A Systems Approach to Assessing Sustainability Capacity in Kalobeyei Refugee Settlement in Turkana County, Kenya

Refugee settlements face several challenges in transitioning from a temporary planning approach to more sustainable settlements. This is mainly due to an increase in the number of forcibly displaced people over the last few decades, and the difficulties of sustainably providing social services that meet the required standards. The development of refugee settlements assumed that forcibly displaced people would return to their places or countries of origin. Unfortunately, displacement situations are prolonged indefinitely, forcing these people to spend most of their lives in conditions that are often deplorable and substandard, and therefore unsustainable. In most cases, the establishment of refugee settlements is triggered by an emergency caused by an influx of forcibly displaced people, who need to be accommodated urgently and provided with some form of international assistance and protection. This leaves little or no time for proper planning for long-term development as required. In addition, the current approach to temporary settlement harms the environment and can strain limited resources with ad hoc development models that have exacerbated difficulties. As a result, living conditions in refugee settlements have deteriorated over the last few decades and continue to pose challenges as to how best to design, plan, and sustain settlements over time. To contribute to addressing these challenges, this study proposes a new methodology supported by Model-Based Systems Engineering (MBSE) and a Systems Modeling Language (SysML) to develop a typical sustainable human settlement system model, which has functionally and operationally executed using a Systems Engineering (SE) approach. To assess the sustainability capacity of the proposed system, this work applies a matrix of crossed impact multiplication through a case study by conducting a system capacity interdependence analysis (SCIA) using the MICMAC methodology (Cross-impact matrix multiplication applied to classification) to assess the interdependency that exist between the sub-systems categories to deliver services at the system level. The sustainability analysis results based on capacity variables influence and dependency models shows that development activities in the settlement are unstable and, therefore, unsustainable since there is no apparent difference between the influential and dependent data used for the assessment. These results illustrate that an integrated system could improve human settlements’ sustainability and that capacity building in service delivery is beneficial and necessary.

Modulating Co-Co bonds average length in Co_(0.85)Se_(1-x)S_(x) to enhance conversion reaction for potassium storage

While alloying transition metal chalcogenides(TMCs)with other chalcogen elements can effectively improve their conductivity and electrochemical properties,the optimal alloying content is still uncertain.In this study,we study the influence of dopant concentration on the chemical bonds in TMC and reveal the associated stepwise conversion reaction mechanism for potassium ion storage.According to density function theory calculations,appropriate S-doping in Co0.85Se(Co_(0.85)Se_(1-x)S_(x))can reduce the average length of Co-Co bonds because of the electronegativity variation,which is thermodynamically favourable to the phase transition reactions.The optimal Se/S ratio(x=0.12)for the conductivity has been obtained from experimental results.When assembled as an anode in potassium-ion batteries(PIBs),the sample with optimized Se/S ratio exhibits extraordinary electrochemical performance.The rate performance(229.2 mA h g^(-1)at 10 A g^(-1))is superior to the state-of-the-art results.When assembled with Prussian blue(PB)as a cathode,the pouch cell exhibits excellent performance,demonstrating its great potential for applications.Moreover,the stepwise K+storage mechanism caused by the coexistence of S and Se is revealed by in-situ X-ray diffraction and ex-situ transmission electron microscopy techniques.Hence,this work not only provides an effective strategy to enhance the electrochemical performance of transition metal chalcogenides but also reveals the underlying mechanism for the construction of advanced electrode materials.

High-efficiency sodium storage of Co_(0.85)Se/WSe_(2) encapsulated in N-doped carbon polyhedron via vacancy and heterojunction engineering

With the advantage of fast charge transfer,heterojunction engineering is identified as a viable method to reinforce the anodes'sodium storage performance.Also,vacancies can effectively strengthen the Na+adsorption ability and provide extra active sites for Na+adsorption.However,their synchronous engineering is rarely reported.Herein,a hybrid of Co_(0.85)Se/WSe_(2) heterostructure with Se vacancies and N-doped carbon polyhedron(CoWSe/NCP)has been fabricated for the first time via a hydrothermal and subsequent selenization strategy.Spherical aberration-corrected transmission electron microscopy confirms the phase interface of the Co_(0.85)Se/WSe_(2) heterostructure and the existence of Se vacancies.Density functional theory simulations reveal the accelerated charge transfer and enhanced Na+adsorption ability,which are contributed by the Co_(0.85)Se/WSe_(2) heterostructure and Se vacancies,respectively.As expected,the CoWSe/NCP anode in sodium-ion battery achieves outstanding rate capability(339.6 mAh g^(−1) at 20 A g^(−1)),outperforming almost all Co/W-based selenides.

