Beam Characteristics at Low Dose Monitor Unit Settings for Vero4DRT

The stability of delivery of low monitor unit (MU) setting is important especially for step-and-shoot intensity-modulated radiotherapy (IMRT), because the nature of the technique is inherent to repeat beam on/off according to the number of the segments. This study evaluates the dose linearity and profile flatness/symmetry under low MU settings for Vero4DRT, a new linear-accelerator based irradiation system that currently implements step-and-shoot IMRT. To evaluate the dose linearity and flatness/symmetry, the point doses and beam profiles were measured as functions of MU and dose rates. The accuracy of dose delivery depended on the dose rate. Under all dose rates, the dose was linear within 1% above 5 MU and within 2% above 3 MU. The beam symmetry was degraded in-line compared with crossline, although both profiles were symmetric within 2% at all dose settings. The profile flatness was also within 2% above 5 MU at any dose rate and showed no significant variation among the low MU settings. To ensure stable beam delivery without increasing the treatment time of Vero4DRT, we recommend a delivery of 5 MU per segment at a dose rate of 500 MU/min.

Novel Neural Network Inspired by Neuro-Endocrine-Immune System with Its Application to Beam Pumping Unit

Inspired by the modulation mechanism of neuroendocrine-immune system(NEIs),a novel structure of artificial neural network(ANN) named NEI-NN and its learning method are presented.The NEI-NN includes two parts,i.e.,positive subnetwork(PSN) and negative sub-network(NSN).The neuron functions of PSN and NSN are designed according to the increased and decreased secretion functions of hormone,respectively.In order to make the novel neural network learn quickly,the novel neuron based on some characteristics of NEIs is also redesigned.Besides the normal input signals,two control signals are considered in the proposed solution.One is the enable/disable signal,and the other is the slope control signal.The former can modify the structure of NEI-NN,and the later can regulate the evolutionary speed of NEINN.The NEI-NN can obtain the optimized network structure by using error back-propagation(BP) learning algorithm.Since the modeling of the beam pumping unit is very difficult by using the conventional method,the modeling of bean bump unit is chosen to examine the performance of the NEI-NN.The experiment results show that the optimized structure and learning speed of NEI-NN are better than those of the conventional neural network.

Method for Converting Cone-Beam CT Values into Hounsfield Units for Radiation Treatment Planning

Cone-beam CT (CBCT) images acquired during radiation treatment can be used to recalculate the dose distribution as well as to confirm the treatment location. However, it is difficult to obtain the electron densities (EDs) necessary for dose calculation from CBCT images because of the effects of scatter contamination during CBCT image acquisition. This paper presents a mathematical method for converting the pixel values of CBCT images (CBCT values) into Hounsfield units (HUs) of radiation treatment simulation CT (simCT) images for use in radiation treatment planning. CBCT values are converted into HUs by matching the histograms of the CBCT values with the histograms of the HUs for each slice via linear scaling of the CBCT values. For prostate cancer and head-and-neck cancer patients, the EDs obtained from converted CBCT values (mCBCT values) show good agreement with the EDs obtained from HUs, within approximately 3.0%, and the dose calculated on the basis of CBCT images shows good agreement with the dose calculated on the basis of the simCT images, within approximately 2.0%. Because the CBCT values are converted for each slice, this conversion method can account for variation in the CBCT values associated with differences in body size, body shape, and inner tissue structures, as well as in longitudinally displaced positions from the isocenter, unlike conventional methods that use electron density phantoms. This method improves on conventional CBCT-ED conversion and shows considerable potential for improving the accuracy of radiation treatment planning using CBCT images.

抽油机井恒功率变频控制系统研究

抽油机作为陆上油田最重要的机械采油装备之一,近年来已发展出一系列的变频节能技术,但其研究主要集中在硬件方面,缺乏相关基础理论,导致现场应用普适性差,应用效果参差不齐。为此,研究有杆泵变频测控机理,优选了主要部件,对测试数据提出了要求,形成了有杆泵抽油变频控制系统。构建BP神经网络系统对正常井和漏失、柱塞碰泵、气体影响等异常井进行识别,分类提出变频计算模型:考虑负扭矩和抽油机冲次界限等建立了正常井恒功率变频计算模型,实例对比分析了变频后抽油机速度、加速度变化规律,产液量一定时,负功功率和有功功率分别下降了65%和44%。建立了上行程漏失的异常井变频计算模型,针对性地提高上行程冲次,形成“上快下慢”运行模式。实例计算表明:该系统缩短上行程时间2.6 s,较好地解决有杆泵上行程漏失和变频节能的问题。研究成果可为抽油机变频技术提供理论支持,对油田节能和提产具有指导意义。

