Vehicular traffic, crowds, and swarms: From kinetic theory and multiscale methods to applications and research perspectives

Emergent behaviors of the Justh-Krishnaprasad model with uncertain communications, Nonrelativistic limits of the relativistic Cucker–Smale model and its kinetic counterpart, On the relativistic flocks over the unit sphere and the hyperboloid in a bonding force field, Emergent dynamics of a thermodynamic Cucker-Smale ensemble on complete Riemannian manifolds, A mean-field limit of the particle swarmalator model, Asymptotic-preserving schemes for multiscale physical problems, Swarms dynamics approach to behavioral economy: theoretical tools and price sequences, Mean field models for large data-clustering problems, Kinetic Modelling of Epidemic Dynamics: Social Contacts, Control with Uncertain Data, and Multiscale Spatial Dynamics, Generalized Solutions to Opinion Dynamics Models with Discontinuities, Applications of Crowd Dynamic Models: Feature Analysis and Process Optimization, Optimized Leaders Strategies for Crowd Evacuation in Unknown Environments with Multiple Exits, Random Batch Methods for Classical and Quantum Interacting Particle Systems and Statistical Samplings, Asymptotic flocking dynamics of a relativistic Cucker–Smale flock under singular communications, On the stochastic singular Cucker–Smale model: Well-posedness, collision-avoidance and flocking, Towards a mathematical theory of behavioral human crowds, Moment-Driven Predictive Control of Mean-Field Collective Dynamics, Stochastic consensus dynamics for nonconvex optimization on the Stiefel manifold: Mean-field limit and convergence, A velocity alignment model on quotient spaces of the Euclidean space, Uniform stability of the Cucker-Smale and thermodynamic Cucker-Smale ensembles with singular kernels, Effect of time delay on flocking dynamics, Emergent behaviors of discrete Lohe aggregation flows, Cucker-Smale-type dynamics of infinitely many individuals with repulsive forces, On the Schrödinger-Lohe hierarchy for aggregation and its emergent dynamics, Chemotaxis and cross-diffusion models in complex environments: Models and analytic problems toward a multiscale vision, Uniform-in-time continuum limit of the lattice winfree model and emergent dynamics, Efficient ensemble stochastic algorithms for agent-based models with spatial predator-prey dynamics, Swarming: hydrodynamic alignment with pressure, Uniform stability and emergent dynamics of particle and kinetic Lohe matrix models, Convergence analysis of the discrete consensus-based optimization algorithm with random batch interactions and heterogeneous noises, Existence analysis and numerical approximation for a second-order model of traffic with orderliness marker, A unified multiscale vision of behavioral crowds, From the Lohe Tensor Model to the Lohe Hermitian Sphere Model and Emergent Dynamics, Relaxation dynamics of SIR-flocks with random epidemic states, A microscopic approach to study the onset of a highly infectious disease spreading, Interplay of inertia and adaptive couplings in the emergent dynamics of Kuramoto ensemble, A multiscale model of virus pandemic: Heterogeneous interactive entities in a globally connected world, Active particles methods and challenges in behavioral systems, Stochastic persistency of nematic alignment state for the Justh–Krishnaprasad model with additive white noises, Complete aggregation of the Lohe tensor model with the same free flow, Convergence toward equilibrium of the first-order consensus model with random batch interactions, Emergent behaviors of the continuum thermodynamic Kuramoto model in a large coupling regime, On Cucker–Smale dynamical systems with degenerate communication, Interacting particles systems with delay and random delay differential equations, Optimal control of multiagent systems in the Wasserstein space, Emergent behaviors of Lohe tensor flocks, Stochastic Lohe matrix model on the Lie group and mean-field limit, Uniform-in-Time Continuum Limit of the Winfree Model on an Infinite Cylinder and Emergent Dynamics, Convergence and error estimates for time-discrete consensus-based optimization algorithms, Modeling and simulating the spatial spread of an epidemic through multiscale kinetic transport