大延时网络中的主动队列管理机制

研究了网络延时对路由器主动队列管理机制的影响,分析了几种典型主动队列管理算法在大延时网络中的性能。在介绍了基于内模补偿的DC-AQM算法的优缺点之后,根据PID控制器延时补偿的Ziegler-Nichols设定方法,提出了ZNDC(Ziegler-Nichols delay compensation)AQM算法并进行了仿真实验验证,实验结果表明算法达到了预期的目标。     

从《中导条约》的失效看未来国际军控走向

《美苏消除两国中程导弹和中短程导弹条约》的失效重创了本就脆弱的国际军控体系,对美俄战略稳定和全球军事安全带来消极影响,国际军控合作和全球军事安全迫切需要重构新的军控体系。本文立足当前国际军控现状,在分析美俄“退约”背后各方战略考量及国际军控面临的挑战,如“美国优先”理念下的霸权主义和单边主义、国际军控体系自身的脆弱性和局限性和新军事革命给全球安全增添新的变量的基础上,提出了“构建人类命运共同体”理念凝聚全球安全共识、以大国责任和义务为基础构建多层次军控体系和以多边军控体系循序推进国际军控进程等措施和建议,以期为推动国际军控合作,建立更为公平、合理、有效的国际军控体系做出贡献。     

新一代人工智能在国防科技领域发展探讨

新一代人工智能技术已经成为当前研究的重点和热点,并逐渐成为提升国防力量、军事能力和国家竞争力的有效途径。本文在总结人工智能概念的基础上,给出了新一代人工智能的定义和发展的重要意义,从掌握未来战争主动权、支撑军工装备研制生产模式转型和保障国防科技先进性三个方面梳理了国防科技领域发展新一代人工智能的必要性,并从基础技术支撑和国防特色应用两个方向提出了国防科技领域发展新一代人工智能涉及的基础软硬件、标准规范、智能装备/系统、辅助作战指挥、智能研发等重点内容,在此基础上给出了相关的发展建议。以上研究可为新一代人工智能技术在国防科技领域的研究、应用和发展提供参考。     

美军作战试验与鉴定发展研究

当前,军队装备试验鉴定正由性能试验向作战试验、在役考核全领域拓展。在装备试验鉴定体系全面重塑的历史背景下,为适应军队装备试验鉴定发展新变化,探索装备试验鉴定新理论,推进装备试验鉴定自主创新发展,亟需开展装备试验鉴定技术研究。美军相对较早开展了装备试验与鉴定工作,在作战试验与鉴定工作方面已形成了较完善的法规制度体系和规范的操作流程,有较成熟的理论与方法成果可供借鉴。与此同时,美军作战试验与鉴定工作也面临许多新问题。本文剖析了美军作战试验与鉴定的内涵和管理模式,研究了2018和2019年美军作战试验与鉴定的重点技术领域,并进行了对比分析,以期掌握近期美军作战试验与鉴定工作的发展变化。     

【将军论坛】科技创新思维的哲学基础、本质特征与实践要求分析

科学技术是核心战斗力,科技创新思维是开启科技创新的“金钥匙”。为实现科技兴军目标,必须高度重视对科技创新思维的研究。本文首先提出马克思主义哲学是指导科技创新思维的锐利思想武器,并从唯物论、辨证法及认识论三个方面进行了论证;其次提出科技创新思维的三个本质特征,即新颖性、全维度和多样性;最后从五个方面提出科技创新思维的实践要求,即深刻认识创新对象、紧贴创新目标要求、重视创新实践探索、建构积淀创新知识、忠于坚守创新追求。     

A novel variable topology design for a multi-flexible ejection mechanism

The airborne missile launch mechanism often subjects to significant deformations induced by the large ejection force during high-speed actuations in missile ejection process, leading to a substantial deviation of separation parameters from designed values that threats safety of the carrier. This study proposes a novel variable topology design for launch mechanism, achieved via a Prismatic-Revolute-Revolute pair (PR-R) motion formed by the structural gap with a specific direction. It enables launch mechanism variability during missile ejection process and optimizes the ejection force given by the front and back ejection arms, and greatly optimizes the separation parameters during missile ejection. The kinetics simulation analysis is conducted under working conditions of the original ejection mechanism and the novel mechanism with variable topology design, respectively. The results show that the novel variable topology design is more befitting for the launch process in terms of system safety and controllability, effectively improving the separation posture, restraining the flexible effect of the mechanism, and fulfilling the effectiveness of the design value of multi-rigid body.     

