NB-IoT环境下基于区块链技术的智慧停车诱导系统信任评估研究

为解决智慧停车诱导系统中停车场、车辆、RSU设备之间存在的信息交互不可信及交易不可靠等问题,提出了一种基于区块链技术的信任评估机制。首先,通过对比各种通信方案优缺点,选择窄带物联网作为网络环境,搭建基于区块链技术的智慧停车诱导系统整体框架。其次,基于物联网节点行为考虑选择数据分组转发量、传输数据分组的重复率以及传输数据传输时延作为信任评估指标,引入分段线性函数,建立有等级划分的信任评估模型,结合智能合约形成可靠的交易凭证。最后,对基于区块链技术的停车信息交互过程进行优化,保证了信息交互的安全性。本文为智慧停车诱导系统的信任评估机制研究提供可靠理论基础。

NB-IoT环境下智慧停车诱导系统停车位选择及诱导方案研究

随着城市化进程的不断加速与机动车数量的持续增长,停车难如今已成为城市可持续健康发展的一个亟待解决的问题。传统停车管理方式效率低下,无法满足现代城市实际停车需求。基于NB-IoT的智慧停车诱导系统通过集成物联网、大数据、云计算和人工智能等现代信息技术,实现了对停车资源的智能化管理和优化配置。本文讨论了NB-IoT技术在智慧停车诱导系统中的应用,并提出一套完整的技术解决方案,并对其进行了相关实证研究和分析。研究结果表明,该系统能够有效提高停车效率,改善用户体验,缓解交通压力,并为未来城市发展与规划提供了价值参考依据。

焊接热输入对不同Nb含量AH36钢粗晶热影响区组织和力学性能的影响

目的研究大热输入条件下不同Nb含量AH36钢的焊接性能。方法使用光学显微镜、场发射扫描电镜、透射电镜、维氏硬度仪和冲击试验机,研究了热输入对不同Nb含量AH36钢粗晶热影响区(CGHAZ)微观组织、维氏硬度和常温冲击韧性的影响。采用气电立焊试验评价了工业试制的AH36钢板的焊接性能。结果随着热输入的增大,原奥氏体晶粒尺寸逐渐增大,侧板条铁素体含量与贝氏体含量逐渐下降,晶界铁素体不断粗化,硬度呈现下降趋势。当热输入为140 kJ/cm时,CGHAZ的常温冲击功高于热输入80 kJ/cm时的常温冲击功,但相近于热输入200 kJ/cm时的常温冲击功。在同等热输入下低Nb钢CGHAZ的贝氏体含量小于高Nb钢的。因此,低Nb钢CGHAZ的硬度低于高Nb钢硬度,常温冲击韧性优于高Nb钢的。气电立焊接头各区域的冲击功均满足船级社要求。结论低Nb含量AH36钢的焊接性能优于高Nb含量AH36钢的。工业试制的AH36钢板具有良好的焊接性能。

一种应用于NB-IoT通信的高线性CMOS功率放大器

为满足复杂的NB-IoT通信调制模式对功率放大器输出线性度的要求,提出一种面向NB-IoT通信应用的700~900 MHz高线性度CMOS功率放大器(PA)。该放大器采用两级结构,工作于AB类放大状态,驱动级和输出功率级分别采用自偏置的共源共栅结构和共源放大器结构,驱动级为功率级提供大的电压输出摆幅。为提高线性度,采用二极管线性化偏置技术改善晶体管输入电容的非线性导致的增益压缩和相位失真现象,将输出1 dB压缩点提升3.2 dB。采用65 nm/1.2 V CMOS工艺完成电路版图设计,整体放大器的版图尺寸为0.68 mm×1 mm。仿真结果表明,在700~900 MHz工作频带内,功率放大器的小信号增益大于19 dB,输入反射系数S11小于等于-12 dB,功率附加效率(PAE)峰值为29.6%,输出1 dB压缩点为22.7 dBm。所提出的功率放大器电路具有高线性度、低功耗、小尺寸的特点,可有效满足NB-IoT通信并用于700~900 MHz频段内射频信号功率放大的应用需求。

