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The gravity science experiment of the Juno mission will provide crucial information about Jupiter composition and interior structure. Numerical simulations of the experiment have been carried out using a statistical approach in order to predict the expected performances in terms of gravity moments and Love numbers. Several case studies are presented with different assumptions on the a priori knowledge of the estimated parameters. The effect of non-gravitational perturbations is investigated by means of sensitivity analysis.

The gravity science experiment of the Juno mission will provide crucial information about Jupiter composition and interior structure. Numerical simulations of the experiment have been carried out using a statistical approach in order to predict the expected performances in terms of gravity moments and Love numbers. Several case studies are presented with different assumptions on the a priori knowledge of the estimated parameters. The effect of non-gravitational perturbations is investigated by means of sensitivity analysis.

Numerical Simulations of the Gravity Science Experiment of the Juno Mission To Jupiter / Finocchiaro, Stefano; Iess, Luciano. - ELETTRONICO. - 136:part I-III(2010), pp. 1417-1426. (Intervento presentato al convegno AAS/AIAA Space Flight Mechanics Meeting tenutosi a San Diego; USA nel 2010).

Numerical Simulations of the Gravity Science Experiment of the Juno Mission To Jupiter

FINOCCHIARO, STEFANO;IESS, Luciano
2010

Abstract

The gravity science experiment of the Juno mission will provide crucial information about Jupiter composition and interior structure. Numerical simulations of the experiment have been carried out using a statistical approach in order to predict the expected performances in terms of gravity moments and Love numbers. Several case studies are presented with different assumptions on the a priori knowledge of the estimated parameters. The effect of non-gravitational perturbations is investigated by means of sensitivity analysis.
2010
AAS/AIAA Space Flight Mechanics Meeting
The gravity science experiment of the Juno mission will provide crucial information about Jupiter composition and interior structure. Numerical simulations of the experiment have been carried out using a statistical approach in order to predict the expected performances in terms of gravity moments and Love numbers. Several case studies are presented with different assumptions on the a priori knowledge of the estimated parameters. The effect of non-gravitational perturbations is investigated by means of sensitivity analysis.
aerospace engineering; tracking systems, orbit determination planetary geodesy
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Numerical Simulations of the Gravity Science Experiment of the Juno Mission To Jupiter / Finocchiaro, Stefano; Iess, Luciano. - ELETTRONICO. - 136:part I-III(2010), pp. 1417-1426. (Intervento presentato al convegno AAS/AIAA Space Flight Mechanics Meeting tenutosi a San Diego; USA nel 2010).
04b Atto di convegno in volume
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/477182
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