用于航天飞机着陆操作的全球差分GPS

IEEE Symposium on Position Location and Navigation. A Decade of Excellence in the Navigation Sciences Pub Date : 1990-03-20 DOI:10.1109/PLANS.1990.66233

P. Loomis, R. Denaro, P. Saunders

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引用次数: 8

摘要

全球差分全球定位系统(WWDGPS)被认为是提供全球连续高质量导航的有效方法。这个概念利用一个只有33个地面站的网络来观测GPS的大多数误差源，并在全球范围内向用户提供误差修正。WWDGPS实时GPS跟踪概念承诺为授权的双频用户提供三倍或四倍的精度提高，此外还为单频用户保持准确和当前的电离层模型。实时全球跟踪网络也有可能扭转边缘卫星“健康状况不佳”的声明，增加星座中的卫星数量，并减少GPS导航中断的可能性。对于航天飞机操作，使用wwdgps辅助的p码设备在精度和可靠性方面保证了与其他当前着陆制导系统相同或更好的性能。对于NASA来说，这一性能的成本要低得多，因为NASA将作为客户参与为全球民用导航社区设计的商业运营系统。

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Worldwide differential GPS for Space Shuttle landing operations

A worldwide differential Global Positioning System (WWDGPS) is viewed as an effective method of offering continuous high-quality navigation worldwide. The concept utilizes a network with as few as 33 ground stations to observe most of the error sources of GPS and to provide error corrections to users on a worldwide basis. The WWDGPS real-time GPS tracking concept promises a threefold or fourfold improvement in accuracy for authorized dual-frequency users, and in addition maintains an accurate and current ionosphere model for single-frequency users. A real-time global tracking network also has the potential to reverse declarations of 'poor health' of marginal satellites, increasing the number of satellites in the constellation And lessening the probability of GPS navigation outage. For Space Shuttle operations, the use of WWDGPS-aided P-code equipment promises performance equal to or better than other current landing guidance systems in terms of accuracy and reliability. This performance comes at significantly less cost to NASA, which will participate as a customer in a system designed as a commercial operation serving the global civil navigation community.<>

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

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