美军联合作战战场电磁频谱管理研究

针对当前战场电磁频谱管理热点问题,详细论述了在复杂电磁环境下美军联合作战各级指挥机构中频谱管理机构的职责、频谱管理方法,以及频谱管理方案的制定程序、内容等问题,并归纳总结了美军进行战场电磁频谱管理的经验,为未来联合作战中的战场电磁频谱相关问题提供积极的参考。     

一种面向任务的通用仿真资源集成管理平台的设计与实现

针对当前仿真领域中对仿真资源可重用性的需求,根据实践经验及相关理论知识对仿真资源管理系统的设计与实现进行了研究。提出了一种面向任务的通用仿真资源集成管理平台,该平台用面向任务的视角集成管理资源,以B/S系统结构及Web服务技术保证其通用性,以细粒度的用户验证机制保证其安全性。通过对实际原型系统的测试,与其它同类系统比较,该资源管理平台具有明显优势,能够很好的满足仿真资源管理的需求,并具有较强的通用性。     

基于高阶累积量与神经网络的干扰识别算法

研究了一种基于高阶累积量和神经网络的干扰识别算法。该方法把卫星通信中常见的各种干扰信号的归一化高阶累积量作为分类特征参数,应用神经网络对特征参数进行分类训练,将接收干扰信号的归一化高阶累积量输入已训练的神经网络进行干扰类型的识别。试验结果表明:该算法在低干信比的情况下具有较高的识别准确率。     

美军几种有效提高频谱利用率的技术

文中简要介绍了美军的几种可有效提高频谱利用率的技术,如基于信号传播控制的频谱复用技术:定向天线和组网;利用信号问差异的频谱复用技术:扩展频谱、信号极化和智能天线等。文中对这些技术的特征以及应用于频谱复用时的特点作了简要阐述。     

一种面向频域的通信信号盲干扰检测算法

针对低干信比和复杂动态情况下传统的干扰检测算法效率不高的问题,提出一种基于盲通信信号频域处理的未知干扰自动检测算法。该方法首先借助快速独立成份分析(FICA)从频谱差分数据中分离干扰和通信信号成份分量,然后利用各分量的峰度作为干扰与通信信号的识别特征检测干扰。实验结果表明,此算法能有效地在干信比小于5 dB的情况下从盲通信信号背景中自动提取未知干扰的信息,实现高精度地盲干扰检测。     

基于小波变换的舰船辐射噪声调制特征分析

舰船辐射噪声在不同频带上的调制是有差异,利用多子带技术可以得到不同频带上的调制谱.研究了多子带分析技术以及利用小波包分析获得不同频带上的调制谱技术,利用最小信息熵准则对小波包分解进行了优化.双比两种方法,得到了一些有益的结论.试验表明,多子带分析技术对识别工程应用有指导意义.     

信号采样及频谱分析在线信道测试中的应用

用AD采集卡对指控系统有线信道中的连续时间信号进行采样,得到离散的时间信号,再运用一种离散傅立叶变换——CZT进行频谱分析。详细介绍了在给定测量范围和精度的要求下,采集卡工作参数的配置方法,以及CZT变换实现频域细化的原理和计算参数的选定,还提出了一种快速算法,以增强测试系统的实时性。     

基于数据库的MO图层控制机制

MapObjects中对图层的控制方法是预先将图层的控制信息写在程序里,在程序运行时对图层进行约束。这种通过编写程序进行控制的方法不但比较麻烦,而且当图层的控制方式发生变化时,维护困难。提出基于数据库的图层管理和控制机制,先将图层的控制信息放在数据表里,系统运行时动态读取图层的控制信息,实现对图层进行方便、直观地约束。     

A model of supply-chain decisions for resource sharing with an application to ventilator allocation to combat COVID-19

We present a stochastic optimization model for allocating and sharing a critical resource in the case of a pandemic. The demand for different entities peaks at different times, and an initial inventory for a central agency are to be allocated. The entities (states) may share the critical resource with a different state under a risk-averse condition. The model is applied to study the allocation of ventilator inventory in the COVID-19 pandemic by FEMA to different U.S. states. Findings suggest that if less than 60% of the ventilator inventory is available for non-COVID-19 patients, FEMA's stockpile of 20 000 ventilators (as of March 23, 2020) would be nearly adequate to meet the projected needs in slightly above average demand scenarios. However, when more than 75% of the available ventilator inventory must be reserved for non-COVID-19 patients, various degrees of shortfall are expected. In a severe case, where the demand is concentrated in the top-most quartile of the forecast confidence interval and states are not willing to share their stockpile of ventilators, the total shortfall over the planning horizon (until May 31, 2020) is about 232 000 ventilator days, with a peak shortfall of 17 200 ventilators on April 19, 2020. Results are also reported for a worst-case where the demand is at the upper limit of the 95% confidence interval. An important finding of this study is that a central agency (FEMA) can act as a coordinator for sharing critical resources that are in short supply over time to add efficiency in the system. Moreover, through properly managing risk-aversion of different entities (states) additional efficiency can be gained. An additional implication is that ramping up production early in the planning cycle allows to reduce shortfall significantly. An optimal timing of this production ramp-up consideration can be based on a cost-benefit analysis.     

Retailer's rationale to refuse consumer returns in supply chains

While accepting consumer returns has long been proposed as a solution to resolve the consumer valuation uncertainty problem, there are still a sizable portion of retailers who insist on a “no return” policy. In this article, we offer an economic rationale for these seemingly unreasonable strategies in a supply chain context. We demonstrate when and why the retailer may benefit from refusing consumer returns, even though offering consumer returns allows the supply chain to implement the expostmarket segmentation. Granting the retailer the right to refuse consumer returns may sometimes improve supply chain efficiency: it eliminates the manufacturer's attempt to induce inefficient consumer returns and bring the equilibrium back to that in the vertically integrated benchmark. We also find that the refund and the retail price can move in the opposite directions when product reliability varies, and consumer returns have a nontrivial impact on the quality choice. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 686–701, 2015