预制UHPC永久模板钢筋混凝土组合梁抗剪性能有限元分析

为了研究预制超高性能混凝土永久模板钢筋混凝土组合梁抗剪性能,选取合适的U型UHPC预制单元本构关系,建立了钢筋混凝土梁的有限元永久模型,并与已有的试验数据进行比较,验证了模型的可靠性,并分析配箍率、剪跨比等参数对超高性能混凝土组合梁抗剪性能的影响。结果显示:超高性能混凝土预制单元可显著提高斜向开裂荷载和极限荷载;预制单元会限制箍筋的作用,所以配箍率对组合梁影响小;剪跨比对组合梁抗剪性能影响大,但是和配箍率一样都会影响其延性。

迈腾B8前照灯结构及故障诊断逻辑分析

介绍了迈腾B8灯光系统的主要组成:灯具、开关、保险、接地、继电器、控制单元。进而介绍迈腾B8前大灯的组成及前照灯的灯光控制系统组成。归纳、绘制了迈腾B8的前大灯电路控制原理图,表述了相关的控制单元、用电设备、开关、继电器的关联。在迈腾B8的远光电路控制原理基础上,解释了LED前大灯的工作机理及近光、远光的电流路径。基于电流形成路径,总结了故障诊断时的电压、电阻检测条件、方法与结果。

船舶主动式冷梁空调系统的热舒适性实验研究

为研究主动式冷梁(ACB)在船舶舱室的热舒适性,基于某船舶舱室环境,采用实验方法对不同送风参数下的船舶舱室ACB空调热舒适性进行研究,并与传统的风机盘管(FCU)空调进行对比。实验结果表明,送风温度、送风量和送风角度分别增加时,室内热舒适性均呈现先升高后下降的趋势。送风温度、送风量和送风角度为20℃、80 m3/h、120°,室内的热舒适性均达到最佳。同时相较于基准工况,送风温度能降低PMV-PPD绝对值50%和10%;送风量可以降低了60%的人员竖直空气温差(VATD),75%和77.4%的PMV-PPD绝对值,提高了9.6%的空气分布特性指标(ADPI);送风角度可以分别降低20%的人员VATD、55.5%和54.5%的PMV-PPD绝对值,提高9.8%的ADPI。此外,ACB的室内热环境参数比FCU更平稳,人员VATD降低了1.5℃,热舒适性更高。

Natural frequencies analysis of a composite beam consisting of Euler-Bernoulli and Timoshenko beam segments alternately

Present investigation is concerned with the free vibration property of a beam with periodically variable cross-sections.For the special geometry characteristic,the beam was modelled as the combination of long equal-length uniform Euler-Bernoulli beam segments and short equal-length uniform Timoshenko beam segments alternately.By using continuity conditions,the hybrid beam unit(ETE-B) consisting of Euler-Bernoulli beam,Timoshenko beam and Euler-Bernoulli beam in sequence was developed.Classical boundary conditions of pinned-pinned,clamped-clamped and clamped-free were considered to obtain the natural frequencies.Numerical examples of the equal-length composite beam with 1,2 and 3 ETE-B units were presented and compared with the equal-length and equal-cross-section Euler-Bernoulli beam,respectively.The work demonstrates that natural frequencies of the composite beam are larger than those of the Euler-Bernoulli beam,which in practice,is the interpretation that the inner-welded plate can strengthen a hollow beam.In this work,comparisons with the finite element calculation were presented to validate the ETE-B model.

