Crowd motion from the granular standpoint
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Publication:4982233
DOI10.1142/S0218202515400035zbMath1368.70007WikidataQ58478330 ScholiaQ58478330MaRDI QIDQ4982233
Publication date: 24 March 2015
Published in: Mathematical Models and Methods in Applied Sciences (Search for Journal in Brave)
Hyperbolic conservation laws (35L65) Stability of solutions to ordinary differential equations (34D20) Traffic problems in operations research (90B20) Dynamics of multibody systems (70E55) Stability problems in rigid body dynamics (70E50) Animal behavior (92D50)
Related Items (10)
Congested transport at microscopic and macroscopic scales ⋮ Toward a mathematical theory of behavioral-social dynamics for pedestrian crowds ⋮ Human behavioral crowds review, critical analysis and research perspectives ⋮ Sharp semi-concavity in a non-autonomous control problem and \(L^p\) estimates in an optimal-exit MFG ⋮ Damped Arrow-Hurwicz algorithm for sphere packing ⋮ From individual behaviour to an evaluation of the collective evolution of crowds along footbridges ⋮ Traffic, crowds, and dynamics of self-organized particles: New trends and challenges ⋮ Vehicular traffic, crowds, and swarms: From kinetic theory and multiscale methods to applications and research perspectives ⋮ Minimal-time mean field games ⋮ Mean Field Games for Modeling Crowd Motion
Cites Work
- Unnamed Item
- Regularization of differential variational inequalities with locally prox-regular sets
- Continuous limit of a crowd motion and herding model: analysis and numerical simulations
- A numerical scheme for a class of sweeping processes
- Time-evolving measures and macroscopic modeling of pedestrian flow
- A time-stepping scheme for inelastic collisions. Numerical handling of the nonoverlapping constraint.
- Evolution problem associated with a moving convex set in Hilbert space
- Sweeping process with regular and nonregular sets.
- The dynamics of discrete mechanical systems with perfect unilateral constraints
- Handling congestion in crowd motion modeling
- General constrained conservation laws. Application to pedestrian flow modeling
- A mathematical framework for a crowd motion model
- Vision-based macroscopic pedestrian models
- A discrete contact model for crowd motion
- From the Microscale to Collective Crowd Dynamics
- A CLASS OF NONLOCAL MODELS FOR PEDESTRIAN TRAFFIC
- Multiscale Modeling of Granular Flows with Application to Crowd Dynamics
- A MACROSCOPIC CROWD MOTION MODEL OF GRADIENT FLOW TYPE
- ON THE MODELLING CROWD DYNAMICS FROM SCALING TO HYPERBOLIC MACROSCOPIC MODELS
- Sticky Particles and Scalar Conservation Laws
- Local differentiability of distance functions
- A hierarchy of models for two-phase flows
- Simulation of pedestrian dynamics using a two-dimensional cellular automaton
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