Different human-simulated characteristics of the driver models in the forward simulation of hybrid electric vehicles

Based on the control theories of PID, fuzzy logic and expert PID, the driver models are built and applied in the forward simulation for hybrid electric vehicles （HEV）. The impact to the vehicle speed tracking and the fuel economy is compared among the different driver models. The different human-simulated characteristics of the driver models are emphatically analyzed. The analysis results indicate that the driver models based on PID, simple fuzzy logic and expert PID are corresponding to the handling characteristics of different drives. The driver models of different human-simulated characteristics bring the handling divergence of drivers with different driving level and habit to the HEV forward simulation, and that is significant to the all-around verification and validation of the control strategy for HEV. System simulation results of different driver models validate the impact of driver models to the dynamic and fuel economy performance of HEV.

Forward软件二次开发调用Matlab函数方法

Forward软件主要用于石油测井资料处理与解释,在各油田应用广泛。利用Forward底层平台开发工具包Wellbase,在Visual C++环境下进行Forward软件二次开发,可编写出有针对性的测井处理模块。采用Visual C++与Matlab混合编程技术,将Matalb中丰富的库函数用于测井数据的分析处理,能极大地缩短算法开发周期。以开发"测井曲线小波分解模块"为例,对其中的关键技术进行了研究,实现了在Forward软件模块中调用Matlab函数的方法。实验表明该方法使Forward软件二次开发更为便捷、高效,具有可行性高、稳定性强的优点。

专用无线通信网络混合组网架构研究

针对窄带宽、弱连接和高动态的行业专用无线通信网络,通过使用一种软件定义网络集中控制与分布式路由控制共存的混合组网架构,解决传统分布式组网业务服务质量无法保障等问题。此外,针对软件定义网络架构的控制开销大、抗毁性差等问题,在混合组网架构基础上对转发面进行优化,提出了路由转发与基于段路由受控转发共存的转发模式,以节约控制开销、增强抗毁性。通过混合组网架构设计、控制器部署方式优化、南向接口轻量化、分布式组网扩展和转发面升级等方式,为集中控制与分布式路由控制在专用无线通信网络的综合应用提供了解决方案,以较低的控制复杂度大幅度提升专用无线通信网络的服务质量保障能力和转发效率。

Hybrid absorbing boundary condition for threedimensional elastic wave modeling

Edge reflections are inevitable in numerical modeling of seismic wavefields, and they are usually attenuated by absorbing boundary conditions. However, the commonly used perfectly matched layer （PML） boundary condition requires special treatment for the absorbing zone, and in three-dimensional （3D） modeling, it has to split each variable into three corresponding variables, which increases the computing time and memory storage. In contrast, the hybrid absorbing boundary condition （HABC） has the advantages such as ease of implementation, less computation time, and near-perfect absorption; it is thus able to enhance the computational efficiency of 3D elastic wave modeling. In this study, a HABC is developed from two-dimensional （2D） modeling into 3D modeling based on the I st Higdon one way wave equations, and a HABC is proposed that is suitable for a 3D elastic wave numerical simulation. Numerical simulation results for a homogenous model and a complex model indicate that the proposed HABC method is more effective and has better absorption than the traditional PML method.

A Novel Hybrid Clustering Based Transmission Protocol for Wireless Body Area Networks

Wireless sensor networks are a collection of intelligent sensor devices that are connected to one another and have the capability to exchange information packets amongst themselves.In recent years,this field of research has become increasingly popular due to the host of useful applications it can potentially serve.A deep analysis of the concepts associated with this domain reveals that the two main problems that are to be tackled here are throughput enhancement and network security improvement.The present article takes on one of these two issues namely the throughput enhancement.For the purpose of improving network productivity,a hybrid clustering based packet propagation protocol has been proposed.The protocol makes use of not only clustering mechanisms of machine learning but also utilizes the traditional forwarding function approach to arrive at an optimum model.The result of the simulation is a novel transmission protocol which significantly enhances network productivity and increases throughput value.

