Curone, D.; Savarese, G.; Antonini, M.; Baucry, R.; Amani, E.; Boulandet, A.; Cataldo, M.; Chambon, P.; Chersich, M.; Hussein, A.B.;
et al. An Innovative Low-Power, Low-Cost, Multi-Constellation Geodetic-Grade Global Navigation Satellite System Reference Station for the Densification of Permanent Networks: The GREAT Project. Sensors 2023, 23, 6032.
https://doi.org/10.3390/s23136032
AMA Style
Curone D, Savarese G, Antonini M, Baucry R, Amani E, Boulandet A, Cataldo M, Chambon P, Chersich M, Hussein AB,
et al. An Innovative Low-Power, Low-Cost, Multi-Constellation Geodetic-Grade Global Navigation Satellite System Reference Station for the Densification of Permanent Networks: The GREAT Project. Sensors. 2023; 23(13):6032.
https://doi.org/10.3390/s23136032
Chicago/Turabian Style
Curone, Davide, Giovanni Savarese, Mirko Antonini, Raphaël Baucry, Elie Amani, Antonin Boulandet, Marco Cataldo, Paul Chambon, Massimiliano Chersich, Ahmed B. Hussein,
and et al. 2023. "An Innovative Low-Power, Low-Cost, Multi-Constellation Geodetic-Grade Global Navigation Satellite System Reference Station for the Densification of Permanent Networks: The GREAT Project" Sensors 23, no. 13: 6032.
https://doi.org/10.3390/s23136032
APA Style
Curone, D., Savarese, G., Antonini, M., Baucry, R., Amani, E., Boulandet, A., Cataldo, M., Chambon, P., Chersich, M., Hussein, A. B., Menuel, B., & Tsaturyan, A.
(2023). An Innovative Low-Power, Low-Cost, Multi-Constellation Geodetic-Grade Global Navigation Satellite System Reference Station for the Densification of Permanent Networks: The GREAT Project. Sensors, 23(13), 6032.
https://doi.org/10.3390/s23136032