基于eN-数据库方法复杂构型飞机转捩预测

为探索边界层转捩对大型运输机在起降条件和有较大层流区的巡航条件下的气动力精确计算问题，通过在三维RANS求解器中引入eN-数据库方法来预测飞行器表面的转捩位置，并探索转捩对气动力的影响规律。方法与目前流行的基于间歇因子控制方程的转捩预测方法相比，具有计算效率高、易于工程应用、且考虑TS不稳定性转捩因素的特点。在此基础上，通过计算NASA梯形翼来分析起降构型条件下气动力受转捩影响的规律，并通过计算DLR－F6翼身组合体来探索三维构型在巡航条件下的气动力精度。使用eN-数据库转捩判断方法的计算结果与实验值吻合较好，验证了所构建的基于RANS求解器的eN-数据库转捩预测方法的有效性，并为大型运输机气动力精确计算提供了分析工具。     

某型无人机数据通信系统设计与实现CSCD

为了实现无人机系统的飞行操纵和机载任务设备控制,设计了数据通信系统。介绍了系统基本工作原理和主要功能组成,并对数据通信系统的功能要求和技术指标进行了分析,按照基本功能单元,对系统软硬件进行了模块化、组合化设计。飞行试验表明该设计达到了系统技术指标要求,满足系统对数据通信系统的功能性要求。     

大容量光通信系统中规则LDPC码的研究

为研究规则LDPC码在大容量光通信系统的性能,对不同列重和不同迭代次数的短规则LDPC码在大容量光信道中的误码率性能进行了数据仿真。发现确定码长的规则LDPC码,存在最优的列重,使得在相同的冗余度时,最大程度地改善大容量光通信系统的性能;此外,误码率随迭代次数的增加具有收敛的特性,LDPC码译码时应合理地选取迭代次数。     

基于Eclipse平台的嵌入式软件集成开发环境目标机通信管理

基于Eclipse平台的嵌入式软件集成开发环境已经成为嵌入式软件集成开发环境的主流。嵌入式软件集成开发环境中的各种交叉开发工具依赖于目标机服务器提供的目标机通信管理功能。提出了一种目标机通信管理系统结构,描述了其各功能部件的功能和接口及其主要的工作流程,介绍了其软件架构及其主要的难点技术与解决方法。     

用于量子保密通信系统的偏振控制算法研究

量子保密通信是近年来逐渐发展成熟的一种新型保密通信机制,其安全性建立在量子力学基本原理上,被证明具有信息论条件下的绝对安全性。偏振编码光纤量子保密通信系统使用光子的偏振态进行信息编码。当环境变化时,光纤传输特性的改变将导致光子偏振态变化。因此,光子偏振态的补偿控制是光纤量子保密通信系统的一项关键技术,能否快速、准确的对偏振态进行补偿将直接影响系统的通信性能。本文提出一种基于光纤偏振控制器和扫描控制算法的偏振补偿方案。该方案通过控制光纤偏振控制器的电压大小,将量子误码率最小化,实现偏振光的补偿控制,满足量子通信系统自动控制的要求。     

我国中继卫星系统在交会对接任务中的应用

我国中继卫星系统在交会对接任务中得到了成功应用,显著提升了测控通信覆盖率,充分体现了中继卫星系统在交会对接任务测控通信中发挥的重要作用.结合中继卫星系统特点,分析交会对接任务对中继卫星系统的任务需求;探讨了中继卫星捕获跟踪用户目标、对用户目标测定轨、着陆场直升机缝隙通信等关键技术;最后总结了中继卫星系统抗雨衰影响、多目标支持能力、应急支持能力等方面的经验做法,并提出了后续改进和完善的建议.     

Determination of window frequency in the millimeter wave band in the range of 58° north through 45° south over the globe

The radiosonde data available from British Atmospheric Data Centre (BADC) for the latitudinal occupancy of 58° north through 45° south were analyzed to observe the variation of temperature and water vapor density. These two climatological parameters are largely assumed to be the influencing factors in determining the millimeter wave window frequencies over the chosen range of latitudes in between the two successive maxima occurring at 60 and 120 GHz. It is observed that between temperature and water vapor density, the later one is influencing mostly in determining the window frequency. It is also observed that the minima is occurring at 75 GHz through 94 GHz over the globe during the month January–February and 73 GHz through 85 GHz during the month July–August, depending on the latitudinal occupancy. It is observed that the large abundance of water vapor is mainly held responsible for shifting of minima towards the low value of frequencies. Hence, it is becoming most important to look at the climatological parameters in determining the window frequency at the place of choice.     

Link budget and background noise for satellite quantum key distribution

Optical quantum communication exploiting satellites is the most promising field to enable global quantum communication.     

Cooperative Routing for Maximizing Network Performance of Wireless Networks

To greatly increase spectral efficiency and improve network performance in wireless networks,a novel cooperative routing algorithm,namely maximum throughput cooperative routing(MTCR) algorithm,is proposed.According to cooperative link model,throughput analysis is presented to evaluate performance improvement in the process of exploiting cooperative commu-nication from physical layer to higher layer.Taking the throughput improvement as performance metric,a cooperative relay se-lection scheme is developed.Finally,based on the route constructed by adaptive forwarding cluster routing(AFCR) algorithm,each node on the route selects the optimum cooperative node from all the potential cooperative nodes to construct the coopera-tive link with maximum throughput so that cooperative route with maximum network throughput from source to destination can be set up.Simulation results show that compared with the noncooperative routing algorithm and minimum power selection de-code-and-forward(MPSDF) routing algorithm,the proposed algorithm can obviously improve network throughput in the pres-ence of low transmission power,large number of nodes and high spectral efficiency.     

一种天线主面分瓣连接件的设计

设计了一种天线主面分瓣连接件,介绍了该装置的工作原理及工作过程,通过分析、比较,表明该装置动作明确、定位简单准确且夹紧可靠,是一种较好的设计.