Shockwave-based queue estimation approach for undersaturated and oversaturated signalized intersections using multi-source detection data

With the progress of information and sensing technologies, estimating vehicular queue length at signalized intersections becomes feasible and has attracted considerable attention. The existing studies provided a solid theoretical foundation for the estimation; however, the studies have some restrictions or limitations more or less. This paper presents a new methodology for estimating vehicular queue length at signalized intersections using multi-source detection data under both undersaturated and oversaturated conditions. The methodology applies the shockwave theory to model queue dynamics. Using data from probe vehicles and point detectors, analytical formulations for calculating the maximum and minimum (residual) queue lengths of each cycle are developed. Ground truth data were collected from numerical experiments conducted at two intersections in Shanghai, China, to verify the proposed methodology. It is found that the methodology has mean absolute percentage errors of 17.09% and 12.28%, respectively, for maximum queue length estimation in two tests, which are reasonably effective. However, the methodology is unsatisfactory in estimating the residual queue length. Other limitations of the proposed models and algorithms are also discussed in the paper.     

Approximate optimal AUTOSAR software components deploying approach for automotive E/E system

The AUTOSAR has been developed as the worldwide standard for automotive E/E software systems, making the electronic components of different suppliers to be employed universally. However, as the number of component-based applications in modern automotive embedded systems grows rapidly and the hardware topology becomes increasingly complex, deploying such large number of components in automotive distributed system in manual way is over-dependent on experience of engineers which in turn is time consuming. Furthermore, the resource limitation and scheduling analysis make the problems more complex for developers to find out an approximate optimal deploying approach in system integration. In this paper, we propose a novel method to deploy the AUTOSAR components onto ECUs with the following features. First, a clustering algorithm is designed for deploying components automatically within relatively low time complexity. Second, a fitness function is designed to balance the ECUs load. The goal of our approach is to minimize the communication cost over all the runnable entities while meeting all corresponding timing constraints and balancing all the ECUs load. The experiment results show that our approach is efficient and has well performance by comparing with other existing methods in specific and synthetic data set.     

用于车身制造质量控制的白车身测点布置及优化

在对检测点进行分类定义后阐述了车身设计阶段各类测点的布置原则，在此基础上提出了面向制造偏差诊断的测点布置位置优化方法。     

应用模糊自适应PID和预瞄策略的自主车辆转向控制

文中结合智能车辆路径跟踪过程中转向控制方面的特点，提出了一种将模糊逻辑、预瞄规律和自适应PID控制相结合的控制策略，建立起了相应的模型，验证了该方法的可行性和有效性，并提出了进一步改进的方向。     

车辆动力传动系固有特性灵敏度分析及动力学修改

分析了车辆动力传动系无阻尼自由振动固有特性的灵敏度，特别给出了固有频率和振型对轴系刚度及惯量等物理参数的灵敏度。基于固有特性灵敏度分析，给出了动力学修改的计算方法。并以某重型车辆动力传动系为实例计算并分析了其固有频率和振型的灵敏度问题，在此基础上进行了动力学修改。     

纤维沥青混合料配合比设计方法初探

纤维沥青混合料由于其优良的技术性能与价格优势和施工技术简单的特点，目前已得到广泛重视，但其性能优势要通过科学的施工技术体现，而混合料配合比设计是其中关键技术之一。结合纤维沥青混合料自身的特点，以方便易操作为原则，提出了纤维的选择原则及以马歇尔试验为基础的纤维沥青混合料配合比设计方法。     

边角后方交会与公路路线测设

常规的交会定点方法对交会图形有一定的要求。本文讨论了边角同测的后方交会观测方法、计算原理和点位精度分析，并通过理论和实例验证了该方法的可行性。本文所述方法具有操作简便、选点灵活和不受交会图形限制等优点。     

岩溶富水区深埋水沟排水隧道注浆圈参数研究

为合理确定深埋水沟排水方式下隧道注浆圈特征参数,以某岩溶富水区隧道工程为依托,采用FLAC3D软件建立流固耦合计算模型,针对其注浆圈参数进行合理探讨,研究注浆圈厚度、注浆圈渗透性对隧道涌水量、衬砌水压力、结构安全性的影响规律。研究结果表明： 增加注浆圈厚度或降低注浆圈渗透性可降低衬砌水压、控制涌水量、保障结构安全,但并不代表实际工程中注浆参数需要追求最值,而应兼顾安全性和经济性,选取相对合理的注浆参数;结合模拟计算结果与同类工程案例,建议依托工程注浆圈厚度以5～6 m、渗透性比值以注浆前的1/50（渗透系数为2×10-6 cm/s）为宜,并应结合实际进行技术经济对比,合理确定现场注浆参数。     

掺纤维三灰砂砾基层性能试验分析

在三灰砂砾中添加纤维丝和纤维带,进行抗压、劈裂和抗折实验,结果表明添加纤维能明显提高三灰砂砾的抗拉强度和抗裂性能,从而提出改善路面基层性能的新途径。     

WTW90型重型平板运输车非线性转向系统控制方法研究

介绍了WTW90重型工程运输车转向系统的设计原理和控制实现方式.采用独立悬挂、各轮组独立转向的多模式转向系统;由阀控液压油缸通过连杆机构带动回转支承旋转来实现各轮组的转动;在位置PID算法的基础中加入数字补偿的控制方案.该设计方案很好地解决了转向系统的非线性、同步性的问题,实现了预期的转向系统的准确、稳定和同步的要求.