2019
DOI: 10.1007/s10569-019-9927-z
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On the solution to every Lambert problem

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Cited by 18 publications
(4 citation statements)
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“…With ρ 1 and ρ n , denoting the observed distances at moments r 1 and r n , respectively, and R i representing the position vector of the observing station, if we know ρ 1 and ρ n , we can get two position vectors r 1 and r n based on r i = R i + ρ i L i (i = 1, n), so that the purely angular IOD problem is converted into an orbit-determination problem based on two position vectors, which is the so-called IOD Lambert problem (the orbital parameters are calculated using the position vectors of the two moments). The Lambert problem is well known in dynamical astronomy, celestial mechanics, and astrodynamics communities for objects governed by Keplerian dynamics [19]. The classical methods can be used to solve the standard Lambert problem given two positions, such as the Gibbs method or the Herrick-Gibbs method [20,21].…”
Section: The Improvement Of the Rs Iod Methods And The Association Me...mentioning
confidence: 99%
“…With ρ 1 and ρ n , denoting the observed distances at moments r 1 and r n , respectively, and R i representing the position vector of the observing station, if we know ρ 1 and ρ n , we can get two position vectors r 1 and r n based on r i = R i + ρ i L i (i = 1, n), so that the purely angular IOD problem is converted into an orbit-determination problem based on two position vectors, which is the so-called IOD Lambert problem (the orbital parameters are calculated using the position vectors of the two moments). The Lambert problem is well known in dynamical astronomy, celestial mechanics, and astrodynamics communities for objects governed by Keplerian dynamics [19]. The classical methods can be used to solve the standard Lambert problem given two positions, such as the Gibbs method or the Herrick-Gibbs method [20,21].…”
Section: The Improvement Of the Rs Iod Methods And The Association Me...mentioning
confidence: 99%
“…The output is only the initial velocity v0 as the terminal velocity can be obtained through orbital propagation once the initial velocity is solved. This type of sample form is defined as (5) where the subscript 0 and f denotes the start and end of the transfer trajectory, respectively. Thus, when trained with sample form in Eq.…”
Section: A Definition Of Sample Form and Featuresmentioning
confidence: 99%
“…Since the perturbation due to the J2 zonal harmonics has the most significant effect around all planets in the solar system, a body of research exists that addressed the problem of solving the perturbed Lambert problem accounting for the J2 effect [3], [4]. This body of research can be classified into two categories: indirect methods and shooting methods [5]. Indirect methods transform the perturbed Lambert problem into the solution of a system of parametric nonlinear algebraic equations.…”
Section: Iintroductionmentioning
confidence: 99%
“…The weights were selected to emphasize the minimization of v ∞,2 since this influences the magnitude of the orbit insertion ∆v. The ivLam solver, a fast Lambert problem solver, developed by the University of Texas [56], was used to design the heliocentric cruise from a given design gene. The integer programming problem in Equation ( 3) was solved using the proprietary GA optimizer of MATLAB [25].…”
Section: Heliocentric Cruisementioning
confidence: 99%