Add to ORKGIn this paper we develop a geometric analysis and a numerical algorithm, based on indirect methods, to solve optimal guidance of endo-atmospheric launch vehicle systems under mixed control-state constraints. Two main difficulties are addressed. First, we tackle the presence of Euler singularities by introducing a representation of the configuration manifold in appropriate local charts. In these local coordinates, not only the problem is free from Euler singularities but also it can be recast as an optimal control problem with only pure control constraints. The second issue concerns the initialization of the shooting method. We introduce a strategy which combines indirect methods with homotopies, thus providing high accuracy. We illustrate t...
Multistage launch vehicles are employed to place spacecraft and satellites in their operational orbi...
This article, continuation of previous works, presents the applications of geometric optimal control...
An optimal guidance algorithm for air-breathing launch vehicle is proposed based on optimal trajecto...
International audienceIn this paper we develop a geometric analysis and a numerical algorithm, based...
In this paper, we propose a strategy to solve endo-atmospheric launch vehicle optimal control proble...
In this work, we address the real-time optimal guidance of launch vehicles with the objective of des...
Abstract This article deals with applications of optimal control to aerospace problems with a focus ...
In Part I, a method is developed for determining the optimal control laws for a class of aerodynamic...
Abstract only availableFaculty Mentor: Dr. Craig Kluever, Mechanical EngineeringThe nonlinear dynami...
International audienceThis survey article deals with applications of optimal control to aerospace pr...
In this chapter, a general methodology to apply the theory of optimal control to spacecraft trajecto...
AbstractIn this study, two optimal terminal guidance (OTG) laws, one of which takes into account the...
International audienceIn the context of the development of future launchers, Toss Back concepts are ...
In this study, two optimal terminal guidance (OTG) laws, one of which takes into account the final v...
. The present paper is an introductory and survey paper of the treatment of realistically modelled o...
Multistage launch vehicles are employed to place spacecraft and satellites in their operational orbi...
This article, continuation of previous works, presents the applications of geometric optimal control...
An optimal guidance algorithm for air-breathing launch vehicle is proposed based on optimal trajecto...
International audienceIn this paper we develop a geometric analysis and a numerical algorithm, based...
In this paper, we propose a strategy to solve endo-atmospheric launch vehicle optimal control proble...
In this work, we address the real-time optimal guidance of launch vehicles with the objective of des...
Abstract This article deals with applications of optimal control to aerospace problems with a focus ...
In Part I, a method is developed for determining the optimal control laws for a class of aerodynamic...
Abstract only availableFaculty Mentor: Dr. Craig Kluever, Mechanical EngineeringThe nonlinear dynami...
International audienceThis survey article deals with applications of optimal control to aerospace pr...
In this chapter, a general methodology to apply the theory of optimal control to spacecraft trajecto...
AbstractIn this study, two optimal terminal guidance (OTG) laws, one of which takes into account the...
International audienceIn the context of the development of future launchers, Toss Back concepts are ...
In this study, two optimal terminal guidance (OTG) laws, one of which takes into account the final v...
. The present paper is an introductory and survey paper of the treatment of realistically modelled o...
Multistage launch vehicles are employed to place spacecraft and satellites in their operational orbi...
This article, continuation of previous works, presents the applications of geometric optimal control...
An optimal guidance algorithm for air-breathing launch vehicle is proposed based on optimal trajecto...