舰载特种起重机的时间-能量综合最优控制

舰载特种起重机是我国正在研制开发的多关节、可折叠式船用起重机。研究它的高效节能运行模式，也就是时间－能量综合最优控制意义重大，本文通过引入加权变量得到舰载特种起重机的时间－能量综合最优性能指标，证明了综合最优解的结构，并进一步提出了“预测平均动态理论”概念，应用此理论处理了舰载特种起重机的非线性和耦合，最终设计了反馈形式的时间－能量综合最优控制器。仿真的结果验证了此设计方法的正确有效性。     

比例先行数字PID控制器的仿真

主要描述了通过比例先行的PID控制器,使用采样控制系统对惯性热工对象进行控制这一过程的仿真,并对仿真结果进行了简单的分析.     

斜腿刚构桥几何布局的优化设计

采用数学规划的方法从静力和动力两方面对斜腿刚构桥的几何布局进行优化设计。静力优化设计的优化目标是截面截面应力平方均值最小，动力优化设计的优化目标是结构自振周期平方和最小。采用了直接搜索法寻优。通过算例可知，这两种优化设计方法均可行，且均为刚性设计。     

深水复杂地质深孔灌注桩施工技术

以松陶铁路第二松花江特大桥主桥(48+4×80+48)m跨松花江主河道桩基施工为例,从设备选型,钻孔工艺,水下灌筑以及质量控制等方面,介绍在江底复杂地质条件下,深孔灌注桩基的施工技术及控制要点。     

基于VBA的沥青最佳用量数据处理系统

沥青最佳用量是提高公路路面质量的前提之一。本研究的目的是开发出一个数据处理系统，它建立在最小二乘法基础上，能对热拌沥青混合料的马歇尔试验数据进行自动处理，得出最佳沥青用量OAC1和OAC2，并自动生成试验报告，便于施工现场管理。     

节点递归算法优化合流管网

根据合流制管网系统的图论和矩阵算法 ,提出节点递归优化算法 ,以节点为研究对象 ,优化合流制管网系统。本算法能解决管网在交汇点处上下游管段衔接计算问题、溢流井设置问题 ,克服控制点不易确定的困难 ,达到了费用最低的优化目标 ;并可直接以节点标高为约束条件 ,充分考虑利用原有管道或解决地下管线交叉问题。并通过实例进行了验证     

两级模糊优选模型及非结构性模糊决策理论在桥梁方案比选中的应用

选择桥梁设计方案,涉及诸多因素,这些因素在某些情况下相容,在某些情况下又相斥。为了协调这些复杂关系,并降低人为因素的影响,本文引入两级模糊优选模型及非结构性模糊决策理论。并运用此模型,进行一桥梁的设计选型优化,得到了比较理想的结果,证明了此模型在桥梁方案比选中的实用性。     

配比设计与级配调试现场速解方法研究

应用EXCEL电子图表的数据处理功能，研究了混合料配比设计与级配调试的速解途径。结合混合料配比设计与料场管理的现实特点，发现借助多元最小二乘法拟合原理，由电算程序求解超静定线性方程组，不仅可以快速准确地完成配比设计，而且可以随配比调节同步显示出级配变化。结果表明电子图表既可作为配比设计模版，又可现场预知级配调控结果，是拌和场消除成品料级配废料的一种便捷手段。     

Highway voting system: Embracing a possible paradigm shift in traffic data acquisition

The integration of internet and mobile phones has opened the door to a new wave of utilizing private vehicles as probes not only for performance evaluation but for traffic control as well, gradually replacing the role of traffic surveillance systems as the dominant source of traffic data. To prepare for such a paradigm shift, one needs to overcome some key institutional barriers, in particular, the privacy issue. A Highway Voting System (HVS) is proposed to address this issue in which drivers provide link- and/or path-based vehicle data to the traffic management system in the form of “votes” in order to receive favorable service from traffic control. The proposed HVS offers a platform that links data from individual vehicles directly with traffic control. In the system, traffic control responds to voting vehicles in a way similar to the current system responding to prioritized vehicles and providing the requested services accordingly. We show in the paper that the proposed “voting” system can effectively resolve the privacy issue which often hampers traffic engineers from getting detailed data from drivers. Strategies to entice drivers into “voting” so as to increase the market penetration level under all traffic conditions are discussed. Though the focus of the paper is on addressing the institutional issues associated with data acquisition from individual vehicles, other research topics associated with the proposed system are identified. Two examples are given to demonstrate the impact of the proposed system on algorithm development and traffic control.     

Optimal joint distance and time toll for cordon-based congestion pricing

This paper addresses the optimal toll design problem for the cordon-based congestion pricing scheme, where both a time-toll and a nonlinear distance-toll (i.e., joint distance and time toll) are levied for each network user’s trip in a pricing cordon. The users’ route choice behaviour is assumed to follow the Logit-based stochastic user equilibrium (SUE). We first propose a link-based convex programming model for the Logit-based SUE problem with a joint distance and time toll pattern. A mathematical program with equilibrium constraints (MPEC) is developed to formulate the optimal joint distance and time toll design problem. The developed MPEC model is equivalently transformed into a semi-infinite programming (SIP) model. A global optimization method named Incremental Constraint Method (ICM) is designed for solving the SIP model. Finally, two numerical examples are used to assess the proposed methodology.