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Using Physics-Informed Deep Learning (PIDL) techniques (W-PINNs-DE & W-PINNs) to solve forward and inverse hydrodynamic shock-tube problems and plane stress linear elasticity boundary value problems

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How to customize loss function based on differential equation

## Hello, ### My problem is described as follows We will solve a simple ODE system: $$ {\frac{dV}{dt}}=10- {G_{Na}m^3h(V-50)} - {G_{K}n^4(V+77)} - {G_{L}(V+54.387)}$$ $${\frac{dm}{dt}}=\left(\frac{0.1{(V+40)}}{1-e^\frac{-V-40}{10}}\right)(1-m) - \left(4e^{\frac{-V-65}{18}}\right)m $$ $$\frac{dh}{dt}= {\left(0.07e^{\frac{-V-65}{20}}\right)(1-h)} -...

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verified publisher icon alexpapados

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Using Physics-Informed Deep Learning (PIDL) techniques (W-PINNs-DE & W-PINNs) to solve forward and inverse hydrodynamic shock-tube problems and plane stress linear elasticity boundary value problems

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