equations, Uniform-in-time error estimate of the random batch method for the Cucker–Smale model, Hydrodynamic limit of a coupled Cucker–Smale system with strong and weak internal variable relaxation, Generalized solutions to bounded-confidence models, Disease contagion models coupled to crowd motion and mesh-free simulation, On the completely separable state for the Lohe tensor model, On the interaction between soft and hard sciences: the role of mathematical sciences. Looking ahead to research perspectives, Synchronization conditions of a mixed Kuramoto ensemble in attractive and repulsive couplings, Phase transitions and macroscopic limits in a BGK model of body-attitude coordination, Algorithm for numerical solutions to the kinetic equation of a spatial population dynamics model with coalescence and repulsive jumps, Collective behaviors of a Winfree ensemble on an infinite cylinder, Emergent behaviors of the generalized Lohe matrix model, Emergent behaviors of Cucker–Smale flocks on the hyperboloid, Emergent dynamics of the Lohe matrix ensemble on a network under time-delayed interactions, Recent results and challenges in behavioral systems, The evolution of communication mechanisms in self-organised ecological aggregations: Impact on pattern formation, Nematic alignment of self-propelled particles: From particle to macroscopic dynamics, Fluid models with phase transition for kinetic equations in swarming, On the critical exponent of the one-dimensional Cucker–Smale model on a general graph, Large time behavior in a forager–exploiter model with different taxis strategies for two groups in search of food, Emergent behaviors of the swarmalator model for position-phase aggregation, Density-induced consensus protocol, Convergence of a first-order consensus-based global optimization algorithm, Convergence of knowledge in a stochastic cultural evolution model with population structure, social learning and credibility biases, Consensus-based optimization on hypersurfaces: Well-posedness and mean-field limit, A constrained consensus based optimization algorithm and its application to finance, Uniform stability of the relativistic Cucker-Smale model and its application to a mean-field limit, Compatibility of state constraints and dynamics for multiagent control systems, Emergent behaviors of Lohe Hermitian sphere particles under time-delayed interactions, Generalization of the Winfree model to the high-dimensional sphere and its emergent dynamics, Emergent dynamics of the Lohe Hermitian sphere model with frustration, Grassmannian reduction of Cucker-Smale systems and dynamical opinion games, Emergent behaviors of relativistic flocks on Riemannian manifolds, Time-delayed stochastic volatility model, Asymptotic interplay of states and adaptive coupling gains in the Lohe Hermitian sphere model, Approximating Nash equilibrium for optimal consumption in stochastic growth model with jumps, Emergent dynamics of the fractional Cucker-Smale model under general network topologies, Propagation of chaos: a review of models, methods and applications. I: Models and methods, Propagation of chaos: a review of models, methods and applications. II: Applications, Towards a mathematical theory of behavioral swarms, Emergence of mono-cluster flocking in the thermomechanical Cucker–Smale model under switching topologies, A local sensitivity analysis in Landau damping for the kinetic Kuramoto equation with random inputs, The mean-field limit of the Cucker-Smale model on complete Riemannian manifolds, Existence and Emergent Dynamics of Quadratically Separable States to the Lohe Tensor Model, Emergent Behaviors of Rotation Matrix Flocks, What is life? A perspective of the mathematical kinetic theory of active particles, Emergent behaviors of the discrete thermodynamic Cucker–Smale model on complete Riemannian manifolds, Emergence of a periodically rotating one-point cluster in a thermodynamic Cucker-Smale ensemble, A data-driven epidemic model with social structure for understanding the COVID-19 infection on a heavily affected Italian province, Constants of motion for the finite-dimensional Lohe type models with frustration and applications to emergent dynamics, Emergent behaviors of a thermodynamic Cucker‐Smale flock with a time‐delay on a general