2025
Rodrighero, Verônica
MODELING OF A VTOL AIRLINE FOR URBAN TRANSPORT IN THE CITY OF SÃO PAULO Bachelor Thesis
2025.
Abstract | Links | BibTeX | Tags: Advanced Air Mobility, Operational Research
@bachelorthesis{veronica2025,
title = {MODELING OF A VTOL AIRLINE FOR URBAN TRANSPORT IN THE CITY OF SÃO PAULO},
author = {Verônica Rodrighero},
editor = {ITA},
url = {https://cscerqueira.com.br/wp-content/uploads/2025/11/Veronica_assinado_251120_224132.pdf},
year = {2025},
date = {2025-11-10},
urldate = {2025-11-10},
abstract = {This work presents the operational modeling of an urban air mobility company based on VTOL aircraft, with a focus on eVTOLs, within the context of São Paulo. The proposal addresses the need for innovative and sustainable short-range transportation solutions in large metropolitan areas, particularly in response to traffic congestion and inefficiencies in ground mobility. The adopted methodology is grounded in a flexible parametric model capable of simulating various operational scenarios based on input variables such as daily passenger volume, aircraft capacity, operational time windows, and cost structure. The analysis includes the definition of optimized urban routes, fleet sizing, calculation of economic metrics (such as revenue, cost, and daily profit), and evaluation of fleet utilization rates. The model was implemented in Python and calibrated using real market data, taking inspiration from the operational structure of Revo, a Brazilian urban helicopter operator, and projections from Eve Air Mobility regarding electric-powered eVTOLs. Simulation results indicate that this type of operation can be both technically feasible and economically sustainable, provided it is supported by adequate vertiport infrastructure, integration with urban air traffic management systems, and public policies promoting sustainable air mobility.},
keywords = {Advanced Air Mobility, Operational Research},
pubstate = {published},
tppubtype = {bachelorthesis}
}
This work presents the operational modeling of an urban air mobility company based on VTOL aircraft, with a focus on eVTOLs, within the context of São Paulo. The proposal addresses the need for innovative and sustainable short-range transportation solutions in large metropolitan areas, particularly in response to traffic congestion and inefficiencies in ground mobility. The adopted methodology is grounded in a flexible parametric model capable of simulating various operational scenarios based on input variables such as daily passenger volume, aircraft capacity, operational time windows, and cost structure. The analysis includes the definition of optimized urban routes, fleet sizing, calculation of economic metrics (such as revenue, cost, and daily profit), and evaluation of fleet utilization rates. The model was implemented in Python and calibrated using real market data, taking inspiration from the operational structure of Revo, a Brazilian urban helicopter operator, and projections from Eve Air Mobility regarding electric-powered eVTOLs. Simulation results indicate that this type of operation can be both technically feasible and economically sustainable, provided it is supported by adequate vertiport infrastructure, integration with urban air traffic management systems, and public policies promoting sustainable air mobility.