EI收录检索步骤与模板

EI收录检索步骤与模板以下检索步骤与模板下载地址：图书馆读者服务查收查引（页面下方）STEP 1 进入EI Village检索系统主页，网址如下：，或者：进入西电图书馆主页：，在“馆藏资源”栏目中选择“数据库导航”；在外文数据库序列中找到“EV Compendex（EI）文摘索引数据库”，点击进入数据库介绍页，按照【链接地址】点击进入Engineering Village平台；STEP 2 选择数据库：默认选Compendex；STEP 3 选择检索时段，如2012-2017；STEP4 选择检索字段，输入检索词，例如要检索作者“Li Yingle”论文的收录情况，一般可按以下4种方式检索：（1）利用作者字段（精确匹配）和机构字段相“与（and）”：作者(Author)：li, yingle or li, ying-le or li, y.l. or li, y.-l. or li, y. or yingle, li机构(Author affiliation)：xidian OR 710071注：以上作者姓名输入的是6种不同的标引格式，其中前2种较为常见，第3、4两种缩写格式相对少见，最后2种极少见。花括号 表示精确匹配。（2）利用作者字段（模糊匹配）和机构字段相“与（and）”：作者：li, y* ； 机构：xidian OR 710071注： * 表示截词，执行模糊匹配，li, y*可包含（1）中作者的前5种格式（3）如您的所有论文均包含某一特定作者（如您的导师），则可用该作者来限定：作者：(li, yingle or li, ying-le ) and (huang, j*) 或： (li, y*) and (huang, j*)（4）如果上述方式查不全，亦可通过题名字段试查，或用其它方式检索。STEP 5 执行检索：点击按钮“SEARCH”，进入检索结果界面；此时在该页面的左上部显示有所使用的的检索式，该检索式在制作检索证明时（见 Step 10）需要用到。STEP 6 选择记录：将属于自己论文的记录在其左侧方框中勾选；STEP 7 点击按钮下载（Download）按钮进入下载界面；STEP 8 选择Format（格式）为Text (ASCII)格式；STEP 9 选择Output（输出）为“Detailed record”格式【只有这种格式才有检索号或收录号】，点击下方按钮“Download Records”下载，将下载结果复制到Word中去；STEP 10 加上模板中的表头，填入检索式【见Step 5，须改为您自己所用的】和其它项目【检索时间段、命中篇数、检索日期须改为您自己的相应数据】，作证明文件，插入页码，打印并在委托人签字处签字，然后携带打印稿和电子版到图书馆西裙楼C101室查新站盖章。下页是检索模板示例：特别提示：（1）检索式中，AU表示作者字段，AF表示机构字段，WN是“within”的缩写，表示将检索词限定在相应的字段中，检索式中如果用 作精确限定，则其中的作者格式一定要与论文记录中的作者标引格式保持完全一致；如果作者有多种标引格式，则用or连接；（2）即使您在发表论文时，采用了“名前姓后”的署名方式，EI数据库一般仍会将其标引为“姓前名后”的规范格式。“名前姓后”的作者标引格式目前在EI数据库中已很少出现。数 据 库Ei Compendex检索时间段2012-2017检 索 式(li, yingle or li, ying-le or li, y.l. or li, y.-l.) WN AU) AND (xidian or 710071) WN AF)命中篇数3记录格式Plain text format检索机构教育部科技查新工作站G10机构地址西安电子科技大学图书馆检索/审核检索日期2017-4-24委托人声明：委托人已对本证明所列论文逐篇核对，确认无误，如有不实，由委托人承担全部责任。委托人签字：年 月 日Accession number:072310642323Title:Influence of a high-speed dielectric spherical particles movement on its scattering characteristicsAuthors:Wang, Mingjun; Wu, Zhensen; Li, Yingle Author affiliation:School of Science, Xidian University, Xian 710071, China Serial title:Chinese Optics LettersAbbreviated serial title:Chin. Opt. Lett.Volume:v 5Issue:n 4Issue date:April 2007Publication year:2007Pages:p 245-248Language:EnglishISSN:1671-7694Document type:Journal article (JA)Publisher:Science Press, Beijing, 100085, ChinaAbstract:The scattered field and differential scattered section (DSS) of a moving spherical particle with a high speed are investigated numerically. The coordinate and vector transformations are used to establish a theoretical basis for studying the laser scattering of a moving particle. The DSS of a moving spherical particle is explained by the electric and magnetic field from Mie scattering theory. Assuming the laser wavelength of 1.06μm, we compute the ratio of the laser DSS of the moving dielectric spherical particle to that of the static dielectric spherical particle, which changes with radii, speeds and scattering angles of the particle. The numerical results show that the laser DSS of the moving spherical particle is tightly connected with its speed and scattering zenith angle. If a spherical particle moves with high speed, the laser DSS due to movement of the particle could not be neglected. If the speed of the dielectric spherical particle is fluctuating, the Doppler effect and the frequency spectrum expansion play important roles.Number of references:13Ei main heading:Light scatteringEi controlled terms:Dielectric materials - Doppler effect - Magnetic fields - WavelengthUncontrolled terms:Differential scattered section (DSS) - Laser scatteringEi classification