一种新的交通流视频检测方法

提出一种基于彩色虚拟检测线的交通流信息视频检测方法．该方法通过分析光照、车道和阴影等模型之间的相互关系来判断车辆的存在，提高车流量检测的性能．通过引入色彩饱和度信息、自适应背景更新和运动检测，有效地区分阴影和车辆；通过二叉决策树来分析车辆的压线过程，提高了车流量检测的可靠性；通过一维视频跟踪的方式，解决了车辆速度检测的难题．试验结果表明，所采用的局部区域检测方法大大提高了交通流信息检测的实时性，且车流量检测的准确率可提高到98％．     

关于C*-代数中的可逆元和酉元的凸组合

讨论了Hilbert空间上的C^*-代数A中的可逆群和酉群的一些关系，证明了C^*-代数A中的元素A是可逆的充要条件是存在两个非负实数λ1和λ2，且λ1≠λ2以及酉群中的两个元素U1和U2使得A=λ1U1 λ2U2，给出了λ代数A中范数不大于1的可逆元的全体闭包和酉群的一些关系。     

江苏盐城沿海滩涂发展生态旅游的初步研究

通过分析江苏盐城沿海滩涂的自然概况、旅游发展现状和存在的问题,认为该区域发展生态旅游应遵循可持续发展的观点,不仅应保护自然环境,还应保护社会环境和经济环境.提出了该地区应侧重发展科考旅游、田园风光旅游、动物观赏旅游和休闲度假旅游,并对生态旅游项目、旅游线路规划、环境保护对策进行了设计.     

太平沟大桥曲线箱梁顶推施工设计概述

太平沟大桥该桥全长358．8m，平面位于R=1380．965m圆曲线及L5=300m的缓和曲线上，是国内曲线连续顶推桥长最长、跨径最大的一座桥。详细介绍了太平沟大桥曲线箱梁顶推设计特点及施工设计要点。     

机械合金化工艺对Fe-Ni合金显微结构的影响

对机械合金化制备的Fe-Ni粉体利用X射线衍射(XRD)进行分析，得到了不同Ni含量和不同球磨时间Fe-Ni纳米晶的XRD谱．实验表明，w(Ni)=10％和20％时，Ni溶入Fe晶格，分别在球磨20h和50h后形成单一的a(bcc)相；w(Ni)=50％时，其先后经历了γ(fcc)→←a(bcc)正逆转变，在球磨120h后最终形成单一γ(fcc)相．无论是a(bcc)相还是γ(fcc)相．它们的固溶度均比块体Fe-Ni合金显著提高．w(Ni)=35％时，则始终是两相共存．对试样的XRD谱采用3种不同的方法测定了Fe-Ni粉体的晶粒尺寸和显微畸变，发现经球磨20h后，不同Ni含量的粉体均呈纳米结构，并随球磨时间延长，Fe-Ni纳米晶的晶粒尺寸下降而显微畸变上升．     

A Theoretical Approach for Estimating Fracture Toughness of Ductile Metals

Fracture toughness is very important when applying Damage Tolerance Design and Assessment Techniques. The traditional testing approach for obtaining fracture toughness values is costly and time consuming. In order to estimate the fracture toughness of ductile metals, the fracture mechanics theory, materials plastic deformation theory and materials constructive relationships are employed here. A series of formulae and a theoretical approach are presented to calculate fracture toughness values of different materials in the plane stress and plane strain conditions. Compared with test results, evaluated values have a good agreement.     

低成本纳米复合材料70％ CeO2·30％ NiO的合成及其催化性能的研究

分别选用水热,浸渍,柠檬酸络合燃烧,共沉淀方法合成了多种前驱体,再经过600 ℃煅烧处理4h,成功合成出纳米复合材料70％ CeO2·30％ NiO,对这些复合材料进行系统的XRD、BET、H2-TPR、O2-TPD表征和CO催化氧化性能测试.     

Erratum to: Hesperomyces virescens (Fungi,Ascomycota, Laboulbeniales) attacking Harmonia axyridis (Coleoptera,Coccinellidae) in its native range

正Published online:14 March 2014óScience China Press and Springer-Verlag Berlin Heidelberg 2014Erratum to:Chin.Sci.Bull.(2014)59(5–6):528–532DOI 10.1007/s11434-013-0060-1In the original publication of this paper,the first name and the last name of the first author has been documented     

On-chip natural assembly of silicon photonic bandgap crystals.

Photonic bandgap crystals can reflect light for any direction of propagation in specific wavelength ranges. This property, which can be used to confine, manipulate and guide photons, should allow the creation of all-optical integrated circuits. To achieve this goal, conventional semiconductor nanofabrication techniques have been adapted to make photonic crystals. A potentially simpler and cheaper approach for creating three-dimensional periodic structures is the natural assembly of colloidal microspheres. However, this approach yields irregular, polycrystalline photonic crystals that are difficult to incorporate into a device. More importantly, it leads to many structural defects that can destroy the photonic bandgap. Here we show that by assembling a thin layer of colloidal spheres on a silicon substrate, we can obtain planar, single-crystalline silicon photonic crystals that have defect densities sufficiently low that the bandgap survives. As expected from theory, we observe unity reflectance in two crystalline directions of our photonic crystals around a wavelength of 1.3 micrometres. We also show that additional fabrication steps, intentional doping and patterning, can be performed, so demonstrating the potential for specific device applications.