de Toro, J.; Sanz, C.; Labrador, E.; Clopot, R.; Mistrapau, F.; Fidalgo, J.; DomÃnguez, E.; Moreno, G.; BuendÃa, F.; Cezón, A.;
et al. Advanced Receiver Autonomous Integrity Monitoring and Local Effect Models for Rail, Maritime, and Unmanned Aerial Vehicles Sectors. Eng. Proc. 2025, 88, 27.
https://doi.org/10.3390/engproc2025088027
AMA Style
de Toro J, Sanz C, Labrador E, Clopot R, Mistrapau F, Fidalgo J, DomÃnguez E, Moreno G, BuendÃa F, Cezón A,
et al. Advanced Receiver Autonomous Integrity Monitoring and Local Effect Models for Rail, Maritime, and Unmanned Aerial Vehicles Sectors. Engineering Proceedings. 2025; 88(1):27.
https://doi.org/10.3390/engproc2025088027
Chicago/Turabian Style
de Toro, Javier, Carlos Sanz, Elena Labrador, Roxana Clopot, Florin Mistrapau, Javier Fidalgo, Enrique DomÃnguez, Ginés Moreno, Fulgencio BuendÃa, Ana Cezón,
and et al. 2025. "Advanced Receiver Autonomous Integrity Monitoring and Local Effect Models for Rail, Maritime, and Unmanned Aerial Vehicles Sectors" Engineering Proceedings 88, no. 1: 27.
https://doi.org/10.3390/engproc2025088027
APA Style
de Toro, J., Sanz, C., Labrador, E., Clopot, R., Mistrapau, F., Fidalgo, J., DomÃnguez, E., Moreno, G., BuendÃa, F., Cezón, A., Snijders, M., Engwerda, H., Casals, J., Damy, S., Sgammini, M., & Boyero, J. P.
(2025). Advanced Receiver Autonomous Integrity Monitoring and Local Effect Models for Rail, Maritime, and Unmanned Aerial Vehicles Sectors. Engineering Proceedings, 88(1), 27.
https://doi.org/10.3390/engproc2025088027
