工期索赔值计算的动态分析法

动态分析法是近年来提出的计算施工延误工期索赔值的一种方法。该方法通过对某一施工延误发生前后网络状态差异的分析,来评定该延误对总工期的影响。作者在此基础上,引入了共同延误的概念,分析了共同延误作用下对总工期的影响和延误双方的责任分担。

水泥混凝土路面刻槽磨损程度三维检测方法

为了实现水泥混凝土路面刻槽磨损程度的自动检测,基于激光三角法实现了路面三维信息的采集与处理。结合刻槽三维数据的特点,通过数据插值技术和曲面拟合获取了刻槽区域的并行曲面,并建立了刻槽的三维空间模型,采用双重均值的方法实现了刻槽区域平均构造深度的计算。设计试验对三维检测方法和铺砂法进行了对比分析,试验结果表明,本文提出的三维检测方法比铺砂法有更好的稳定性;两种方法的检测结果绝对误差大部分集中在0.1 mm以内,且相关性高,从而证明了三维检测方法有一定的准确性和可靠性,可用于刻槽区域磨损程度的自动检测。

基于实例推理的并行设计成本计算

对成本估算模型进行分类,在此基础上提出了面向成本计算的产品模型。基于特征和实例推理,提出了基于实例推理的成本估算的关键技术和系统框架,最后介绍了应用实例。

基于优先执行关系闭包运算的事务可串行化判定方法

现代数据库技术支持并发用户,会产生大量的并发事务。为了提高数据库系统的性能和维护系统的一致性,必须保证事务并发执行的可串行化调度。可串行化检测是数据库系统中事务管理的关键技术,一般采用执行图的判定方法。从关系运算的代数方法出发,提出基于事务执行优先关系的闭包运算和由此建立的联合逻辑公式的计算,通过逻辑判定来检验并发事务的可串行化。通过定理证明和实例验证,该方法取得了同执行图判定相同的效果,而且判定更直观,更易于操作实现,不需要建立复杂的图数据结构和在图搜索中检测环是否出现。

模糊决策应用于并行CAPP中零件形面加工方法的提取

并行CAPP具有过程集成的特点 ,其相关过程交错同步 ,循序渐进地赵于完善。基于此 ,提出了模糊决策提取形面的加工方法 ,其优点是将基于规则的推理转化为模糊推理 ,降低了推理过程的匹配冲突。再则 ,在加工方法提取中能综合考虑时间与成本的因素 ,也是其特点之一。

对一种企业级电子表格引擎性能的研究和改进

Formula One是一个同Excel兼容的电子表格软件。美国某金融公司采用Formula One作为其大型基金监控系统的计算引擎。针对企业环境中电子表格计算的性能需求,提出了对Formule One原有并发控制机制的改进方法,详细介绍了一种遵守公平原则的电子表格锁管理器的设计,并给出了对比测试结果。

对象系统的组合交互计算

对象系统的计算是一个开放的、动态并发交互的过程 ,由系统与外部环境的动态交互以及系统内部各组件间的协同工作来完成 .对象系统的行为变化是系统内、外因有机统一的具体表征 ,因此不能把对象系统的静态组合构造和动态计算行为当作两个孤立的个体分而治之 .从这个统一原则出发 ,研究了基于组合构造模型的对象系统的交互计算 .组合构造模型设计将对象系统的主要计算特征纳入一个统一的抽象基调之中 ,通过定义基调上的一组关系 ,把对象系统的层次结构和内部协同工作有机地结合在一起 .在此基础上 ,给出了一个区分动作类型的交互演算 (S/R演算 ) ,描述了组合对象系统的动态行为和交互 ,较好地刻画出对象封装性、对象计算的事件驱动性、动态绑定以及对象系统内部的交互与并发等固有特征 .

分户供暖热负荷计算方法初探

采用分户供暖后,供暖热负荷的计算不但要计算户间传热,还必须考虑户内邻室传热的构成和发生概率。由于存在相邻房间供暖不同步因素,指出分户供暖系统设计时应计入户内邻室传热,邻室温差应根据与计算对象相邻房间的用热特点和围护结构组成进行估算,经过大量的调查研究,确定出相邻房间同期系数的经验取值,并提出了各级热负荷的计算方法。

线性代数方程组的并行计算

将从线性代数方程组并行计算的一个侧面,简要介绍线性代数方程组并行计算的研究现状.综合评述当前的研究成果,展望今后的发展前景,提出存在的困难与挑战.

