In this paper some of the inconsistencies and limitations of other models in the simulation of the effects of ATIS (Advanced Traveller Information Systems) are discussed, with particular regard to the impact of pre-trip information on the day-to-day dynamics of transportation systems. An innovative model is proposed, where the compliance of travellers to ATIS is considered to be elastic and explicitly modelled; it is considered both variable within the whole dynamic process and dependent on the accuracy of the information. For the sake of simplicity, a fixed O/D demand is considered and the effects of ATIS are taken into account only on route choices. It is shown that in most cases ATIS cannot be used to optimise the performances of the traffic network (system optimum); rather, travellers are compliant to information only if supplied according to user optimum. Thus, the main role of ATIS in recurrent traffic conditions is shown to be the stabilisation of the transport systems. The first section of the publication introduces the motivations of the proposed model and how they have been addressed in literature, moreover it anticipates most of the innovative characteristic of the proposed model, as well as the expected accuracy of the results. In the second section the model is formalised as a dynamic process, which includes explicit simulation of compliance. In the third section the result of some numerical experiments, related to different information strategies, are presented; moreover, some theoretical analysis are carried out by determining the stability domain for the dynamic process in presence of information.
The effects of ATIS on transportation systems: theoretical analysis and numerical applications / Bifulco, GENNARO NICOLA; Simonelli, F.. - 77:(2005), pp. 723-732. (Intervento presentato al convegno International Conference on Urban Transport and the Environment tenutosi a Algarve (Portugal) nel 2005) [10.2495/UT050701].
The effects of ATIS on transportation systems: theoretical analysis and numerical applications
BIFULCO, GENNARO NICOLA;Simonelli F.
2005
Abstract
In this paper some of the inconsistencies and limitations of other models in the simulation of the effects of ATIS (Advanced Traveller Information Systems) are discussed, with particular regard to the impact of pre-trip information on the day-to-day dynamics of transportation systems. An innovative model is proposed, where the compliance of travellers to ATIS is considered to be elastic and explicitly modelled; it is considered both variable within the whole dynamic process and dependent on the accuracy of the information. For the sake of simplicity, a fixed O/D demand is considered and the effects of ATIS are taken into account only on route choices. It is shown that in most cases ATIS cannot be used to optimise the performances of the traffic network (system optimum); rather, travellers are compliant to information only if supplied according to user optimum. Thus, the main role of ATIS in recurrent traffic conditions is shown to be the stabilisation of the transport systems. The first section of the publication introduces the motivations of the proposed model and how they have been addressed in literature, moreover it anticipates most of the innovative characteristic of the proposed model, as well as the expected accuracy of the results. In the second section the model is formalised as a dynamic process, which includes explicit simulation of compliance. In the third section the result of some numerical experiments, related to different information strategies, are presented; moreover, some theoretical analysis are carried out by determining the stability domain for the dynamic process in presence of information.File | Dimensione | Formato | |
---|---|---|---|
TheEffectsOfATIS.pdf
non disponibili
Tipologia:
Documento in Post-print
Licenza:
Accesso privato/ristretto
Dimensione
590.67 kB
Formato
Adobe PDF
|
590.67 kB | Adobe PDF | Visualizza/Apri Richiedi una copia |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.