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Convex Optimization of Launch Vehicle Ascent Trajectory with Heat-Flux and Splash-Down Constraints

Boris Benedikter, Alessandro Zavoli, Guido Colasurdo, Simone Pizzurro, Enrico Cavallini

2022Journal of Spacecraft and Rockets43 citationsDOIOpen Access PDF

Abstract

This paper presents a convex programming approach to the optimization of a multistage launch vehicle ascent trajectory, from the liftoff to the payload injection into the target orbit, taking into account multiple nonconvex constraints, such as the maximum heat flux after fairing jettisoning and the splash-down of the burned-out stages. Lossless and successive convexification methods are employed to convert the problem into a sequence of convex subproblems. Virtual controls and buffer zones are included to ensure the recursive feasibility of the process, and a state-of-the-art method for updating the reference solution is implemented to filter out undesired phenomena that may hinder convergence. A pseudospectral discretization scheme is used to accurately capture the complex ascent and return dynamics with a limited computational effort. The convergence properties, computational efficiency, and robustness of the algorithm are discussed on the basis of numerical results. The ascent of a VEGA-like launch vehicle toward a polar orbit is used as a case study to discuss the interaction between the heat flux and splash-down constraints. Finally, a sensitivity analysis of the launch vehicle carrying capacity to different splash-down locations is presented.

Topics & Concepts

Aerospace engineeringRobustness (evolution)SplashComputer sciencePayload (computing)Trajectory optimizationHeat fluxTrajectoryControl theory (sociology)Mathematical optimizationEngineeringPhysicsOptimal controlMathematicsMechanicsMeteorologyHeat transferBiochemistryGeneAstronomyComputer networkArtificial intelligenceNetwork packetChemistryControl (management)Spacecraft Dynamics and ControlRocket and propulsion systems researchSpacecraft and Cryogenic Technologies
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