HULT, Robert, ZANON, Mario, FRISON, Gianluca, GROS, Sébastien und FALCONE, Paolo, 2025. Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections. Freiburg: Universität.
Elsevier - Harvard (with titles)Hult, R., Zanon, M., Frison, G., Gros, S., Falcone, P., 2025. Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections. Universität, Freiburg. https://doi.org/10.1002/oca.2592
American Psychological Association 7th editionHult, R., Zanon, M., Frison, G., Gros, S., & Falcone, P. (ca. 2025). Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections [Cd]. Universität. https://doi.org/10.1002/oca.2592
Springer - Basic (author-date)Hult R, Zanon M, Frison G, Gros S, Falcone P (2025) Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections. Universität, Freiburg
Juristische Zitierweise (Stüber) (Deutsch)Hult, Robert/ Zanon, Mario/ Frison, Gianluca/ Gros, Sébastien/ Falcone, Paolo, Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections, Freiburg 2025.