Comprehensive data reduction package for the Immersion GRating INfrared Spectrograph: IGRINS

We present a Python-based data reduction pipeline package (PLP) for the Immersion GRating INfrared Spectrograph (IGRINS), an instrument that covers the complete H- and K-bands in one exposure with a spectral resolving power of 40,000. The reduction steps carried out by the PLP include flat-fielding, background removal, order extraction, distortion correction, wavelength calibration, and telluric correction using spectra of A type standard stars. As the spectrograph has no moving parts, the PLP automatically reduces the data using predefined functions for the processes of order extraction, distortion correction, and wavelength calibration. Before the telluric correction of the target spectra, the intrinsic hydrogen absorption features of the standard A star are removed with a Gaussian fitting algorithm. The final result is the flux of the target as a function of wavelength. Users can customize the predefined functions for the extraction of the spectrum from the echellogram and adjust the parameters for the fitting functions for the spectra of celestial objects, using “fine-tuning” options, as necessary. Presently, the PLP produces the best results for point-source targets.     

The effect of spatial truncation error on variance of gravity anomalies derived from inversion of satellite orbital and gradiometric data

The spatial truncation error (STE) is a significant systematic error in the integral inversion of satellite gradiometric and orbital data to gravity anomalies at sea level. In order to reduce the effect of STE, a larger area than the desired one is considered in the inversion process, but the anomalies located in its central part are selected as the final results. The STE influences the variance of the results as well because the residual vector, which is contaminated with STE, is used for its estimation. The situation is even more complicated in variance component estimation because of its iterative nature. In this paper, we present a strategy to reduce the effect of STE on the a posteriori   variance factor and the variance components for inversion of satellite orbital and gradiometric data to gravity anomalies at sea level. The idea is to define two windowing matrices for reducing this error from the estimated residuals and anomalies. Our simulation studies over Fennoscandia show that the differences between the 0.5°×0.5°$0.5°\times 0.5°$ gravity anomalies obtained from orbital data and an existing gravity model have standard deviation (STD) and root mean squared error (RMSE) of 10.9 and 12.1 mGal, respectively, and those obtained from gradiometric data have 7.9 and 10.1 in the same units. In the case that they are combined using windowed variance components the STD and RMSE become 6.1 and 8.4 mGal. Also, the mean value of the estimated RMSE after using the windowed variances is in agreement with the RMSE of the differences between the estimated anomalies and those obtained from the gravity model.     

四轴飞行器姿态监控系统设计

设计了一套四轴飞行器上位机监控系统。针对准确掌握四轴飞行器的实时姿态、位置等信息和对四轴飞行器进行精准控制两大核心问题,开发了由上位机实现四轴飞行器姿态数据采集、通信及控制等功能的监控系统。监控系统良好的功能设计和友好的人机界面使得用户能够准确掌握飞行器的飞行信息,从而能够更精准地控制四轴飞行器飞行姿态。实验验证,监控系统简单实用,性能稳定,精度高,使整个飞行系统抗干扰能力强,鲁棒性、稳定性好。     

某型航空发动机参数变化的原因分析

利用飞参记录有关发动机性能参数的数据,运用推进系统理论知识,进行原因查找分析与调整研究,保持、恢复发动机性能。     

基于多源卫星融合资料的中国近海海洋锋检测研究

海洋锋是海洋动力学中重要的研究对象.目前主要利用卫星遥感海面温度数据分析海洋锋.由于夏季中国近海海域海面温度趋同特性,无法利用海面温度数据分析海洋锋,而卫星遥感海色数据可以有效弥补海面温度检测海洋锋的不足,提高海洋锋检测的准确性.基于多源卫星融合数据,利用梯度检测算法对中国近海海域进行海洋锋研究,结合海面温度和蓝绿波段...     

城市道路交通流检测数据精度评价

目前各种检测方法采集到的路段速度数据普遍存在一定的误差,其准确性直接影响各种交通分析模型结果的精度.针对浮动车检测器、微波检测器以及线圈检测器的路段速度数据进行研究,利用GPS(Global Positioning System)设备实时记录试验车位置,分别在快速路和主干路进行了12次实验,对不同采集方式获取的速度信息进行了精度验证和评价.实验结果分析表明,浮动车数据获取的城市快速路和主干路的路段行程速度平均误差分别为13.6%和27.8%,且采集值与实际速度具有相同的分布.快速路微波检测器和主干路线圈检测器的速度数据与真实行程速度数据的误差分别为30%和56%.表明了微波检测器的断面速度值,用来表征所处路段的行程速度时虽然具有一定的误差,但是基本能表征路段的行驶状况.该研究结论为不同精度需求的交通模型选择合适的数据源提供支持,并为利用多源数据的冗余信息提高数据精度和完备性提供了理论依据.      

基于SCADE的飞控软件的适航验证与确认

中国民用航空规章第25部对机载软件提出了适航要求,DO178B是对适航要求的符合性方法,但其中一些验证和确认目标并不适用于基于SCADE的软件验证。为此,分析了飞控软件的适航要求和符合性方法,并对基于SCADE的飞控软件的开发流程和传统的开发流程进行了分析对比,对基于SCADE的飞控软件的适航验证与确认工作提出了建议。     

紊流风场下的无人机飞行状态卡尔曼滤波估计

为了模拟紊流风场下的无人机飞行状态响应,减小紊流风场对无人机飞行速度的影响,使用数值法建立了紊流风场有色噪声模型,生成了符合大气紊流相关特性的紊流风场并对其进行数值仿真。在此基础上,通过状态扩增处理将系统噪声白化,设计出一种基于有色噪声的无人机飞行速度卡尔曼滤波器,该滤波器解决了基本卡尔曼滤波仅适用于白噪声的情况。仿真结果表明,使用此滤波器可有效减小紊流风场对无人机飞行速度的影响,进而满足飞行速度控制输入的精度要求。     

电子飞控飞机的飞行品质适航验证

FAA AC25-7A中的飞行品质评定方法 (HQRM)能够对使用电子飞控系统的民用运输机进行飞行品质评估。分析了HQRM评估程序以及相关适航要求,根据某民用飞机飞控系统功能危险分析,针对单侧升降舵卡阻这一典型故障,提出了在该失效状态下的模拟器飞行品质评估试验程序,分别给出了HQRM和相应军用标准评估方法,对军民评估方法的差异性和一致性进行了分析。研究结果对采用电子飞控系统的现代飞机的飞行品质适航验证具有工程参考意义。     

面向IMA网络文件系统的双服务器结构设计

为了提高面向IMA网络文件系统的可靠性和实时性,设计了一种双服务器结构的网络文件系统。客户优先访问主服务器,在得不到主服务器响应时,访问从服务器;主服务器在无法满足同时有多个访问请求时,把一部分的访问请求分给从服务器;主服务器和从服务器通过数据实时更新和定时检测更新,保持数据的高度一致。