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Port-Hamiltonian Based Control of the Sun-Earth 3D Circular Restricted Three-Body Problem: Stabilization of the <i>L</i><sub>1</sub>Lagrange Point
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作者 Haotian Yan 《Modern Mechanical Engineering》 2020年第3期39-49,共11页
In this paper, we use Port-Hamiltonian framework to stabilize the Lagrange <span style="font-family:Verdana;">points in the Sun-Earth three-dimensional Circular Restricted Three-Body Problem (CRTBP). T... In this paper, we use Port-Hamiltonian framework to stabilize the Lagrange <span style="font-family:Verdana;">points in the Sun-Earth three-dimensional Circular Restricted Three-Body Problem (CRTBP). Through rewriting the CRTBP into Port-Hamiltonian framework, we are allowed to design the feedback controller through ener</span><span style="font-family:Verdana;">gy-shaping and dissipation injection. The closed-loop Hamiltonian is </span><span style="font-family:Verdana;">a candidate of the Lyapunov function to establish nonlinear stability of the designed equilibrium, which enlarges the application region of feedback controller compared with that based on linearized dynamics. Results show that th</span><span style="font-family:Verdana;">e Port-Hamiltonian</span><span style="font-family:Verdana;"> a</span><span style="font-family:Verdana;">pproach allows us to successfully stabilize the Lagrange points, where the Linear Quadratic Regulator (LQR) may fail. The feedback </span><span style="font-family:Verdana;">system based on Port-Hamiltonian approach is also robust against whit</span><span style="font-family:Verdana;">e noise in the inputs.</span> 展开更多
关键词 Port-Hamiltonian Lagrange Points circular restricted three-body problem (CRTBP) Linear Quadratic Regulator (LQR)
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A review of periodic orbits in the circular restricted three-body problem 被引量:2
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作者 ZHANG Renyong 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2022年第3期612-646,共35页
This review article aims to give a comprehensive review of periodic orbits in the circular restricted three-body problem(CRTBP),which is a standard ideal model for the Earth-Moon system and is closest to the practical... This review article aims to give a comprehensive review of periodic orbits in the circular restricted three-body problem(CRTBP),which is a standard ideal model for the Earth-Moon system and is closest to the practical mechanical model.It focuses the attention on periodic orbits in the Earth-Moon system.This work is primarily motivated by a series of missions and plans that take advantages of the three-body periodic orbits near the libration points or around two gravitational celestial bodies.Firstly,simple periodic orbits and their classification that is usually considered to be early work before 1970 are summarized,and periodic orbits around Lagrange points,either planar or three-dimensional,are intensively studied during past decades.Subsequently,stability index of a periodic orbit and bifurcation analysis are presented,which demonstrate a guideline to find more periodic orbits inspired by bifurcation signals.Then,the practical techniques for computing a wide range of periodic orbits and associated quasi-periodic orbits,as well as constructing database of periodic orbits by numerical searching techniques are also presented.For those unstable periodic orbits,the station keeping maneuvers are reviewed.Finally,the applications of periodic orbits are presented,including those in practical missions,under consideration,and still in conceptual design stage.This review article has the function of bridging between engineers and researchers,so as to make it more convenient and faster for engineers to understand the complex restricted three-body problem(RTBP).At the same time,it can also provide some technical thinking for general researchers. 展开更多
关键词 periodic orbit restricted three-body problem classi-fication orbit family BIFURCATION
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A novel method of periodic orbit computation in circular restricted three-body problem 被引量:2