(Ti,Nb)C_(x)复合材料的制备与性能表征

以TiC与过渡族金属Nb为原料,在机械合金化(mechanical alloying,MA)下制备多种非化学计量比的(Ti,Nb)C_(x)聚晶金刚石(polycrystalline diamond,PCD)刀具结合剂。通过X射线衍射仪对复合材料烧结体的物相组成等进行分析,再通过扫描电子显微镜对复合材料的断口形貌进行观察,并用维氏硬度计测量复合材料的硬度和断裂韧性。结果表明:在1300~1700℃的范围内,温度越高TiC和Nb的固溶程度越好;在同一烧结温度下,(Ti,Nb)C_(x)复合材料的硬度随着金属Nb占比变大而逐渐升高;在同一金属Nb占比下,温度越高Nb与TiC的固溶程度越好。同时,(Ti,Nb)C0.5复合材料的力学性能最优,在1600℃时达到硬度最大值23.0 GPa,且其断裂韧性最高为7.20 MPa·m^(1/2)。

基于NB-IoT的地下管廊环境监测系统设计

城市地下管廊内布设了大量的管线,如燃气管道、网络通讯线路、电力线路等,由于地下环境复杂多变,存在着气体泄漏、爆炸、火灾等安全风险。针对这些问题,提出一种基于窄带物联网技术(Narrow Band Internet of Things,NB-IoT)的地下管廊环境监测系统。该系统采用先进的传感器技术、NB-IoT技术、软件技术,系统主要分为数据采集模块、物联网云平台、远程监测系统三部分。数据采集模块以STM32作为主控单元连接各个传感器,采集温度、湿度、水位、可燃气体等数据,经过处理后利用NB-IoT网络上传到物联网云平台,远程监测系统调用物联网云平台的数据接口进行远程显示与预警。实验结果表明,系统在降低系统总体功耗的同时,能够实时、稳定地进行地下管廊环境监测,提前预防可能存在的风险。

变形温度对Nb521合金力学性能及微观组织的影响

采用超高温力学测试系统对Nb521合金进行了高温拉伸实验,分析了变形温度(1100~1500℃)对力学性能及微观组织的影响。结果表明:随着变形温度的升高,Nb521合金流变应力呈下降的趋势,表现为强度降低,而伸长率随之增大。当变形温度为1300℃时,力学性能发生了显著变化,这是由于合金发生了动态再结晶,其形核方式为晶界凸出形核。随着变形温度的持续升高,微观组织由原始扁平状组织转变为等轴组织,当温度达到1500℃时发生了完全再结晶。Nb521合金在高温断口表面出现大量等轴状韧窝,表现为韧性断裂机制。

Pt nanoparticles entrapped in ordered mesoporous carbons:An efficient catalyst for the liquid-phase hydrogenation of nitrobenzene and its derivatives

Pt nanoparticles entrapped in ordered mesoporous CMK-3 carbons with p6mm symmetry were prepared using a facile impregnation method, and the resulting materials were characterized using X-ray diffraction spectroscopy, N2 adsorption-desorption, scanning electron microscopy, transmission electron microscopy, energy dispersive X-ray spectroscopy, and X-ray photoelectron spectroscopy. The Pt nanoparticles were highly dispersed in the CMK-3 with 43.7% dispersion. The Pt/CMK-3 catalyst was an effective catalyst for the liquid-phase hydrogenation of nitrobenzene and its derivatives under the experimental conditions studied here. The Pt/CMK-3 catalyst was more active than commercial Pt/C catalyst in most cases. A highest turnover frequency of 43.8 s-1 was measured when the Pt/CMK-3 catalyst was applied for the hydrogenation of 2-methyl-nitrobenzene in ethanol under optimal conditions. It is worthy of note that the Pt/CMK-3 catalyst could be recycled easily, and could be reused at least fourteen times without any loss in activity or selectivity for the hydrogenation of nitrobenzene in ethanol.

内蒙古额济纳旗灰石山北西地区Nb多金属矿的物化探特征及找矿潜力浅析

内蒙古额济纳旗灰石山北西矿区位于塔里木板块东北缘,北部有近东西向雅干大断裂,东南侧临近北东向恩格尔乌苏大断裂。岩浆活动频繁,区域上北西、北东向断裂发育。研究区内北东向断裂构造既是主要的控岩、控矿构造,也是热液活动的主要通道;含矿岩体为上二叠统哈尔苏海组变质岩屑石英砂岩,片理化强烈,岩石普遍具绢云母化、绿泥石化,褐铁矿化、硅化较强。研究区内1:5万航磁异常展布形态与区内北东向断裂构造方向一致,局部的弱磁异常与矿化蚀变密切相关,可作为间接找矿标志;1:2.5万土壤地球化学测量结果显示,金、铌、镧各元素异常吻合好,形成了北东向异常带,具有多处浓集中心,浓度分带明显。通过对研究区所处区域地质背景、物化探异常特征及矿床地质特征进行研究,认为该区的成矿条件优越,是赋矿的有利地段,对寻找金、稀有元素铌及稀土多金属矿产具有很大的潜力。

