Affiliation:
1. Department of Civil, Computer Science and Aeronautical Technologies Engineering, Roma Tre University, 00146 Rome, Italy
2. Department of Enterprise Engineering, Tor Vergata University of Rome, 00133 Rome, Italy
Abstract
This paper proposed a methodology to design bus transit networks that can be consistently adjusted according to demand variations both in level and distribution. The methodology aims to support the activities of service providers in optimizing the service capacity of the bus network according to a system-wide analysis. It stems from the changes imposed by the COVID-19 pandemic. Such an experience has imposed a rethinking of the methodology used for the optimal design of robust transit network services that are easy-to-adapt to demand variations without redesigning the whole network every time. Starting from an existing model, this design methodology is articulated in two parts: the first part for solving the problem with the maximum level of transit demand, aiming at giving an upper bound to the solution, and the second part, where the network is optimized for other specific transit demands. This method has been applied to a real context in the city of Rome, considering two levels of demand taken from COVID-19 experiences. They are characterized by the application of different policies regarding different timings for shopping and schools’ openings as well as by policies on smart working. The results show the effectiveness of the proposed methodology to design robust transit networks suited to comply with large demand variations. Moreover, the procedure is suitable and easy to implement, in order to adapt quickly to changes in demand without having to modify line routes, but adapting them in an optimal way, even when dealing with realistic-sized transit networks.
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction
Reference46 articles.
1. Public transport planning adaption under the COVID-19 pandemic crisis: Literature review of research needs and directions;Gkiotsalitis;Transp. Rev.,2020
2. COVID-19 and Public Transportation: Current Assessment, Prospects, and Research Needs;Tirachini;J. Public Transp.,2020
3. Some issue relating to the optimal design of bus lines;Newell;Transp. Sci.,1979
4. An AI-based approach for transit route system planning and design;Baaj;J. Adv. Transp.,1991
5. Ceder, A., and Israeli, Y. (1993, January 26–29). Design and evaluation of transit routes in urban networks. Proceedings of the 3rd International Conference on Competition and Ownership in Surface Passenger Transport, Toronto, ON, Canada.