Dynamic Behavior of Two Part Towing Cable System During Turning

An improved numerical method is used to simulate the dynamic behavior of a two part towing cable systems during turnings. In U turns and full turns, periodical heave motions are found both for the towed vehicle and for the depressor. Periodic motions of the subsea units and of the cable surface tension are closely related to the turning parameters, such as turning velocity and turning radius. System parameters, such as length of the second cable and the vehicle hydrodynamics, also damp turning instability.     

反激变换器电流连续和断续的比较研究

根据单端反激变换器的电路和工作波形,推导了其在输出电流连续和不连续情况的工作原理,并且给出了在MATLAB/Simulink中的正激变换器的仿真模型和仿真结果。通过对仿真结果的分析得出以下结论:其优点是电路所用元器件少,电路简洁。其缺点如下:输出功率较小,稳定性较差,以及开关应力大,电路能量损耗较大。     

正激变换器的五维可视化优化设计

本文对正激变换器进行了输出本安特性分析,从满足纹波电压指标和最大输出短路放电能量最小的角度,采用五维数据可视化技术,在MATLAB环境下通过程序设计展现全局的值域分布,从而对电感、电容参数进行优化设计,以提高电路的稳定性。     

Flow-field guided steering control for rigid autonomous ground vehicles in low-speed manoeuvring

ABSTRACT

This paper studies the low-speed manoeuvring problem for autono-mous ground vehicles operating in complex static environments. Making use of the intrinsic property of a fluid to naturally find its way to an outflow destination, a novel guidance method is proposed. In this approach, a reference flow field is calculated numerically through Computational Fluid Dynamics, based on which both the reference path topology and the steering reference to achieve the path are derived in a single process. Steering control considers three constraints: obstacle and boundary avoidance, rigidity of the vehicle, plus the non-holonomic velocity constraints due to the steering system. The influences of the parameters used during the flow field simulation and the control algorithm are discussed through numerical cases. A divergency field is defined to evaluate the quality of the flow field in guiding the vehicle. This is used to identify any problematic branching features of the flow, and control is adapted in the neighbourhood of such branching features to resolve possible ambiguities in the control reference. Results demonstrate the effectiveness of the method in finding smooth and feasible motion paths, even in complex environments.     

某客车驱动桥螺旋锥齿轮早期打齿原因分析

针对某客车车桥螺旋锥齿轮崩齿进行失效分析,运用扫描电镜、能谱仪、金相显微镜等分析裂源处的断口形貌、化学成分、金相组织及硬度等,同时结合锥齿轮副的齿面啮合印迹,指出被动锥齿轮断口起裂源处大的Ca和Al的氧化物夹渣,即炼钢过程形成的水口结疤缺陷,是导致其早期失效的主要原因,并提出通过严格控制钢材冶炼过程中炉外精炼、连铸工艺过程等各项工艺参数,严格控制钢材中氧含量不超过15×10^-6等措施,有效防止了该故障发生。     

纯电动商用车异质队列的多目标控制

队列行驶的研究能有效解决商用车货运安全、能耗浪费和环境污染等问题,但现有研究多基于单一跟车目标控制的匀质队列,这在货运场景中无法达到很好的控制效果。本文中构造了纯电动异质商用车队列,为其设计了分布式非线性模型预测控制器。根据道路环境信息和车辆跟车、安全、舒适和节能等特性,分别建立了领航车和跟随车的控制器模型,实现异质队列的多目标控制。为验证所提出控制方法的有效性,由5辆动力学特性相异的商用车组成队列,并搭建了控制仿真平台进行Trucksim/Simulink联合仿真。结果表明,本文中提出的控制算法能有效实现异质商用车队列的多目标控制,与PID定速巡航控制相比,能耗可降低5.3%以上。     

网联车辆并线预测与巡航控制的研究

为检测旁车道车辆驾驶员的并线意图,提升网联车辆巡航跟车的主动安全性,提出了一种基于NAR神经网络学习的迭代循环预测算法。NAR神经网络的训练样本由实际交通环境中的车辆并线数据获得,通过训练的网络预测未来一段时间内旁车的横向行驶轨迹,并根据划定的监控区域计算旁车的切入概率。同时,提出了一种考虑并线概率的跟车距离策略,并应用到网联车辆CACC系统中。结果表明,所提出的并线预测算法能精确计算出旁车的横向换道轨迹,所提出的跟车策略可提升车辆的跟车安全性。     

基于Prover的联锁软件形式化验证过程研究

计算机联锁系统是铁路信号控制系统的核心设备,是有着苛刻安全要求的复杂控制系统。本文采用Prover形式化开发工具对联锁软件安全需求进行形式化验证。通过模型检验的形式化验证方法,遍历系统输入变量的所有状态空间.验证联锁特定应用满足系统安全需求,确保系统的安全性得以正确实现。在保证系统安全性的基础上,以全状态空间查找反例的检验方法进一步提升产品的质量。     

铁路数字移动通信系统网络数据编号方案探讨

对繁杂的铁路数字移动通信系统(GSM-R)编号数据进行了梳理,将GSM-R编号数据划分为3层逻辑关系,明确了每层逻辑关系对应的数据表格。以郑渝高铁编号方案为例,对GSM-R网络编号中特殊情况的处理办法进行了讨论。