拖曳式通信浮标对潜艇隐蔽性的影响

使用通信浮标是解决潜艇水下安全通信的重要手段之一。本文对拖曳式通信浮标对潜艇隐蔽性的影响进行研究,对机载雷达对潜艇的发现率进行建模仿真,并实例分析装备拖曳式通信浮标后潜艇隐蔽性的变化,获得了有益的效果。     

交通视频监控系统中的双证书访问控制研究

针对目前规划中的四川交通视频监控系统安全建设需求,提出了一种交通广域网环境下基于PKI/PMI架构,利用其公钥证书和属性证书相结合的方式实现安全访问的双证书访控模型.该安全基础模型从身份认证和授权机制两方面较好地解决了视频监控数据的访问控制问题.     

广州地铁4号线无线信号小区重选问题研究

介绍了广州地铁4号线关于数字式TETRA标准机制下无线专网小区重选的研究。通过对各参数的分析,探讨影响小区重选的一系列因素,并在广州地铁4号线现场进行了实际应用。通过修改切换参数解决了广州地铁4号线无线信号小区重选不平滑的问题。     

集包线电务设备顺利开通运用的几点经验体会

从人员、制度、培训、生产资料到位,信息沟通与协调配合,强化管理、创新思路、精细组织,做好开通后设备复查整治等4个方面总结集包铁路电务设备顺利开通运用的经验,对今后电务设备的验收、接管具有一定的借鉴意义。     

基于MC9S12X的CAN通讯的底层代码设计

CAN总线因其高实时性能、高可靠性、稳定的传输性能、高抗电磁干扰性,使得它在汽车业中应用非常普遍。MC9S12X是一款高性能的16位处理器,可作为整车控制器的MCU,带有5个CAN通讯模块,可实现多路CAN通讯。论文给出了CAN底层代码的设计方法,并验证了代码,实现了MC9S12X与CAN助手之间的通讯,具有一定的实用价值。     

计算机联锁记录查询系统通信影响关键因素及对策研究

以目前车站现场大量应用的TYJL-Ⅱ型计算机联锁系统为基础并选取其记录查询系统作为研究对象,借鉴融合Windows操作系统原理及计算机网络编程技术,对记录查询系统在计算机联锁系统内部的通信影响关键因素从应用软件和操作系统软件平台两个方面分别进行研究,提出各自相应的具体完善与优化对策。通过实验测试初步确定完善应用软件及优化操作系统软件平台对策的正确性和可行性。实验室对比验证及大量车站现场应用的结果表明,优化后的操作系统软件平台搭载完善后的记录查询系统应用软件能够有效解决计算机联锁记录查询系统通信影响关键因素的问题。     

跨铁路斜拉桥健康监测与安全评估系统的建立与应用

与普通公路桥梁养护检查相比,跨铁路桥梁评定的检查复杂度、难度更高,投入的养护资金也更多.依托某跨铁路斜拉桥工程,采用无线传感技术便捷部署桥梁健康监测系统,实现快速、低成本的桥梁状态评估,为桥梁养护维修提供客观依据,从而有效降低跨铁路桥梁定检频次,实现更精准的检测资金分配.     

数字移动通信接入信令分析

阐述了数字移动通信的关键技术——接入信令。对接入信令的格式、传输协议和传输方式等进行了具体分析。     

A dynamic automated lane change maneuver based on vehicle-to-vehicle communication

Automated driving is gaining increasing amounts of attention from both industry and academic communities because it is regarded as the most promising technology for improving road safety in the future. The ability to make an automated lane change is one of the most important parts of automated driving. However, there has been little research into automated lane change maneuvers, and current research has not identified a way to avoid potential collisions during lane changes, which result from the state variations of the other vehicles. One important reason is that the lane change vehicle cannot acquire accurate information regarding the other vehicles, especially the vehicles in the adjacent lane. However, vehicle-to-vehicle communication has the advantage of providing more information, and this information is more accurate than that obtained from other sensors, such as radars and lasers. Therefore, we propose a dynamic automated lane change maneuver based on vehicle-to-vehicle communication to accomplish an automated lane change and eliminate potential collisions during the lane change process. The key technologies for this maneuver are trajectory planning and trajectory tracking. Trajectory planning calculates a reference trajectory satisfying the demands of safety, comfort and traffic efficiency and updates it to avoid potential collisions until the lane change is complete. The trajectory planning method converts the planning problem into a constrained optimization problem using the lane change time and distance. This method is capable of planning a reference trajectory for a normal lane change, an emergency lane change and a change back to the original lane. A trajectory-tracking controller based on sliding mode control calculates the control inputs to make the host vehicle travel along the reference trajectory. Finally, simulations and experiments using a driving simulator are conducted. They demonstrate that the proposed dynamic automated lane change maneuver can avoid potential collisions during the lane change process effectively.     

美军军事通信卫星发展趋势分析及启示

文章讨论了美军先进的军事卫星通信系统,分析归纳了美军卫星通信的特点与发展趋势,并针对我国军事通信卫星发展现状阐述了需要解决的关键技术问题及发展思路。