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作者 ZHANG HanQing LI YanJun ZHANG Ke 《Science China(Technological Sciences)》 SCIE EI CAS 2011年第8期2197-2203,共7页
Periodic orbits are fundamental keys to understand the dynamical system of circular restricted three-body problem, and they play important roles in practical deep-space exploration. Current methods of periodic orbit c... Periodic orbits are fundamental keys to understand the dynamical system of circular restricted three-body problem, and they play important roles in practical deep-space exploration. Current methods of periodic orbit computation need a high-order analytical approximate solution to start the iteration process, thus making the computation complicated and limiting the types of periodic orbits that can be obtained. By utilizing the symmetry of the restricted three-body problem, a special kind of flow function is constructed, so as to map a state on the plane of symmetry to another state that also lies in this plane. Based on this flow function, a new method of periodic orbit computation is derived. This method needs neither a starting analytic approximation nor the state transition matrix to be computed, so it can be conveniently implemented on a computer. Besides, this method is unaffected by the nonlinearity of the dynamical system, allowing a large set of periodic orbits which have x-z plane symmetry to be computed numerically. As examples, some planar periodic orbits (e.g. Lyapunov orbit) and spatial periodic orbits (e.g. Halo orbit) are computed. By further combining with a differential correction process, the method introduced here can be used to design resonant orbits that can jump between different resonant frequencies. One such resonant orbit is given in this paper, verifying the efficiency of this method. 展开更多
关键词 circular restricted three-body problem libration point periodic orbit numerical method resonant orbit
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Oblateness Effect of Saturn on Halo Orbits of L1 and L2 in Saturn-Satellites Restricted Three-Body Problem
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作者 Nishanth Pushparaj Ram Krishan Sharma 《International Journal of Astronomy and Astrophysics》 2016年第4期347-377,共31页
The Circular Restricted Three-Body Problem (CRTBP) with more massive primary as an oblate spheroid with its equatorial plane coincident with the plane of motion of the primaries is considered to generate the halo orbi... The Circular Restricted Three-Body Problem (CRTBP) with more massive primary as an oblate spheroid with its equatorial plane coincident with the plane of motion of the primaries is considered to generate the halo orbits around L1 and L2 for the seven satellites (Mimas, Enceladus, Tethys, Dione, Rhea, Titan and Iapetus) of Saturn in the frame work of CRTBP. It is found that the oblateness effect of Saturn on the halo orbits of the satellites closer to Saturn has significant effect compared to the satellites away from it. The halo orbits L1 and L2 are found to move towards Saturn with oblateness. 展开更多
关键词 circular restricted three-body problem Lagrangian Points Halo Orbits OBLATENESS SATURN
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Halo Orbits around Sun-Earth L1 in Photogravitational Restricted Three-Body Problem with Oblateness of Smaller Primary 被引量:1
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作者 Prithiviraj Chidambararaj Ram Krishan Sharma 《International Journal of Astronomy and Astrophysics》 2016年第3期293-311,共19页
This paper deals with generation of halo orbits in the three-dimensional photogravitational restricted three-body problem, where the more massive primary is considered as the source of radiation and the smaller primar... This paper deals with generation of halo orbits in the three-dimensional photogravitational restricted three-body problem, where the more massive primary is considered as the source of radiation and the smaller primary is an oblate spheroid with its equatorial plane coincident with the plane of motion. Both the terms due to oblateness of the smaller primary are considered. Numerical as well as analytical solutions are obtained around the Lagrangian point L1, which lies between the primaries, of the Sun-Earth system. A comparison with the real time flight data of SOHO mission is made. Inclusion of oblateness of the smaller primary can improve the accuracy. Due to the effect of radiation pressure and oblateness, the size and the orbital period of the halo orbit around L1 are found to increase. 展开更多