A Novel Adaptive Hybrid Error Correction Scheme for Wireless DVB Services

Real-time applications usually not only have a certain Packet Loss Ratio (PLR) requirement but also can have strict delay constraints. In the past, we proposed a Hybrid Error Correction (HEC) scheme with Packet Repetition (PR) technique for guaranteeing a certain PLR requirement under strict delay constraints. Unfortunately, the HEC-PR scheme can only work efficiently in multicast scenarios with small group size and small link PLR. Our further studies show that better performance can be obtained by combining the HEC-PR scheme with other traditional HEC schemes such as Type I HARQ and Type II HARQ techniques. Based on this idea, in this paper, a novel Adaptive HEC (AHEC) scheme combining the HEC-PR scheme with Type I and Type II HARQ techniques is proposed to satisfy a certain PLR requirement for delay bounded multicast services. Furthermore, the performance of the AHEC scheme is optimized by choosing the scheme with the least needed redundancy information automatically among the three HEC schemes. Finally, by applying the AHEC scheme in a typical wireless DVB scenario, we analyze the performances of the AHEC scheme and compare it with the HEC-PR scheme and an Adaptive Forward Error Correction (AFEC) scheme. The results show that the proposed AHEC scheme outperforms both the AFEC scheme and the HEC-PR scheme.

Cooperative Layer-2 Based Routing Approach for Hybrid Wireless Mesh Networks

In a Wireless Mesh Network(WMN),the convenience of a routing strategy strongly depends on the mobility of the intermediate nodes that compose the paths.Taking this behaviour into account,this paper presents a routing scheme that works differently accordingly to the node mobility.In this sense,a proactive routing scheme is restricted to the backbone to promote the use of stable routes.Conversely,the reactive protocol is used for searching routes to or from a mobile destination.Both approaches are simultaneously implemented in the mesh nodes so that the routing protocols share routing information that optimises the network performance.Aimed at guaranteeing the IP compatibility,the combination of the two protocols in the core routers is carried out in the Medium Access Control(MAC)layer.In contrast to the operation in the IP layer where two routing protocols cannot work concurrently,the transfer of the routing tasks to the MAC layer enables the use of multiple independent forwarding tables.Simulation results show the advantage of the proposal in terms of packet losses and data delay.

基于改进牛顿迭代法的混联机构正解分析

为解决XY-3-RPS混联机构运动学正解求解困难、求解效率低等问题,提出一种利用RBF神经网络改进牛顿迭代的算法。运用闭环矢量法建立混联机构的正向运动学方程。在混联机构的运动学逆解中选取适量的训练样本,通过RBF神经网络进行训练,将训练后的样本估计值作为迭代初值,进行运动学正解的迭代。与牛顿迭代算法的结果相对比,该算法具有更高的精度和更快的迭代速度。

全模型迭代重建算法在头颈CT血管成像中改善图像质量的应用

目的探讨全模型迭代重建(FIRST)算法对100 kV低剂量头颈CT血管成像(CTA)图像质量改善的价值。资料与方法回顾性收集2021年9—10月在北京医院行头颈CTA检查的患者32例,对其原始数据进行重建并分为滤波反投影(FBP)算法图像组、混合迭代(AIDR 3D)算法图像组及FIRST算法图像组。比较3组图像头颈部主要血管(颈总动脉,椎动脉,颈内动脉C1、C4段,大脑中动脉M1、M3段,大脑前动脉A1、A3段)、背景(肌肉、脑组织)的平均CT值、噪声、信噪比及各血管的对比噪声比,并比较3组图像质量的主观评分。以数字减影血管造影(DSA)为“金标准”,评估各重建算法对头颈部血管狭窄的检出情况。结果与AIDR 3D组、FBP组相比,FIRST组显著降低了头颈部血管以及背景(肌肉、脑组织)的图像噪声(t=-13.19~-7.28,P均<0.001),其信噪比、对比噪声比明显高于FBP组与AIDR 3D组(t=2.17~9.67,P均<0.001)。颈总动脉、颈内动脉C1、C4段,大脑中动脉M1段、大脑前动脉A1段FIRST组的CT值高于AIDR 3D组(t=1.28~3.60,P均<0.05);FIRST组背景(肌肉、脑组织)的CT值显著低于FBP组与AIDR 3D组(t=-7.63~-4.03,P均<0.001),差异有统计学意义。对于头颈部血管的显示,FIRST组与AIDR 3D组图像满足诊断要求,主观评分均高于FBP组图像(P均<0.05),且FIRST组图像评分高于AIDR 3D组(P<0.05)。与DSA相比,FBP算法对于轻、中度狭窄诊断效能不佳,FIRST、AIDR 3D算法对血管狭窄程度评估结果与DSA一致。结论在100 kV低剂量头颈CTA联合扫描中,与传统FBP、AIDR 3D算法相比,FIRST算法可以有效改善头颈CTA图像质量,满足头颈部血管疾病的诊断要求。

