Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems

Download Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems full books in PDF, epub, and Kindle. Read online Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems ebook anywhere anytime directly on your device. Fast Download speed and no annoying ads. We cannot guarantee that every ebooks is available!

Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems

Download Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems PDF Online Free

Author : David Ryan Ottesen
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (135 download)

Book Synopsis Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems by : David Ryan Ottesen

Download or read book Spacecraft Trajectory Optimization Using Many Embedded Lambert Problems written by David Ryan Ottesen and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Improvement of spacecraft trajectory optimization approaches, methods, and techniques is critical for better mission design. Preliminary low-fidelity analysis precedes high-fidelity analysis to efficiently explore the space of a problem. The work of this dissertation extends an embedded boundary value problem (EBVP) technique for preliminary design in the two-body problem. The EBVP technique is designed for direct, unconstrained optimization using many, short-arc, embedded Lambert problems that discretize the trajectory. The short arcs share terminal positions to implicitly enforce position continuity and the instantaneous velocity discontinuities in between segments are the control. These coasting arcs and impulsive maneuvers in between segments are defined collectively as a coast-impulse model, similar to the well-known Sims-Flanagan model. Use of EBVPs is not new to spacecraft trajectory optimization, extensively used in primer vector theory, flyby-tour design, direct impulsive-maneuver optimization, and more. Lack of fast and accurate BVP solvers has prevented the use of the EBVP technique on problems with more than dozens of segments. For the two-body problem, a recently-developed Lambert solver, complete with the necessary partials, enables the extension of the EBVP technique to many hundreds to thousands of segments and hundreds of revolutions. The use of many short arcs guarantees existence and uniqueness for the Lambert problem of each segment. Furthermore, short arcs simultaneously approximate low thrust and eliminates the need to know the structure of a high-thrust impulsive-maneuver solution. A set of examples show the EBVP technique to be efficient, robust, and useful. In particular, an example using 256 revolutions, 6143 segments, and a constant flight time per segment, optimizes in 5.5 hours using a single processor. After this initial demonstration, the EBVP technique is improved by a function which enables variable flight time per segment. Guided by the well-known Sundman transformation, these piecewise Sundman transformation (PST) functions divide the total flight time of the trajectory into spatially-even arcs, importantly not modifying the dynamics. Flight-time functions and their dynamical regularization counterpart are shown to share similar behavior for Keplerian orbit propagation. The PST functions are also shown to extend the EBVP technique to a large design space, where a runtime-feasible transfer with 512 revs and 12287 segments is presented that significantly changes semimajor axis, eccentricity, and inclination. Moreover, another example is presented that transfers through the numerically challenging parabolic boundary, i.e. a transfer from a circular to hyperbolic orbit. Both these examples use an exponent of 3/2 for the PST to enforce the spatially-even arcs or equal steps in eccentric anomaly. Lastly, an optimal control problem is formulated to solve a class of many-revolution trajectories relevant to the EBVP technique. For transfers that minimize thrust-acceleration-squared, primer vector theory enables the mapping of direct, many-impulsive-maneuver trajectories to the indirect, continuous-thrust-acceleration equivalent. The mapping algorithm is independent of how the direct solution is obtained and the mapping computations only require a solver for a BVP and its partial derivatives. For the two-body problem, a Lambert solver is used. The mapping is simple because the impulsive maneuvers and co-states share the same linear space around an optimal trajectory. For numerical results, the direct coast-impulse solutions are demonstrated to converge to the indirect continuous solutions as the number of impulses and segments increase. The two-body design space is explored with a set of three many-revolution, many-segment examples changing semimajor axis, eccentricity, and inclination. The first two examples change either a small amount of semimajor axis or eccentricity, and the third example is a transfer to geosynchronous orbit. Using a single processor, the optimization runtime is seconds to minutes for revolution counts of 10 to 100, while on the order of one hour for examples with up to 500 revolutions. Any of these thrust-acceleration-squared solutions are good candidates to start a homotopy to a higher-fidelity minimization problem with practical constraints

Spacecraft Trajectory Optimization

Download Spacecraft Trajectory Optimization PDF Online Free

Author : Bruce A. Conway
Publisher : Cambridge University Press
ISBN 13 : 113949077X
Total Pages : 313 pages
Book Rating : 4.1/5 (394 download)

Book Synopsis Spacecraft Trajectory Optimization by : Bruce A. Conway

Download or read book Spacecraft Trajectory Optimization written by Bruce A. Conway and published by Cambridge University Press. This book was released on 2010-08-23 with total page 313 pages. Available in PDF, EPUB and Kindle. Book excerpt: 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.