基于CNN‑LSTM‑SE的心电图分类算法研究

心血管疾病是我国死亡率较高的疾病之一,通过观察心电图来判断心电信号是否出现异常能够对心血管疾病进行预防和筛查。由于心电图数据规模大且繁杂,临床医护人员在心电图筛查时,工作负担大且容易出现误诊或漏诊的情况。为了提高心电图的筛查效率、减少医护人员的压力,提出了一种基于卷积神经网络、长短期记忆神经网络和SE网络的心电图分类算法模型(CNN-LSTM-SE),该模型将心电图分成5种不同的类别。主要研究内容包括:选用MIT-BIH心律失常数据集作为心电信号的数据来源,使用巴特沃斯带通滤波器对心电信号进行去噪处理,通过Z-score方法对心电信号进行标准化处理,利用独热编码方法对心电信号标签进行编码,最后使用处理后的心电数据对所提算法模型进行训练和测试。实验结果表明:所提模型相较于其它模型,能够有效提高心电图分类的准确性,在实验数据集上的分类准确率达到99.1%。

Bidirectional rectifier with gate voltage control based on Bi_(2)O_(2)Se/WSe_(2)heterojunction

Two-dimensional(2D)WSe_(2)has received increasing attention due to its unique optical properties and bipolar behavior.Several WSe_(2)-based heterojunctions exhibit bidirectional rectification characteristics,but most devices have a lower rectification ratio.In this work,the Bi_(2)O_(2)Se/WSe_(2)heterojunction prepared by us has a typeⅡband alignment,which can vastly suppress the channel current through the interface barrier so that the Bi_(2)O_(2)Se/WSe_(2)heterojunction device has a large rectification ratio of about 10^(5).Meanwhile,under different gate voltage modulation,the current on/off ratio of the device changes by nearly five orders of magnitude,and the maximum current on/off ratio is expected to be achieved 106.The photocurrent measurement reveals the behavior of recombination and space charge confinement,further verifying the bidirectional rectification behavior of heterojunctions,and it also exhibits excellent performance in light response.In the future,Bi_(2)O_(2)Se/WSe_(2)heterojunction field-effect transistors have great potential to reduce the volume of integrated circuits as a bidirectional controlled switching device.

基于DEMATEL和SE-DEA的民航监察员培训效能评价

为优化培训模式,提高监察员的安全监管能力,降低民航各种不安全事件发生的概率,以“岗位胜任能力导向”为核心的培训模式逐步形成。首先基于“一个素质,三个能力”构建初始岗位胜任力模型,然后结合SPSS和AMOS进行指标筛选和模型验证,利用DEMATEL法探究各指标之间的影响关系并改进权重,最后运用SE-DEA法检验目前的培训课程设置是否合理并进行评价。结果表明:构建的岗位胜任力共15项指标,具有良好的效度和信度;政治素质和管理能力对法治能力和业务能力的影响更大,对胜任力模型影响最大的是业务能力;经过培训,75%的监察员的岗位能力都得到有效提升,达到强化基层安全能力建设的预期,同时说明目前的培训课程设置仍需进一步改进。

Harmony SE在民用飞机设计中的应用

随着民用飞机技术精细化和产品复杂性的提高,民用飞机设计已从传统的基于文档的系统工程转变为基于模型的系统工程,系统表达也从以文档为中心转变为以模型为中心。为进一步提高民用飞机设计中系统建模的模型质量与正确性,进而缩短设计的开发周期与成本,探究以模型驱动及验证为主导的系统工程方法在民用飞机设计领域的适用性,建立民用飞机设计的系统工程框架,用以支持民用飞机的可靠设计与高效交付。以Harmony SE建模方法为切入点,介绍其工作流程和建模思想;分析民用飞机在系统工程实践中出现的突出问题,说明Harmony SE方法在民用飞机系统工程领域的适用性,建立民用飞机设计的系统工程实践体系;以油箱增压组件为研究对象,应用实践体系开展组件级系统工程实践。结果表明,文中所提出的民用飞机设计系统工程体系和方法能够正确合理地分配设计需求并建立完整的系统模型,有助于提升现阶段民用飞机设计的效率与准确性。