游梁式抽油机非圆齿轮传动设计与节能分析

[目的]针对游梁式抽油机存在系统效率低、能耗高、负载波动大的不足,对基于非圆齿轮传动的游梁式抽油机节能设计方案进行研究.[方法]在考虑非圆齿轮传动条件及其与曲柄载荷匹配原则的基础上,选取最优非圆齿轮节曲线,形成非圆齿轮节曲线的节能设计准则.通过仿真分析,获得不同非圆节曲线对应的能耗值,筛选出最低能耗对应的非圆节曲线,并结合CYJY10-4.2-53HB型号游梁式抽油机进行仿真和实验验证.[结果]1)仿真结果得到在同功率电机下耗能降低4.7%,在更小功率电机下耗能降低11%,与实验结果基本一致;2)基于非圆齿轮传动的游梁式抽油机,可大幅度降低抽油机输入轴的扭矩峰值和扭矩波动,降低能耗,实现节能.[结论]从节能和降低负载波动的角度来看,非圆齿轮传动对于圆柱齿轮更有优势.

机采系统优化设计软件应用与评价

为进一步摸索降低游梁式抽油机井单井能耗,提高游梁式抽油机井系统效率的高效途径,开展了机采系统优化设计软件现场应用。通过对比该优化方式与常规优化技术的参数差异,对检泵作业可优化调整的泵径、冲程和冲次等参数进行了深入细致的分析,建立软件模型,得出“大泵径、长冲程、低冲次”的设计理念,通过软件对生产井进行模拟优化。现场优化460口井,平均节电率达到34.18%,游梁式抽油机系统效率升高了11.92个百分点,取得了较好的节能效果,年创经济效益675.08万元,机采系统优化设计软件的应用为检泵井优化设计提供了手段。

型钢混凝土结构梁柱节点深化设计及施工技术研究

研究以工程实例为依托,论述了型钢混凝土结构中梁柱节点的深化设计方法及施工中的技术质量问题。通过对工程实例中3种复杂梁柱节点、设计方案及施工问题的探讨,以期为日后型钢混凝土结构梁柱节点的处理提供参考。

高速铁路多跨长联矮塔斜拉桥减隔震设计研究

多跨长联连续梁结构存在固定墩地震力大、延性部位震后不易恢复等问题,在高烈度震区抗震设计存在困难。为了解决高速铁路多跨长联矮塔斜拉桥的抗震设计问题,以某(65.65+8×110+65.65) m单索面预应力混凝土矮塔斜拉桥为研究对象,采用非线性时程积分方法,对单固定墩、刚构连续梁和摩擦摆支座隔震3种不同的抗震体系方案进行分析比选。研究结果表明,采用摩擦摆支座隔震体系方案优势明显,在地震作用下,与单固墩体系相比,桥墩横桥向墩底弯矩普遍减小70%以上,固定墩纵桥向墩底弯矩减小约80%;进一步通过摩擦摆隔震支座参数分析,确定了合适的支座参数,获得较好的支座变形量、墩顶剪力,减隔震效果明显。因此,在桥墩剪跨比小、下部结构刚度大的情况下,设置摩擦摆隔震支座后,可显著减小地震时下部结构的地震响应,使各个桥墩受力均匀,同时通过合理的支座设计可满足大震位移需求,并具有足够的自复位能力。

游梁式抽油机的常见故障及解决措施

通过分析游梁式抽油机的基本原理以及其在石油工业中的重要性,探讨了常见故障对游梁式抽油机性能和经济性的影响。研究发现,液压系统故障、密封装置失效和游梁磨损是影响抽油机正常工作的主要故障。这些故障会导致抽油机的抽吸能力和工作效率下降,增加能源消耗和维修成本。为此,本研究旨在通过深入研究游梁式抽油机的原理、故障及其影响,提出相应的改进措施和维护策略,以改善抽油机的性能和经济性。本研究的意义在于提高石油工业的生产效益和经济效益,增强我国石油工业的技术水平和竞争力。

宽轴比波束双频带北斗导航天线设计

[目的]为了有效拓宽北斗天线3 dB轴比波束宽度,提出一种加载寄生单元的开槽叠层微带贴片天线。[方法]通过叠层基板结构实现北斗双频带特性,并通过开槽拓宽双频段带宽,在贴片边缘切角实现双频带圆极化;同时在贴片周围加载L形寄生单元来拓宽天线的3 dB轴比波束宽度。[结果]实测和仿真结果吻合度较高,在北斗B1和B2频段的相对带宽为3%和7.5%;3 dB轴比波束宽度可达到180°和176°;增益最高可达6 dBi。在北斗接收机试验中,天线搜星数量能达到17颗以上,定位精度在米级以内。[结论]所设计的双频带北斗导航天线具有宽轴比波束宽度和高定位精度,研究结果可为小型北斗导航天线的设计提供参考。

