Add to ORKGThe Jovian system represents the perfect environment for electrodynamic tethers due to its magnetic field, dense plasmasphere and high rotation rate. The use of EDT for orbital maneuvers can save propellant and mass. In this thesis a mission for the exploration of the Galilean moons, along with the optimization techniques used, from interplanetary phase through capture, till the moons tour itself, is presented
An ED-tether mission to Jupiter is presented. A bare tether carrying cathodic devices at both ends b...
We make use of self-adaptation in a Differential Evolution algorithm and of the asynchronous island ...
We make use of self-adaptation in a Differential Evolution algorithm and of the asynchronous island ...
Abstract. Recent studies have demonstrated the benefits of using electrodynamic tethers (EDT) for t...
The paper presents the trajectory designed by the Italian joint team Politecnico di Torino & Sapienz...
textThe use of electrodynamic tethers for propulsion and power generation is attractive for missions...
Abstract. An electrodynamic bare-tether mission to Jupiter, following the capture of a spacecraft (...
An electrodynamic bare-tether mission to Jupiter,following the capture of a spacecraft (SC) into an ...
The use of electrodynamic tethers for propulsion and power generation is attractive for mis-sions to...
A key trade-off for planetary system exploration is the fuel cost required versus science data obtai...
A key trade-off for planetary system exploration is the fuel cost required versus science data obtai...
This thesis is aimed at studying direct (i.e., without intermediate flybys) trajectories to visit di...
Around 1610 Galileo Galilei made his discovery of the four large moons orbiting Jupiter which are re...
Use of electrodynamic bare tethers in exploring the Jovian system by tapping its rotational energy f...
Three separate scenarios of an electrodynamic tether mission at Jupiter following capture of a space...
An ED-tether mission to Jupiter is presented. A bare tether carrying cathodic devices at both ends b...
We make use of self-adaptation in a Differential Evolution algorithm and of the asynchronous island ...
We make use of self-adaptation in a Differential Evolution algorithm and of the asynchronous island ...
Abstract. Recent studies have demonstrated the benefits of using electrodynamic tethers (EDT) for t...
The paper presents the trajectory designed by the Italian joint team Politecnico di Torino & Sapienz...
textThe use of electrodynamic tethers for propulsion and power generation is attractive for missions...
Abstract. An electrodynamic bare-tether mission to Jupiter, following the capture of a spacecraft (...
An electrodynamic bare-tether mission to Jupiter,following the capture of a spacecraft (SC) into an ...
The use of electrodynamic tethers for propulsion and power generation is attractive for mis-sions to...
A key trade-off for planetary system exploration is the fuel cost required versus science data obtai...
A key trade-off for planetary system exploration is the fuel cost required versus science data obtai...
This thesis is aimed at studying direct (i.e., without intermediate flybys) trajectories to visit di...
Around 1610 Galileo Galilei made his discovery of the four large moons orbiting Jupiter which are re...
Use of electrodynamic bare tethers in exploring the Jovian system by tapping its rotational energy f...
Three separate scenarios of an electrodynamic tether mission at Jupiter following capture of a space...
An ED-tether mission to Jupiter is presented. A bare tether carrying cathodic devices at both ends b...
We make use of self-adaptation in a Differential Evolution algorithm and of the asynchronous island ...
We make use of self-adaptation in a Differential Evolution algorithm and of the asynchronous island ...