基于RTSJ的嵌入式系统API的研究与应用

描述了一个基于RTSJ的应用程序接口,该API的功能是提供高级的并发实时计算结构,优化实时嵌入式系统开发。同时,部署和优化(在开销足迹/时间要求方面)实时Java应用程序到一个指定的Java处理器上。本文借助于实现电梯控制系统,说明这些API的使用方法。

塑料套管复合抽芯模具并行设计应用

信号线接插件塑料套管尺寸小、精度高,对内外螺纹的齿形、尺寸具有较高的要求,需进行适配及受力测试;针对这些特点设计的“内螺纹型芯旋转+内套轴向抽芯”自动脱模复合抽芯机构保证了内螺纹齿形、尺寸及内孔成型;经过理论计算得出塑料对内螺纹型芯的包紧力及旋转脱螺纹所需动力,并确定传动机构重要参数;在设计过程中,应用CAD/CAE/CAM进行并行协同设计、验证优化,缩短了模具设计制作周期;生产实践证明,模具结构设计合理,机构运行可靠,成型的塑料制品达到产品设计要求。

并行计算在车间调度问题中的应用

为了提高车间调度遗传退火算法的速度,提出了一种利用并行计算技术的加速方法。首先分析了遗传退火算法框架的特点,然后利用分析工具找出最佳可并行计算的环节,接着利用并行计算技术进行优化。通过实验,对算法优化前后性能进行了比较分析,结果表明了此并行计算方法的可行性和有效性。

白内障合并翼状胬肉患者行联合手术后的疗效观察

目的:观察白内障合并翼状胬肉患者行联合手术后的疗效。方法:对22例(平均年龄:59.05±8.70岁)并发白内障和翼状胬肉(长度2-5mm)患者进行前瞻性单中心研究,随访时间为3mo~1a。测定术前和术后3mo的平均角膜曲率(Kmean)、平均散光和最佳矫正视力(LogMAR)。观察术前角膜曲率和翼状胬肉大小与预测误差的关系。结果:共18例(81.8%)患者PE<±0.50D,4例(18.2%)患者PE为±0.50D~±1.00D,没有PE>1.00D的患者。手术前后眼轴长度无差异(P=0.77)。Kmean从术前42.994±1.536增加到术后43.324±1.479(P=0.105)。术后角膜散光由术前2.09±0.789D降至术后0.523±0.277D(P<0.05)。BCVA(LogMAR)从术前1.007±0.402显著提高到术后0.024±0.062(P<0.05)。角膜曲率变化与预测误差无相关性(r=-0.29,P=0.19)。翼状胬肉大小与预测误差无相关性(r=0.2997,P=0.17)。结论:超声乳化与折叠式人工晶状体植入联合自体结膜移植术的应用是一种安全有效的手术方法。

Concurrent Analysis and Design of Structure and Its Periodic Material

The specific good properties of cellular materials and composite materials, such as low density and high permeability, make the optimal design of such materials necessary and at- tractive. However, the given materials for the structures may not be optimal or suitable, since the boundary condition and applied loads vary in practical applications; hence the macro-structure and its material micro-structure should be considered simultaneously. Although abundant studies have been reported on the structural and material optimization at each level, very few of them considered the mutual coordination on both scales. In this paper, two FE models are built for the macro-structure and the micro-structure, respectively; and the effective elastic properties of the periodic micro-structure are blended into the analysis of macro-structure by the homogenization theory. Here, a topological optimum is obtained by gradually re-distributing the constituents within the micro-structure and updating the topological shape at the macro-structure until converges are achieved on both scales. The mutual coordination between the roles of micro-scale and macro-scale is considered. Some numerical examples are presented, which illustrate that the proposed optimization algorithm is effective and highly efficient for the micro-structure design and macro-structure optimization. For the composite design, one can see reasonable effects of the stiffness of base materials on the resultant topologies.

