TY - GEN
T1 - Designing demand responsive transport services in small-sized cities using an agent-based model
AU - Calabrò, Giovanni
AU - Le Pira, Michela
AU - Giuffrida, Nadia
AU - Inturri, Giuseppe
AU - Ignaccolo, Matteo
AU - H. de A. Correia, Gonçalo
PY - 2023
Y1 - 2023
N2 - This paper presents an agent-based model (ABM) to simulate and compare two different operation strategies of a public transport service in small-sized cities, namely a fixed-route transit (FRT) and a demand-responsive transport (DRT) service, under varying demand rates and supply configurations. The ABM builds upon a previous work by the Authors, where flexible and feeder services of a Mass Rapid Transit system were simulated. In this paper, instead of a many-to-one pattern typical of a feeder service, we considered a many-to-many one. The objective is to investigate the conditions that make a DRT more attractive than a FRT in small-sized cities and guide its design considering the demand fluctuation, land-use pattern, service constraints and passenger preferences. A dispatching algorithm for the DRT allows to assign each new trip request to a vehicle, and a couple of origin and destination stops, updating the vehicle schedule in real time. The service includes fixed and virtual stops, allowing request consolidation and balancing operator-related (cost of the service) and user-related (quality of service) needs. The model is applied to Vittoria (Italy), a small city with 60,000 residents in Southern Italy where most trips are made by car, also due to the absence of an urban public transport service. First results highlight the benefits of providing a flexible service compared to a fixed one to minimize detours, waiting times and walking distances experienced by passengers while allowing for a higher shareability and efficiency of the service.
AB - This paper presents an agent-based model (ABM) to simulate and compare two different operation strategies of a public transport service in small-sized cities, namely a fixed-route transit (FRT) and a demand-responsive transport (DRT) service, under varying demand rates and supply configurations. The ABM builds upon a previous work by the Authors, where flexible and feeder services of a Mass Rapid Transit system were simulated. In this paper, instead of a many-to-one pattern typical of a feeder service, we considered a many-to-many one. The objective is to investigate the conditions that make a DRT more attractive than a FRT in small-sized cities and guide its design considering the demand fluctuation, land-use pattern, service constraints and passenger preferences. A dispatching algorithm for the DRT allows to assign each new trip request to a vehicle, and a couple of origin and destination stops, updating the vehicle schedule in real time. The service includes fixed and virtual stops, allowing request consolidation and balancing operator-related (cost of the service) and user-related (quality of service) needs. The model is applied to Vittoria (Italy), a small city with 60,000 residents in Southern Italy where most trips are made by car, also due to the absence of an urban public transport service. First results highlight the benefits of providing a flexible service compared to a fixed one to minimize detours, waiting times and walking distances experienced by passengers while allowing for a higher shareability and efficiency of the service.
KW - Agent-based simulation
KW - Demand Responsive Transport (DRT)
KW - Low demand areas
KW - Mass rapid transit
KW - Mobility on demand
UR - http://www.scopus.com/inward/record.url?scp=85159146912&partnerID=8YFLogxK
U2 - 10.1016/j.trpro.2023.02.233
DO - 10.1016/j.trpro.2023.02.233
M3 - Conference contribution
AN - SCOPUS:85159146912
VL - 69
T3 - Transportation Research Procedia
SP - 759
EP - 766
BT - Transportation Research Procedia
A2 - Cantisani, Giuseppe
A2 - Le Pira, Michela
A2 - Zampino, Stefano
PB - Elsevier
T2 - AIIT 3rd International Conference on Transport Infrastructure and Systems 2022
Y2 - 15 September 2022 through 16 September 2022
ER -
