As NASA examines potential missions in the post space shuttle era, there has been a renewed interest in low-thrust electric propulsion for both crewed and uncrewed missions. While much progress has been made in the field of software for the optimization of low-thrust trajectories, many of the tools utilize higher-fidelity methods which, while excellent, result in extremely high run-times and poor convergence when dealing with planetocentric spiraling trajectories deep within a gravity well. Conversely, faster tools like SEPSPOT provide a reasonable solution but typically fail to account for other forces such as third-body gravitation, aerodynamic drag, solar radiation pressure. SEPSPOT is further constrained by its solution method, which may require a very good guess to yield a converged optimal solution. Here the authors have developed an approach using collocation intended to provide solution times comparable to those given by SEPSPOT while allowing for greater robustness and extensible force models.
Optimization of Low-Thrust Spiral Trajectories by Collocation
2012-09-01
Report
No indication
English
Optimization of Low-Thrust Spiral Trajectories by Collocation
British Library Conference Proceedings | 2012
|Optimization of Low-Thrust Interplanetary Trajectories Using Collocation and Nonlinear Programming
Online Contents | 1995
|