Design of Trajectory Optimization Approach for Space Maneuver Vehicle Skip Entry Problems

Download Design of Trajectory Optimization Approach for Space Maneuver Vehicle Skip Entry Problems PDF Online Free

Author : Runqi Chai
Publisher : Springer
ISBN 13 : 9811398453
Total Pages : 207 pages
Book Rating : 4.8/5 (113 download)

Book Synopsis Design of Trajectory Optimization Approach for Space Maneuver Vehicle Skip Entry Problems by : Runqi Chai

Download or read book Design of Trajectory Optimization Approach for Space Maneuver Vehicle Skip Entry Problems written by Runqi Chai and published by Springer. This book was released on 2019-07-30 with total page 207 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book explores the design of optimal trajectories for space maneuver vehicles (SMVs) using optimal control-based techniques. It begins with a comprehensive introduction to and overview of three main approaches to trajectory optimization, and subsequently focuses on the design of a novel hybrid optimization strategy that combines an initial guess generator with an improved gradient-based inner optimizer. Further, it highlights the development of multi-objective spacecraft trajectory optimization problems, with a particular focus on multi-objective transcription methods and multi-objective evolutionary algorithms. In its final sections, the book studies spacecraft flight scenarios with noise-perturbed dynamics and probabilistic constraints, and designs and validates new chance-constrained optimal control frameworks. The comprehensive and systematic treatment of practical issues in spacecraft trajectory optimization is one of the book’s major features, making it particularly suited for readers who are seeking practical solutions in spacecraft trajectory optimization. It offers a valuable asset for researchers, engineers, and graduate students in GNC systems, engineering optimization, applied optimal control theory, etc.

Multiple-shooting Differential Dynamic Programming with Applications to Spacecraft Trajectory Optimization

Download Multiple-shooting Differential Dynamic Programming with Applications to Spacecraft Trajectory Optimization PDF Online Free

Author : Etienne Pellegrini
Publisher :
ISBN 13 :
Total Pages : 606 pages
Book Rating : 4.:/5 (1 download)

Book Synopsis Multiple-shooting Differential Dynamic Programming with Applications to Spacecraft Trajectory Optimization by : Etienne Pellegrini

