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Evaluation of Dual Simultaneous Instrument Landing System Approaches to RunwaysSpaced 3000 Feet Apart with One Localizer Offset Using a Precision Runway Monitor System

机译：使用精密跑道监控系统评估双重同步仪表着陆系统方法，使用一个定位器偏置，使用3000英尺的跑道

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A real time simulation was conducted to evaluate simultaneous ILS approaches totwo runways spaced 3000 ft apart with one localizer offset by 2.5 degrees. Air traffic controllers monitored traffic using a simulated Precision Runway Monitor (PRM) system which consisted of Final Monitor Aid (FMA) displays and a simulated radar update rate of 1.0 second. Aircraft blunders were introduced to test the air traffic control system ability to maintain adequate separation between aircraft on final approaches during critical situations using the proposed runway configuration. Four criteria were developed by the Multiple Parallel Approach Program (MPAP) Technical Work Group to evaluate the study: (1) the number of Test Criterion Violations (TCVs) relative to the total number of at-risk, non-responding blunders, and relative to a predetermined target level of safety of no more than one fatal accident per 25,000,000 approaches; (2) the frequency of No Transgression Zone (NTZ) entries and nuisance breakouts (NBOs); (3) an evaluation of controller communications workload; and (4) an operational assessment from MPAP TWG members and participating controller and pilot technical observers. The results of the simulation passed all of the test criteria The MPAP TWG recommended the 3000-ft dual offset procedure for approval in the operational environment, given similar controller and pilot training, when the PRM system is used.

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作者
Ozmore, R. E.; Morrow, S. L.;
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年度 1996
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总页数 159
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Monitors; Runways; Instrument landings; Test and evaluation; Observers; Simulation; Aircraft; Training; Monitoring; Real time; Pilots; Radar; Configurations; Precision; Safety; Level(Quantity); Parallel orientation; Workload;

机译：监视器;跑道;仪表着陆;测试和评估;观察员;模拟;飞机;训练;监测;实时;飞行员;雷达;配置;精度;安全;水平（数量）;平行定向;工作量;

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2. The problem of improving the British Instrument Landing System localizer for automatic landing [J] . Beresford A.N., Asteraki J.D. Proceedings of the IEE - Part B: Electronic and Communication Engineering . 1961,第37期

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3. Blind Residual Carrier Frequency Offset and Timing Offset Estimation Using Improved Minimum Output Variance Approaches in Uplink MC-CDMA Systems [J] . Ann-Chen Chang Wireless personal communications: An Internaional Journal . 2013,第3期

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4. Demonstration of a precision runway monitor system to increase landing capacity of parallel runways [C] . Byram, K.V. . 1992

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Evaluation of Dual Simultaneous Instrument Landing System Approaches to RunwaysSpaced 3000 Feet Apart with One Localizer Offset Using a Precision Runway Monitor System

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