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Detection of Turbulence Anomalies Using a Symbolic Classifier Algorithm in Airborne Quick Access Record(QAR)Data Analysis 被引量:1
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作者 Zibo ZHUANG Kunyun LIN +1 位作者 Hongying ZHANG Pak-Wai CHAN 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 2024年第7期1438-1449,共12页
As the risks associated with air turbulence are intensified by climate change and the growth of the aviation industry,it has become imperative to monitor and mitigate these threats to ensure civil aviation safety.The ... As the risks associated with air turbulence are intensified by climate change and the growth of the aviation industry,it has become imperative to monitor and mitigate these threats to ensure civil aviation safety.The eddy dissipation rate(EDR)has been established as the standard metric for quantifying turbulence in civil aviation.This study aims to explore a universally applicable symbolic classification approach based on genetic programming to detect turbulence anomalies using quick access recorder(QAR)data.The detection of atmospheric turbulence is approached as an anomaly detection problem.Comparative evaluations demonstrate that this approach performs on par with direct EDR calculation methods in identifying turbulence events.Moreover,comparisons with alternative machine learning techniques indicate that the proposed technique is the optimal methodology currently available.In summary,the use of symbolic classification via genetic programming enables accurate turbulence detection from QAR data,comparable to that with established EDR approaches and surpassing that achieved with machine learning algorithms.This finding highlights the potential of integrating symbolic classifiers into turbulence monitoring systems to enhance civil aviation safety amidst rising environmental and operational hazards. 展开更多
关键词 turbulence detection symbolic classifier quick access recorder data
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不平衡油耗数据的区间预测方法 被引量:4
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作者 陈静杰 王琨 《计算机科学》 CSCD 北大核心 2021年第7期178-183,共6页
对油耗数据进行区间预测时,数据的不平衡性会导致一般的区间预测方法得到的预测区间质量较低。针对上述问题,提出了基于SMOTE-XGBoost算法的区间预测模型。采用SMOTE算法增加训练集中少数类样本的数量,消除了训练集数据的不平衡性;对XGB... 对油耗数据进行区间预测时,数据的不平衡性会导致一般的区间预测方法得到的预测区间质量较低。针对上述问题,提出了基于SMOTE-XGBoost算法的区间预测模型。采用SMOTE算法增加训练集中少数类样本的数量,消除了训练集数据的不平衡性;对XGBoost算法的分位数损失函数进行改进,平滑其一阶导数原点周围的小区域,解决了分位数损失函数对树分裂的影响;通过训练区间预测模型,得到预测区间的上下界。最后基于QAR数据集进行对比实验,结果表明,该方法使预测区间具有较高的区间覆盖率和较窄的区间宽度,提高了预测区间的质量。 展开更多
关键词 不平衡数据 区间预测 SMOTE XGBoost 油耗 quick access recorder(QAR)数据
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改进蝴蝶优化算法在QAR数据重构中的应用
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作者 张鹏 刘赟跃 段照斌 《中国民航大学学报》 CAS 2021年第5期22-27,共6页
针对快速存取记录器(QAR,quick access recorder)数据中因测量传感器存在系统误差而导致QAR数据不满足数据相容性的问题,采用蝴蝶优化算法及最小二乘准则将系统误差的参数估计问题转换为解空间上的函数优化问题。为提高蝴蝶优化算法的性... 针对快速存取记录器(QAR,quick access recorder)数据中因测量传感器存在系统误差而导致QAR数据不满足数据相容性的问题,采用蝴蝶优化算法及最小二乘准则将系统误差的参数估计问题转换为解空间上的函数优化问题。为提高蝴蝶优化算法的性能,利用混沌映射对种群进行初始化,动态调整转换概率对算法进行改进,将该方法应用于飞行姿态角及角速度QAR数据的修正及重构中。实验结果表明,该方法简单可行,数据重构精度较高,满足数据相容性要求。 展开更多
关键词 数据重构 QAR(quick access recorder)数据 蝴蝶优化算法 数据相容性 参数估计 最小二乘准则
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Flight Characteristics Analysis Based on QAR Data of a Jet Transport During Landing at a High-altitude Airport 被引量:5
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作者 C.Edward Lan WU Kaiyuan YU Jiang 《Chinese Journal of Aeronautics》 SCIE EI CSCD 2012年第1期13-24,共12页
Flight data of a twin-jet transport aircraft in revenue flight are analyzed for potential safety problems. Data from the quick access recorder (QAR) are first filtered through the kinematic compatibility analysis. T... Flight data of a twin-jet transport aircraft in revenue flight are analyzed for potential safety problems. Data from the quick access recorder (QAR) are first filtered through the kinematic compatibility analysis. The filtered data are then organized into longitudinal- and lateral-directional aerodynamic model data with dynamic ground effect. The dynamic ground effect requires the radio height and sink rate in the models. The model data are then refined into numerical models through a fuzzy logic algorithm without data smoothing in advance. These numerical models describe nonlinear and unsteady aerodynamics and are used in nonlinear flight dynamics simulation. For the jet transport under study, it is found that the effect of crosswind is significant enough to excite the Dutch roll motion. Through a linearized analysis in flight dynamics at every instant of time, the Dutch roll motion is found to be in nonlinear oscillation without clear damping of the amplitude. In the analysis, all stability derivatives vary with time and hence are nonlinear functions of state variables. Since the Dutch roll motion is not damped despite the fact that a full-time yaw damper is engaged, it is concluded that the design data for the yaw damper is not sufficiently realistic and the contribution of time derivative of sideslip angle to damping should be considered. As a result of nonlinear flight simulation, the vertical wind acting on the aircraft is estimated to be mostly updraft which varies along the flight path before touchdown. Varying updraft appears to make the descent rate more difficult to control to result in a higher g-load at touchdown. 展开更多
关键词 jet transport unsteady aerodynamics nonlinear aerodynamics flight dynamics flight safety quick access recorder data
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