Title :
A new high sensitivity radar sensor for space debris detection and accurate orbit determination
Author :
Morselli, Alessandro ; Di Lizia, Pierluigi ; Armellin, Roberto ; Bianchi, Germano ; Bortolotti, Claudio ; Montebugnoli, Stelio ; Naldi, Giovanni ; Perini, Federico ; Pupillo, Giuseppe ; Roma, Mauro ; Schiaffino, Marco ; Mattana, Andrea ; Salerno, Emma ; S
Author_Institution :
Dept. of Aerosp. Sci. & Technol., Politec. di Milano, Milan, Italy
Abstract :
As the amount of space debris orbiting the earth is continuously increasing, it is becoming essential to monitor and predict the debris´ trajectories in order to avoid collision that could threaten space missions, i.e. operative satellites or manned spacecraft. An innovative bistatic radar system, that couples multi-beaming and ranging techniques, is proposed in this work as an instrument for the observation of Earth-orbiting objects. The main characteristics of the sensor are described. In addition, tailored algorithms have been implemented to perform orbit determination using the peculiar outputs provided by the sensor. The results of numerical simulations are illustrated to assess its performances for space debris detection and orbit determination.
Keywords :
aerospace instrumentation; collision avoidance; space debris; spaceborne radar; Earth-orbiting object observation; accurate orbit determination; collision avoidance; debris trajectory prediction; high sensitivity radar sensor; innovative bistatic radar system; manned spacecraft; multibeaming techniques; numerical simulations; operative satellites; ranging techniques; space debris detection; space missions; Bistatic radar; Orbits; Radar antennas; Receivers; Space debris; Trajectory; Multibeam; beamforming; bistatic radar; orbit determination; pulse compression; space debris;
Conference_Titel :
Metrology for Aerospace (MetroAeroSpace), 2015 IEEE
Conference_Location :
Benevento
DOI :
10.1109/MetroAeroSpace.2015.7180719