关键词 Halo Orbits Photogravitational restricted three-body problem OBLATENESS Lindstedt-Poincaré Method Lagrangian Point SOHO
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Restricted Three-Body Problem in Different Coordinate Systems
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作者 Mohammed A. Sharaf Aisha A. Alshaery 《Applied Mathematics》 2012年第9期949-953,共5页
In this paper of the series, the equations of motion for the spatial circular restricted three-body problem in sidereal spherical coordinates system were established. Initial value procedure that can be used to comput... In this paper of the series, the equations of motion for the spatial circular restricted three-body problem in sidereal spherical coordinates system were established. Initial value procedure that can be used to compute both the spherical and Cartesian sidereal coordinates and velocities was also developed. The application of the procedure was illustrated by numerical example and graphical representations of the variations of the two sidereal coordinate systems. 展开更多
关键词 Spatial restricted circular Three BODY problem REGULARIZATION COORDINATE TRANSFORMATIONS
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Restricted Three-Body Problem in Cylindrical Coordinates System
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作者 Mohammed Sharaf Aisha Alshaery 《Applied Mathematics》 2012年第8期907-909,共3页
In this paper, the equations of motion for spatial restricted circular three body problem will be established using the cylindrical coordinates. Initial value procedure that can be used to compute both the cylindrical... In this paper, the equations of motion for spatial restricted circular three body problem will be established using the cylindrical coordinates. Initial value procedure that can be used to compute both the cylindrical and Cartesian coordinates and velocities is also developed. 展开更多
关键词 SPATIAL restricted circular Three BODY problem REGULARIZATION
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STUDIES OF MELNIKOV METHOD AND TRANSVERSAL HOMOCLINIC ORBITS IN THE CIRCULAR PLANAR RESTRICTED THREE-BODY PROBLEM
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作者 朱如曾 向程 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 1996年第12期1177-1187,共11页
Non-Hamiltonian systems containing degenerate fixed points obtained from twodegrees of freedom near-integrable Hamiltonian systems through non-canonicaltransformations are dealt with in this paper. Two criteria .for d... Non-Hamiltonian systems containing degenerate fixed points obtained from twodegrees of freedom near-integrable Hamiltonian systems through non-canonicaltransformations are dealt with in this paper. Two criteria .for determining theexistence of transversal homoclinic and heteroclinic orbits are presented. By exploitingthese criteria the existence of the transversal homoclinic orbits and so, of thetransversal homoclinic tangle .phenomenon in the near-integrable circular planarrestricted three-body problem with sufficiently small mass ratio of the two primaries isproven. Under some assumptions, the existence of the transversal heleroclinic orbits isproven. The global qualitative phase diagram is also illustrated. 展开更多
关键词 restricted three-body problem near integrable Hamiltoniansystem degenerate fixed point Melnikov method transversalhomoclinic (heteroclinic) orbit
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Halo Orbits in the Photo-Gravitational Restricted Three-Body Problem
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作者 Saurav Ghotekar Ram Krishan Sharma 《International Journal of Astronomy and Astrophysics》 2019年第3期274-291,共18页
