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Onboard Guidance for Reusable Rockets: Aerodynamic Descent and Powered Landing

Marco Sagliano, Ansgar Heidecker, José Macés Hernández, Stefano Farì, Markus Schlotterer, Svenja Woicke, David Seelbinder, Étienne Dumont

2021AIAA Scitech 2021 Forum41 citationsDOIOpen Access PDF

Abstract

View Video Presentation: https://doi.org/10.2514/6.2021-0862.vid This paper describes a novel general on-board guidance strategy which can be applied to both the aerodynamically-controlled descent and the powered landing phase of reusable rockets. The proposed guidance method is based on sequential convex optimization applied to a Cartesian representation of the equations of motion. The contributions are an exploitation of convex and non-convex contributions, which are processed separately to maximize the computational efficiency of the approach, the inclusion of highly nonlinear terms represented by aerodynamic accelerations, a complete reformulation of the problem based on the use of Euler angle rates as control means, an improved transcription based on the use of a generalized hp pseudospectral method, and a dedicated formulation of the aerodynamic guidance problem for reusable rockets. The problem is solved for a 40 kN-class reusable rocket. Results show that the proposed technique is a very effective methodology able to satisfy all the constraints acting on the system, and can be potentially employed online to solve the entire descent phase of reusable rockets in real-time.

Topics & Concepts

Descent (aeronautics)AerodynamicsRocket (weapon)Computer sciencePseudospectral optimal controlConvex optimizationGauss pseudospectral methodControl theory (sociology)Cartesian coordinate systemAerospace engineeringEuler anglesNonlinear systemRegular polygonMathematical optimizationEngineeringMathematicsControl (management)Artificial intelligencePseudo-spectral methodPhysicsFourier analysisQuantum mechanicsFourier transformGeometryMathematical analysisSpacecraft Dynamics and ControlAerospace Engineering and Control SystemsGuidance and Control Systems
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