基于SE-RetinaNet的面向玻璃面板的小尺寸低显著性缺陷检测

玻璃面板中的缺陷具有低显著、尺寸小、形态多样、数量少等特点,现有先进目标检测算法难以胜任玻璃面板的质检任务。基于此,提出了SE-RetinaNet—一种面向玻璃面板的小尺寸低显著性的缺陷检测算法。该算法在特征金字塔的顶层和底层引入了SE注意力机制和自注意力机制,增强网络对底层小尺寸特征的提取能力并强化顶层网络捕捉特征的长距离依赖关系的能力,同时在网络末端引入定位子网络SE-Regression,通过结合残差块和Inception模块的优点加强了定位的准确度同时防止网络退化。实验结果表明,所提算法能有效检测玻璃面板中各种尺寸的低显著性缺陷,其检测性能优于现有经典目标检测的算法,能够在玻璃面板缺陷检测问题上发挥较好的性能。

基于BaGa_(4)Se_(7)晶体的中红外辐射源稳定性实验研究

在实际应用中,光源的输出能量稳定性影响着光源在各种应用中的可靠性和性能,如激光治疗、光谱分析、光电对抗以及光成像等领域。本文首先对光学参量振荡器(OPO)系统从激光泵浦源、谐振腔结构和非线性晶体三个方面对输出能量稳定性进行分析。实验方面,使用BaGa_(4)Se_(7)(BGSe)晶体搭建脉冲激光泵浦的3~8μm中红外OPO辐射源,从激光泵浦源和OPO系统两部分对输出能量波动性进行了详细的测量和分析。当输入泵浦能量为30 mJ,正入射输出4.5μm波长时,平均能量为2.151 mJ,标准差为56.49μJ,计算RMS波动为2.62%。根据分析得出,随着激光增益的提高和腔损耗的减小,输出脉冲的波动减小。该研究为不同应用场景下BGSe晶体的红外辐射源的工作参数的选择提供了有益的指导。

基于SE-SBM的机采棉加工工艺配置效率评价

针对目前机采棉加工工艺优化过程中缺乏从系统角度定量评估工艺配置效率的情况,把机采棉加工工艺系统看作一个具有输入输出的系统,以机采棉生产投入、工艺配置情况作为输入指标,以机采棉加工质量和皮棉产量等产出水平作为输出指标,建立了基于SE-SBM(Super Efficiency Slacks-based Measure)的工艺配置效率评价模型。以新疆某棉花加工企业的9条机采棉加工生产线为例,通过收集数据和利用DEA-Slover5.0软件计算,对其工艺配置效率进行了评估和比较,再根据所得结论确定了改进方向和额度,并提出了有针对性的建议。所构建的指标体系和评价方法可用于评估不同机采棉加工生产线的工艺配置效率,能为实施机采棉加工工艺设计和优化改进提供决策参考。

基于SE注意力CycleGAN的蓝印花布单纹样自动生成

根据蓝印花布纹样的风格特征,文章提出一种端到端的蓝印花布纹样自动生成方法,实现简笔画图像向蓝印花布单纹样的自动迁移。针对蓝印花布的抽象风格和小数据集问题,重新构造CycleGAN生成网络中的编码器和解码器,使用SE(squeeze and excitation)注意力模块和残差模块与原始的卷积模块串联,提高特征提取能力和网络学习能力。同时减少生成网络中转换器的残差块层数,降低过拟合。实验结果表明,基于SE注意力CycleGAN网络方法自动生成的蓝印花布新纹样主观性上更贴合原始风格,与原图更加接近,有助于蓝印花布的数字化传承和创新。

Bi_(2)O_(2)Se纳米线的生长及其超导量子干涉器件

Bi_(2)O_(2)Se是一种新型半导体材料,具有载流子迁移率高、空气中稳定和自旋轨道耦合强等优点,并且其合成方法多种多样,应用范围十分广泛.但已有研究大多集中在其二维薄膜,本文介绍一种使用三温区管式炉通过化学气相沉积生长Bi_(2)O_(2)Se一维纳米线的方法,研究了云母衬底处于水平方向不同位置以及竖直方向不同高度对Bi_(2)O_(2)Se纳米线生长的影响,并归纳出适于其生长的优化条件.之后,基于生长的Bi_(2)O_(2)Se纳米线构建了超导量子干涉器件,并观测到随磁场的超导量子干涉,为拓宽Bi_(2)O_(2)Se纳米线的应用提供了思路.