We study of halo orbits in the circular restricted three-body problem (CRTBP) with both the primaries as sources of radiation. The positioning of the triangular equilibrium points is discussed in a rotating coordinate... We study of halo orbits in the circular restricted three-body problem (CRTBP) with both the primaries as sources of radiation. The positioning of the triangular equilibrium points is discussed in a rotating coordinate system. 展开更多
关键词 HALO ORBITS circular restricted three-body problem LAGRANGIAN Points Radiation Pressure Lindstedt-Poincare Method
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Lissajous Orbits at the Collinear Libration Points in the Restricted Three-Body Problem with Oblateness
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作者 Ahmed H. Ibrahim Mohammed N. Ismail +2 位作者 Afaf S. Zaghrout Saher H. Younis Mayadah O. El Shikh 《World Journal of Mechanics》 2018年第6期242-252,共11页
In the present work, the collinear equilibrium points of the restricted three-body problem are studied under the effect of oblateness of the bigger primary using an analytical and numerical approach. The periodic orbi... In the present work, the collinear equilibrium points of the restricted three-body problem are studied under the effect of oblateness of the bigger primary using an analytical and numerical approach. The periodic orbits around these points are investigated for the Earth-Moon system. The Lissajous orbits and the phase spaces are obtained under the effect of oblateness. 展开更多
关键词 Lissajous ORBITS Periodic ORBITS LIBRATION Points restricted three-body problem Oblate SPHEROID
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Artificial Equilibrium Points in the Low-Thrust Restricted Three-Body Problem When Both the Primaries Are Oblate Spheroids
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作者 Amit Mittal Krishan Pal 《International Journal of Astronomy and Astrophysics》 2018年第4期406-424,共19页
This paper studies the existence and stability of the artificial equilibrium points (AEPs) in the low-thrust restricted three-body problem when both the primaries are oblate spheroids. The artificial equilibrium point... This paper studies the existence and stability of the artificial equilibrium points (AEPs) in the low-thrust restricted three-body problem when both the primaries are oblate spheroids. The artificial equilibrium points (AEPs) are generated by canceling the gravitational and centrifugal forces with continuous low-thrust at a non-equilibrium point. Some graphical investigations are shown for the effects of the relative parameters which characterized the locations of the AEPs. Also, the numerical values of AEPs have been calculated. The positions of these AEPs will depend not only also on magnitude and directions of low-thrust acceleration. The linear stability of the AEPs has been investigated. We have determined the stability regions in the xy, xz and yz-planes and studied the effect of oblateness parameters A1(0A1?and ?A2(0A2<1) on the motion of the spacecraft. We have found that the stability regions reduce around both the primaries for the increasing values of oblateness of the primaries. Finally, we have plotted the zero velocity curves to determine the possible regions of motion of the spacecraft. 展开更多
关键词 restricted three-body problem Artificial Equilibrium Points LOW-THRUST Stability Oblate SPHEROID Zero Velocity Curves
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Dynamics of Satellite Formation Utilizing the Perturbed Restricted Three-Body Problem
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作者 Nabawia S. Khalifa 《Journal of Applied Mathematics and Physics》 2022年第1期219-235,共17页