Multi-scale polarisation phenomena

Multi-scale methods that separate different time or spatial scales are among the most powerful techniques in physics,especially in applications that study nonlinear systems with noise.When the time scales(noise and perturbation)are of the same order,the scales separation becomes impossible.Thus,the multi-scale approach has to be modified to characterise a variety of noise-induced phenomena.Here,based on stochastic modelling and analytical study,we demonstrate in terms of the fluctuation-induced phenomena and Hurst R/S analysis metrics that the matching scales of random birefringence and pump–signal states of polarisation interaction in a fibre Raman amplifier results in a new random birefringence-mediated phenomenon,which is similar to stochastic anti-resonance.The observed phenomenon,apart from the fundamental interest,provides a base for advancing multi-scale methods with application to different coupled nonlinear systems ranging from lasers(multimode,mode-locked,random,etc.)to nanostructures(light-mediated conformation of molecules and chemical reactions,Brownian motors,etc.).

A spatial multi-scale integer coding method and its application to three-dimensional model organization

With the rapid development of digital earth,smart city,and digital twin technology,the demands of three-dimensional model data’s application is getting higher and higher.These data tend to be multi-objectification,multi-type,multi-scale,complex spatial relationship,and large amount,which brings great challenges to the efficient organization of them.This paper mainly studies the organization of three-dimensional model data,and the main contributions are as follows:1)A integer coding method of three dimensional multi-scale grid is proposed,which can reduce the four-dimensional(spatial dimension and scale dimension)space into one-dimensional,and has better space and scale clustering characteristics by comparing with various types of grid coding.2)The binary algebra calculation method is proposed to realize the basic spatial relationship calculation of three-dimensional grid,which has higher spatial relationship computing ability than 3D-Geohash method;3)The multi-scale integer coding method is applied to the data organization of three-dimensional city model,and the experiment results show that:it is more efficient and stable than the threedimensional R-tree index and Geohash coding method in the establishment of index and the query of three dimensional space.

土木结构损伤多尺度并发计算方法及其应用

大型土木结构的损伤破坏是跨尺度演化的结果,因此单一尺度下的结构分析难以正确地反映结构的非线性损伤失效过程。该文根据结构损伤在宏观、细观尺度下的不同特征建立结构一致多尺度模型,并通过多点约束法进行跨尺度关联,实现了结构整体线弹性响应分析和局部细节易损部位的细观层次上弹塑性损伤分析的并发进行。计算结果表明:该文提出的结构损伤多尺度并发计算方法能够兼顾结构整体上的线弹性响应和局部易损部位在细观层次上的塑性损伤特征,在对结构多尺度响应与损伤特征进行准确描述的基础上,能够获得结构易损局部的细观损伤状态、演化过程及其对结构宏观响应与失效的影响。

Simultaneous studies of pressure effect on charge transport and photophysical properties in organic semiconductors:A theoretical investigation

High-mobility and strong luminescent materials are essential as an important component of organic photodiodes,having received extensive attention in the field of organic optoelectronics.Beyond the conventional chemical synthesis of new molecules,pressure technology,as a flexible and efficient method,can tune the electronic and optical properties reversibly.However,the mechanism in organic materials has not been systematically revealed.Here,we theoretically predicted the pressure-depended luminescence and charge transport properties of high-performance organic optoelectronic semiconductors,2,6-diphenylanthracene(DPA),by first-principle and multi-scale theoretical calculation methods.The dispersion-corrected density functional theory(DFT-D)and hybrid quantum mechanics/molecular mechanics(QM/MM)method were used to get the electronic structures and vibration properties under pressure.Furthermore,the charge transport and luminescence properties were calculated with the quantum tunneling method and thermal vibration correlation function.We found that the pressure could significantly improve the charge transport performance of the DPA single crystal.When the applied pressure increased to 1.86 GPa,the hole mobility could be doubled.At the same time,due to the weak exciton coupling effect and the rigid flat structure,there is neither fluorescence quenching nor obvious emission enhancement phenomenon.The DPA single crystal possesses a slightly higher fluorescence quantum yield~0.47 under pressure.Our work systematically explored the pressure-dependence photoelectric properties and explained the inside mechanism.Also,we proposed that the exte rnal pressure would be an effective way to improve the photoelectric perfo rmance of organic semiconductors.