基于卷积神经网络的卫星网络协调态势评估方法

为充分发掘利用海量卫星网络数据,提高决策效率,加强空间频轨资源获取与储备的分析手段,尤其是对地球静止轨道资源的协调获取问题,提出基于机器学习算法的卫星网络态势评估策略。通过对卫星网络协调因素进行特征分析,选择卷积神经网络(Convolution Neural Network, CNN)为目标算法模型,并建立算法模型的训练数据集及Label规则,采用分裂信息增益度量方法对数据进行降维处理,建立CNN评估模型,并进行了验证分析。结果表明,CNN模型对卫星网络协调态势评估问题测试的正确率高达80%以上,具有较高的评估效能。随着数据量的增多,CNN评估效果逐步提升,是一种在卫星网络协调态势分析、资源储备的有效评估方法。     

Gabor-CNN for object detection based on small samples

Object detection models based on convolutional neural networks (CNN) have achieved state-of-the-art performance by heavily rely on large-scale training samples. They are insufficient when used in specific applications, such as the detection of military objects, as in these instances, a large number of samples is hard to obtain. In order to solve this problem, this paper proposes the use of Gabor-CNN for object detection based on a small number of samples. First of all, a feature extraction convolution kernel library composed of multi-shape Gabor and color Gabor is constructed, and the optimal Gabor convolution kernel group is obtained by means of training and screening, which is convolved with the input image to obtain feature information of objects with strong auxiliary function. Then, the k-means clustering algorithm is adopted to construct several different sizes of anchor boxes, which improves the quality of the regional proposals. We call this regional proposal process the Gabor-assisted Region Proposal Network (Gabor-assisted RPN). Finally, the Deeply-Utilized Feature Pyramid Network (DU-FPN) method is proposed to strengthen the feature expression of objects in the image. A bottom-up and a top-down feature pyramid is constructed in ResNet-50 and feature information of objects is deeply utilized through the transverse connection and integration of features at various scales. Experimental results show that the method proposed in this paper achieves better results than the state-of-art contrast models on data sets with small samples in terms of accuracy and recall rate, and thus has a strong application prospect.     

A novel facial emotion recognition scheme based on graph mining

Recent years have seen an explosion in graph data from a variety of scientific, social and technological fields. From these fields, emotion recognition is an interesting research area because it finds many applications in real life such as in effective social robotics to increase the interactivity of the robot with human, driver safety during driving, pain monitoring during surgery etc. A novel facial emotion recognition based on graph mining has been proposed in this paper to make a paradigm shift in the way of representing the face region, where the face region is represented as a graph of nodes and edges and the gSpan frequent sub-graphs mining algorithm is used to find the frequent sub-structures in the graph database of each emotion. To reduce the number of generated sub-graphs, overlap ratio metric is utilized for this purpose. After encoding the final selected sub-graphs, binary classification is then applied to classify the emotion of the queried input facial image using six levels of classification. Binary cat swarm intelligence is applied within each level of classification to select proper sub-graphs that give the highest accuracy in that level. Different experiments have been conducted using Surrey Audio-Visual Expressed Emotion (SAVEE) database and the final system accuracy was 90.00%. The results show significant accuracy improvements (about 2%) by the proposed system in comparison to current published works in SAVEE database.     

深度神经网络指导下的无线覆盖预测算法

为保证新一代移动无线网络能够根据实时覆盖情况动态地调节小区天线参数,需要实现高效且准确的无线覆盖预测。传统的求解方法通过精确的场强预测判断天线参数的优劣,虽然精度很高但需要大量的计算资源,无法满足5G和后5G移动网络通过实时覆盖预测进行射频参数动态调整的实际需求。现采用基于深度神经网络的算法对给定天线参数的覆盖效果进行预测,以取代对目标区域的精确场强预测。数值结果表明:该方法能够在保持计算准确性的同时显著减少计算量,为5G动态网络规划提供基础性参考数据。     