基于CEEMDAN和SE算法的打夯机负荷振动信号识别研究

为了提高打夯机在复杂工作环境中筒体容易产生多种非线性振动信号扛干扰能力,设计了一种基于自适应噪声完备经验模态分解(CEEMDAN)算法和标准误差(SE)算法的打夯机负荷振动信号识别方法。采用CEEMDAN算法分解信号数据,以极限学习机为打夯机负荷建立模型,完成打夯机负荷的精确判断。研究结果表明:CEEMDAN对打夯机振动信号起到良好的预处理作用,各内涵模态(IMF)分量SE值均未出现相互重叠,有效IMF分量SE总体表现为欠负荷>常负荷>过负荷的特征。该模型对过负荷达到最高识别率,形成了98.85%的过负荷识别率,比EMD-SE与MEEMD-SE的过负荷识别率依次增大15.61%、12.14%。该研究可以有效识别负荷情况,为下一步驱动打夯机做出相应动作奠定基础,有效地提高节能效果。

公共草场自主治理实现机制——基于SES框架的案例分析

随着牧区社会-生态系统破碎化问题的凸显,公共草场自主治理引起了学术界关注。然而,中国现行草地承包制度下,自主治理制度的可行性及其实现机制仍有待系统研究。本文连续三年跟踪调查了内蒙古一片公共草场,应用SES框架解构了案例地复杂系统,并依据案例地情形构建了关联博弈模型,解析了公共草场自主治理制度下牧户互动机制。结果表明:草地资源的可持续利用关乎牧户长期生产成本。为了节约长期生产成本,牧区社区制定了公共草场自主治理制度。制度实施过程中,依据牧草长势和牲畜膘情形成了动态的草畜平衡规则,可操作的惩罚制度和地方政府弹性干预促进了自主治理制度的良好运作。同时,牧户之间的放牧博弈和社会交往博弈相互关联,使得自主治理制度以较低成本自我实施。该制度的有效实施有助于提高草地资源使用的公平性,也有利于牧户之间、牧户与地方政府之间信任的增长,提高生产互惠性和生产效率。因此,应探索建立自主治理和承包制度并存的多样化草地资源管理体系。

基于多源信号融合和SE-CNN的滚动轴承故障诊断方法

针对传统轴承故障诊断方法存在对故障特征不敏感、特征提取不充分以及易受外界环境干扰等问题,提出了一种基于多源信号融合的滚动轴承故障诊断方法。首先为降低单通道信号中的异常值干扰,对多源传感器采集到的原始振动信号开展基于多通道特征信息的数据层融合,实现类内故障特征信息互补;然后构建引入SE注意力机制的卷积神经网络(CNN)故障诊断模型,对无效特征信息进行过滤,增强特征提取表征能力,实现滚动轴承故障的精准识别;最后搭建多工况模拟实验台开展了不同干扰工况下的验证。实验结果表明,该方法的平均准确率可达98%以上,在不同程度的干扰工况下均能实现准确的轴承故障类型识别,具有较高的泛化能力。

不同温度下Se-H_(2)O系电位-pH图的研究

针对Se-H_(2)O体系中重要的单核配合物进行计算分析,通过查询热力学手册,获得了各反应物质298 K标准态下的S0、ΔfG0、ΔfH0和CP的数据,计算得到298~573 K下Se(-Ⅱ)-H_(2)O、Se(+Ⅳ)-H_(2)O和Se(+Ⅵ)-H_(2)O体系中各溶解组分在不同pH下的优势区域图。在此基础上,结合不同温度下各含Se物质参与氧化、还原反应的平衡热力学数据,分别构建298、373、473、573 K温度下的Se-H_(2)O系电位-pH图。结果表明:H_(2)Se和H_(2)SeO_(3)均可稳定存在于强酸性溶液中,而H_(2)SeO4仅能存在高温强酸性和溶液中。在298~573 K,单质Se能稳定存在于水溶液中。在298~473 K之间,H_(2)SeO_(3)、HSeO^(-)_(3)、SeO_(3)^(2-)全部可以直接还原成Se。因此,控制一定的pH值和电位,可以使Se以单质形式沉淀从溶液中净化除去。随着温度的升高,H_(2)O的优势区域减少,以固相存在的单质Se的优势区域也在逐渐减少,液相区以Se(+Ⅳ)存在的H_(2)SeO_(3)、HSeO^(-)_(3)及SeO_(3)^(2-)的稳定区域不断扩大。且随着温度的升高,将硒单质氧化为Se(Ⅳ)且进一步氧化为Se(Ⅵ)的氧化电位略有降低,氧化反应更易进行。