digraph, Dynamical Systems and Hamilton–Jacobi–Bellman Equations on the Wasserstein Space and their L² Representations, On the stochastic robustness of complete clustering predictability for a first‐order consensus model, Derivation and Stability Analysis of a Macroscopic Multilane Model for Traffic Flow, On the emergent dynamics of the infinite set of Kuramoto oscillators, Stochastic flocking dynamics of the inertial spin model with state‐dependent noises, Dynamics of a spatially homogeneous Vicsek model for oriented particles on a plane, Reproducing kernel Hilbert spaces in the mean field limit, Emergent behaviors of thermodynamic Cucker-Smale ensemble with a unit-speed constraint, BV solutions for a hydrodynamic model of flocking-type with all-to-all interaction kernel, Consensus-based optimization via jump-diffusion stochastic differential equations, The stochastic delayed Cucker-Smale system in a harmonic potential field, Global existence of strong solutions to the kinetic Cucker-Smale model coupled with the two dimensional incompressible Navier-Stokes equations, Emergence of state-locking for the first-order nonlinear consensus model on the real line, Flocking of a Kuramoto type model with local interaction functions, The stochastic flocking model with far-field degenerate communication, Emerging asymptotic patterns in a Winfree ensemble with higher-order couplings, Kinetic-based optimization enhanced by genetic dynamics, Fast and slow clustering dynamics of Cucker–Smale ensemble with internal oscillatory phases, Modeling and numerical simulations of multilane vehicular traffic by active particles methods, Collective behaviors of stochastic agent-based models and applications to finance and optimization, Convergence Toward a Periodically Rotating One-Point Cluster in the Kinetic Thermodynamic Cucker-Smale Model, Asymptotic Tracking of a Point Cloud Moving on Riemannian Manifolds, Mean-field limit of a hybrid system for multi-lane multi-class traffic, Continuum limit of the lattice Lohe group model and emergent dynamics, Non-emergence of mono-cluster flocking and multi-cluster flocking of the thermodynamic Cucker-Smale model with a unit-speed constraint, Emergent behaviors of two attractively coupled swarm sphere models with frustration, Non-mean-field Vicsek-type models for collective behavior, Adjoint DSMC for nonlinear spatially-homogeneous Boltzmann equation with a general collision model, On existence, stability and many-particle approximation of solutions of 1D Hughes' model with linear costs, Human behavioral crowds review, critical analysis and research perspectives, A numerical investigation of pedestrian dynamics based on rational behaviour in different density scenarios, Mathematical modeling of glioma invasion and therapy approaches via kinetic theory of active particles, Robust feedback stabilization of interacting multi-agent systems under uncertainty, Flocking of a thermodynamic Cucker-Smale model with local velocity interactions, Mean-field limit of a hybrid system for multi-lane car-truck traffic, Multi-scale description of pedestrian collective dynamics with port-Hamiltonian systems

• Synchronization of Kuramoto Oscillators with Adaptive Couplings
• Stochastic evolutionary differential games toward a systems theory of behavioral social dynamics
• Invisible Control of Self-Organizing Agents Leaving Unknown Environments
• A discrete contact model for crowd motion
• Hyperbolic versus Parabolic Asymptotics in Kinetic Theory toward Fluid Dynamic Models
• A Fully-Discrete-State Kinetic Theory Approach to Modeling Vehicular Traffic
• ON THE DIFFICULT INTERPLAY BETWEEN LIFE, "COMPLEXITY", AND MATHEMATICAL SCIENCES
• COUPLING TRAFFIC FLOW NETWORKS TO PEDESTRIAN MOTION
• From the Microscale to Collective Crowd Dynamics
• Time-asymptotic interaction of flocking particles and an incompressible viscous fluid
• ON THE ASYMPTOTIC THEORY FROM MICROSCOPIC TO MACROSCOPIC GROWING TISSUE MODELS: AN OVERVIEW WITH PERSPECTIVES
• TOWARDS THE MODELING OF VEHICULAR TRAFFIC AS A COMPLEX SYSTEM: A KINETIC THEORY APPROACH
• ON THE MATHEMATICAL THEORY OF THE DYNAMICS OF SWARMS VIEWED AS COMPLEX SYSTEMS
• A CONTINUUM MODEL FOR ALIGNMENT OF SELF-PROPELLED PARTICLES WITH ANISOTROPY AND DENSITY-DEPENDENT PARAMETERS
