卫星授时与时间传递技术进展

近年来,卫星导航技术发展迅速.卫星导航系统以精密时间测量技术为基础,实现了伪距测量,进而实现定位.同时,卫星导航系统还提供了高精度授时功能.综述了卫星导航系统的授时和时间频率传递技术、基于通信卫星的授时技术以及双向卫星时间频率传递(TWSTFT)技术等.随着我国北斗卫星导航系统(BDS)的建成和提供服务,BDS授时应用研究正在快速发展.基于BDS/GNSS多系统的精密单点定位(PPP)时间传递技术已成为重点研究方向,未来将会应用于国际时间比对.同时,随着卫星通信技术尤其是低轨通信卫星技术的快速发展,低轨通信卫星授时会成为一个有潜力的研究方向.     

基于网络架构的箭载图像采集系统设计及硬件实现

图像采集系统负责监控和记录运载器上多个重要点位的视频信息。文中介绍了一种基于网络架构的箭载通用图像采集系统,负责采集高清图像并无损存储在图像压缩器内,将高清图像压缩后经遥测传输至地面,由于带宽有限,可实时切换下传的图像信息,同时支持通过网络实时访问箭上图像信息和事后图像数据回读功能,为评估箭上的工作状态或分析故障提供了保障。     

STABC-IR: An air target intention recognition method based on bidirectional gated recurrent unit and conditional random field with space-time attention mechanism

The battlefield environment is changing rapidly, and fast and accurate identification of the tactical intention of enemy targets is an important condition for gaining a decision-making advantage. The current Intention Recognition (IR) method for air targets has shortcomings in temporality, interpretability and back-and-forth dependency of intentions. To address these problems, this paper designs a novel air target intention recognition method named STABC-IR, which is based on Bidirectional Gated Recurrent Unit (BiGRU) and Conditional Random Field (CRF) with Space-Time Attention mechanism (STA). First, the problem of intention recognition of air targets is described and analyzed in detail. Then, a temporal network based on BiGRU is constructed to achieve the temporal requirement. Subsequently, STA is proposed to focus on the key parts of the features and timing information to meet certain interpretability requirements while strengthening the timing requirements. Finally, an intention transformation network based on CRF is proposed to solve the back-and-forth dependency and transformation problem by jointly modeling the tactical intention of the target at each moment. The experimental results show that the recognition accuracy of the jointly trained STABC-IR model can reach 95.7%, which is higher than other latest intention recognition methods. STABC-IR solves the problem of intention transformation for the first time and considers both temporality and interpretability, which is important for improving the tactical intention recognition capability and has reference value for the construction of command and control auxiliary decision-making system.     

双基推进剂包覆层界面脱粘敲击检测系统设计

双基推进剂橡胶包覆层界面脱粘降低了推进剂工作性能，使其运行存在潜在的安全隐患。针对此问题，设计并开发了一套由信号处理组件、自动化控制组件和智能诊断组件构成的敲击检测系统，旨在通过自动化控制与智能敲击诊断技术相结合，更加全面的获取待测件的状态，提高检测的准确性和可靠性。实验结果表明，敲击检测系统可以识别橡胶包覆层脱粘缺陷，并且当敲击检测分辨率为3~10 mm时，脱粘缺陷检测准确率≥87.5%；BP神经网络隐含层神经元数设置6或7时，故障识别效果良好，K-means聚类算法对敲击检测数据故障确诊率≥90%。综上所述，敲击检测系统具有较高的检测分辨率和准确率，可以实现对双基推进剂包覆层粘接质量的客观评价。     

Optimization and verification of single pilot operations model for commercial aircraft based on biclustering method

Commercial aircraft crews have experienced a trend from five-person crew to dual-pilot crew. Arised from both technological and market demands, Single Pilot Operations (SPO) is considered an important development direction in modern aviation technology. In this paper, starting from Dual-Pilot Operations (DPO), the piloting process, decision-making process and decision-making mode of DPO for commercial aircraft are studied to obtain the operational requirements of SPO. Then, based on above analysis, the operational mechanism of SPO is studied and the core technology of SPO mode is proposed. Next, a new closed frequent bicluster mining algorithm named FsCluster is proposed for the optimization of the SPO model, and the other efficient bicluster mining algorithm named TsCluster is proposed for the analysis and verification of the SPO model. Finally, a typical flight phase scenario is modelled by Magic System of System, and combined with the proposed algorithms for analysis and verification to determine whether the SPO mode can meet the DPO requirements.     

远程空天运输系统总体设计与控制技术的科学挑战

远程空天运输系统是一种利用航天运载技术实施全球极速运输的运载工具，具有小时级洲际到达能力，可作为陆海空传统运输方式的重要补充。具有现实的社会、科技、经济应用价值。分析了远程空天运输系统的发展需求与意义，对标设计要求研究了技术实现途径，在进一步分析系统的任务特点和技术特点分析基础上，提出了远程空天运输系统总体设计与控制技术中的设计难点与科学挑战，为未来远程空天运输系统设计提供参考。     

一种基于State模式的惯导系统软件设计方法

State模式是一种面向对象的设计方法。针对惯导系统软件设计中的问题,提出了一种基于State模式的惯导系统软件设计方法,并将其应用于惯导系统软件分支流程的设计过程中。与传统设计方法相比,该方法将逻辑判断和处理封装在状态对象中,为不同系统状态子类声明了一个公共接口,用子类实现特定状态下的行为操作,避免了多种状态转换时逻辑判断的复杂度,降低了惯导系统软件的耦合程度,增强了代码的可靠性、健壮性和可移植性,从而提高了软件质量。     

船用低成本GNSS测向系统研究

GNSS导航星座主要由GPS、GLONASS、Galileo、BDS四大系统卫星组成,到2020年,用户有望同时观测到40多颗导航卫星,大幅提升导航性能的同时,也扩展了其应用领域。针对靶船、渔船对航向测量的需求,基于GNSS接收机应用现状,设计了低成本GNSS测向系统,使用2块Ublox LEA-M8T模块和STM32F407处理器搭建原理样机硬件平台,开展基于Kalman滤波器的载波相位差分姿态测量算法研究和基于Kalman滤波器的伪距差分姿态测量算法研究。静态实验表明,在8.5m基线的情况下,航向角测量标准差为0.0396°,俯仰角测量标准差为0.0889°。使用伪距差分算法,纬度方向上测量误差标准差为0.5923m,经度方向上测量误差标准差为0.4609m,高度方向上测量误差标准差为1.0766m。     

固体姿轨控发动机喉栓运动时序实验设计方法

固体姿轨控发动机通过伺服机构控制喉栓位移实现推力矢量调节。为实现推力精确调控，需拟合大量地面试验数据，得出发动机喉栓位移与推力矢量间的数学模型。提出了一种面向喉栓式固体轨控发动机喉栓运动时序实验设计方法，实现了单次试验中不同燃烧室理论压强及喉栓位移组合最大覆盖，为最低试验成本下精准构建喉栓位移与推力输出模型提供训练样本。以四阀固体轨控发动机作为对象，基于零维内弹道实现燃气发生器压强求解。采用Φp准则评估喉栓位置组合遍历性，并对其进行优化，获得合理的喉栓运动方案。算例结果证明实验设计后方案在整个运动周期内几乎遍历各种组合状态，较实验设计前Φp值提升近40%，验证了本文实验设计方法在时序工程问题中的优良性能。采用实验设计方法可提高固体姿轨控发动机地面试车数据利用效率。