Integrated inertial navigation system/Global Positioning System (INS/GPS) for manned return vehicle autoland application

IEEE Symposium on Position Location and Navigation. A Decade of Excellence in the Navigation Sciences Pub Date : 1990-03-20 DOI:10.1109/PLANS.1990.66160

K. Braden, C. Browning, H. Gelderloos, F. Smith, C. Marttila, L. Vallot

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引用次数: 10

Abstract

It is noted that with the development of the International Space Station Freedom, people will permanently live in space and require routine access and an assured crew return capability in case of emergencies in space. The extended duration in space requires a manned return vehicle that is less demanding on the crew and provides an autonomous deorbit, entry, and autoland capability. The authors discuss an autoland capability with an integrated differential GPS/INS that provides the required position and velocity accuracies without the need for tactical aircraft navigation (TACAN) and microwave landing system (MLS) navigation aides. Simulation results are used to demonstrate the feasibility of autoland using differential GPS aided with a high-precision altimeter. This concept applies to several manned space applications, such as Assured Crew Return Vehicle (ACRV), Assured Shuttle Availability (ASA), Advanced Manned Launch System (AMLS), and National Aerospace Plane (NASP), and to unmanned return vehicles such as the Propulsion Avionics Module (P/AM).<>

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用于载人返回飞行器自动着陆的综合惯性导航系统/全球定位系统(INS/GPS)

人们注意到，随着“自由”国际空间站的发展，人们将永久生活在太空中，需要定期进入太空，并在太空发生紧急情况时保证机组人员返回的能力。在太空中持续时间的延长需要一个载人返回飞行器，它对机组人员的要求较低，并提供自主脱离轨道、进入和自动着陆的能力。作者讨论了一种集成差分GPS/INS的自动着陆能力，该能力提供所需的位置和速度精度，而不需要战术飞机导航(TACAN)和微波着陆系统(MLS)导航辅助。仿真结果验证了高精度高度计辅助差分GPS自动着陆的可行性。这一概念适用于几个载人航天应用，如保证机组人员返回飞行器(ACRV)、保证航天飞机可用性(ASA)、先进载人发射系统(AMLS)和国家航空航天飞机(NASP)，以及无人返回飞行器，如推进航空电子模块(P/AM)。

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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IEEE Symposium on Position Location and Navigation. A Decade of Excellence in the Navigation Sciences

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