• Plasticity and learning in a network of coupled phase oscillators
• A hydrodynamic model for the interaction of Cucker–Smale particles and incompressible fluid
• Mean-Field Optimal Control
• Mean-field sparse optimal control
• Critical thresholds in flocking hydrodynamics with non-local alignment
• Boltzmann-type control of opinion consensus through leaders
• Efficient numerical methods for multiscale crowd dynamics with emotional contagion
• Multiscale Modeling of Granular Flows with Application to Crowd Dynamics
• Asymptotic Flocking Dynamics for the Kinetic Cucker–Smale Model
• Particle, kinetic, and hydrodynamic models of swarming
• On the Modeling of Traffic and Crowds: A Survey of Models, Speculations, and Perspectives
• Discrete Cucker--Smale Flocking Model with a Weakly Singular Weight
• Emergent Dynamics for the Hydrodynamic Cucker--Smale System in a Moving Domain
• Anisotropic interactions in a first-order aggregation model
• Receding horizon control of nonlinear systems
• On the Vlasov Limit for Systems of Nonlinearly Coupled Oscillators without Noise
• Asymptotic analysis of Vlasov-type equations under strong local alignment regime
• Particle approximation of Vlasov equations with singular forces: Propagation of chaos
• Toward a mathematical theory of behavioral-social dynamics for pedestrian crowds
• Control to Flocking of the Kinetic Cucker--Smale Model
• Local well-posedness of the generalized Cucker-Smale model with singular kernels
• CONTINUUM LIMIT OF SELF-DRIVEN PARTICLES WITH ORIENTATION INTERACTION
• A kinetic model of vehicular traffic and its associated bimodal equilibrium solutions
• Uniform stability and mean-field limit of a thermodynamic Cucker-Smale model
• Global Regularity for 1D Eulerian Dynamics with Singular Interaction Forces
• A global existence of classical solutions to the hydrodynamic Cucker–Smale model in presence of a temperature field
• An analytical framework for consensus-based global optimization method
• Eulerian dynamics with a commutator forcing
• Pattern formation of a nonlocal, anisotropic interaction model
• Global dynamics of the thermomechanical Cucker–Smale ensemble immersed in incompressible viscous fluids
• Landau Damping to Partially Locked States in the Kuramoto Model
• Numerical methods for kinetic equations
• Hybrid Stochastic Kinetic Description of Two-Dimensional Traffic Dynamics
• PARABOLIC LIMIT AND STABILITY OF THE VLASOV–FOKKER–PLANCK SYSTEM
• Swarming Patterns in a Two-Dimensional Kinematic Model for Biological Groups
• The fundamental diagram of pedestrian movement revisited
• A multiscale view of nonlinear diffusion in biology: From cells to tissues
• A fully-discrete-state kinetic theory approach to traffic flow on road networks
• Crowd motion from the granular standpoint
• On the Well Posedness of the Initial Value Problem in a Kinetic Traffic Flow Model
• A unified multiscale vision of behavioral crowds
• Topologically Based Fractional Diffusion and Emergent Dynamics with Short-Range Interactions
• Particle Based gPC Methods for Mean-Field Models of Swarming with Uncertainty
• A kinetic theory approach to the dynamics of crowd evacuation from bounded domains
• Hydrodynamic limit of the kinetic Cucker–Smale flocking model
• Modeling and control through leadership of a refined flocking system
• On the Łojasiewicz exponent of Kuramoto model
• A Collisionless Singular Cucker--Smale Model with Decentralized Formation Control
• A proof of the Kuramoto conjecture for a bifurcation structure of the infinite-dimensional Kuramoto model
• Mean-field sparse Jurdjevic–Quinn control
• Hilbert method toward a multiscale analysis from kinetic to macroscopic models for active particles
• Euler-type equations and commutators in singular and hyperbolic limits of kinetic Cucker–Smale models
• Emergent Behavior in Flocks
• MATHEMATICAL MODELING OF VEHICULAR TRAFFIC: A DISCRETE KINETIC THEORY APPROACH
• Binary Interaction Algorithms for the Simulation of Flocking and Swarming Dynamics
• Traffic Flow on a Road Network
• A quest toward a mathematical theory of the dynamics of swarms
• Small inertia regularization of an anisotropic aggregation model
• Direct Simulation and the Boltzmann Equation
• High-field limit for the Vlasov-Poisson-Fokker-Planck system.