Download or read book Multiple-shooting Differential Dynamic Programming with Applications to Spacecraft Trajectory Optimization written by Etienne Pellegrini and published by . This book was released on 2017 with total page 606 pages. Available in PDF, EPUB and Kindle. Book excerpt: The optimization of spacecraft trajectories has been, and continues to be, critical for the development of modern space missions. Longer flight times, continuous low-thrust propulsion, and multiple flybys are just a few of the modern features resulting in increasingly complex optimal control problems for trajectory designers to solve. In order to efficiently tackle such challenging problems, a variety of methods and algorithms have been developed over the last decades. The work presented in this dissertation aims at improving the solutions and the robustness of the optimal control algorithms, in addition to reducing their computational load and the amount of necessary human involvement. Several areas of improvement are examined in the dissertation. First, the general formulation of a Differential Dynamic Programming (DDP) algorithm is examined, and new theoretical developments are made in order to achieve a multiple-shooting formulation of the method. Multiple-shooting transcriptions have been demonstrated to be beneficial to both direct and indirect optimal control methods, as they help decrease the large sensitivities present in highly nonlinear problems (thus improving the algorithms' robustness), and increase the potential for a parallel implementation. The new Multiple-Shooting Differential Dynamic Programming algorithm (MDDP) is the first application of the well-known multiple-shooting principles to DDP. The algorithm uses a null-space trust-region method for the optimization of quadratic subproblems subject to simple bounds, which permits to control the quality of the quadratic approximations of the objective function. Equality and inequality path and terminal constraints are treated with a general Augmented Lagrangian approach. The choice of a direct transcription and of an Augmented Lagrangian merit function, associated with automated partial computations, make the MDDP implementation flexible, requiring minimal user effort for changes in the dynamics, cost and constraint functions. The algorithm is implemented in a general, modular optimal control software, and the performance of the multiple-shooting formulation is analyzed. The use of quasi-Newton approximations in the context of DDP is examined, and numerically demonstrated to improve computational efficiency while retaining attractive convergence properties. The computational performance of an optimal control algorithm is closely related to that of the integrator chosen for the propagation of the equation of motion. In an effort to improve the efficiency of the MDDP algorithm, a new numerical propagation method is developed for the Kepler, Stark, and three-body problems, three of the most commonly used dynamical models for spacecraft trajectory optimization. The method uses a time regularization technique, the generalized Sundman transformation, and Taylor Series developments of equivalents to the f and g functions for each problem. The performance of the new method is examined, and specific domains where the series solution outperforms existing propagation methods are identified. Finally, because the robustness and computational efficiency of the MDDP algorithm depend on the quality of the first- and second-order State Transition Matrices, the three most common techniques for their computation are analyzed, in particular for low-fidelity propagation. The propagation of variational equations is compared to the complex step derivative approximation and finite differences methods, for a variety of problems and integration techniques. The subtle differences between variable- and fixed-step integration for partial computation are revealed, common pitfalls are observed, and recommendations are made for the practitioner to enhance the quality of state transition matrices.

A Reinforcement Learning Approach to Spacecraft Trajectory Optimization

Download A Reinforcement Learning Approach to Spacecraft Trajectory Optimization PDF Online Free

Author : Daniel S. Kolosa
Publisher :
ISBN 13 :
Total Pages : 69 pages
Book Rating : 4.:/5 (117 download)

Book Synopsis A Reinforcement Learning Approach to Spacecraft Trajectory Optimization by : Daniel S. Kolosa

Download or read book A Reinforcement Learning Approach to Spacecraft Trajectory Optimization written by Daniel S. Kolosa and published by . This book was released on 2019 with total page 69 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation explores a novel method of solving low-thrust spacecraft targeting problems using reinforcement learning. A reinforcement learning algorithm based on Deep Deterministic Policy Gradients was developed to solve low-thrust trajectory optimization problems. The algorithm consists of two neural networks, an actor network and a critic network. The actor approximates a thrust magnitude given the current spacecraft state expressed as a set of orbital elements. The critic network evaluates the action taken by the actor based on the state and action taken. Three different types of trajectory problems were solved, a generalized orbit change maneuver, a semimajor axis change maneuver, and an inclination change maneuver. When training the algorithm in a simulated space environment, it was able to solve both the generalized orbit change and semimajor axis change maneuvers with no prior knowledge of the environment’s dynamics. The robustness of the algorithm was tested on an inclination change maneuver with a randomized set of initial states. After training, the algorithm was able to successfully generalize and solve new inclination changes that it has not seen before. This method has potential future applications in developing more complex low-thrust maneuvers or real-time autonomous spaceflight control.

Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance

Download Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance PDF Online Free

Author : National Aeronautics and Space Administration (NASA)
Publisher : Createspace Independent Publishing Platform
ISBN 13 : 9781722945305
Total Pages : 188 pages
Book Rating : 4.9/5 (453 download)

Book Synopsis Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance by : National Aeronautics and Space Administration (NASA)

