An end-to-end simulation of the Mars Science Laboratory (MSL) entry, descent, and landing (EDL) sequence was created at the NASA Langley Research Center using the Program to Optimize Simulated Trajectories II (POST2). This simulation is capable of providing numerous MSL system and flight software responses, including Monte Carlo-derived statistics of these responses. The MSL POST2 simulation includes models of EDL system elements, including those related to the parachute system. Among these there are models for the parachute geometry, mass properties, deployment, inflation, opening force, area oscillations, aerodynamic coefficients, apparent mass, interaction with the main landing engines, and off-loading. These models were kept as simple as possible, considering the overall objectives of the simulation. The main purpose of this paper is to describe these parachute system models to the extent necessary to understand how they work and some of their limitations. A list of lessons learned during the development of the models and simulation is provided. Future improvements to the parachute system models are proposed.
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机译:在NASA Langley研究中心使用优化模拟轨迹II(POST2)程序创建了火星科学实验室(MSL)进入,下降和着陆(EDL)序列的端到端仿真。该仿真能够提供许多MSL系统和飞行软件响应,包括这些响应的蒙特卡洛派生统计。 MSL POST2模拟包括EDL系统元素的模型,包括与降落伞系统相关的模型。其中有降落伞的几何形状,质量特性,展开,膨胀,打开力,面积振动,空气动力学系数,表观质量,与主着陆发动机的相互作用以及卸载的模型。考虑到模拟的总体目标,这些模型尽可能保持简单。本文的主要目的是在必要的程度上描述这些降落伞系统模型,以了解它们的工作方式及其局限性。提供了在模型开发和仿真过程中吸取的教训。提出了对降落伞系统模型的未来改进。
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