一种用于精确着陆和制导的混合完整性解决方案

PLANS 2004. Position Location and Navigation Symposium (IEEE Cat. No.04CH37556) Pub Date : 2004-04-26 DOI:10.1109/PLANS.2004.1308990

K. Gold, A.K. Brown

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引用次数: 20

摘要

针对GPS干扰环境下的精确进近和着陆，设计了一种混合完整性解决方案。本文描述的完整性解决方案利用了下一代数字空间处理和超紧密耦合(UTC) GPS/惯性集成军事用户设备(UE)的能力。设计还包括空间环境完整性监测器、GPS/惯性接收机自主完整性监测器解决方案(gi - aim)，该方案允许在惯性解被破坏之前检测小误差漂移率，以及嵌入在运动载波相位跟踪(KCPT)算法中的完整性监测功能，该算法为最终的KCPT定位数据输出提供了一定程度的置信度。仿真和测试结果表明了该多级完整性监测方法的预期性能。还包括飞机GPS/惯性数字空间处理接收机HAGR-A的设计，该接收机将用作实施和测试这些完整性监测技术的试验台。

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A hybrid integrity solution for precision landing and guidance

A design was developed for a hybrid integrity solution for precision approach and landing in a GPS jamming environment. The integrity solution described in this paper leverages the capabilities of next generation digital spatial processing and ultra-tightly-coupled (UTC) GPS/inertial integrated military user equipment (UE). A design is also included for a spatial environment integrity monitor, for a GPS/inertial receiver autonomous integrity monitor solution (GI-RAIM) that allows detection of small error drift rates before the inertial solution can be corrupted and an integrity monitoring function embedded within the kinematic carrier phase tracking (KCPT) algorithms which provides a level of confidence on the final KCPT positioning data output. Simulation and test results showing the expected performance of this multi-level integrity monitoring approach are presented. A design for an aircraft GPS/inertial digital spatial processing receiver, the HAGR-A, is also included which will be used as a test bed for implementation and testing of these integrity monitoring techniques.

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来源期刊

PLANS 2004. Position Location and Navigation Symposium (IEEE Cat. No.04CH37556)

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