On the modeling of collective learning dynamics
From MaRDI portal
Publication:654203
DOI10.1016/j.aml.2011.05.007zbMath1233.92002OpenAlexW2095394920MaRDI QIDQ654203
Nicola Bellomo, Silvana De Lillo
Publication date: 28 December 2011
Published in: Applied Mathematics Letters (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.aml.2011.05.007
Learning and adaptive systems in artificial intelligence (68T05) Neural networks for/in biological studies, artificial life and related topics (92B20)
Related Items (6)
On the Well Posedness of the Initial Value Problem in a Kinetic Traffic Flow Model ⋮ On the mathematical theory of living systems. II: The interplay between mathematics and system biology ⋮ On a class of integro-differential equations modeling complex systems with nonlinear interactions ⋮ FROM THE MODELING OF THE IMMUNE HALLMARKS OF CANCER TO A BLACK SWAN IN BIOLOGY ⋮ A continuous-time Markov chain modeling cancer-immune system interactions ⋮ ``Follow the leader learning dynamics on networks
Cites Work
- Unnamed Item
- Towards a mathematical theory of complex socio-economical systems by functional subsystems representation
- Modeling the hiding-learning dynamics in large living systems
- Bifurcation analysis for a nonlinear system of integro-differential equations modelling tumor-immune cells competition
- Modeling complex living systems. A kinetic theory and stochastic game approach.
- On the mathematical foundations of learning
- The Diffusion Limit of Transport Equations II: Chemotaxis Equations
- MULTISCALE MODELING OFPSEUDOMONAS AERUGINOSASWARMING
- STATISTICAL MODELS OF CRIMINAL BEHAVIOR: THE EFFECTS OF LAW ENFORCEMENT ACTIONS
- LOCAL EXISTENCE AND UNIQUENESS OF SOLUTIONS TO A PDE MODEL FOR CRIMINAL BEHAVIOR
- Nonlinear Patterns in Urban Crime: Hotspots, Bifurcations, and Suppression
- MULTISCALE BIOLOGICAL TISSUE MODELS AND FLUX-LIMITED CHEMOTAXIS FOR MULTICELLULAR GROWING SYSTEMS
- ON THE CRITICAL EXPONENT FOR FLOCKS UNDER HIERARCHICAL LEADERSHIP
- MODELLING EPIDEMICS AND VIRUS MUTATIONS BY METHODS OF THE MATHEMATICAL KINETIC THEORY FOR ACTIVE PARTICLES
- DISCRETE CHOICES UNDER SOCIAL INFLUENCE: GENERIC PROPERTIES
- DYNAMICAL CLUSTERING AS A GENERATOR OF COMPLEX SYSTEM DYNAMICS
- The Diffusion Limit of Transport Equations Derived from Velocity-Jump Processes
- Swarming Patterns in a Two-Dimensional Kinematic Model for Biological Groups
This page was built for publication: On the modeling of collective learning dynamics
