皮带运输机的PLC控制

章介绍了南京化工集团公司硝铵皮带机程控系统，介绍了可编程控制器（PLC）在皮带运输机中的应用，并给出了皮带机程控系统的设计方法。     

桑塔纳2000GSi型轿车防盗系统结构原理与故障诊断

介绍桑塔纳2000GSi轿车防盗系统的结构原理,阐述防盗控制的自学习模式,以及故障诊断和系统检修内容。     

舵阻摇H∞控制器的设计

舵阻摇的效果对船舶水动力参数敏感,Ｈ_∞控制器对模型不确定性具有良好的适应性。本文设计了一种基于并联控制模式的舵阻摇Ｈ_∞控制器。模拟海上航行条件的计算机仿真表明该控制器具有良好的鲁棒特性。     

模糊控制技术在船舶动力定位中的应用研究

在进行某船动力定位系统的设计过程中,采用了模糊控制器作为系统的控制器,并针对仿真过程中出现的问题进行优化,得到了一个切实可行的模糊控制器,并对该模糊控制器进行了仿真试验验证。     

基于相对变形的大变形隧道地应力反算

针对复杂地质条件下高地应力大变形隧道地应力复杂多变的特点，为满足该类隧道动态设计对地应力资料的要求，提出基于上台阶开挖后拱腰水平收敛与拱顶下沉的相对比值并结合开挖揭示的围岩情况，建立二维数值模型反算地应力的方法。以丽江至香格里拉铁路中义隧道为例，对该方法进行详细说明。研究表明所述方法具有无需地应力测试、计算方便的优点，施工期间可用于地应力分析、预测。中义隧道典型区段地应力反算结果表明： 1）隧道出口及2号横洞工区的地应力分布特点并不相同； 2）围岩及埋深差别不大的区段，隧道水平收敛变形出现较大差异主要是由于地应力侧压力系数不同引起的。     

水下非接触爆炸载荷下双层底结构单元抗冲击性能研究

舰船结构水下非接触爆炸的动态响应研究是舰船生命力评估的基础。基于普通双底结构,设计了3种新式的X型、Y型双底单元和Ⅰ型双层底结构单元,分析了4种结构在200 kg TNT炸药不同爆距冲击波载荷作用下的损伤变形特征,运动响应以及结构的吸能特性。结果表明,X型、Y型单元吸收较少能量,尤其内底板吸收能量少,应变、冲击速度和加速度响应值也小,内底板更安全。Ⅰ型单元外底板的变形和应变小,其安全半径约为15 m,其余3种单元安全半径都约为20 m。4种结构临界半径都小于10 m。     

船用嵌入式以太网控制器研制及其应用

首先分析了以工业以太网作为船舶现场监控层通讯网络的优点,构建了基于工业以太网的船舶自动化系统.基于S3C2410X微处理器及嵌入式Linux实时操作系统平台,叙述了研制具有工业以太网功能的嵌入式控制器,并介绍了控制器的结构及功能以及嵌入式以太网的软件实现方法.     

地铁闸机紧急放行控制器的探讨

为了保证紧急情况下乘客的安全,地铁各车站均安装有紧急按钮,用于控制闸机的紧急放行。介绍了闸机紧急放行控制器系统构成和工作原理,分析了闸机异常放行的主要原因,并对紧急按钮采用常闭接点和常开接点的优缺点做了比较。使用常闭方式更能及时发现故障,保证紧急放行时能及时响应。     

Enhancing grey prediction fuzzy controller for active suspension systems

A grey prediction fuzzy controller (GPFC) was proposed to control an active suspension system and evaluate its control performance. The GPFC employed the grey prediction algorithm to predict the position output error of the sprung mass and the error change as input variables of the traditional fuzzy controller (TFC) in controlling the suspension system to suppress the vibration and the acceleration amplitudes of the sprung mass for improving the ride comfort of the TFC used; however, the TFC or GPFC was employed to control the suspension system, resulting in a large tire deflection so that the road-holding ability in the vehicle becomes worse than with the original passive control strategy. To overcome the problem, this work developed an enhancing grey prediction fuzzy controller (EGPFC) that not only had the original GPFC property but also introduced the tire dynamic effect into the controller design, also using the grey prediction algorithm to predict the next tire deflection error and the error change as input variables of another TFC, to control the suspension system for enhancing the road-holding capability of the vehicle. The EGPFC has better control performances in suppressing the vibration and the acceleration amplitudes of the sprung mass to improve the ride quality and in reducing the tire deflection to enhance the road-holding ability of the vehicle, than both TFC and GPFC, as confirmed by experimental results.     

Investigation of ship waves in a narrow channel

This paper presents a discussion of the characteristics of ship waves in a narrow channel restricted by vertical walls, based on observed data and the results computed by a 2-D model. In the numerical model, the propagation of waves generated by a moving ship is simulated by solving 2-D depth-integrated Boussinesq equations. To get the boundary conditions at the location of the ship, the slender-ship approximation is employed. A field observation was carried out at a straight length of navigation channel. The ships targeted in the observations are two kinds of waterbuses with lengths of 28 and 24 m. The relative depth Froude number for the river current, an appropriate parameter for assessing the influence of the current on ship wave characteristics in a navigation channel, ranged from 0.47 to 0.76. The observed maximum wave height varied between 0.13 and 1.26 m. The maximum wave height of the wave train is sharply increased when the relative depth Froude number exceeds 0.6. The results computed by the present model agree fairly well with the observed data.