Comparison of first and second-order schemes: $\Delta x= 2^{-5}$.

Section 4.1.2; Figures 10, 11, 12.

First and second-order schemes. Periodic boundary conditions. $x\in(0,1)$. $\varepsilon = 10^{-3}$.

$M=32$, $\Delta x= 2^{-5}$, $\Delta t=\Delta x/16$

Crowd density, $\rho$.

Rescaled congestion, $\varepsilon\phi$.

Flux, $J$.

Desired momentum, $q$.

Desired velocity, $\omega$.

Physical velocity, $u$.

Pedestrian models with congestion effects

Pedro Aceves-Sánchez · Rafael Bailo · Pierre Degond · Zoé Mercier
Mathematical Models and Methods in Applied Sciences, 34 (6), 2024.

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