Litcius/Paper detail

Robust Low-Thrust Trajectory Optimization Using Convex Programming and a Homotopic Approach

Andrea C. Morelli, Christian Hofmann, Francesco Topputo

2021IEEE Transactions on Aerospace and Electronic Systems54 citationsDOIOpen Access PDF

Abstract

A robust algorithm to solve the low-thrust fuel-optimal trajectory optimization problem for interplanetary spacecraft is developed in this article. The original nonlinear optimal control problem is convexified and transformed into a parameter optimization problem using an arbitrary-order Gauss–Lobatto discretization scheme with nonlinear control interpolation. A homotopic approach that considers the energy-to-fuel smoothing path is combined with an adaptive second-order trust-region mechanism to increase performance. The overall robustness is assessed in several fuel-optimal transfers with poor initial guesses. The results show a superior performance in terms of convergence and computational time compared to standard convex programming approaches in the literature.

Topics & Concepts

Trajectory optimizationNonlinear programmingRobustness (evolution)Mathematical optimizationOptimal controlNonlinear systemSequential quadratic programmingControl theory (sociology)DiscretizationConvex optimizationThrustRobust controlComputer scienceMathematicsQuadratic programmingRegular polygonEngineeringControl (management)Aerospace engineeringGeneMathematical analysisChemistryBiochemistryGeometryQuantum mechanicsArtificial intelligencePhysicsSpacecraft Dynamics and ControlAerospace Engineering and Control SystemsSpace Satellite Systems and Control