Multi-step optimization strategy for fuel-optimal orbital transfer of low-thrust spacecraft
- Rasotto, M. 3
- Armellin, R. 1
- Di Lizia, P. 2
-
1
University of Southampton
info
-
2
Polytechnic University of Milan
info
- 3 Dinamica Srl, Milano, Italy
ISSN: 0305-215X
Année de publication: 2015
Type: Article
beta Ver similares en nube de resultadosD'autres publications dans: Engineering Optimization
Résumé
An effective method for the design of fuel-optimal transfers in two- and three-body dynamics is presented. The optimal control problem is formulated using calculus of variation and primer vector theory. This leads to a multi-point boundary value problem (MPBVP), characterized by complex inner constraints and a discontinuous thrust profile. The first issue is addressed by embedding the MPBVP in a parametric optimization problem, thus allowing a simplification of the set of transversality constraints. The second problem is solved by representing the discontinuous control function by a smooth function depending on a continuation parameter. The resulting trajectory optimization method can deal with different intermediate conditions, and no a priori knowledge of the control structure is required. Test cases in both the two- and three-body dynamics show the capability of the method in solving complex trajectory design problems. © 2015 Taylor & Francis