轨道交通信号设备实训课程体系的研究

高职院校以"服务为宗旨、就业为导向",与地方经济发展相结合,积极探索实践教学的方法,搭建技能型人才培养实践教学体系推动行业与自身的可持续发展。以此为出发点,建立一个完整而完善的信号设备实训课程体系,不仅有利于专业自身的发展,同时也对其他院校有着一定的借鉴意义。从而减少一些重复的工作,推动省内院校轨道信号相关专业整体水平的提升。     

海上水声信号处理算法中的物理特性仿真研究

通过研究海上水声信号的产生和海上水声信号定位系统的构成,设计水声信号处理系统流程,指出陆地上的主控中心与水中的基站如何进行信号数据传递,以及环境噪声、传输损耗、多径传输、多普勒效应等物理特性对信号偏移产生何种影响。最后通过实验验证加入消除滤波器后可以有效地控制多普勒效应产生的频率偏移。     

论民事优先权种类的立法选择

民事优先权的种类是构建民事优先权制度的核心问题.本文从厘清民事优先权的含义着手,分析了我国民事优先权的立法现状,最后结合国外的立法例及我国学者提出的相关建议稿,对我国《物权法》上民事优先权种类的设置提出若干立法建议.     

出口道左转交叉口信号控制鲁棒优化方法

为了提高出口道左转交叉口在现实交通需求和供给波动环境中的适应性,权衡运行效率与稳定性,对其鲁棒优化方法进行研究。在对出口道左转交叉口运行特点和饱和流率进行分析的基础上,提出从交通需求分布、基本饱和流率分布和实际运行车速分布3个方面考虑交通的波动性,以适应出口道左转交叉口交通供给波动与控制方案相关联的特征。在此基础上,分别以平均值-标准差最小、条件风险值最小和最大值最小化为目标,建立3种信号控制鲁棒优化方法,并基于遗传算法建立求解算法。通过算例分析,对鲁棒优化算法的准确性、平均值-标准差模型的参数取值和3种鲁棒优化方法优化效益进行分析。研究结果表明：所建立的鲁棒优化方法可实现交通需求和供给波动下出口道左转交叉口信号控制与设计车速的优化设计,相较于传统控制方案其在保证效率的前提下提高了控制方案运行的稳定性;平均值-标准差模型和条件风险值模型对于各项指标均表现较好,可在保障平均延误维持较优值的基础上（案例中车均延误增加小于3%）显著改善运行效果的稳定性（案例中延误标准差减少约40%）;最小-最大模型对延误最大值的优化效果最佳,但其对于控制方案的整体效率会造成较大的负面影响（案例中车均延误增加了8.19%）。     

燃气调压器声发射信号特征与流量关系分析

文中提取燃气调压器声发射信号的标准差、峭度这两个时域特征及重心频率、均方根频率这两个频域特征,分析特征与流量的对应关系,使用相关系数进行评价。基于北京某调压站采集的声发射信号及流量数据,实验结果表明,流量与标准差、峭度、重心频率、均方根频率的相关系数分别为0.8192、0.2889、0.7745、0.641。可见标准差、重心频率及均方根频率与流量相关性较强,峭度与流量相关性较弱。     

冲击载荷下弹性索波动行为试验装置设计

针对在冲击波作用下难以对弹性索波动行为进行试验研究且实际试验成本高等问题,提出一种冲击载荷下弹性索波动行为试验装置,装置由加速系统、钢索系统及测试系统组成。根据总体性能要求,探索波动行为特征,确定各部分组成的工作原理和详细构成（载荷和系统等多种参数可以调整）,设计相关性能试验验证方法。试验装置在设计的过程中涉及试验原理的选择、试验方法的实现,以及信号处理和图像处理等技术,可为研究钢索应力波行为提供试验基础平台,也可为钢索应力波相关工程应用领域提供技术参考。     

Fuzzy-logic-based incident detection for signalized diamond interchanges

This paper documents a fuzzy-logic-based incident detection algorithm for signalized urban diamond interchanges. The model is capable of detecting lane-blocking incidents whose effects are manifested by patterns of deterioration in traffic conditions that require adjustments in signal control strategies. As a component of a real-time traffic adaptive control system for signalized diamond interchanges, the algorithm feeds an incident report (i.e., the time, location, and severity of the incident) to the system's optimization manager, which uses that information to determine the appropriate signal control strategy.The performance of the model was studied using a simulation of an actual diamond interchange. The simulation study evaluated the model's performance in terms of detection rate, false alarm rate, and mean time to detect. The model's performance was encouraging, and the fuzzy-logic-based approach is considered promising.     

Increasing the capacity of signalized intersections with separate left turn phases

A separate turn phase is often used on the approach leg to an intersections with heavy left turns. This wastes capacity on the approach because some of its lanes cannot discharge during its green phases. The paper shows that the problem can be eliminated by reorganizing traffic on all the lanes upstream of an intersection using a mid-block pre-signal. If drivers behave deterministically, the capacity that can be achieved is the same as if there were no left turns. However, if the reorganization is too drastic, it may be counterintuitive to drivers. This can be remedied by reorganizing traffic on just some of the available lanes. It is shown that such partial reorganization still increases capacity significantly, even if drivers behave randomly and only one lane is reorganized. The paper shows how to optimize the design of a pre-signal system for a generic intersection. It also identifies both, the potential benefits of the proposed system for a broad class of intersections, and the domain of application where the benefits are most significant.     

Estimating traffic volumes for signalized intersections using connected vehicle data

Recently connected vehicle (CV) technology has received significant attention thanks to active pilot deployments supported by the US Department of Transportation (USDOT). At signalized intersections, CVs may serve as mobile sensors, providing opportunities of reducing dependencies on conventional vehicle detectors for signal operation. However, most of the existing studies mainly focus on scenarios that penetration rates of CVs reach certain level, e.g., 25%, which may not be feasible in the near future. How to utilize data from a small number of CVs to improve traffic signal operation remains an open question. In this work, we develop an approach to estimate traffic volume, a key input to many signal optimization algorithms, using GPS trajectory data from CV or navigation devices under low market penetration rates. To estimate traffic volumes, we model vehicle arrivals at signalized intersections as a time-dependent Poisson process, which can account for signal coordination. The estimation problem is formulated as a maximum likelihood problem given multiple observed trajectories from CVs approaching to the intersection. An expectation maximization (EM) procedure is derived to solve the estimation problem. Two case studies were conducted to validate our estimation algorithm. One uses the CV data from the Safety Pilot Model Deployment (SPMD) project, in which around 2800 CVs were deployed in the City of Ann Arbor, MI. The other uses vehicle trajectory data from users of a commercial navigation service in China. Mean absolute percentage error (MAPE) of the estimation is found to be 9–12%, based on benchmark data manually collected and data from loop detectors. Considering the existing scale of CV deployments, the proposed approach could be of significant help to traffic management agencies for evaluating and operating traffic signals, paving the way of using CVs for detector-free signal operation in the future.     

分离式立交地面层交叉口一体化设计方法研究

分离式立交是解决城市拥堵的有效手段,但立交桥地面层的平面交叉口设计仍缺乏足够重视,现有的组织方式、控制方案无法有效应对立交桥下特有的交通环境.文中分析立交地面层交叉口特有的交通环境,提出一体化组织方法及信号控制模型,运用VISSIM仿真软件分析评价一体化组织方法的适用范围,为实践中可否采用一体化组织方法的决策提供参考....