• \(B\)-stability and its applications to the Tikhonov and Malkin-Gorshin theorems
• On the analysis of a coupled kinetic-fluid model with local alignment forces
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• (Un)conditional consensus emergence under perturbed and decentralized feedback controls
• A nonlocal continuum model for biological aggregation
• Stability and bifurcation for the Kuramoto model
• Fundamental diagrams in traffic flow: the case of heterogeneous kinetic models
• Exponential dephasing of oscillators in the kinetic Kuramoto model
• Global weak solutions for Kolmogorov-Vicsek type equations with orientational interactions
• Emergence of phase-locked states for the Kuramoto model in a large coupling regime
• Mean field limit and propagation of chaos for Vlasov systems with bounded forces
• Spectral method for a kinetic swarming model
• Kac's program in kinetic theory
• Sparse stabilization and optimal control of the Cucker-Smale model
• A hierarchy of heuristic-based models of crowd dynamics
• Existence of piecewise weak solutions of a discrete Cucker-Smale's flocking model with a singular communication weight
• Mean-field limit for the stochastic Vicsek model
• An analytical framework to describe the interactions between individuals and a continuum
• Asymptotic flocking dynamics of Cucker-Smale particles immersed in compressible fluids
• Mean field games with nonlinear mobilities in pedestrian dynamics
• On the multiscale modeling of vehicular traffic: from kinetic to hydrodynamics
• First-order aggregation models and zero inertia limits
• Collective synchronization of classical and quantum oscillators
• Kinetic models for traffic flow resulting in a reduced space of microscopic velocities
• Emergent dynamics of a thermodynamically consistent particle model
• Performance bounds for the mean-field limit of constrained dynamics
• On the mathematical theory of vehicular traffic flow. II: Discrete velocity kinetic models
• Complete synchronization of Kuramoto oscillators with finite inertia
• Global-in-time weak measure solutions and finite-time aggregation for nonlocal interaction equations
• Nonlinear model predictive control. Theory and algorithms.
