Kapil Sachan scite author profile

A waypoint constrained multi-phase nonlinear optimal guidance scheme is presented in this paper for the soft landing of a spacecraft on the Lunar surface by using the recently developed computationally efficient Generalized Model Predictive Static Programming (G-MPSP). The proposed guidance ensures that the spacecraft passes through two waypoints, which is a strong requirement to facilitate proper landing site detection by the on-board camera for mission safety. Constraints that are required at the waypoints as well as at the terminal point include position, velocity, and attitude of the spacecraft. In addition to successfully meeting these hard constraints, the G-MPSP guidance also minimizes the fuel consumption, which is a very good advantage. An optimal final time selection procedure is also presented in this paper to facilitate minimization of fuel requirement to the best extent possible. Extensive simulation studies have been carried out with various perturbations to illustrate the effectiveness of the algorithm. Finally, processor-in-loop simulation has been carried out, which demonstrates the feasibility of on-board implementation of the proposed guidance.

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Output-Constrained Robust Adaptive Control for Uncertain Nonlinear MIMO Systems With Unknown Control Directions

Sachan

Padhi

2019

IEEE Control Syst. Lett.

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Fuel-optimal G-MPSP guidance for powered descent phase of soft lunar landing

Sachan

Padhi

2015

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Nonlinear robust neuro-adaptive flight control for hypersonic vehicles with state constraints

Sachan

Padhi

2020

Control Engineering Practice

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Kapil Sachan

Barrier Lyapunov Function Based State-constrained Control for a Class of Nonlinear Systems

Waypoint Constrained Multi-Phase Optimal Guidance of Spacecraft for Soft Lunar Landing

Output-Constrained Robust Adaptive Control for Uncertain Nonlinear MIMO Systems With Unknown Control Directions

Fuel-optimal G-MPSP guidance for powered descent phase of soft lunar landing

Nonlinear robust neuro-adaptive flight control for hypersonic vehicles with state constraints

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