自主武器的特点及对未来战争影响 ——《无人军队：自主武器与未来战争》述评

以自主武器为代表的人工智能正在掀起一场新的军事革命。保罗·沙瑞尔所著的《无人军队：自主武器与未来战争》一书通过技术概念解释、各路专家访谈与大量战场实例,深入浅出地探讨了自主武器的内涵、特点与影响。本文基于该书内容,结合相关文献、书籍、评论等资料,首先对自主武器与无人军队的内涵、现阶段的运用情况进行简要介绍;其次,通过对自主武器技术内核的分析,简要介绍自主武器在各类战争样式的运用、存在的反为敌方利用的可欺骗性风险和故障发生后产生更严重后果的不稳定性风险;最后从三方面总结自主武器对战争其他方面的影响,即对军队建设模式提出更高要求,对国际战略稳定的双重作用以及对战争法与战争伦理道德的挑战。     

利用过阻尼电路合成高压方波脉冲

在过阻尼RLC电路分时放电的基础上,提出新型高压方波脉冲产生方法。理论分析表明:过阻尼RLC电路产生的双指数电压波与脉冲形成线产生的方形电压波具有类似的上升沿和平顶。电路模拟表明:通过人工过零技术可以对双指数电压波进行截尾,从而形成完整的高压方波脉冲。建立了原理验证性样机,由两组RLC电路构成,每组电路包含一台脉冲电容器和一只三电极场畸变气体开关,两组电路共用一个上升沿调节电感。实验证明:样机可以在电阻负载上输出幅值为17 kV、平顶宽度为330 ns～5.8μs、上升沿为100～350 ns的单极性高压方波脉冲。该方法适应性强,对负载变化不敏感,同时具有良好的可调节性,方波上升沿、平顶宽度连续独立可调。     

近地卫星Ka频段数传链路抗雨衰自适应模式设计

针对近地卫星数传时的信道时变性和严重的Ka频段雨衰现象,采用自适应编码调制(Adaptive Coding and Modulation, ACM)技术能够充分利用链路资源,相对于传统的固定编码调制方式,进一步提高链路的数据吞吐量。提出近地卫星Ka频段数传链路ACM模式设计方法,在降雨环境下建立Ka频段数传链路模型,根据链路预算的信道状况确定ACM选用模式;采用基于导频符号的最大似然信噪比估计算法结合移动平均的平滑方法实现信道估计,有效地减小了估计值的波动。仿真结果表明,无论晴天还是雨天,采用提出的卫星数传链路ACM模式设计方法,能够在保证系统可靠性的同时获取较高的数据吞吐量。     

系统频率偏差对同时全极化测量的影响及其校准

目标极化散射矩阵的精确测量是全极化雷达极化信息处理的前提和基础。基于正负线性调频信号,针对采用数字解线性调频处理的同时全极化测量体制雷达,分别推导了雷达中频频率偏差和采样频率偏差对同时全极化测量影响的数学模型,提出一种雷达中频频偏和采样频偏的联合估计与校准方法。仿真和实测数据表明：雷达系统频率稳定度会引起不同通道极化测量结果峰值位置和相对相位的变化,采用所提方法能够有效校正峰值偏移,补偿相位误差,提高目标极化散射矩阵测量的精度。     

战场数据融合仿真系统设计与实现

介绍了一种战场数据融合仿真系统的设计与实现方法。该系统由场景设定、信号产生、融合跟踪处理、目标识别、态势与威胁估计与数据库支持等功能子系统组成,模拟了数据融合的整个信息处理流程,包括:主动探测雷达、雷达侦察设备、通信侦察设备和敌我识别器获取敌我目标观测信息、利用多传感器跟踪数据对目标进行融合跟踪、提取辐射源电磁信息特征对敌方目标识别,进而形成态势与威胁估计。最终在Visual C#开发平台上利用MapX和ORACLE开发了战场数据融合仿真系统,并成功应用于实际系统中,取得了较好的效果。     

单信道时频重叠MPSK信号的调制识别方法

提出一种基于高阶循环累积量的调制识别算法,用于解决单信道两个时频重叠M PSK信号的调制识别问题。对接收到的重叠信号进行预处理,计算其四阶循环累积量,提取分类特征参数,采用最小误差准则算法实现时频重叠双信号的自动分类。理论分析和仿真试验结果均证明了算法的正确性和有效性。