基于NB-IoT技术的天然气管道泄漏监测系统

为了对天然气管道运行情况进行实时监测,在发生泄漏时能够及时做出反应,设计了基于NBIoT技术的天然气管道泄漏监测系统。系统利用压力变送器、DHT11温湿度传感器和GPS/北斗定位系统分别对管道的内部压力、设备周围的温湿度和经纬度位置进行采集,将采集的数据通过STM32控制NBIoT物联网模块上传至OneNET物联网云平台,最终通过云平台对天然气管道进行实时监测。实验表明:该系统能够对天然气管道的数据进行实时上传,能够通过云平台进行天然气管道状态的实时监测。

一种基于NB-IoT的智能井盖监测系统设计

针对城市井盖保有量大、安全事故频发、人工巡检困难、管理组织混乱等问题,提出一种基于窄带物联网(NB-IoT)技术的窨井盖自动监测系统。该系统以STM32作为主控模块,包含倾角、水位等传感器,实现对井盖状态以及井内重点数据的采集,配合云端服务器和客户端完成井盖数据远程可视化显示。结果表明,所提系统可以实现故障井盖自动报警、精确定位,降低人工巡检的难度,让城市井盖管理更加智能化,让故障检修更加便捷化,提高城市管理的智能化水平。

基于NB-IoT技术的环境监测系统优化设计

为进一步提升工业生产过程的安全系数,提出一种基于窄带物联网NB-IoT的环境监测系统。其中,以NB-IoT技术作为系统的主要通信,以传感器为主要的环境数据采集工具,以改进的BP神经网络作为预测方法进行环境风险预测。实验结果表明,与传统的BP神经网络相比,经过粒子群算法PSO优化的BP神经网络具有更高的预测精度,且稳定性较好,将其应用于环境风险的预测时误差始终保持在1%的误差范围内。设计的基于NB-IoT的环境监测系统能够进行准确的数据采集和风险预测,能够进一步保障生产安全,可行性较高。

时效时间对Ti-50.8Ni-0.1Nb形状记忆合金组织和性能的影响

对Ti-50.8Ni-0.1Nb形状记忆合金进行了400℃+1~50 h时效处理,用透射电子显微镜、示差扫描量热仪和拉伸实验研究了时效时间对该合金显微组织、相变行为、形状记忆行为和拉伸性能的影响。结果表明,当时效时间由1 h延长到50 h时,400℃时效态Ti-50.8Ni-0.1Nb合金中Ti3Ni4析出相由细小颗粒状生长为粗大片状,冷却/加热相变类型由B2→R→B19'/B19'→R→B2型向B2→R→B19'/B19'→B2型转变(B2-母相,Cs Cl型结构;R-R相,菱方结构;B19'-马氏体,单斜结构),R相变温度由31.3℃增加到46.8℃,马氏体相变温度由-127.5℃增加到-10.3℃,马氏体相变热滞由131.7℃下降到57.2℃,R相变热滞在3.8~5.0℃之间变化。400℃+5~50 h时效态合金的抗拉强度较高,在1360~1385 MPa之间变化;400℃+1~10 h时效态合金的伸长率较大,在15%~17%之间变化。400℃+1 h时效态合金呈超弹性,400℃+5~50 h时效态合金呈形状记忆效应。

Al/Ta-Nb合金阻抗匹配靶的制备工艺研究

为了获得钽铌合金(Ta-Nb)材料在高压下的状态方程数据,制备了用于激光状态方程实验研究的铝/钽铌合金(Al/Ta-Nb)阻抗匹配靶。研究了Ta-Nb合金箔的精密轧制与飞秒激光切割工艺,获得了厚度13μm,宽度400μm的Ta-Nb合金台阶样品。使用聚乙烯醇(PVA)水溶胶将Ta-Nb合金台阶与铝(Al)标准材料进行复合装配。利用白光干涉仪、电子密度计等仪器对阻抗匹配靶的表面形貌、台阶厚度、样品密度等靶参数进行精密测量,结果表明研制的Al/Ta-Nb合金阻抗匹配靶能够满足激光状态方程物理实验需求。