The dynamics of satellites formation is of great interest for the space mission. This work discusses a more efficient model of the relative motion dynamics of satellites formation. The model is based on employing the ... The dynamics of satellites formation is of great interest for the space mission. This work discusses a more efficient model of the relative motion dynamics of satellites formation. The model is based on employing the concepts restricted three-body problem (R3BP) and for more accuracy, it considers the effects of both oblateness and radiation pressure on deputy relative motion w.r.t the chief satellite. A model of deputy relative motion w.r.t the chief satellite is derived in the local-vertical local-horizontal system and simplified assuming the concept of the circular restricted three-body problem (CR3BP). The deputy equations of motion were rewritten in the form of recurrence relations and solved numerically using the Lie series approach. Assuming that the formation is revolving around the Moon in the Earth-Moon system, the effects of both oblateness and radiation pressure on the deputy satellite orbit were assessed through a particular example of satellites formation. A comparison between the perturbed and unperturbed R3BP shows a significant difference in the deputy relative position that has to be considered for the formation dynamics. 展开更多
关键词 Relative Motion restricted three-body problem Lie Series Integration
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Universal method for designing periodic orbits by homotopy classes in the elliptic restricted three-body problem
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作者 Yue Zheng Min Zhao 《Astrodynamics》 EI CSCD 2024年第1期175-188,共14页
The current methods for designing periodic orbits in the elliptic restricted three-body problem(ERTBP)have the disadvantages of targeting limited orbits and ergodic searches and considering only symmetric orbits.A uni... The current methods for designing periodic orbits in the elliptic restricted three-body problem(ERTBP)have the disadvantages of targeting limited orbits and ergodic searches and considering only symmetric orbits.A universal method for designing periodic orbits is proposed in this paper.First,the homotopy classes of orbits are structured based on their topological structures.Second,a dynamic model based on homotopy classes,ranging from the circular restricted three-body problem(CRTBP)to the ERTBP,can be built using the homotopy method.Third,a multi-and a single-period orbit were selected based on the resonance ratios.Finally,the corresponding orbit in the ERTBP was computed by modifying the initial condition of the orbit in the CRTBP.This method,without an ergodic search,can extend to any orbit,including an asymmetric orbit in the CRTBP,to the ERTBP model,and the two orbits are of the same homotopy class.Examples of the Earth–Moon ERTBP are presented to verify the efficiency of this method. 展开更多
关键词 periodic orbit elliptic restricted three-body problem(ERTBP) TOPOLOGY homotopy circular restricted three-body problem(CRTBP)
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Periodic Orbits in the Photogravitational Restricted Problem When the Primaries Are Triaxial Rigid Bodies 被引量:1
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作者 Preeti Jain Rajiv Aggarwal +2 位作者 Amit Mittal Abdullah 《International Journal of Astronomy and Astrophysics》 2016年第1期111-121,共11页
We have studied periodic orbits generated by Lagrangian solutions of the restricted three-body problem when both the primaries are triaxial rigid bodies and source of radiation pressure. We have determined periodic or... We have studied periodic orbits generated by Lagrangian solutions of the restricted three-body problem when both the primaries are triaxial rigid bodies and source of radiation pressure. We have determined periodic orbits for different values of  (h is energy constant;μ is mass ratio of the two primaries;are parameters of triaxial rigid bodies and are radiation parameters). These orbits have been determined by giving displacements along the tangent and normal at the mobile co-ordinates as defined in our papers (Mittal et al. [1]-[3]). These orbits have been drawn by using the predictor-corrector method. We have also studied the effect of triaxial bodies and source of radiation pressure on the periodic orbits by taking fixed value of μ. 展开更多
关键词 restricted three-body problem Periodic Orbits Triaxial Rigid Body Radiation Pressure
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地月历表误差对共线平动点周期轨道的误差影响分析
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作者 方柳 任红飞 吴富梅 《大地测量与地球动力学》 CSCD 北大核心 2024年第4期354-359,共6页
