Papa, GregorVukašinović, VidaSánchez Cauce, RaquelCantú Ros, Olivia G.Burrieza Galán, JavierTympakianaki, AthinaPellicer-Pous, AntonioMasegosa Arredondo, Antonio DavidGosh, ArkaSerrano, Leire2026-02-272026-02-272026Papa, G., Vukašinović, V., Sánchez-Cauce, R., Cantú Ros, O. G., Burrieza-Galán, J., Tympakianaki, A., Pellicer-Pous, A., Masegosa, A. D., Gosh, A., & Serrano, L. (2026). Fleet and traffic management systems for conducting future cooperative mobility. En Lecture Notes in Mobility: Vol. Part F1025 (pp. 593-599). Springer. https://doi.org/10.1007/978-3-032-06763-0_85978303206762397830320676302196-554410.1007/978-3-032-06763-0_85https://hdl.handle.net/20.500.14454/5279As urbanization continues to increase worldwide, cities face the challenge of accommodating growing populations while maintaining efficient and sustainable transportation systems. The advent of connected and autonomous vehicles promises transformative changes in urban mobility. This paper addresses developments and innovations aimed at seamlessly integrating CAVs into the complex urban mobility ecosystem. It presents assumptions related to a fleet of fully connected and autonomous vehicles coordinated by traffic management centers and focuses on optimizing route assignments based on various performance metrics, including travel time, energy consumption, congestion, and emissions. We are also exploring the integration of people and goods mobility by leveraging the cost efficiency and versatility of on-demand autonomous services.eng© The Editor(s) (if applicable) and The Author(s) 2026CCAMFleet managementLoad-balancing; demand-responsive transportationMultimodalityTraffic managementTraffic simulationbook part2026-02-272196-5552