引入路径夹角的粒子群-禁忌搜索寻优的速度前瞻算法研究

对于数控系统中路径为连续微线段的情况,本文提出一种采用路径夹角进行优化的多轨迹速度前瞻算法。首先基于前后路径的约束关系初算衔接速度;其次,利用路径夹角对衔接速度和最大加加速度进行矢量函数映射;最后,将所得的加减速参数带入S加减速模型,得到非对称S型加减速数据。并且采用粒子群-禁忌搜索混合算法对路径夹角的调整系数进行优化,通过熵权法计算适应度函数合成指标的权重,得到全局最优解。结果表明,相较于传统S型加减速,本文采用的算法显著提高了加工效率,具有较高的柔性,极大的提升了加工精度。

采用混合多址技术的卫星系统反向链路遍历容量分析

近年来,点波束和非正交多址接入技术作为提升卫星系统资源利用率和传输速率的有效手段,受到了工业界和学术界的广泛关注。文中提出了一种联合时域⁃功率域的混合多址接入技术的多用户卫星通信系统传输方案,并对其反向链路的遍历容量进行了分析。首先,结合点波束技术将卫星覆盖范围内的多个用户分为若干个组,组内用户采用非正交多址技术,每个用户组采用时分多址技术,从而获得更高的频谱效率。其次,为了验证所提传输方案的性能,在卫星采用放大转发协议和卫星链路服从阴影莱斯分布的条件下,推导出卫星系统反向链路遍历容量的闭合表达式。最后,计算机仿真验证了理论分析的正确性,以及所提传输方案相较于现有调度方案在提升系统容量方面具有的优势,从而为实际的方案设计和工程应用提供参考。

面向吊装路径规划的履带起重机运动学建模方法

履带起重机建模是履带起重机路径规划的前提和基础,但是有关于履带起重机建模的研究尚不够系统,为此,以利勃海尔LR1400-2履带起重机为例,提出了一种面向吊装路径规划的履带起重机运动学建模方法,并对履带起重机运动学建模进行了理论推导、仿真分析和试验测试。首先,采用虚拟连杆和被动关节对刚柔混合的起升系统进行了建模,在此基础上确定了履带起重机的位形空间;然后,构建了履带起重机的正向运动学模型和逆向运动学模型,并给出了其相应的求解方法;最后,将构建出来的正向运动学模型和逆向运动学模型应用到履带起重机的吊装路径规划中,通过对3个不同的吊装路径进行规划,以此来验证该履带起重机运动学建模方法的有效性。研究结果表明:该履带起重机的正向运动学模型可准确地确定履带起重机各部件在位形空间上的位姿和姿态,为其碰撞检测提供了保障;该逆向运动学模型可为起重机的起吊位形和就位位形提供一种快速的求解方法。

混合动力挖掘机中基于电流匹配的双向DC/DC前馈补偿控制策略

针对混合动力挖掘机回转电机启动过程中,双向DC/DC恒流放电模式具有输出电流固定、直流母线电流供求不匹配而需要强制通过供能侧进行功率补偿的问题,提出基于直流母线上电流供求关系匹配的双向DC/DC前馈补偿策略。本文通过分析电流供求不匹配的原因,并推导双向DC/DC输入和输出电流关系,实现双向DC/DC输出电流对负载需求的自动跟随。引入该前馈补偿控制策略后,超级电容电能输出可最大限度跟随回转电机的需求,减少供能侧的能量补偿,母线电压亦能保持稳定。幅频特性曲线对系统稳定性进行分析,并仿真和实验验证该方法的可行性和有效性,可供工业应用参考。