基于圆形限制性三体问题下地月平动点的3阶轨道解析解,分析不同初值条件下的轨道演化特性,并基于误差传播理论研究地月历表误差对地月共线平动点周期轨道在不同初值及初值误差时的影响。结果表明:1)轨道误差与地月历表误差在同一个量级... 基于圆形限制性三体问题下地月平动点的3阶轨道解析解,分析不同初值条件下的轨道演化特性,并基于误差传播理论研究地月历表误差对地月共线平动点周期轨道在不同初值及初值误差时的影响。结果表明:1)轨道误差与地月历表误差在同一个量级,当地月历表误差均值不为0时,其峰值大约为地月历表误差的2.5倍,轨道误差随时间变化的无量纲周期约为轨道无量纲周期的0.5倍;2)在同一条轨道的不同位置,地月历表误差影响存在较大差异,平面Lyapunov轨道、Halo轨道和垂直Lyapunov轨道误差的峰值点分别位于或接近X向最大值与最小值处、Z向最大值与最小值处和z=0处。 展开更多
关键词 地月平动点 地月平动点轨道 深空探测 圆形限制性三体问题 行星历表
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一种面向限制性三体问题的轨道-姿态运动模态构建方法
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作者 刘威 罗建军 《宇航学报》 EI CAS CSCD 北大核心 2024年第7期1078-1088,共11页
针对平动点附近的具有强非线性和耦合性的轨道-姿态动力学机理分析,以及如何利用其动力学特性完成相关任务操作等问题,提出了基于Floquet理论的轨道-姿态运动模态构建方法,并探讨了所构建模态的典型应用。首先,在平动点轨道-姿态周期解... 针对平动点附近的具有强非线性和耦合性的轨道-姿态动力学机理分析,以及如何利用其动力学特性完成相关任务操作等问题,提出了基于Floquet理论的轨道-姿态运动模态构建方法,并探讨了所构建模态的典型应用。首先,在平动点轨道-姿态周期解的基础上,对轨道-姿态状态转移矩阵进行分块,根据分块矩阵特征值特点,建立了姿态模态和姿轨耦合模态,与轨道模态共同构成完整的轨道-姿态运动模态。然后,对模态特性进行了相空间分析。最后,以平动点相对轨道-姿态运动解析、平动点轨道-姿态稳定性控制和平动点轨道附近姿轨编队设计为应用案例,相应数值仿真表明了所提出模态的正确性,以及在典型航天任务设计与控制中的应用价值。 展开更多
关键词 圆型限制性三体问题 轨道-姿态运动 平动点 FLOQUET理论
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地月远距离逆行轨道脉冲调相方法
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作者 赵明旭 齐毅 金启航 《宇航学报》 EI CAS CSCD 北大核心 2024年第10期1599-1612,共14页
地月远距离逆行轨道(DRO)在月球探测、地月空间开发等任务中具有重要价值。针对地月DRO的脉冲调相机动问题,提出了直接调相和间接调相两种调相方法。首先,通过数值方法构建了地月DRO直接调相策略的可行集,分析了调相机动起点和终点位置... 地月远距离逆行轨道(DRO)在月球探测、地月空间开发等任务中具有重要价值。针对地月DRO的脉冲调相机动问题,提出了直接调相和间接调相两种调相方法。首先,通过数值方法构建了地月DRO直接调相策略的可行集,分析了调相机动起点和终点位置选择对调相性能的影响,得到了双脉冲最优和次优调相机动策略。针对相位差较大的调相问题,进一步提出了双脉冲弧段组合调相策略。其次,利用地月平动点周期轨道及其同宿、异宿转移轨道,构造了地月DRO间接调相方法,并分析了不同雅可比常数下间接调相策略的燃耗和飞行时间。最后,分析对比了间接调相轨道与直接调相轨道的性能,给出了两者的适用条件。研究结果将为地月DRO的广泛应用开发提供理论基础。 展开更多
关键词 圆型限制性三体问题 远距离逆行轨道 调相机动 平动点轨道 轨道优化
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不稳定地月循环轨道的混沌控制方法
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作者 郑越 赵敏 《郑州航空工业管理学院学报》 2024年第2期14-19,94,共7页
针对现有的地月循环轨道稳定控制方法仅对少数轨道有效的缺点,本文提出了一种圆型限制性三体问题下不稳定地月循环轨道的混沌控制方法。首先在循环轨道上选择候选不动点及其对应的庞加莱截面图;然后通过混沌控制方法将轨道在庞加莱截面... 针对现有的地月循环轨道稳定控制方法仅对少数轨道有效的缺点,本文提出了一种圆型限制性三体问题下不稳定地月循环轨道的混沌控制方法。首先在循环轨道上选择候选不动点及其对应的庞加莱截面图;然后通过混沌控制方法将轨道在庞加莱截面图上的投影点移动到不动点的稳定方向上;再计算轨道被控制后的目标点和轨道投影点到不动点之间偏差距离的比例,依次对比例最小的候选不动点进行筛选;最后根据所选择的不动点确定庞加莱截面图,计算控制脉冲量,对循环轨道进行稳定控制。仿真结果表明,本文所提出的方法适用于各种类型的地月循环轨道,相比现有方法至少节省了66%的能耗,能够使循环轨道长时间趋于稳定。 展开更多
关键词 圆型限制性三体问题 地月循环轨道 混沌控制 庞加莱截面图 控制脉冲
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共线平动点中心流形上的轨道转移问题
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作者 杨富涛 张汉清 《空间科学学报》 CAS CSCD 北大核心 2024年第3期556-569,共14页
圆形限制性三体问题共线平动点附近的平动点轨道由于其独特的动力学特性,在深空探测任务中有着重要价值,这些轨道间的轨道转移问题值得进行系统性研究.针对平动点轨道的计算与延拓,提出了一种基于数值的系统性计算平动点轨道的方法以及... 圆形限制性三体问题共线平动点附近的平动点轨道由于其独特的动力学特性,在深空探测任务中有着重要价值,这些轨道间的轨道转移问题值得进行系统性研究.针对平动点轨道的计算与延拓,提出了一种基于数值的系统性计算平动点轨道的方法以及状态伴随法的轨道稳定维持策略.在此基础上,通过对大量平动点轨道不变流形以及平动点相空间中心流形的研究,设计了一套通过脉冲机动实现平动点轨道间轨道转移的系统性解决方案.该方法充分利用平动点动力学特性,在仿真验证中证实了方案的有效性,为平动点轨道转移研究提供了新的思路. 展开更多
关键词 圆形限制性三体问题 平动点轨道 轨道转移 庞加莱截面
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The co-orbital restricted three-body problem and its application 被引量:1
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作者 Gerhard HEINZEL Albrecht RDIGER 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2010年第1期171-178,共8页
Based on large quantities of co-orbital phenomena in the motion of natural bodies and spacecraft, a model of the co-orbital restricted three-body problem is put forward. The fundamental results for the planar co-orbit... Based on large quantities of co-orbital phenomena in the motion of natural bodies and spacecraft, a model of the co-orbital restricted three-body problem is put forward. The fundamental results for the planar co-orbital circular restricted three-body problem are given, which include the selection of variables and equations of motion, a set of approximation formulas, and an approximate semi-analytical solution. They are applied to the motion of the barycenter of the planned gravitational observatory LISA constellation, which agrees very well with the solution of precise numerical integration. 展开更多
关键词 co-orbital restricted three-body problem LISA
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