We present a discrete model extending the floor field approach allowing heterogeneity in the walking speed of the simulated population of pedestrians. Whereas some discrete models allow pedestrians to move more than a single cell per time step, in the present work we maintain a maximum speed of one cell per step but we model lower speeds by having pedestrians yielding their movement in some turns. Different classes of pedestrians are associated to different desired walking speeds and we define a stochastic mechanism ensuring that they maintain an average speed close to this threshold
Bandini, S., Crociani, L., Vizzari, G. (2014). Modeling heterogeneous speed profiles in discrete models for pedestrian simulation. In Proceedings of the 13th International Conference on Autonomous Agents and Multiagent Systems (AAMAS 2014) (pp.1541-1542). International Foundation for Autonomous Agents and Multiagent Systems (IFAAMAS).
Modeling heterogeneous speed profiles in discrete models for pedestrian simulation
BANDINI, STEFANIA;CROCIANI, LUCA;VIZZARI, GIUSEPPE
2014
Abstract
We present a discrete model extending the floor field approach allowing heterogeneity in the walking speed of the simulated population of pedestrians. Whereas some discrete models allow pedestrians to move more than a single cell per time step, in the present work we maintain a maximum speed of one cell per step but we model lower speeds by having pedestrians yielding their movement in some turns. Different classes of pedestrians are associated to different desired walking speeds and we define a stochastic mechanism ensuring that they maintain an average speed close to this thresholdI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.