The paper presents a model for traffic state estimation and management of the freeways. The model is based on First-Order Hybrid Petri Nets (FOHPNs), a hybrid Petri net formalism including continuous places holding fluid, discrete places containing a non-negative integer number of tokens and transitions, which are either discrete or continuous. The paper improves a previous model in order to suitably describe the dynamics of the freeway traffic flow. To this aim we modify the dynamics of the FOHPN and we allow updating the transition firing speed as a function of the markings modeling the freeway traffic. The obtained model is a linear discrete-time, time-varying state variable model and is suitable to describe a hybrid system such as a freeway subject to unpredictable events (i.e., accidents or bottlenecks). The effectiveness of the FOHPN formalism is shown by applying the proposed modeling technique to a stretch of a freeway in the North-East of Italy
An Improved Freeway Traffic Model in a First Order Hybrid Petri Net Framework / Fanti, M. P.; Mangini, A. M.; Iacobellis, G.; Ukovich, W.. - ELETTRONICO. - (2012), pp. 365-369. (Intervento presentato al convegno 4th IFAC Conference on Analysis and Design of Hybrid Systems, ADHS'12 tenutosi a Eindhoven, NL nel June 6-8, 2012) [10.3182/20120606-3-NL-3011.00068].
An Improved Freeway Traffic Model in a First Order Hybrid Petri Net Framework
M. P. Fanti;A. M. Mangini;G. Iacobellis;
2012-01-01
Abstract
The paper presents a model for traffic state estimation and management of the freeways. The model is based on First-Order Hybrid Petri Nets (FOHPNs), a hybrid Petri net formalism including continuous places holding fluid, discrete places containing a non-negative integer number of tokens and transitions, which are either discrete or continuous. The paper improves a previous model in order to suitably describe the dynamics of the freeway traffic flow. To this aim we modify the dynamics of the FOHPN and we allow updating the transition firing speed as a function of the markings modeling the freeway traffic. The obtained model is a linear discrete-time, time-varying state variable model and is suitable to describe a hybrid system such as a freeway subject to unpredictable events (i.e., accidents or bottlenecks). The effectiveness of the FOHPN formalism is shown by applying the proposed modeling technique to a stretch of a freeway in the North-East of ItalyI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
