Attitude Trajectory Optimization for Agile Satellites in Autonomous Remote Sensing Constellation

Abstract: Agile attitude maneuvering maximizes the utility of remote sensing satellite constellations. By taking into account a satellite's physical properties and its actuator specifications, we may leverage the full performance potential of the attitude control system to conduct agile remote sensing beyond conventional slew-and-stabilize maneuvers. Employing a constellation of agile satellites, coordinated by an autonomous and responsive scheduler, can significantly increase overall response rate, revisit time and glo… Show more

“…In any case we could ascertain that all the transients behave in due way and extinguish within the prescribed duration according to design specifications and according to our stability analysis in the sense of Lyapunov. The paper can be seen as our first step on the subject: further advanced techniques of control have been taken also into account (see [8], [19] and [20]) and will be exploited in a future work.…”

ADCS Preliminary Design For GNB

“…In any case we could ascertain that all the transients behave in due way and extinguish within the prescribed duration according to design specifications and according to our stability analysis in the sense of Lyapunov. The paper can be seen as our first step on the subject: further advanced techniques of control have been taken also into account (see [8], [19] and [20]) and will be exploited in a future work.…”

ADCS Preliminary Design For GNB