Time-optimal trajectories to circumsolar space using solar electric propulsion
Preface: Advances in asteroid and space debris science and technology – Part 2
PREFACE: Advances in Asteroid and Space Debris Science and Technology - Part 1
Potential of laser-induced ablation for future space applications
Post-launch analysis of the deployment dynamics of a space web sounding rocket experiment
Orbit determination and control for the European Student Moon Orbiter
Optimizing Low-Thrust and Gravity Assist Maneuvers to Design Interplanetary Trajectories
Optimised Low-Thrust Mission to the Atira Asteroids
Optimal Options for Rendezvous and Impact Missions to NEOs
MGA trajectory planning with an ACO-inspired algorithm
Inflatable shape changing colonies assembling versatile smart space structures
Experimental analysis of laser ablated plumes for asteroid deflection and exploitation
End-of-life disposal concepts for Libration Point Orbit and Highly Elliptical Orbit missions
Direct transcription of low-thrust trajectories with finite trajectory elements
Design of Earth#8211Mars transfer trajectories using evolutionary-branching technique
Controlling the growth of future LEO debris populations with active debris removal
Contingency and recovery options for the European Student Moon Orbiter
Autonomous navigation of a spacecraft formation in the proximity of an asteroid
Automatic trajectory planning for low-thrust active removal mission in low-earth orbit
Automatic trajectory planning for low-thrust active removal mission in low-earth orbit
Asteroid rotation and orbit control via laser ablation
Activities Of The Space Advanced Research Team At The University Of Glasgow