考虑扰动的无人机集群协同态势感知一致性评估

无人机（UAV）集群协同态势感知（SA）一致性是无人机集群协同作战的关键,对一致性进行评估至关重要。针对态势感知过程中面临的强不确定性等问题,在一致性评估指标体系的基础上,提出了基于证据推理规则的态势感知一致性评估方法,将各类指标信息统一至置信结构,并充分考虑指标的权重与可靠度。采用扰动分析法对复杂战场环境进行模拟,提出考虑扰动的态势感知一致性评估方法,并对算法进行了总结。最后,通过仿真算例和对比研究验证了所提方法在不确定性表达、一致性评估和无人机集群的环境适应性研究等方面的有效性。     

卫星健康管理故障诊断算法的设计及其实现

自主健康管理系统对实现卫星安全性、可靠性和经济适用性具有重要意义,故障诊断算法是自主健康管理的核心技术之一。文章介绍了基于信号处理的故障诊断算法、基于解析模型的故障诊断算法和基于定性模型的故障诊断算法的国内外研究现状;提出了每种诊断算法的设计思想和实现途径;根据上述途径并结合卫星控制分系统的特点,得出了基于Unscen...     

计算机辅助可靠性设计分析系统研究

介绍了以可靠性设计分析工作流程为主线,以可靠性数据库为核心,全面支持可靠性要求制定 (定性和定量要求 )、可靠性设计分析和可靠性设计分析咨询等工作,及与传统专业软件综合应用的计算机辅助可靠性设计分析软件系统。详细论述了该系统的功能和软件结构;软件支持的可靠性设计分析功能流程;与EDA、热分析等传统专业软件综合应用进行可靠性预计、FMEA等关键技术,及软件的特点。     

技术图书馆计算机集成管理历程

本文从确定软件、建立书目数据库和开通三个子系统等方面介绍了图书馆进行计算机集成管理的历程。     

风速缺失情况下风电场功率调度分析

为了得到最优风电场功率调度方案,必须掌握任意时刻各风机风速输入值,进而得出各风机出力大小。当风速测量仪出现故障而不能正常工作时,风电机组风速数据将出现错误或缺失。建立线性回归方程,找出每台机组间输入风速的联系便可得到缺失的风速值。当风场发生“空转弃风”时,电网管理部门下达限电指令,风电场输出指定规模的有功、无功功率。将风场内所有双馈异步发电机损耗最低为目标函数,确定有功、无功调度方案。运用MATLAB软件建立风场模型,仿真结果验证了调度模型的可行性。     

High performance motion control for optical satellite tracking systems

This paper investigates the motion control system of an optical telescope system used for precision satellite tracking and ranging applications. The system uses direct-drive permanent magnet synchronous motors (PMSMs) for high precision positioning. To overcome the performance limitations due to system dynamics and position dependent plant variations, a disturbance observer based control system is utilized. This paper contributes the detailed analysis, design and implementation of such an advanced control concept for the performance improvement of precision satellite tracking systems. Satellite tracking experiments are conducted to verify the performance of the proposed system. Utilizing the proposed control concept, the RMS servo error is reduced by a factor of 3.8 to well below the arcsecond range, achieving seeing limited tracking.     

Probabilistic resident space object detection using archival THEMIS fluxgate magnetometer data

Recent progress in the detection of small space objects, at geosynchronous altitudes, through ground-based optical and radar measurements is demonstrated as a viable method. However, in general, these methods are limited to detection of objects greater than 10?cm. This paper examines the use of magnetometers to detect plausible flyby encounters with charged space objects using a matched filter signal existence binary hypothesis test approach. Relevant data-set processing and reduction of archival fluxgate magnetometer data from the NASA THEMIS mission is discussed in detail. Using the proposed methodology and a false alarm rate of 10%, 285 plausible detections with probability of detection greater than 80% are claimed and several are reviewed in detail.     

Reconciling space object observed and solar pressure albedo-areas via astrometric and photometric data fusion

There are many Resident Space Objects (RSOs) in the Geostationary Earth Orbit (GEO) regime, both operational and debris. The primary non-gravitational force acting on these RSOs is Solar Radiation Pressure (SRP), which is sensitive to the RSO’s area-to-mass ratio. Sparse observation data and mismodeling of non-gravitational forces has constrained the state of practice in tracking and characterizing RSOs. Accurate identification, characterization, tracking, and motion prediction of RSOs is a high priority research issue as it shall aid in assessing collision probabilities in the GEO regime, and orbital safety writ large. Previous work in characterizing RSOs has taken a preliminary step in exploiting fused astrometric and photometric data to estimate the RSO mass, shape, attitude, and size. This works, in theory, since angles data are sensitive to SRP albedo-area-to-mass ratio, and photometric data are sensitive to shape, attitude, and observed albedo-area. By fusing these two data types, mass and albedo-area both become observable parameters and can be estimated as independent quantities. However, previous work in mass and albedo-area estimation has not quantified and assessed the fundamental physical link between SRP albedo-area and observed albedo-area. The observed albedo-area is always a function of the SRP albedo-area along the line of sight of the observer. This is the physical relationship that this current research exploits. It is shown through simulation that due to this physical link, and through the fusion of astrometric and photometric data, it is possible to observe the mass of a space object when the area is not known. Results for data from 100 trajectories generated from randomly sampled initial conditions are shown. It is seen that even when the area of the object is not known, the uncertainty in mass can be lowered from an initial value of 800?kg to the range 500–700?kg for 72% of the samples, 200–500?kg for 13% of the samples, and 0–200?kg for 15% of the samples. It is further shown that although the uncertainties are large, the actual errors in mass are much lower, with the error RMS being less than 100?kg for 30% of the samples, between 100 and 200?kg for another 30%, and between 200 and 300?kg for 24% of the samples.     

自动化输送系统网络数字化视频监控解决方案

提出一套基于EC5—1612CVDNA的自动化输送系统网络数字化视频监控解决方案。     

飞机维修企业航材计划采购自动化体系研究

结合航材物流相关领域的可用技术,通过分析飞机维修企业航材计划采购流程中主要环节的自动化可行性,初步建立起一个通用的飞机维修企业航材计划采购自动化体系。