Several projects of large constellations have been proposed for the next years for communication purposes, like global internet access, Internet of Things, or for Earth observation. If OneWeb, Starlink, and Telesat are already scheduled, a lot of companies are now developing new projects at different altitudes. In this paper, we propose to investigate the collision risk for each referenced constellation. For this purpose, we compute the orbit evolution of the constellation during the operational life and we apply the CUBE algorithm to evaluate the collision rate with the space debris population, and we show the variation of the risk as a function of the proposed configuration.
Risk of collision for satellites in different configurations of mega constellations
Alessandro Rossi;Elisa Maria Alessi
2019
Abstract
Several projects of large constellations have been proposed for the next years for communication purposes, like global internet access, Internet of Things, or for Earth observation. If OneWeb, Starlink, and Telesat are already scheduled, a lot of companies are now developing new projects at different altitudes. In this paper, we propose to investigate the collision risk for each referenced constellation. For this purpose, we compute the orbit evolution of the constellation during the operational life and we apply the CUBE algorithm to evaluate the collision rate with the space debris population, and we show the variation of the risk as a function of the proposed configuration.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
