In this paper, two types of optimization strategies are applied to solve the Space Manoeuvre Vehicle (SMV) trajectory optimization problem. The SMV dynamic model is constructed and discretized applying direct multiple shooting method. To solve the resulting Nonlinear Programming (NLP) problem, gradient-based and derivative free optimization techniques are used to calculate the optimal time history with respect to the states and controls. Simulation results indicate that the proposed strategies are effective and can provide feasible solutions for solving the constrained SMV trajectory design problem
Algorithms and computation techniques for solving trajectory optimization problem
The optimization of high-thrust interplanetary trajectories continues to draw attention. Especially ...
In this article, we introduce a novel three-step approach for solving optimal control problems in sp...
Space maneuver vehicles (SMVs) [1,2] will play an increasingly important role in the future explorat...
Highly constrained trajectory optimization for Space Manoeuvre Vehicles (SMV) is a challenging probl...
This paper focuses on the application of an extended NSGA-II algorithm to the aero-assisted spacecra...
This article is a survey paper on solving spacecraft trajectory optimization problems. The solving p...
This paper proposes a multidisciplinary approach to the preliminary design of a space vehicle involv...
The paper presents the study on the ascent trajectory optimization problem accomplished during a res...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2002.In...
The sensitivities of the convergence characteristics of the methods to initially assumed parameters ...
In this paper, a constrained space maneuver vehicles trajectory optimization problem is formulated a...
Trajectory optimization is an important part of launch vehicle design and operation. With the high c...
In this paper we discuss the procedures to test a global search algorithm applied to a space traject...
Trajectory optimization by direct descent to minimum cost using iterative computer solution
Algorithms and computation techniques for solving trajectory optimization problem
The optimization of high-thrust interplanetary trajectories continues to draw attention. Especially ...
In this article, we introduce a novel three-step approach for solving optimal control problems in sp...
Space maneuver vehicles (SMVs) [1,2] will play an increasingly important role in the future explorat...
Highly constrained trajectory optimization for Space Manoeuvre Vehicles (SMV) is a challenging probl...
This paper focuses on the application of an extended NSGA-II algorithm to the aero-assisted spacecra...
This article is a survey paper on solving spacecraft trajectory optimization problems. The solving p...
This paper proposes a multidisciplinary approach to the preliminary design of a space vehicle involv...
The paper presents the study on the ascent trajectory optimization problem accomplished during a res...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2002.In...
The sensitivities of the convergence characteristics of the methods to initially assumed parameters ...
In this paper, a constrained space maneuver vehicles trajectory optimization problem is formulated a...
Trajectory optimization is an important part of launch vehicle design and operation. With the high c...
In this paper we discuss the procedures to test a global search algorithm applied to a space traject...
Trajectory optimization by direct descent to minimum cost using iterative computer solution
Algorithms and computation techniques for solving trajectory optimization problem
The optimization of high-thrust interplanetary trajectories continues to draw attention. Especially ...
In this article, we introduce a novel three-step approach for solving optimal control problems in sp...