基于双目视觉的水下连接器位姿测量方法

水下连接器的对接作业是水下工程作业的重要环节,针对目前依靠摄像机传回视频进行作业过程中存在的操作难度大、依赖操作员经验的问题,设计基于双目视觉的水下连接器位姿测量方法。该方法首先根据水下连接器的颜色特征确定检测范围,之后在检测范围中以水下连接器为模板进行初步定位,然后根据水下连接器端面的成像特点检测椭圆特征,并进行双目匹配获得相关三维点坐标,最后计算得出水下连接器的位姿。实验表明,该方法位置测量平均误差1.3%,姿态测量平均误差3.5°,可以较好地为水下连接器对接作业提供参考。     

新型测力轮对标定试验台研制

在分析国内外测力轮对标定技术现状及不足的基础上,提出了新型测力轮对标定试验台的设计要求和设计目标。研制的TK-LDBD型测力轮对静态标定试验台在实现垂、横、纵三向力的独立及联合精确加载的基础上大幅提升了设备适用范围及标定效率。为高精度连续测量测力轮对的研究及运用提供了技术支撑。     

样本匹配算法在鱼雷弹道融合中的应用

通过分析鱼雷对抗试验中获得的内外测弹道数据的特点,在比较多种曲线匹配算法的基础上,提出了一种基于样本的匹配算法。该方法利用弹道曲线上的点对应的矢量作为特征无关量信息,在合理选取样本点基础上,采用最大相似性准则对弹道曲线进行匹配,找到曲线最佳匹配段,从而对准内外测弹道的时间基准,以用于弹道融合。     

Studying the benefits of carpooling in an urban area using automatic vehicle identification data

Carpooling has been considered a solution for alleviating traffic congestion and reducing air pollution in cities. However, the quantification of the benefits of large-scale carpooling in urban areas remains a challenge due to insufficient travel trajectory data. In this study, a trajectory reconstruction method is proposed to capture vehicle trajectories based on citywide license plate recognition (LPR) data. Then, the prospects of large-scale carpooling in an urban area under two scenarios, namely, all vehicle travel demands under real-time carpooling condition and commuter vehicle travel demands under long-term carpooling condition, are evaluated by solving an integer programming model based on an updated longest common subsequence (LCS) algorithm. A maximum weight non-bipartite matching algorithm is introduced to find the optimal solution for the proposed model. Finally, road network trip volume reduction and travel speed improvement are estimated to measure the traffic benefits attributed to carpooling. This study is applied to a dataset that contains millions of LPR data recorded in Langfang, China for 1 week. Results demonstrate that under the real-time carpooling condition, the total trip volumes for different carpooling comfort levels decrease by 32–49%, and the peak-hour travel speeds on most road segments increase by 5–40%. The long-term carpooling relationship among commuter vehicles can reduce commuter trips by an average of 30% and 24% in the morning and evening peak hours, respectively, during workdays. This study shows the application potential and promotes the development of this vehicle travel mode.     

A methodology for evaluating the performance of model-based traffic prediction systems

Model-based traffic prediction systems (mbTPS) are a central component of the decision support and ICM (integrated corridor management) systems currently used in several large urban traffic management centers. These models are intended to generate real-time predictions of the system’s response to candidate operational interventions. They must therefore be kept calibrated and trustworthy. The methodologies currently available for tracking the validity of a mbTPS have been adapted from approaches originally designed for off-line operational planning models. These approaches are insensitive to the complexity of the network and to the amount and quality of the data available. They also require significant human intervention and are therefore not suitable for real-time monitoring. This paper outlines a set of criteria for designing tests that are appropriate for the mbTPS task. It also proposes a test that meets the criteria. The test compares the predictions of the mbTPS in question to those of a model-less alternative. A t-test is used to determine whether the predictions of the mbTPS are superior to those of the model-less predictor. The approach is applied to two different systems using data from the I-210 freeway in Southern California.     

Validation of an extended discrete first-order model with variable speed limits

This paper validates the prediction model embedded in a model predictive controller (MPC) of variable speed limits (VSLs). The MPC controller was designed based on an extended discrete first-order model with a triangular fundamental diagram. In our previous work, the extended discrete first-order model was designed to reproduce the capacity drop and the propagation of jam waves, and it was validated with reasonable accuracy without the presence of VSLs. As VSLs influence traffic dynamics, the dynamics including VSLs needs to be validated, before it can be applied as a prediction model in MPC. For conceptual illustrations, we use two synthetic examples to show how the model reproduces the key mechanisms of VSLs that are applied by existing VSL control approaches. Furthermore, the model is calibrated by use of real traffic data from Dutch freeway A12, where the field test of a speed limit control algorithm (SPECIALIST) was conducted. In the calibration, the original model is extended by using a quadrangular fundamental diagram which keeps the linear feature of the model and represents traffic states at the under-critical branch more accurately. The resulting model is validated using various traffic data sets. The accuracy of the model is compared with a second-order traffic flow model. The performance of two models is comparable: both models reproduce accurate results matching with real data. Flow errors of the calibration and validation are around 10%. The extended discrete first-order model-based MPC controller has been demonstrated to resolve freeway jam waves efficiently by synthetic cases. It has a higher computation speed comparing to the second-order model-based MPC.     

基于双轴位置转台的捷联惯导系统级标定技术

本文研究一种基于双轴位置转台的激光陀螺捷联惯导系统的系统级标定方法。建立了附加约束条件的陀螺和加速度计标定模型,从捷联惯导系统的误差方程出发,建立30维Kalman滤波标定模型,以速度和位置作为观测量,并设计双轴位置旋转路径,对惯性仪表标定参数进行激励与辨识。仿真实验结果表明,该方法能够准确估计出陀螺和加速度计的15个标定误差参数,具有一定的参考价值。     

关于图的谱半径的新的上界

主要得到了一个关于图的谱半径的新的上界,并举例说明在某些情况下我们的结果是好的.     

柴油机车辆冒黑烟故障的原因分析

通过控制环境温度和中冷后进气温度,对某柴油发动机进行单变量因素台架试验,并对其结果影响进行分析;同时结合整车匹配设计与ECU数据标定,分析车辆运行过程中冒黑烟的原因及提出相应解决措施。     

基于粒子群算法的水下多元线阵阵形有源校正方法

针对存在阵元位置误差的水下多元线阵,提出一种基于粒子群优化算法的远场有源阵形校正方法.该方法选用2个辅助源分时工作方式,利用无条件最大似然方位估计算法构建目标函数,并通过粒子群算法对阵元位置进行寻优.利用该方法对均匀线阵进行性能仿真实验.结果表明:该方法稳健性好、校正精度高,具有一定的应用前景.