Topics such as new theories and methods to integrate emerging systems into dynamic transportation network analysis, methods to coherently integrate DTA models with increasingly available data, methods for large-scale computation, and real world DTA case studies are particularly encouraged, in addition to classical DTA topics such as
- The dynamic route and/or departure time choice
- within-day dynamic equilibrium
- day-to-day dynamic processes
- dynamic network loading and traffic simulation (micro/meso/macro)
- dynamic link flow models and node models
- solution algorithms and properties
- dynamic OD estimation
- dynamic traffic control and management
- online dynamic models
- activity-based modeling and analysis
- travel behavior and travel choice principles
- mathematical foundations for networked ODE/PDE systems with routing functions at nodes.
- Control theoretic approaches to network flow dynamics
- game theory on networks, Nash-Stackelberg games
- novel dynamic transport applications (smart transport, intelligent transportation systems, shared vehicles/taxis, connected and autonomous vehicles, electric and green vehicles, public transport, bike repositioning, dynamic vehicle routing)