路基边坡装配式锚杆框架梁防护技术研究

为适应现代化交通发展提出的安全、环保和可持续发展的要求,以福厦铁路为依托,结合具体工点从装配单元划分、预制、安装和连接四个方面开展了铁路路基边坡装配式锚杆框架梁防护方案研究,提出了一种适用于路堑边坡的装配式锚杆框架梁施工方案,分析了装配式锚杆框架梁边坡防护工程实施的经济可行性,提出了从装配单元预制和机械化安装两方面开展降本增效研究的建议,为后续装配式锚杆框架梁在铁路路基边坡防护工程领域的研究和应用提供一定的参考与借鉴。

组合梁桥双层单元模型计算方法与验证

钢-混组合梁在进行有限元建模时,关键在于如何有效模拟组合梁,建模方法的选取将直接影响主梁受力与位移的计算精度。为验证双层梁单元是否可以模拟组合梁计算,依托湖北赤壁长江公路大桥工程,以换算单元模型计算结果为基准,使用双层梁单元模拟在不同结构、不同荷载作用位置、不同单元长度、计入混凝土收缩与徐变状态下主梁各部分内力、应力、挠度差值的变化情况。研究结果表明:采用双层梁单元模型进行计算时,各部分内力、应力与换算单元模型计算结果相比,差值较小。建立双层梁单元模型时,单元划分长度、荷载作用截面是决定计算精度的重要因素。若将荷载作用于钢梁单元上,其计算误差更小。结构中计入30年混凝土徐变对计算结果的影响,两个计算模型中的计算方法虽有所不同,但各部分位移差值百分比均较小,计算结果相互吻合。

结构胶与螺栓混合连接的型钢-胶合木组合梁受力性能研究

为了研究螺栓连接及结构胶+螺栓复合连接方式下型钢-胶合木组合梁的受力性能,通过建立有限元三维实体模型进行参数化分析,改变螺栓间距、设置加劲肋及翼缘连接方式等参数,研究其对组合梁刚度、承载力和变形能力的影响规律和破坏机制。结果表明:钢-胶合木组合梁的破坏特征主要包括端部界面脱胶翘起、螺栓剪切及翼缘木材螺孔塑性变形和钢板局部屈曲;在组合梁上下翼缘外表面受拉压应力集中现象较为明显,施加荷载过程中,螺栓孔洞处会改变临近钢材和木材应力应变传递和分布路径,且容易首先发生屈服破坏;结构胶+螺栓复合连接可以有效增强组合梁的整体刚度,屈服荷载增幅为30.65%,可充分发挥翼缘承载能力。

基于Mooney-Rivlin模型的液压支架复位垫块自复位能力研究

顶梁可旋转自复位单元式支架可有效解决顶梁对顶板的适应性问题,复位垫块作为复位机构中最关键的零件,其材料性能决定单元式支架的复位能力。针对ZQ4000/19/40D型单元式支架对其顶梁复位能力进行分析。根据单轴拉伸试验获取不同材料参数,选择Mooney-Rivlin模型对不同材料的复位垫块进行超弹性力学分析,通过线性拟合试验获得了应力、应变曲线。使用有限元仿真验证不同材料的弹性力学性质,仿真结果与Mooney-Rivlin模型数值计算结果一致。研究表明,高弹力橡胶复位垫块具有最优的复位能力。

基于IMGRU-Seq2seq的自动问答方法研究

针对传统问答模型采用循环神经网络带来的梯度消失和网络退化的问题,提出一种基于IMGRU-Seq2seq(Identity Mapping Gated Recurrent Unit-Sequence to Sequence)的自动问答模型。通过TF-IDF方法对文本进行加权词向量表示;以门控循环单元为基础,将批标准化技术和线性整流激活函数相结合并添加恒等映射,从而构建IMGRU模型;将双向IMGRU作为问答模型的语义抽取单元,引入注意力机制和集束搜索算法,实现自动问答。实验结果表明,所提方法比现有方法BLEU、ROUGE-L分别平均提高18.87%、4.35%。