环境小卫星在大连新港溢油事故监测中的应用

“7.16”大连新港溢油事故是建国以来大连市最严重的溢油事件.事故发生后,政府积极利用遥感技术对油污信息和清污效果进行了监测.环境小卫星是我国自主研制的卫星星座,具有较高的时间和空间分辨率,能够基本满足油污清除需求.在溢油应急期间,尽管天气条件比较恶劣,环境小卫星依然获取了6景影像数据,有效地掌握了油污分布和清污情况.随着环境小卫星星座的最终建成,完全可以胜任包括溢油监测在内的众多环境灾害监测任务.     

九曲河大桥加固工程施工监控技术研究

桥梁施工监控在桥梁建设及加固改造工程中是必不可少的一部分,监控可以对桥梁线形及内力、挠度情况进行实时反馈,严格把关,保证与设计一致。文章以九曲河大桥加固工程为背景,结合加固改造设计方案,从线形控制、变形监测与应力监测等方面阐述了施工监控技术及效果。     

船舶智能感知车间的网络构建及系统应用

针对船舶制造现场缺乏实时感知系统、船舶制造车间未构建数据传输至工位的通信系统等问题,应用网络构建技术和信息采集与传输技术,构建船舶智能感知车间网络,实现船舶制造车间内部的“人、机、料”互联,达到数据采集的多源异构性和实时性,提高设备综合利用率和船厂管理水平。     

巧设CTC路由器ACL降低网络安全风险

铁路CTC网络均采用了带访问控制功能的路由器，正确地设置ACL（访问控制列表），将起到防火墙的作用，降低网络安全风险。在CTC网络路由器上进行规则设定，可阻挡不匹配安全规则的数据包，确保CTC网络安全。     

Speed-independent vibration-based terrain classification for passenger vehicles

Terrain physical characteristics can have a significant impact on passenger vehicle handling, ride quality, and stability. Here, an algorithm is presented to classify terrain using a single suspension-mounted accelerometer. The algorithm passes a measured acceleration signal through a dynamic vehicle model to estimate the terrain profile, and then extracts spatial frequency components of this estimated profile. A method is introduced to identify and remove terrain impulses from the profile that are caused by ruts and potholes. Finally, a supervised support vector machine is employed to classify profile segments as members of pre-defined classes (such as asphalt, brick, gravel, etc.). The classification algorithm is validated with experimental data collected with a passenger vehicle driving in real-world conditions. The algorithm is shown to classify multiple terrain types with reasonable accuracy at a range of typical automotive speeds. It is also shown that the removal of terrain impulses prior to classification improves classifier performance.     

Rolling horizon control framework for driver assistance systems. Part II: Cooperative sensing and cooperative control

This contribution furthers the control framework for driver assistance systems in Part I to cooperative systems, where equipped vehicles can exchange relevant information via vehicle-to-vehicle communication to improve the awareness of the ambient situation (cooperative sensing) and to manoeuvre together under a common goal (cooperative control). To operationalize the cooperative sensing strategy, the framework is applied to the development of a multi-anticipative controller, where an equipped vehicle uses information from its direct predecessor to predict the behaviour of its pre-predecessor. To operationalize the cooperative control strategy, we design cooperative controllers for sequential equipped vehicles in a platoon, where they collaborate to optimise a joint objective. The cooperative control strategy is not restricted to cooperation between equipped vehicles. When followed by a human-driven vehicle, equipped vehicles can still exhibit cooperative behaviour by predicting the behaviour of the human-driven follower, even if the prediction is not perfect.The performance of the proposed controllers are assessed by simulating a platoon of 11 vehicles with reference to the non-cooperative controller proposed in Part I. Evaluations show that the multi-anticipative controller generates smoother behaviour in accelerating phase. By a careful choice of the running cost specification, cooperative controllers lead to smoother decelerating behaviour and more responsive and agile accelerating behaviour compared to the non-cooperative controller. The dynamic characteristics of the proposed controllers provide new insights into the potential impact of cooperative systems on traffic flow operations, particularly at the congestion head and tail.     

Transport and society1

In 1963, the Buchanan Report in the UK advocated a combination of new road capacity, improved public transport and traffic restraint as a means to tackle congestion. Forty years on, and the advice from many transport experts remains the same. However, the scale and complexity of the problems associated with a mobility‐dependent society have grown. The need for politicians to make tough but realistic policy decisions on transport is now becoming unavoidable. They must confront the realities of living with the car as must the general public. Policymakers now also have social well‐being and sustainable development moving higher on their agendas alongside transport. Against such a backdrop, the paper makes the case for transport research, policy and practice to acknowledge more fully the inherent links between transport and society. It argues that greater recognition and understanding of such links is crucial to confronting the present realities. Transport does not merely serve society: it shapes society, as in turn society shapes transport. The future of each is dependent on the other, and this fact must be recognized. The paper advocates in turn that the transport profession must move from its heartlands in engineering and economics also to embrace more fully such disciplines as sociology and psychology. A factual picture of the many facets of present‐day society is presented and the implications for travel demand are discussed. Through considering phenomena such as social norms and habitual behaviour, it is then argued that the travel choices and behaviour of individuals are not simply a matter of economic optimization. This points to the need for decision‐makers to be furnished with better evidence about the transport problems faced and the potential efficacy of measures that might be taken. Discussion of public attitudes and the role of the media are included in the context of assessing how politicians can be encouraged and supported in their implementation of realistic but unpopular policies. Evidence and experience within the paper are UK based, although many of the issues and arguments apply world wide.     

基于GPRS的机车信号远程实时监控系统

针对目前铁路机车信号系统监测存在实时性差的缺点，提出了一种基于GPRS无线网络的监测方法。以Atmel公司AT91R40008ARM处理器为核心，配以GR47GPRS模块，设计了GPRS数据发送盒，以实现机车信号信息的实时检测和无线传输。