Performance evaluation and optimization design of photoelectric pyrometer detection optical system

The measurement and control of high temperature play very important roles in national defense, military, scientific experiments, industrial and agricultural production. Photoelectric pyrometer is one of the important radiation thermometers for non-contact temperature measurement. It has an important application in the field of high temperature measurement, and its performance directly affects the accuracy of temperature measurement. By improving the design of the detection optical system of the photoelectric pyrometer, the imaging performance of the photoelectric pyrometer can be improved effectively, and the temperature measurement accuracy can be improved. In this paper, the temperature measurement principle of photoelectric pyrometer, the working principle of the detection optical system and the composition of the system are introduced. The optical components that affect the imaging of the optical system of the photoelectric pyrometer are analyzed. The optical pyrometer detection optical system is simulated by ZEMAX software, based on the analysis results, the Modulation Transfer Function (MTF) and the spot Diagram are used as the main evaluation criteria to optimize the design of the objective lens of the photoelectric pyrometer detection optical system. The imaging performance of the photoelectric pyrometer detection optical system and the accuracy of temperature measurement of the photoelectric pyrometer are improved by optimization design of the detection optical system.     

Application of Markov renewal theory and semi-Markov decision processes in maintenance modeling and optimization of multi-unit systems

In this paper, a condition-based maintenance model for a multi-unit production system is proposed and analyzed using Markov renewal theory. The units of the system are subject to gradual deterioration, and the gradual deterioration process of each unit is described by a three-state continuous time homogeneous Markov chain with two working states and a failure state. The production rate of the system is influenced by the deterioration process and the demand is constant. The states of the units are observable through regular inspections and the decision to perform maintenance depends on the number of units in each state. The objective is to obtain the steady-state characteristics and the formula for the long-run average cost for the controlled system. The optimal policy is obtained using a dynamic programming algorithm. The result is validated using a semi-Markov decision process formulation and the policy iteration algorithm. Moreover, an analytical expression is obtained for the calculation of the mean time to initiate maintenance using the first passage time theory.     

OFDM系统中深度神经网络指导的IQ不平衡补偿算法

正交频分复用(Orthogonal Frequency Division Multiplexing,OFDM)是现代移动通信中一项重要的物理层通信技术,并且OFDM系统要求子载波间严格正交。然而,在实际系统中,振荡器和滤波器等器件的非理想特性会导致同相正交(In-phase and Quadrature-phase,IQ)不平衡,从而破坏子载波的正交性,严重影响OFDM系统的性能。通过研究IQ不平衡对OFDM系统的影响,提出了一种并联深度神经网络架构下的IQ不平衡补偿算法。该算法利用了深度神经网络不依赖于模型的特点,直接从接收到的频域信号恢复原输入信号的二进制序列,并利用干扰信号来自镜像子载波的先验知识来初始化模型驱动的神经网络,加快其网络优化的收敛速度。仿真结果表明,该算法能有效地补偿IQ不平衡失真,并且在幅度和相位失真的补偿上,其性能都优于传统的基于导频的最小二乘补偿算法,证明了深度学习方法解决物理层问题的优越性。     

大力弘扬改革创新时代精神 加快建设世界一流高等教育院校

习主席在庆祝改革开放40周年大会上的重要讲话,是新时代改革开放再出发的宣言书和动员令。学习贯彻习主席重要讲话精神,关键要全面推进学校深化改革创新,深刻认清弘扬改革创新精神对于建设世界一流高等教育院校的重大意义,牢牢扭住全面深化改革创新的主攻方向,科学处理深化改革创新的重大关系,既以顽强的战略定力坚定不移深化改革,又运用科学的工作方法积极稳妥地推进改革。