Download or read book Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance written by National Aeronautics and Space Administration (NASA) and published by Createspace Independent Publishing Platform. This book was released on 2018-07-17 with total page 188 pages. Available in PDF, EPUB and Kindle. Book excerpt: A collection of analytical studies is presented related to unconstrained and constrained aircraft (a/c) energy-state modeling and to spacecraft (s/c) motion under continuous thrust. With regard to a/c unconstrained energy-state modeling, the physical origin of the singular perturbation parameter that accounts for the observed 2-time-scale behavior of a/c during energy climbs is identified and explained. With regard to the constrained energy-state modeling, optimal control problems are studied involving active state-variable inequality constraints. Departing from the practical deficiencies of the control programs for such problems that result from the traditional formulations, a complete reformulation is proposed for these problems which, in contrast to the old formulation, will presumably lead to practically useful controllers that can track an inequality constraint boundary asymptotically, and even in the presence of 2-sided perturbations about it. Finally, with regard to s/c motion under continuous thrust, a thrust program is proposed for which the equations of 2-dimensional motion of a space vehicle in orbit, viewed as a point mass, afford an exact analytic solution. The thrust program arises under the assumption of tangential thrust from the costate system corresponding to minimum-fuel, power-limited, coplanar transfers between two arbitrary conics. The thrust program can be used not only with power-limited propulsion systems, but also with any propulsion system capable of generating continuous thrust of controllable magnitude, and, for propulsion types and classes of transfers for which it is sufficiently optimal the results of this report suggest a method of maneuvering during planetocentric or heliocentric orbital operations, requiring a minimum amount of computation; thus uniquely suitable for real-time feedback guidance implementations. Markopoulos, Nikos and Calise, Anthony J. Unspecified Center AIRCRAFT GUIDANCE; CONTROLLERS; FLIGHT PATHS; OPTIMAL CONTROL...

Spacecraft Trajectory Optimization Suite (STOpS)

Download Spacecraft Trajectory Optimization Suite (STOpS) PDF Online Free

Author : Timothy Fitzgerald
Publisher :
ISBN 13 :
Total Pages : 98 pages
Book Rating : 4.:/5 (957 download)

Book Synopsis Spacecraft Trajectory Optimization Suite (STOpS) by : Timothy Fitzgerald

Download or read book Spacecraft Trajectory Optimization Suite (STOpS) written by Timothy Fitzgerald and published by . This book was released on 2015 with total page 98 pages. Available in PDF, EPUB and Kindle. Book excerpt: STOpS successfully found optimal trajectories for the Mariner 10 mission and the Voyager 2 mission that were similar to the actual missions flown. STOpS did not necessarily find better trajectories than those actually flown, but instead demonstrated the capability to quickly and successfully analyze/plan trajectories. The analysis for each of these missions took 2-3 days each. The final program is a robust tool that has taken existing techniques and applied them to the specific problem of trajectory optimization, so it can repeatedly and reliably solve these types of problems.

Optimization of Low-thrust Spacecraft Trajectories by Direct Shooting Methods [microform]

Download Optimization of Low-thrust Spacecraft Trajectories by Direct Shooting Methods [microform] PDF Online Free

Author : Christopher Rampersad
Publisher : Library and Archives Canada = Bibliothèque et Archives Canada
ISBN 13 : 9780612951822
Total Pages : 188 pages
Book Rating : 4.9/5 (518 download)

Book Synopsis Optimization of Low-thrust Spacecraft Trajectories by Direct Shooting Methods [microform] by : Christopher Rampersad

Download or read book Optimization of Low-thrust Spacecraft Trajectories by Direct Shooting Methods [microform] written by Christopher Rampersad and published by Library and Archives Canada = Bibliothèque et Archives Canada. This book was released on 2004 with total page 188 pages. Available in PDF, EPUB and Kindle. Book excerpt: The direct approach for trajectory optimization was found to be very robust. For most problems, solutions were obtained even with poor initial guesses for the controls. The direct approach was also found to be only slightly less accurate than the indirect methods found in the literature (within 0.7%). The present study investigates minimum-time and minimum-fuel low-thrust trajectory problems via a single shooting direct method. Various Earth-based and interplanetary case studies have been examined and have yielded good agreement with similar cases in the literature. Furthermore, new near-optimal trajectory problems have been successfully solved. A multiple-orbit thrust parameterization strategy was also developed to solve near-optimal very-low-thrust Earth-based transfers. Lastly, this thesis examines the use of the high-accuracy complex-step derivative approximation method for solving low-thrust transfer problems. For certain very nonlinear transfer problems, the complex-step derivative approximation was found to increase the robustness of the single shooting direct method.

Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance

Download Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance PDF Online Free

Author : Nikos Markopoulos
Publisher :
ISBN 13 :
Total Pages : 192 pages
Book Rating : 4.3/5 (126 download)

Book Synopsis Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance by : Nikos Markopoulos

Download or read book Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance written by Nikos Markopoulos and published by . This book was released on 1995 with total page 192 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance

Download Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance PDF Online Free

Author : Nikos Markopoulos
Publisher :
ISBN 13 :
Total Pages : 192 pages
Book Rating : 4.:/5 (317 download)

Book Synopsis Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance by : Nikos Markopoulos

Download or read book Analytical Investigations in Aircraft and Spacecraft Trajectory Optimization and Optimal Guidance written by Nikos Markopoulos and published by . This book was released on 1995 with total page 192 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Advanced Trajectory Optimization, Guidance and Control Strategies for Aerospace Vehicles

Download Advanced Trajectory Optimization, Guidance and Control Strategies for Aerospace Vehicles PDF Online Free

Author : Runqi Chai
Publisher : Springer Nature
ISBN 13 : 9819943116
Total Pages : 272 pages
Book Rating : 4.8/5 (199 download)

Book Synopsis Advanced Trajectory Optimization, Guidance and Control Strategies for Aerospace Vehicles by : Runqi Chai

Download or read book Advanced Trajectory Optimization, Guidance and Control Strategies for Aerospace Vehicles written by Runqi Chai and published by Springer Nature. This book was released on 2023-10-29 with total page 272 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book focuses on the design and application of advanced trajectory optimization and guidance and control (G&C) techniques for aerospace vehicles. Part I of the book focuses on the introduction of constrained aerospace vehicle trajectory optimization problems, with particular emphasis on the design of high-fidelity trajectory optimization methods, heuristic optimization-based strategies, and fast convexification-based algorithms. In Part II, various optimization theory/artificial intelligence (AI)-based methods are constructed and presented, including dynamic programming-based methods, model predictive control-based methods, and deep neural network-based algorithms. Key aspects of the application of these approaches, such as their main advantages and inherent challenges, are detailed and discussed. Some practical implementation considerations are then summarized, together with a number of future research topics. The comprehensive and systematic treatment of practical issues in aerospace trajectory optimization and guidance and control problems is one of the main features of the book, which is particularly suitable for readers interested in learning practical solutions in aerospace trajectory optimization and guidance and control. The book is useful to researchers, engineers, and graduate students in the fields of G&C systems, engineering optimization, applied optimal control theory, etc.

Indirect Spacecraft Trajectory Optimization Using Modified Equinoctial Elements

Download Indirect Spacecraft Trajectory Optimization Using Modified Equinoctial Elements PDF Online Free

Author : Hongzhao Liu
Publisher :
ISBN 13 :
Total Pages : 56 pages
Book Rating : 4.:/5 (757 download)

Book Synopsis Indirect Spacecraft Trajectory Optimization Using Modified Equinoctial Elements by : Hongzhao Liu

Download or read book Indirect Spacecraft Trajectory Optimization Using Modified Equinoctial Elements written by Hongzhao Liu and published by . This book was released on 2009 with total page 56 pages. Available in PDF, EPUB and Kindle. Book excerpt:

A Study of Heuristic Optimizers in Spacecraft Trajectory Problems

Download A Study of Heuristic Optimizers in Spacecraft Trajectory Problems PDF Online Free

Author : Benjamin Steratore
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (125 download)

Book Synopsis A Study of Heuristic Optimizers in Spacecraft Trajectory Problems by : Benjamin Steratore

