卫星运载火箭(SLV)转向的多阶段兰伯特方案

S. Kamal
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引用次数: 3

摘要

轨道的确定,具有指定的传递时间(飞行时间)和连接两个位置向量,通常被称为兰伯特问题,是天体动力学的基础。在解决这一两体、两点、时间约束的轨道边值问题的许多现有技术中,高斯和拉格朗日的方法被结合起来,以Battin的工作为基础,得到了一个优雅的算法。该算法包括交叉距离误差的检测。将传递时间方程中引入的变量TYPE进行翻转,生成逆朗伯格式。本文提出了一种创新的自适应方案,称为多阶段兰伯特方案。该方案提出了一种自动驾驶仪的设计方案,该方案实现了多级火箭在完全燃烧后与主飞行器分离时的预定目标位置和速度矢量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Multi-Stage-Lambert Scheme for steering a satellite-launch vehicle (SLV)
The determination of an orbit, having a specified transfer time (time-of-flight) and connecting two position vectors, frequently referred to as the Lambert problem, is fundamental in astrodynamics. Of the many techniques existing for solving this two-body, two-point, time-constrained orbital boundary-value problem, Gauss' and Lagrange's methods were combined to obtain an elegant algorithm based on Battin's work. This algorithm included detection of cross-range error. A variable TYPE, introduced in the transfer-time equation, was flipped, to generate the inverse-Lambert scheme. In this paper, an innovative adaptive scheme is presented, which is called ldquothe multi-stage-Lambert schemerdquo. This scheme proposes a design of autopilot, which achieves the predecided destination position and velocity vectors for a multi-stage rocket, when each stage is detached from the main vehicle after it burns out, completely.
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