Trajectory optimization and multiple-sliding-surface terminal guidance in the lifting atmospheric reentry

Materials Research Society symposia proceedings. Materials Research Society Pub Date : 2023-11-01 DOI:10.21741/9781644902813-134

E.M. Leonardi

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Abstract

Abstract. In this paper the problem of guiding a vehicle from the entry interface to the ground is addressed. The Space Shuttle Orbiter is assumed as the reference vehicle and its aerodynamics data are interpolated in order to properly simulate its dynamics. The transatmospheric guidance is based on an open-loop optimal strategy which minimizes the total heat input absorbed by the vehicle while satisfying all the constraints. Instead, the terminal phase guidance is achieved through a multiple-sliding-surface technique, able to drive the vehicle toward a specified landing point, with desired heading angle and vertical velocity at touchdown, even in the presence of nonnominal initial conditions. The time derivatives of lift coefficient and bank angle are used as control inputs, while the sliding surfaces are defined so that these two inputs are involved simultaneously in the lateral and vertical guidance. The terminal guidance strategy is successfully tested through a Monte Carlo campaign, in the presence of stochastic winds and wide dispersions on the initial conditions at the Terminal Area Energy Management, in more critical scenarios with respect to the orbiter safety criteria.

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升力大气再入弹道优化与多滑面末制导

摘要本文研究了引导飞行器从进入界面到地面的问题。以航天飞机轨道飞行器为参考飞行器，对其空气动力学数据进行插值，以便对其动力学进行合理的仿真。跨大气制导基于一种开环优化策略，该策略在满足所有约束条件的同时使飞行器吸收的总热输入最小。相反，末段制导是通过多滑面技术实现的，即使在非标称初始条件下，也能将飞行器驱动到指定的着陆点，在着陆时具有所需的航向角和垂直速度。采用升力系数和倾斜角的时间导数作为控制输入，同时定义滑动面，使这两个输入同时参与横向和垂直制导。末端制导策略通过蒙特卡洛战役成功地进行了测试，在随机风和广泛分散的情况下，在终端区域能量管理的初始条件下，在更关键的情况下，关于轨道器安全标准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Research Society symposia proceedings. Materials Research Society

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