Hult, R., Zanon, M., Frison, G., Gros, S. und Falcone, P. (2025) Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections [cd]. Freiburg: Universität. doi:10.1002/oca.2592.
Chicago Manual of Style 17th edition (full note)Hult, Robert, Mario Zanon, Gianluca Frison, Sébastien Gros, und Paolo Falcone. Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections. Cd. Freiburg: Universität, [2025?], Freiburg: Universität, [2025?]. 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
Modern Language Association 9th editionHult, R., M. Zanon, G. Frison, S. Gros, und P. Falcone. Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections. cd, Universität, 2025, https://doi.org/10.1002/oca.2592.
ISO-690 (author-date, Deutsch)HULT, Robert, Mario ZANON, Gianluca FRISON, Sébastien GROS und Paolo FALCONE, 2025. Experimental validation of a semi‐distributed sequential quadratic programming method for optimal coordination of automated vehicles at intersections. Freiburg: Universität