Study of Test Flow Optimization Method in Radar Fault Isolation

In order to optimize test flow after the default flow is modified by a tester, a new software framework for the radar fault isolation is illustrated. This framework separates all mapping algorithms from test flows so as to modify flow and to insert mapping algorithm dynamically in testing process. Based on this framework, a kind of optimization method of test flow is proposed and studied. By defining an objective function, we can evaluate all candidate test flows so as to get an optimized flow. An example explains how to search the flow from candidate flows.

“Volume-Point” heat conduction constructal optimization with entransy dissipation minimization objective based on rectangular element

By taking equivalent thermal resistance, which reflects the average heat conduc- tion effect and is defined based on entransy dissipation, as optimization objective, the "volume to point" constructal problem of how to discharge the heat generated in a fixed volume to a heat sink on the border through relatively high conductive link is re-analyzed and re-optimized in this paper. The constructal shape of the control volume with the best average heat conduction effect is deduced. For the elemental area and the first order construct assembly, when the thermal current density in the high conductive link is linear with the length, the optimized shapes of assemble based on the minimization of entransy dissipation are the same as those based on minimization of maximum temperature difference, and the mean tem- perature difference is 2/3 of the maximum temperature difference. For the second and higher order construct assemblies, the thermal current densities in the high conductive link are not linear with the length, and the optimized shapes of assem- ble based on the minimization of entransy dissipation are different from those based on minimization of maximum temperature difference. For the same parame- ters, the constructs based on minimization of entransy dissipation and the con- structs based on minimization of maximum temperature difference are compared, and the results show that the constructs based on entransy dissipation can de- crease the mean temperature difference better than the constructs based on mini- mization of maximum temperature difference. But with the increase of the number of the order, the mean temperature difference does not always decrease, and there exist some fluctuations. Because the idea of entransy describes the heat transfer ability more suitably, all of the heat conduction constructal problems may be re-optimized based on it.

Bayesian optimization algorithm-based methods searching for risk/protective factors

The risks of developing complex diseases are likely to be determined by single nucleotide polymorphisms (SNPs), which are the most common form of DNA variations. Rapidly developing genotyping technologies have made it possible to assess the influence of SNPs on a particular disease. The aim of this paper is to identify the risk/protective factors of a disease, which are modeled as a subset of SNPs (with specified alleles) with the maximum odds ratio. On the basis of risk/protective factor and the relationship between nucleotides and amino acids, two novel risk/protective factors (called k-relaxed risk/protective factors and weighted-relaxed risk/protective factors) are proposed to consider more complex disease-associated SNPs. However, the enormous amount of possible SNPs interactions presents a mathematical and computational challenge. In this paper, we use the Bayesian Optimization Algorithm (BOA) to search for the risk/protective factors of a particular disease. Determining the Bayesian network (BN) structure is NP-hard; therefore, the binary particle swarm optimization was used to determine the BN structure. The proposed algorithm was tested on four datasets. Experimental results showed that the algorithm proposed in this paper is a promising method for discovering SNPs interactions that cause/prevent diseases.

重复注气压降法煤层渗透率模型与原位测试研究

煤层渗透率作为衡量瓦斯渗流与抽采难易程度的重要指标,对其进行准确测定具有重要意义。针对现有方法计算渗透率测试周期长、结果不稳定、模型不完善等问题,研究煤层渗透率的快速准确测定方法及相应的计算模型。基于煤层中气体径向不稳定流控制方程,结合不同压差下气体在煤层中的体积流量方程,建立可利用全区间压降数据测定煤层渗透率的注气压降计算模型。应用COMSOL数值模拟软件的达西渗流模块对模型进行求解,针对现场工程设计中可对压降曲线产生影响的测压气室长度进行单变量处理,根据模拟结果分析钻孔的测压气室长度可设计为2.0 m。根据数值模拟结果进行现场布置,搭建井下重复注气压降试验系统,结合煤层瓦斯赋存条件和巷道条件施工两组穿层钻孔,对2个测点分别注入两次高于煤层瓦斯压力的补偿气体进行渗透率原位测试,测试周期分别约为6 d和17 d,第2轮测试的注气压力高于第1轮。结合理论推导验证了注气压降过程中煤层瓦斯的雷诺数均处于线性达西渗流段,瓦斯在煤层中的渗流符合达西定律,满足计算模型的假设。与传统煤层渗透率计算方法进行了比较,结果表明:本方法和径向流量法的计算结果基本一致,可以满足实际工程需要。重复注气压降法的测试结果稳定可靠,具备快速测定的优点。

