Chunyun Dong scite author profile

A hybrid double-loop optimization algorithm combing particle swarm optimization (PSO) and nonintrusive polynomial chaos (NIPC) is proposed for solving the robust trajectory optimization of hypersonic glide vehicle (HGV) under uncertainties. In the outer loop, the PSO method searches globally for the robust optimal control law according to a penalized fitness function that contains the system robustness considerations. In the inner loop, uncertainty propagation of the stochastic system is performed using the NIPC method, to provide statistical moments for the iterative scheme of the PSO method in the outer loop. Only control variables are discretized, and the state constraints are satisfied implicitly through the numerical integration process, which reduces the number of decision variables as well as the huge amount of computation increased by NIPC. In the end, the robust optimal control law is achieved conveniently. Numerical simulations are carried out considering a classical time-optimal trajectory optimization problem of HGV with uncertainties in both initial states and aerodynamic coefficients. The results demonstrate the feasibility and effectiveness of the proposed method.

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Optimal Method of Air Cargo Loading Under Multi-constraint Conditions

Dong

Meng³

et al. 2023

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Optimal Design of Power Drive Unit Layout Based on Improved Discrete Particle Swarm Optimization

Wei

Dong

Nan³

et al. 2023

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Chunyun Dong

Sustained latanoprost release from PEGylated solid lipid nanoparticle-laden soft contact lens to treat glaucoma

Reentry Trajectory Optimization for Hypersonic Glide Vehicle with Flexible Initial Conditions

Robust Trajectory Planning for Hypersonic Glide Vehicle with Parametric Uncertainties

Optimal Method of Air Cargo Loading Under Multi-constraint Conditions

Optimal Design of Power Drive Unit Layout Based on Improved Discrete Particle Swarm Optimization

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