Download or read book A Study of Heuristic Optimizers in Spacecraft Trajectory Problems written by Benjamin Steratore and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis expands upon the work done by Pontani and Conway on Particle Swarm Optimization's (PSO) application in common spacecraft trajectory problems. The heuristics studied here are PSO, Grey Wolf Optimization (GWO), and an Ant Colony Optimizer (ACO) modified for continuous domains. They are tested on the percentage of times they converge to a known solution. The optimization problems tested are a simple two-impulse circular-to-circular orbit transfer, a circular-to-circular orbit finite thrust problem, and a Lyapunov orbit problem. The simple two-impulse transfer's solution is known to be the Hohmann transfer, this provides an indication of the algorithm's ability to solve simple problems. The finite thrust problem is defined to solve for four coefficients in a polynomial that determines the thrust pointing angle and the time of thrust for both thrusting arcs and a change in eccentric anomaly over the single interior coasting arc, using a total of eleven unknowns. The Lyapunov problem is given various Jacobi constants in the Earth-Moon circular restricted three body problem, and is defined to find the initial 'x' position, distance from the center of mass in the synodic frame along the line made by the Earth and Moon, and the period of orbit. Each heuristic is trained when needed on a separate training set of data, and tested for its ability to converge to the known solutions and the time per iteration. PSO is a good benchmark for comparison that did not need training and is able to acquire the solutions with which the others were trained and with which all of them were tested. One noteworthy assumption in this method is that PSO is capable of acquiring accurate training and testing solutions for the trials. Another important caveat is that this thesis does not claim to have found the best way of training these algorithms. There are very likely other variables and functions that will increase the success rate of ACO and GWO, and yet more training methods. Since PSO is a reliable optimizer it is used to solve for the unknowns in training ACO and GWO using Penn States 'Roar' supercomputer (formerly the Institute for Computational and Data Sciences Advanced CyberInfrastructure, or ICDS-ACI), however this is very time consuming and not many full trials were done. For this reason, it cannot be confidently claimed that the results of the training are truly optimized. Despite this uncertainty, these trained algorithms did very well. All three converged over 99 percent of the time to the Hohmann transfer solution for the impulsive transfer. GWO relied too heavily on quick convergence to offer much use in the Lyapunov problem. ACO however, is able to out-compete PSO for the majority of Jacobi constants. The largest success is GWO and ACO's performance in the finite thrust problem. GWO is best for the final radius being two to five times more than the initial, ACO is best for six to nine times, and PSO is best only for ten times. Hopefully, this work will contribute to spacecraft automation. This thesis offers some tools and methods to develop automated trajectory correction for long range missions, station keeping for unstable quasi-periodic orbits, and a few potential planar L1-to-Moon cycler orbits that were accidentally generated in solutions of the Lyapunov problem.

Numerical Analysis of Complex-step Differentiation in Spacecraft Trajectory Optimization Problems

Download Numerical Analysis of Complex-step Differentiation in Spacecraft Trajectory Optimization Problems PDF Online Free

Author : Alan Robert Campbell
Publisher :
ISBN 13 :
Total Pages : 142 pages
Book Rating : 4.:/5 (731 download)

Book Synopsis Numerical Analysis of Complex-step Differentiation in Spacecraft Trajectory Optimization Problems by : Alan Robert Campbell

Download or read book Numerical Analysis of Complex-step Differentiation in Spacecraft Trajectory Optimization Problems written by Alan Robert Campbell and published by . This book was released on 2011 with total page 142 pages. Available in PDF, EPUB and Kindle. Book excerpt: An analysis of the use of complex-step differentiation (CSD) in optimization problems is presented. Complex-step differentiation is a numerical approximation of the derivative of a function valid for any real-valued analytic function. The primary benefit of this method is that the approximation does not depend on a difference term; therefore round-off error is reduced to the machine word-length. A suitably small choice of the perturbation length, h, then results in the virtual elimination of truncation error in the series approximation. The theoretical basis for this method is derived highlighting its merits and limitations. The Lunar Ascent Problem is used to compare CSD to traditional forward differencing in applications useful to the solution of optimization problems. Complex-step derivatives are shown to sufficiently apply in various interpolation and integration methods, and, in fact, consistently outperform traditional methods. Further, the Optimal Orbit Transfer Problem is used to test the accuracy, robustness, and runtime of CSD in comparison to central differencing. It is shown that CSD is a considerably more accurate derivative approximation which results in an increased robustness and decreased optimization time. Also, it is shown that each approximation is computed in less time using CSD than central differences. Overall, complex-step derivatives are shown to be a fast, accurate, and easy to implement differentiation method ideally suited for most optimization problems.