考虑风险和碳交易机制的微电网分布鲁棒优化调度

提高微电网风电的消纳能力是实现双碳目标的重要手段。该文构建了一种考虑极限场景和净负荷条件风险价值的微电网低碳分布鲁棒优化模型。首先,针对源-荷不确定性构造基于Wasserstein距离的概率分布模糊集,并考虑极限场景修正该模糊集,以提高模糊集的鲁棒性,减少场景数目,提高求解效率。其次,以包括供能成本、阶梯式碳交易成本和风险成本的微电网日运行成本最小为优化目标,建立分布鲁棒优化调度模型,并利用分段线性近似法和对偶理论将模型转换为线性规划问题求解。最后,通过算例仿真进行验证,结果表明,考虑极限场景的分布鲁棒优化方法具有较强的鲁棒性;引入阶梯式碳交易成本可以有效减少微电网的碳排放量,并提高风电的消纳能力;净负荷条件风险价值可以有效平衡微电网运行的经济性与风险性。

基于集成树算法的岩石黏聚力和内摩擦角预测方法

岩石的黏聚力(c)和内摩擦角(φ)是岩石工程设计及稳定性评价的重要参数,其直接测量需通过多组三轴或剪切试验,耗时多且成本高。基于4个易获取的岩石物理力学参数(纵波波速VP、密度ρ、单轴抗压强度UCS和巴西抗拉强度BTS),构建了用于预测c和φ值的智能模型。共收集了199组含不同岩石类型的数据,采用5种集成树算法开发预测模型,使用贝叶斯优化算法对模型的超参数进行优化。模型评估结果表明:构建的模型均具有较好的预测性能,其中极端随机树模型表现最佳(测试R^(2)>0.97)。敏感性分析表明:VP、UCS和BTS对c值的预测结果影响较大,ρ对φ值的预测结果影响较大。研究成果已成功应用于金川矿区,验证了模型的实用性,开发的图形用户界面便于工程技术人员使用。

考虑外送输电容量限制的梯级水光互补日前鲁棒调峰调度方法

水光联合外送可促进新能源消纳,但光伏出力预测的不确定性会影响水光互补优化调度的经济性和安全性。提出一种考虑外送输电容量限制的梯级水光互补联合发电系统日前鲁棒调度方法。考虑光伏出力不确定性,构建水光互补联合发电系统的日前调峰鲁棒优化调度模型,该模型以最小化受端电网剩余负荷峰谷差为目标,计及梯级水电的上、下游水力耦合约束。采用高效线性化方法对梯级水电运行的非线性模型进行处理,并利用对偶方法实现鲁棒模型的确定性转化。算例仿真结果表明,利用所提方法制定的梯级水电发电计划能充分考虑光伏出力的不确定性,兼顾联合发电系统调峰效果和光伏消纳,实现梯级水电和光伏的互补运行。

