies||algorithms||gas flow||stress-sensitive porous media||multiple hydraulic fractures||vertical fractured well||Output-feedback||centralized control||decentralized control||closed-loop stabilization||Hardy Cross method||pipe networks||piping systems||hydraulic networks||gas distribution||multi-switching combination synchronization||time-delay||fractional-order||stability||Shehu transformation||Adomian decomposition||analytical solution||Caputo derivatives||(2+time fractional-order) dimensional physical models||homotopy perturbation method||variational iteration method||Laplace transform method||acoustic wave equations||n/a
English[eng]
fractional discrete calculus||discrete chaos||Tinkerbell map||bifurcation||stabilization||communication networks||maximum flow||network policies||algorithms||gas flow||stress-sensitive porous media||multiple hydraulic fractures||vertical fractured well||Output-feedback||centralized control||decentralized control||closed-loop stabilization||Hardy Cross method||pipe networks||piping systems||hydraulic networks||gas distribution||multi-switching combination synchronization||time-delay||fractional-order||stability||Shehu transformation||Adomian decomposition||analytical solution||Caputo derivatives||(2+time fractional-order) dimensional physical models||homotopy perturbation method||variational iteration method||Laplace transform method||acoustic wave equations||n/a