Modeling and Optimization in Space Engineering

Preface and Acknowledgements.- Control Propellant Minimization for the Next Generation Gravity Mission.- Global Optimization of Continuous-Thrust Trajectories Using Evolutionary Neurocontrol.- Nonparametric Importance Sampling Techniques for Sensitivity Analysis and Reliability Assessment of a Launcher Stage Fallout.- Dynamic System Control Dispatch: A Global Optimization Approach.- Choice of the Optimal Launch Date for Interplanetary Missions.- Optimal Topological Design of a Thermal Isolator for a Monopropellant Space Thruster.- Evidence-Based Robust Optimization of Pulsed Laser Orbital Debris Removal under Epistemic Uncertainty.- Machine Learning and Evolutionary Techniques in Interplanetary Trajectory Design.- Real-Time Optimal Control using TransWORHP and WORHP Zen.- Theory and Applications of Optimal Finite Thrust Orbital Transfers.- Collection Planning and Scheduling for Multiple Heterogeneous Satellite Missions: OptimizationProblem and Mathematical Programming Formulation.- Single-Stage-to-Orbit Space-Plane Trajectory Performance Analysis.- Ascent Trajectory Optimization and Neighboring Optimal Guidance of Multistage Launch Vehicles.- Optimization Issues in the Problem of Small Satellite Attitude Determination and Control.- Optimized Packings in Space Engineering Applications - Part I.- Optimized Packings in Space Engineering Applications - Part II.- A Catalogue of Parametric Time-Optimal Transfers for All-Electric GEO Satellites.