Ti-48Al-2Cr-2Nb钝化膜的电化学性能及形成机理

探究Ti-48Al-2Cr-2Nb合金钝化膜的耐腐蚀性和形成机理对提高电解加工过程中的抗杂散腐蚀具有重要意义。通过极化曲线确定了Ti-48Al-2Cr-2Nb合金的钝化电位,采用X射线光电子能谱确定了钝化膜的成分与结构,并运用电化学阻抗谱和Mott-Schottky理论分析了钝化膜的电化学性能。结果表明,Ti-48Al-2Cr-2Nb合金在NaNO_(3)电解液中钝化电位区间为0.079~1.896V,钝化膜主要成分为Al_(2)O_(3)、TiO_(2)及少量的Nb_(2)O_(5),呈双层多孔结构,具有良好的耐腐蚀性。钝化膜具有n型半导体特性,载流子密度随钝化电位的增加而降低。最后,构建了钝化膜形成示意图,揭示了Ti-48Al-2Cr-2Nb合金钝化膜的形成机理与成相膜理论相符,以半球体模型延展并形成独立的相。

Nitrobenzene biodegradation ability of microbial communities in water and sediments along the Songhua River after a nitrobenzene pollution event

More than 100 t of nitrobenzene (NB) and related compounds were discharged into the Songhua River,the fourth longest river in China,because of the world-shaking explosion of an aniline production factory located in Jilin City on November 13,2005.As one of the efforts to predict the fate of residual NB in the river,NB biodegradation abilities by microbes in the water and sediments from different river sections were evaluated systematically.The results indicated that microbial communities from any section of ...

Prediction of the environmental fate and aquatic ecological impact of nitrobenzene in the Songhua River using the modified AQUATOX model

An accidental discharge of nitrobenzene happened in November 2005 in the Songhua River,China.The AQUATOX model was modified and adapted to simulate the time-dependent nitrobenzene distribution in this multimedia aquatic system and its potential ecological impacts.Nitrobenzene concentrations in flowing water,sediment,and biota were predicted.Based on the initial concentrations of nitrobenzene observed in the field during the accidental discharge,that is,0.167-1.47 mg/L at different river segments, the predic...

Characterization of the Songhua River sediments and evaluation of their adsorption behavior for nitrobenzene

The explosion at a plant of the Jilin Petrochemical Corporation on 13 November,2005,and the spill of an estimated 100 t of toxic substances (nitrobenzene as the main component) into the Songhua River received worldwide attention.This study has focused on the adsorption behavior of nitrobenzene that spilled onto sediments along the Songhua River,which was one of the efforts to evaluate the fate of nitrobenzene after the spillage event.The organic carbon contents of these sediments along the Songhua River var...

QSAR Study of Nitrobenzenes’ Toxicity to Tetrahymena Pyriformis Using Semi-empirical Quantum Chemical Methods

The molecular geometries and electronic structures of 30 nitrobenzenes have been calculated by using semi-empirical MO AM1 and PM3 methods. EHOMO, ELUMO, ENHOMO, ENLUMO, AE, QNO2, Qc and V were selected as the structural descriptors. The acute toxicity （-log/C50） of nitrobenzenes to tetrahymena pyriformis along with the above eight structural parameters was used to establish the quantitative structure-activity relationships （QSARs）. The results indicate that the established model based on AM I method is superior to that on PM3 method not only for the stability but also for the predictive powers of the model. Based on AM1 parameters, a further classifying discussion was presented for the study of nitrobenzene toxic mechanism. The results show that the substituents, nitro group and halogen substituents on the aromatic ring are crucial to the chemicals＇ toxicity. For nitrobenzenes without halogen or other substituent, the reduction of nitro group is the main route. However, for those with halogen substituents, their next lowest unoccupied molecular orbital may take part in the toxic action betweeen the chemicals and macromolecules, and ENLUMO has the most important effect on these chemicals＇ toxicity.

Concentration level and geographical distribution of nitrobenzene in Chinese surface waters

Nitrobenzene was reported to occur at relatively high concentrations in some Chinese surface water and to cause an environmental pollution event in 2005.To map the distribution of nitrobenzene in the Chinese surface water throughout China,surface water samples were collected from over 600 sites in the 7 major watersheds and three drainage areas.The samples were analyzed for concentration of nitrobenzene.Overall,nitrobenzene was more frequently detected at higher concentrations in the rivers of North China,i...