偃松PpSS和PpSE基因过表达载体构建

【目的】构建偃松甾醇代谢途径关键基因SS和SE过表达载体,为促进偃松甾醇高效合成奠定基础,为药用偃松遗传改良提供重要基因资源。【方法】以偃松的cDNA为模板,将SS和SE基因克隆至pNC-Cam1304-35s载体;重组质粒通过PCR及测序鉴定正确后,三亲杂交转入根瘤农杆菌LBA4404。【结果】抗性农杆菌PCR产物长度与预期一致,阳性菌液测序结果与目标基因序列相同。【结论】成功构建SS和SE过表达载体,重组载体的获得为进一步挖掘其在偃松甾醇代谢中的调控机制研究奠定了基础。

基于CEEMDAN-SE-GWO-LSTM模型的短期风速预测

为了降低风速具有的非线性和随机性带来的预测难度,提高预测准确性,提出一种融合完全自适应噪声集合经验模态分解(CEEMDAN)、样本熵(SE)、灰狼优化算法(GWO)和长短期记忆神经网络(LSTM)的组合预测模型来预测短期风速。首先利用CEEMDAN将风速数据分解为若干模态分量,再通过样本熵对各分量进行筛选,将样本熵值相近的模态分量进行叠加,形成新的若干个子序列,然后对各子序列采用GWO-LSTM模型进行训练与预测,最后叠加子序列的预测结果。实验结果表明,所提CEEMDAN-SE-GWO-LSTM模型相对于单一的LSTM模型在均方根误差、平均绝对误差和平均相对误差这3个误差指标上分别降低了21.7%、44.5%和40.9%,因此该模型具有较好的预测精度与稳定性,可有效预测短期风速。

六角GaM(M=S/Se/Te)的电子结构和力学性质的第一性原理计算

依据密度泛函理论(DFT)对层状六角P63/mmc结构的GaM(M=S/Se/Te)进行电子结构与弹性力学特性的模拟研究。优化后的P63/mmc-GaM(M=S/Se/Te)的晶格,与实验结果相吻合。采用HSE06泛函得到的带隙值比PBE得到的与实验值更接近。应变能-应变(E-S)和应力-应变(S-S)两种方法得到的P63/mmc-GaM(M=S/Se/Te)的单晶弹性常数都符合弹性力学稳定性准则。在更接近文献值的应力-应变(S-S)法基础上,对3种材料的多晶弹性模量等力学特性进行了后续分析。泊松比和B/G值表明,P63/mmc-GaM(M=S/Se/Te)显现出脆性。各向异性因子、杨氏模量E、剪切模量G及线性压缩系数β的三维立体图分别展示了材料的弹性各向异性程度。在零温零压下,P63/mmc-GaM(M=S/Se/Te)在[100]方向上的第一横向声速最大,在[001]方向上两个横波TA1和TA2的速度最慢。

基于改进SE-Net和深度可分离残差的高光谱图像分类

针对目前常见的用于高光谱图像分类的卷积神经网络参数数量多,训练时间长,对样本数量依赖性大的问题,提出一种适用于有限训练样本条件下基于改进压缩激活网络和深度可分离残差的分类网络MDSR&SE-Net.首先使用主成分分析对原始高光谱图像进行通道降维,然后通过三维卷积神经网络连接多特征残差结构,同时嵌入改进的SE模块提取高光谱图像的空间和光谱细节特征,最后将提取到的特征数据输入Softmax分类器激活分类.为了使网络更加轻量,通过在残差结构中使用深度可分离卷积和引入全局平均池化减少参数数量.实验结果显示,使用有限训练样本在三种常见高光谱数据集上总体分类精度均达到99%以上.