Bombardier is equipping the C Series aircraft with an Autoland system. No other Bombardier aircraft has an Autoland system. This system will enable C Series aircraft to land in low visibility conditions, thus maximizing the number of flights conducted by carriers and minimizing the number of missed connections for passengers. Carriers may enable CAT II, CAT IIIA, or CAT IIIB options on a C Series aircraft. AC 120-28D provides guidance for obtaining approval for a new Autoland system. A major part of certification is to prove that the Autoland system will meet certain 10~(-6) landing criteria. Since it is obviously impracticable to conduct a million landings during a flight test program, the AC allows designers to use simulation results to prove adherence to the landing criteria. Even still, it is time prohibitive to run one million simulated landings, so extrapolation techniques must be carefully used. A Monte Carlo approach is used to simulate a variety of initial conditions, winds, and sensor errors. Once the simulation results show compliance with the AC criteria, flight tests must be conducted to validate the simulation. During the C Series Autoland certification effort, an iterative approach is being used. Initial simulation results were promising but did not fully meet all the landing criteria. Flight tests were conducted in relatively benign environmental conditions to gather data so that adjustments could be made to the simulator. Further design changes were then made to the autoland system and more simulations were performed before resuming flight testing. Per the AC, simulation and flight testing must be conducted in a variety of conditions, which include head/cross winds, irregular terrain, sloped runways, seawalls, and high elevation runways. In total, 100 flight test landings should be conducted for proper validation of the simulator results (as recommended in the AC). The team investigated different methods of validating the simulations results before finally deciding to use a reconstruction technique. This brief will provide an overview of simulation techniques, methods of evaluating simulations results, flight test execution, post-flight analysis, and simulator validation.
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机译:Bombardier正在用Autoland系统配备C系列飞机。没有其他庞巴迪飞机有自动和系统。该系统将使C系列飞机能够降低低可见性条件,从而最大限度地提高运营商进行的航班数量,并最大限度地减少乘客的错过连接数量。运营商可以在C系列飞机上启用CAT II,CAT IIIA或CAT IIIB选项。 AC 120-28D提供了获得新的Autol和系统批准的指导。认证的主要部分是证明Autol和系统将达到某些10〜(-6)登陆标准。由于在飞行测试程序期间进行百万次着陆显然是不可行的,因此AC允许设计人员使用模拟结果来证明遵守着陆标准。即使仍然,它是持久运行一百万的模拟着陆时间,因此必须仔细使用外推技术。 Monte Carlo方法用于模拟各种初始条件,风和传感器错误。一旦仿真结果表明符合交流标准,必须进行飞行测试以验证模拟。在C系列Autol和认证工作中,正在使用迭代方法。初始仿真结果很有希望,但没有完全满足所有登陆标准。在相对良性的环境条件下进行飞行测试以收集数据,以便可以对模拟器进行调整。然后将进一步的设计改变对自动和系统进行,并且在恢复飞行测试之前进行更多的模拟。根据AC,模拟和飞行测试必须在各种条件下进行,包括头部/交叉风,不规则地形,倾斜的跑道,海堤和高海拔跑道。共有100个飞行测试着陆应进行适当验证模拟器结果(如AC中的推荐)。该团队在最终决定使用重建技术之前调查了验证模拟结果的不同方法。本简要介绍概述仿真技术,评估模拟结果,飞行试验执行,飞行后分析和模拟器验证的方法。
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