High Performance Algorithms to Improve the Runtime Computation of Spacecraft Trajectories

Download High Performance Algorithms to Improve the Runtime Computation of Spacecraft Trajectories PDF Online Free

Author : Nitin Arora
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (865 download)

Book Synopsis High Performance Algorithms to Improve the Runtime Computation of Spacecraft Trajectories by : Nitin Arora

Download or read book High Performance Algorithms to Improve the Runtime Computation of Spacecraft Trajectories written by Nitin Arora and published by . This book was released on 2013 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Challenging science requirements and complex space missions are driving the need for fast and robust space trajectory design and simulation tools. The main aim of this thesis is to develop new and improved high performance algorithms and solution techniques for commonly encountered problems in astrodynamics. Five major problems are considered and their state-of-the art algorithms are systematically improved. Theoretical and methodological improvements are combined with modern computational techniques, resulting in increased algorithm robustness and faster runtime performance. The five selected problems are 1) Multiple revolution Lambert problem, 2) High-fidelity geopotential (gravity field) computation, 3) Ephemeris computation, 4) Fast and accurate sensitivity computation, and 5) High-fidelity multiple spacecraft simulation. The work being presented enjoys applications in a variety of fields like preliminary mission design, high-fidelity trajectory simulation, orbit estimation and numerical optimization. Other fields like space and environmental science to chemical and electrical engineering also stand to benefit.

Low Thrust Space Vehicle Trajectory Optimization Using Regularized Variables

Download Low Thrust Space Vehicle Trajectory Optimization Using Regularized Variables PDF Online Free

Author : K. J. Schwenzfeger
Publisher :
ISBN 13 :
Total Pages : 44 pages
Book Rating : 4.:/5 (317 download)

Book Synopsis Low Thrust Space Vehicle Trajectory Optimization Using Regularized Variables by : K. J. Schwenzfeger

Download or read book Low Thrust Space Vehicle Trajectory Optimization Using Regularized Variables written by K. J. Schwenzfeger and published by . This book was released on 1974 with total page 44 pages. Available in PDF, EPUB and Kindle. Book excerpt: Optimizing the trajectory of a low thrust space vehicle usually means solving a nonlinear two point boundary value problem. In general, accuracy requirements necessitate extensive computation times. In celestial mechanics, regularizing transformations of the equations of motion are used to eliminate computational and analytical problems that occur during close approaches to gravitational force centers. It was shown in previous investigations that regularization in the formulation of the trajectory optimization problem may reduce the computation time. In this study, a set of regularized equations describing the optimal trajectory of a continuously thrusting space vehicle is derived. The computational characteristics of the set are investigated and compared to the classical Newtonian unregularized set of equations. The comparison is made for low thrust, minimum time, escape trajectories and numerical calculations of Keplerian orbits. The comparison indicates that in the cases investigated for bad initial guesses of the known boundary values a remarkable reduction in the computation time was achieved. Furthermore, the investigated set of regularized equations shows high numerical stability even for long duration flights and is less sensitive to errors in the guesses of the unknown boundary values.

Evolutionary Computation for Spacecraft Trajectory Optimization

Download Evolutionary Computation for Spacecraft Trajectory Optimization PDF Online Free

Author : Bradley Joseph Sottile
Publisher :
ISBN 13 :
Total Pages : 64 pages
Book Rating : 4.:/5 (862 download)

Book Synopsis Evolutionary Computation for Spacecraft Trajectory Optimization by : Bradley Joseph Sottile

Download or read book Evolutionary Computation for Spacecraft Trajectory Optimization written by Bradley Joseph Sottile and published by . This book was released on 2013 with total page 64 pages. Available in PDF, EPUB and Kindle. Book excerpt: