The paper proposes an approach for real time control of freeways by route guidance, an emerging technique for efficient freeway management. A first order fluid approximation is employed to model in a modular framework the vehicle flows by first order hybrid Petri nets. The hybrid Petri nets formalism enables the network designer to choose suitable splitting rates to off-ramps to minimize congestion. The increased freeway operation is performed based on the state knowledge of the obtained linear discrete-time, time-varying state variable model of the freeway to react to unpredictable events such as the blocking of a lane due to an accident or to work in progress. The proposed route guidance approach is applied to a case study to show its effectiveness
Freeway Traffic Control via Route Guidance: An Approach Based on a First Order Hybrid Petri Nets Model / Dotoli, Mariagrazia. - ELETTRONICO. - 45:9(2012), pp. 350-355. ( 4th IFAC Conference on Analysis and Design of Hybrid Systems, ADHS'12 Eindhoven, Netherlands June 6-8, 2012) [10.3182/20120606-3-NL-3011.00065].
Freeway Traffic Control via Route Guidance: An Approach Based on a First Order Hybrid Petri Nets Model
Mariagrazia Dotoli
2012
Abstract
The paper proposes an approach for real time control of freeways by route guidance, an emerging technique for efficient freeway management. A first order fluid approximation is employed to model in a modular framework the vehicle flows by first order hybrid Petri nets. The hybrid Petri nets formalism enables the network designer to choose suitable splitting rates to off-ramps to minimize congestion. The increased freeway operation is performed based on the state knowledge of the obtained linear discrete-time, time-varying state variable model of the freeway to react to unpredictable events such as the blocking of a lane due to an accident or to work in progress. The proposed route guidance approach is applied to a case study to show its effectivenessI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