假肢接受腔3D打印模型的正逆向混合建模

针对传统工艺制作假肢接受腔依赖于石膏取型,以及金属阳四爪连接盘与假肢接受腔依赖于人工手动加工连接的问题,提出了一种基于SLA3D打印技术的假肢接受腔制作方法。通过仿真分析软件迭代设计得到承压合理的接受腔模型;通过正逆向混合建模,将光敏树脂接受腔和金属阳四爪连接盘复合。结果表明:3 mm厚的光敏树脂材料符合假肢接受腔的应用要求;切片层厚为0.2 mm时,光敏树脂接受腔和金属阳四爪连接盘的复合效果最佳。用SLA 3D打印假肢接受腔是可行性的。

混合动力汽车正向建模与仿真

根据正向建模的思想建立了基于Matlab/Simulink平台的并联双轴混合动力汽车正向仿真模型,该模型既可以用踏板信号作为输入也可以运行循环工况。仿真结果与试验结果的对比表明,所建模型可以用于分析评价不同的设计方案和控制策略的优化,还可以进行实际控制系统的开发。

Exechon混联机器人的三自由度并联机构模块位置分析

以一种组成五自由度混联机器人Exechon的三自由度并联机构模块2-UPR&SPR为研究对象,利用解析法对其位置正/逆解进行分析。针对位置正解,得到了只含一个未知量的24阶多项式方程,给出了该机构位置正解的所有可能解的解析表达式,对于位置逆解,得到了其显式表达。算例表明,由正解方程得到的8个实数解对应4组镜像位形,逆解方程存在2个实数解,对应2种位形,从而得到该机构位置正/逆解的全部解析解。

基于前向建模的ISG型CVT混合动力系统再生制动仿真研究

基于对CVT混合动力汽车制动力分配的分析,综合考虑发动机反拖制动、CVT速比及夹紧力控制、电池快速充电特性与电机高效发电特性对再生制动性能的影响,制订了相应的再生制动控制策略。根据前向建模思想,利用数值建模与理论建模的方法,建立了CVT混合动力汽车再生制动系统综合模型,进行了EUDC等四种典型循环工况下的再生制动性能仿真,在保证安全制动的条件下,实现了较高比率的制动能量回收,仿真结果证明了所提出的再生制动控制策略和系统模型的正确性与适用性。

基于混合型多电平换流器的柔性直流输电系统

针对一种混合型多电平换流器(Hybrid Multilevel Converters,HMC)在柔性直流输电系统(VSC-HVDC)中的应用进行了研究。阐述HMC的电路拓扑和工作原理,从功率角度分析子模块电容电压均衡条件,介绍了换流器的基本控制策略,提出了一种改进控制策略和HMC子模块串的均压控制策略。提出了基于HMC的前馈交叉解耦控制策略,包括有功无功解耦控制器,以及直流侧电压控制器。利用PSCAD/EMTDC建立了基于HMC双端三相35kV,240子模块的VSC-HVDC详细仿真模型,验证了所提出的主电路拓扑和控制策略。

有源钳位正反激变流器的第三绕组与电流型混合同步整流驱动方案

提出一种适用于有源钳位正反激电路的新型同步整流混合驱动方案,其中整流同步管SR1采用电流型驱动,续流同步管SR2是由变压器第三绕组的电压型驱动。采用这种新型的混合驱动技术,传统的同步整流驱动技术引起的同步整流管的体二极管导通问题可以得到解决,变流器的效率得到了明显提高。对此新型混合驱动技术进行详细的理论分析,并且制作一台36~72V输入、1V/30A输出的250kHz直流–直流变流器实验室样机对理论分析加以实验验证。

正向仿真模型与反向软件ADVISOR的集成开发

混合动力汽车仿真软件ADVISOR是一种反向仿真软件,介绍在ADVISOR2002平台下如何通过修改进行正向仿真软件的开发,并嵌入到其GUI平台下进行仿真。仿真结果表明,在ADVISOR平台下可以进行正向模型的仿真,这对实际混合动力控制策略的开发具有重要意义。