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Spacecraft Trajectory Optimization
This volume on space trajectory optimization includes a variety of both analytical and numerical approaches to trajectory optimization.
Bruce A. Conway (Edited by)
9780521518505, Cambridge University Press
Hardback, published 23 August 2010
312 pages, 77 b/w illus. 29 tables
25.4 x 17.8 x 2.3 cm, 0.8 kg
This is a long-overdue volume dedicated to space trajectory optimization. Interest in the subject has grown, as space missions of increasing levels of sophistication, complexity, and scientific return - hardly imaginable in the 1960s - have been designed and flown. Although the basic tools of optimization theory remain an accepted canon, there has been a revolution in the manner in which they are applied and in the development of numerical optimization. This volume purposely includes a variety of both analytical and numerical approaches to trajectory optimization. The choice of authors has been guided by the editor's intention to assemble the most expert and active researchers in the various specialities presented. The authors were given considerable freedom to choose their subjects, and although this may yield a somewhat eclectic volume, it also yields chapters written with palpable enthusiasm and relevance to contemporary problems.
1. The problem of spacecraft trajectory optimization Bruce A. Conway
2. Primer vector theory and application John E. Prussing
3. Spacecraft trajectory optimization using direct transcription and nonlinear programming Stephen W. Paris and Bruce A. Conway
4. Elements of a software system for spacecraft trajectory optimization Cesar Ocampo
5. Low-thrust trajectory optimization using orbital averaging and control parameterization Craig A. Kluever
6. Analytic representation of optimal low-thrust transfer in circular orbit Jean A. Kechichian
7. Global optimization and space pruning for spacecraft trajectory design Dario Izzo
8. Incremental techniques for global space trajectory design Massimiliano Vasile and Matteo Ceriotti
9. Optimal low-thrust trajectories using stable manifolds Christopher Martin and Bruce A. Conway.
Subject Areas: Aerospace & aviation technology [TRP], Mechanics of fluids [TGMF], Technology, engineering, agriculture [T]