基于CEEMDAN-VMD-PSO-LSTM模型的桥梁挠度预测

针对桥梁运行阶段的健康状态监测,构建了CEEMDAN-VMD-PSO-LSTM模型对桥梁挠度进行预测。该模型主要分为二次模态分解平稳化、粒子群优化(PSO)算法和长短期记忆(LSTM)网络预测三大模块,共有5个步骤:①利用自适应噪声完备集合经验模态分解(CEEMDAN)算法对桥梁原始挠度序列进行初次模态分解,分解为若干本征模态分解函数(IMF);②使用样本熵(SampEn/SE)计算各IMF分量的复杂度,并通过K-means聚类为高频、中频和低频3个IMF分量;③通过变分模态分解(VMD)算法对高频IMF分量进行二次模态分解;④分别对各个IMF分量通过PSO算法得出LSTM最优超参数组合;⑤将各最优超参数分别代入LSTM模型进行训练,并将各预测结果融合为最终的预测结果。结果表明:该预测方法具有最高的预测精度,为智慧桥梁的安全监测监控提供了新的技术方法。

基于主从关联优化的产品族参数规划方法研究

针对产品族优化设计中存在的共性与个性的相互依存、制约关系,研究面向产品族的主从关联的参数优化规划技术。建立基于灵敏度分析的产品族参数识别划分方法,根据产品族设计参数的主从关联特点,建立优化问题的双层规划模型。提出一种采用多项式响应面拟合和遗传算法相结合的混合算法实现双层规划,下层采用多项式响应面法将双层优化目标拟合成为单层优化目标,在上层实现产品族公共参数的优化,再通过上层可适应参数的松弛约束关系传递,在下层利用遗传算法实现变型产品的参数优化。以起重机卷筒组件产品族规划为例,基于所提出的主从关联优化方法,得到个性变型产品参数最优值,为起重机卷筒组件产品及类似产品的产品族优化设计提供一种方法借鉴。

响应面法优化生防暹罗芽孢杆菌JZ1-4-10的发酵参数

【目的】优化暹罗芽孢杆菌JZ1-4-10的发酵培养基组分配比和发酵条件,以提高其对马铃薯干腐病菌的抑菌活性,为后续相关生防制剂的工业开发及农业应用打下理论基础。【方法】通过单因素试验筛选菌株JZ1-4-10生长的最佳碳源、氮源、无机盐及适宜浓度,通过响应面法获得菌株JZ1-4-10的最佳发酵培养基组分配比,在此基础上优化菌株JZ1-4-10的发酵温度、pH、接种量、装液量和摇床转速等发酵条件。【结果】菌株JZ1-4-10的最佳碳源、氮源和无机盐分别为玉米粉、大豆蛋白胨和KCl。以玉米粉(A)、大豆蛋白胨(B)和KCl(C)为因变量,菌株JZ1-4-10对马铃薯干腐病病原菌茄病镰刀菌的抑菌活性为响应值,拟合得到菌株JZ1-4-10抑菌率(y)的二次多项回归方程为y=64.02+0.4937A+2.31B-2.19C-1.17AB+138AC-1.81BC-4.73A2-4.58B2-3.86C2,其中,玉米粉、大豆蛋白胨和KCl间的交互作用对菌株JZ1-4-10抑菌活性的影响均达显著水平(P<0.05),尤其玉米粉与KCl及大豆蛋白胨与KCl的交互作用对抑菌活性的影响达极显著水平(P<0.01)。响应面分析优化得到菌株JZ1-4-10的最佳发酵培养基组分配方:玉米粉0.94%、大豆蛋白胨1.23%、KCl 0.72%,且该条件下菌株JZ1-4-10的抑菌活性的实际值为65.20%,与试验预测的64.63%非常接近。经单因素优化后菌株JZ1-4-10的最佳发酵条件为装液量90 mL/250 mL、接种量1.5%、摇床转速160 r/min、培养温度30℃、pH 7。【结论】优化后的培养基提高了菌株JZ1-4-10的产孢量和抑菌活性,优化的发酵方案可用于快速、大批量培养菌株JZ1-4-10菌悬液。

基于AR技术的植保机作业布局与优化分析

以植保机作业优化仿真过程为研究对象,基于AR增强现实技术对植保机的转向、行进及作业过程进行仿真,构建植保机优化作业布局。通过AR增强现实对植保机进行识别,利用3dsMax构建植保机三维虚拟仿真模型,在Unity3D模块中对植保机作业环境进行虚拟搭建,以提升植保机作业仿真的真实性。

