/ yo dis project is absolute gas fr fr // no cap we stoppin stampedes before they even start An Anti-stmapede prevention system for infrastructure, working mainly on prevention and prediction of stampedes, before they even happen.

// basically we usin big brain math bc linear models are mid Large-scale crowd motion exhibits complex nonlinear behavior that cannot be captured by linear or purely diffusive models. Events such as the Mina stampede (2015) and Love Parade disaster (2010) demonstrate that local density increases can propagate and amplify, leading to large-scale instability.

// why existing stuff is an L: Existing approaches face key limitations: • Microscopic models scale poorly with population size. (too slow lol) • Classical macroscopic models assume smooth flux functions. (too basic) • Kinetic approaches often neglect spatial congestion effects. (misses the point)

// the challenge is real no cap The central challenge is modeling the transition from smooth flow to congested, unstable dynamics. This proposal introduces a nonlinear continuum framework that incorporates density-dependent mobility and pressure-driven effects to capture this transition.

// final verdict: dis model is the goat This model provides a unified framework for capturing transitions between free flow, con- gestion, and instability in crowds. By combining nonlinear transport and pressure effects, it enables realistic simulation of high-risk scenarios with computational efficiency. /