• A new model for self-organized dynamics and its flocking behavior
• Contractivity of transport distances for the kinetic Kuramoto equation
• Chemical oscillations, waves, and turbulence
• Generalising the Kuramoto model for the study of neuronal synchronisation in the brain
• Kinetic description of optimal control problems and applications to opinion consensus
• The Filippov characteristic flow for the aggregation equation with mildly singular potentials
• On multiscale models of Pedestrian crowds from mesoscopic to macroscopic
• On the complete phase synchronization for the Kuramoto model in the mean-field limit
• From particle to kinetic and hydrodynamic descriptions of flocking
• Fokker-Planck asymptotics for traffic flow models
• Mathematical modeling of collective behavior in socio-economic and life sciences
• Ecole d'été de probabilités de Saint-Flour XIX, France, du 16 août au 2 septembre 1989
• Enskog-like kinetic models for vehicular traffic
• A non-local model for a swarm
• Modeling the aggregative behavior of ants of the species Polyergus rufescens
• Analysis of instantaneous control for the Burgers equation
• A rigorous derivation from the kinetic Cucker-Smale model to the pressureless Euler system with nonlocal alignment
• Behavioral crowds: modeling and Monte Carlo simulations toward validation
• Emergent dynamics of the Kuramoto ensemble under the effect of inertia
• On the kinetic theory of vehicular traffic flow: Chapman-Enskog expansion versus Grad's moment method
• Mean field control hierarchy
• Mean-field Pontryagin maximum principle
• Finite time blow up in the hyperbolic Boussinesq system
• The Cucker-Smale equation: singular communication weight, measure-valued solutions and weak-atomic uniqueness
• Global well-posedness of the spatially homogeneous Kolmogorov-Vicsek model as a gradient flow
• Global regularity for the fractional Euler alignment system
• Uniform stability and mean-field limit for the augmented Kuramoto model
• Kinetic description of collision avoidance in pedestrian crowds by sidestepping
• Uniform stability of the Cucker-Smale model and its application to the mean-field limit
• Discrete kinetic theory for 2D modeling of a moving crowd: application to the evacuation of a non-connected bounded domain
• Complete cluster predictability of the Cucker-Smale flocking model on the real line
• An interacting particle system modelling aggregation behavior: from individuals to populations
• Quantitative estimates of propagation of chaos for stochastic systems with \(W^{-1,\infty}\) kernels
• Empirical results for pedestrian dynamics and their implications for modeling
• On the complete synchronization of the Kuramoto phase model
• Eulerian dynamics with a commutator forcing. III: Fractional diffusion of order \(0 < \alpha < 1\)
• Simulation of interaction of flocking particles and an incompressible fluid
• Eulerian dynamics with a commutator forcing. II: Flocking
• Global regularity of two-dimensional flocking hydrodynamics
• Merkel cells and the individuality of friction ridge skin
• Filippov trajectories and clustering in the Kuramoto model with singular couplings
• Effect of psychological tension on pedestrian counter flow via an extended cost potential field cellular automaton model
• Random batch methods (RBM) for interacting particle systems
• Emergence of phase concentration for the Kuramoto-Sakaguchi equation
• Complete entrainment of Kuramoto oscillators with inertia on networks via gradient-like flow
• Flows on networks: recent results and perspectives
• A new approach to quantitative propagation of chaos for drift, diffusion and jump processes
• Phase transitions, hysteresis, and hyperbolicity for self-organized alignment dynamics
• Selective model-predictive control for flocking systems
• A kinetic theory approach to model Pedestrian dynamics in bounded domains with obstacles
• On the interplay between behavioral dynamics and social interactions in human crowds
• Contagion shocks in one dimension
• A review of the mean field limits for Vlasov equations
• Formation of phase-locked states in a population of locally interacting Kuramoto oscillators
• First-order aggregation models with alignment
• A quest towards a mathematical theory of living systems
• Model predictive control. With a foreword by M. J. Grimble and M. A. Johnson
• A simple proof of the Cucker-Smale flocking dynamics and mean-field limit
• Active particles, Volume 1. Advances in theory, models, and applications
• Pedestrian movement in smoke: theory, data and modelling approaches
• Pedestrian dynamics: from empirical results to modeling
• Fundamental diagrams for kinetic equations of traffic flow
• Global existence and asymptotic behavior of measure valued solutions to the kinetic Kuramoto-Daido model with inertia
• Vision-based macroscopic pedestrian models
• Synchronization analysis of Kuramoto oscillators
• Enskog-like discrete velocity models for vehicular traffic flow
• On an aggregation model with long and short range interactions
• Multidimensional high-field limit of the electrostatic Vlasov-Poisson-Fokker-Planck system
• On Kac's chaos and related problems
• Parameter estimation of social forces in pedestrian dynamics models via a probabilistic method
• Analysis of a multi-population kinetic model for traffic flow
• An introduction to Monte Carlo method for the Boltzmann equation
• Critical thresholds in 1D Euler equations with non-local forces