基于METSIM软件的矿石破碎筛分流程自动模拟计算研究

为了实现选矿厂设计和生产过程中的自动模拟计算,针对破碎筛分工艺设计时变量多、反馈慢、随机性大、不稳定性高等问题,利用METSIM软件对三段一闭路破碎筛分流程进行了仿真模拟研究。通过建立矿石破碎筛分模型,调节物料特性和设备参数,得到了对应的数量流程和粒度分布,模拟结果与实际生产情况高度契合,准确地体现了矿石的破碎筛分过程。利用该仿真模型,可快速对大量参数进行调整,并直观、迅速反馈收敛结果,能快捷指导设计或操作人员选择合理设备,及时调整设备参数,为矿石破碎筛分工艺的优化提供科学依据。

Mid-term survival of the Optimys short stem: A prospective case series of 500 patients

BACKGROUND In recent years,there has been an increase in the number of total hip arthroplasty procedures in the younger patient population.This active group has higher expectations of their prosthesis in comparison to the older population,and there is a greater physical demand for the prosthesis.Short femoral stems were in-troduced to retain proximal bone stock and joint biomechanics and became more common to implant in this specific population.Currently,the long-term survival and functional outcomes of various short stems are still being investigated in different clinics.AIM To determine the 5-year survival of the Optimys hip stem.METHODS This was a prospective multicenter cohort study of 500 patients conducted in two hospitals in the Netherlands.All patients received the Optimys short stem(Mathys Ltd,Bettlach,Switzerland).The primary outcome measure was survival of the hip stem,with revision as the endpoint.The secondary outcome measurements included patient-reported outcome measures(PROMs).Kaplan-Meier analysis was used to calculate the 5-year survival rate.Log-minus-log transformation was performed to calculate the 95%confidence interval(95%CI).Mixed model analyses were performed to assess the course of the PROMs during the 1st 2 years after surgery.Analyses were modeled separately for the 1st and 2nd years to calculate the yearly change in PROMs during both follow-up periods with accompanying 95%CIs.RESULTS The mean age of the total 500 patients was 62.3 years(standard deviation:10.6)and 202 were male(40%).At a median follow-up of 5.5 years(interquartile range:4.5-6.7),7 patients were deceased and 6 revisions were registered,for infection(n=3),subsidence(n=2)and malposition(n=1).This resulted in an overall 5-year survival of 98.8%(95%CI:97.3-99.5).If infection was left out as reason for revision,a stem survival of 99.4%(95%CI:98.1-99.8)was seen.Baseline questionnaires were completed by 471 patients(94%),317 patients(63%)completed the 1-year follow-up questionnaires and 233 patients(47%)completed the 2-year follow-up.Both outcome measures significantly improved across all domains in the 1st year after the operation(P<0.03 for all domains).In the 2nd year after surgery,no significant changes were observed in any domain in comparison to the 1-year follow-up.CONCLUSION The Optimys stem has a 5-year survival of 98.8%.Patient-reported outcome measures increased significantly in the 1st postoperative year with stabilization at the 2-year follow-up.

基于PSO-NARX网络的司机驾驶行为分析方法

舒适性、准时性、节能性等是衡量高速铁路自动驾驶水平的重要指标,通过不断学习优秀司机的驾驶行为,可以优化列车自动驾驶性能,促进高速铁路自动驾驶技术的发展。基于现场列车运行数据,提出一种带有外部输入的非线性自回归(NARX)网络的列车司机驾驶行为分析方法。该方法构建了具有时序特征的NARX网络模型,并选取多项影响司机决策的参数作为输入,利用粒子群优化算法(PSO)确定网络的权重和阈值,对下一时刻列车运行情况进行预测。仿真结果表明:本文提出的PSO-NARX网络分析模型的预测效果优于前馈型神经网络(BP)、PSO-BP、NARX,相比于BP算法,迭代步数降低了373步,误差降低了8382%,相关系数达到了90117%。通过此预测,可以优化列车的自动驾驶设备性能指标,保障列车准时的同时,提高了乘客乘坐的舒适性。

