Past and current research:
For more information, please contact me.-
Design of JAXA's Jupiter Magnetospheric Orbiter trajectory
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Near-optimal algebraic control laws for satellite reconfigurations with application to the TPF missions.
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Design of an Enceladus orbiter.
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Design of endgame strategies for missions to the outer planet moons.
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Jacobi and Tisserand level sets in the spatial CR3BP.
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Tool for the design of capture trajectories associated to special quasi-periodic orbits in the spatial elliptic restricted 3-body problem.
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The spatial elliptic restricted 3-body problem (incl. subregions of motions and elliptic Halo orbits).
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Design of missions to the moon using invariant manifolds in the spatial CR3BP.
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Design of a gravitational capture at Mercury using low-thrust propulsion.
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Trajectory design and optimization of the ESA BepiColombo Mission to Mercury using multiple gravity assist (electric and chemical propulsion options).
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Trajectory design and optimization of the ESA SOLar Orbiter mission Mission using multiple gravity assist (electric and chemical propulsion options).
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Mission design of missions to the Jupiter moon Europa (electric and chemical propulsion options). Thanks MK for the two pics.
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Design of efficient lunar gravity assists.
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Maximize the inclination of the target orbit with multiple gravity assists.
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Search for the global minima.
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Design of missions with aerogravity assist maneuvers.