吸能支护技术在深部岩石工程中的应用

吸能支护在地下岩石工程中能够有效地防治冲击地压发生,减小突发灾害带来的人员伤亡和财产损失。文章从在实际工程运用中较为广泛的吸能支护技术进行了总结与分析,其中包括吸能锚杆的分类和吸能工作机理,O型棚的简要结构及吸能减震机理,吸能防冲支架技术的变形让位吸能特性。吸能支护能很好地对工程围岩释放的能量进行有效地吸收,维持围岩的稳定性。最后通过文献综述了以上三种吸能支护技术在实际工程中应用情况,总结了他们的优势和不足,并其未来发展方向给出了建议。

氯乙烯精馏残液分离工艺分析及优化

采用流程模拟软件对氯乙烯精馏残液分离提纯1,1-二氯乙烷的工艺进行了模拟分析,并提出了适宜的控制参数。结果表明,根据计算的参数进行生产控制优化,残液中的氯乙烯可高效回收,1,1-二氯乙烷的纯度可提高至98%以上。针对控制参数优化后存在的问题,提出了进一步的优化解决方案。

多约束下舰船装备携行备件保障方案优化方法

针对装备携行备件方案的确定需要综合考虑多项约束指标,以出航任务准备阶段的随舰携行备件方案配置规划为研究背景,在备件质量、体积、费用以及装备可用度4项指标约束下,建立携行备件方案的配置优化模型。通过引入拉格朗日约束因子将各项指标转化为资源规模约束,采用边际算法对模型进行求解,并提出了初始约束因子的确定方法及其动态更新策略。通过对算例结果进行分析,验证了该研究方法的可行性。

多约束下编队随船备件配置优化方法

针对舰艇编队备件配置方案的确定需要综合考虑多项约束指标因素的特点,以编队出海执行任务准备阶段备件配置为研究背景,以舰船载荷、排水量及保障费用为约束条件,构建了以编队备件保障概率为目标函数的编队随舰备件库存优化模型,应用拉格朗日乘子法及边际效应法原理给出了编队随船备件库存模型计算及优化流程,并运用罚函数原理对保障资源约束因子进行了确定及动态调整。最后,通过案例分析验证了本文提出的方法能够为解决多约束下编队随船备件配置优化问题提供新的途径。

计及需求响应的并网型微电网协同优化策略

为提高微电网的经济效益,提出了计及需求响应的并网型微电网协同优化策略。首先建立微电网中可调控负荷和各发电单元模型。然后,构建了微电网双层协同优化模型,上层在满足用户舒适度的基础上,利用分时电价信息引导用户侧可调控负荷参与需求响应,并将优化后的负荷曲线输出到下层模型;下层在满足供需平衡和发电单元约束的基础上,优化分布式能源出力、储能充放电功率和并网功率,以降低微电网的日运行成本。最后,模型采用差异进化算法进行求解,通过算例仿真比较不同情况下微电网的优化结果,验证了该策略的有效性。

凸轮轴数控磨削工艺智能应用系统研究与开发

针对当前凸轮轴数控磨削加工所面临的严重依赖操作人员经验、数控加工程序采用手工编制及制造企业对生产工艺信息化要求高等问题,提出并开发了满足凸轮轴企业生产制造信息化智能化要求的凸轮轴数控磨削工艺智能应用系统。该系统完整涵盖了凸轮轴数控磨削基础工艺数据库、工件特征自动分析、工艺方案智能优化、运动曲线优化、工艺实例推理和规则推理、工艺质量预报、磨削过程虚拟仿真、误差分析与补偿和数控代码自动编写等多个模块。该系统应用于实际生产的结果表明,该系统能够显著缩短数控磨削工艺系统的操作时间,有效提高整个工艺系统的柔性,降低生产成本。