codes:701.2 Magnetism: Basic Concepts and Phenomena - 708.1 Dielectric Materials - 741.1 Light/OpticsTreatment:Theoretical (THR)Database:CompendexCompilation and indexing terms, Copyright 2007 Elsevier Inc. All rights reservedAccession number:073710810504Title:Characteristics of pulse wave propagation in the random rain mediumAuthors:Huang, Ji-Ying; Li, Ying-Le; Gong, Shu-Hong Author affiliation:School of Science, Xidian Univ., Xian 710071, China Serial title:Xian Dianzi Keji Daxue Xuebao/Journal of Xidian UniversityAbbreviated serial title:Xian Dianzi Keji Daxue XuebaoVolume:v 34Issue:n 4Issue date:August 2007Publication year:2007Pages:p 583-586+680Language:ChineseISSN:1001-2400CODEN:XDKXEPDocument type:Journal article (JA)Publisher:Science Press, Beijing, 100085, ChinaAbstract:Based on the transmission function of an electromagnetic wave in the random rain medium by the random system method, the expressions for the double-frequency correlation function and the intensity of a pulse wave are derived. The pulse fluctuation characteristic and the pulse broadening effect are investigated. The function relation of pulse group velocity with frequency and rain rate is obtained. The effects induced by the EM wave frequency and bandwidth on the pulse broadening velocity is studied and the simulated results are given in the mm band. The results show, based on the calculation in this paper, that the pulse broadening velocity of horizontal polarization wave is greater than that of the vertical polarization wave and that the pulse broadening velocity increases with an increase in bandwidth and rain rate.Number of references:7Ei main heading:Electromagnetic wave transmissionEi controlled terms:Polarization - RainUncontrolled terms:Rain medium - Pulse wave - Double frequency correlation function - Broadening - Transmission function - Pulse fluctuation - Pulse group velocity - Rain rate - Pulse broadening velocity - Polarization waveEi classification codes:711.1 Electromagnetic Waves in Different MediaTreatment:Theoretical (THR)Database:CompendexCompilation and indexing terms, Copyright 2007 Elsevier Inc. All rights reservedAccession number:04158105444Title:The prediction of optimal polarization character for a coated target in rain clutter at millimeter waves bandAuthors:Huang, J.-Y.; Ma, X.-W.; Lin, S.-L.; Li, Y.-L. Author affiliation:Box 273, School of Science, Xidian University, Xian 710071, China Serial title:Journal of Electromagnetic Waves and ApplicationsAbbreviated serial title:J Electromagn Waves ApplVolume:v 18Issue:n 5Publication year:2004Pages:p 627-635Language:EnglishISSN:0920-5071CODEN:JEWAE5Document type:Journal article (JA)Publisher:VSP BVAbstract:As a target is immersed in the rain medium, its detection and identification become difficult due to that scattering wave from the target is mixed with echoes from raindrops. These clutters induce a strong effect in millimeter wave band and the signal-versus-clutter ratio (SCR) is therefore deteriorated at the receiving terminal. In this paper, Lagrange multiplier method combined with iteration method is proposed to calculate the optimal polarization characteristics both for the transmitting and receiving antennas of radar to improve SCR for the coated target in rain medium. As an application for the method, polarization status of antennas with best SCR both for co-polarization channel and cross-polarization channel are obtained utilizing the rain statistic data of Xian, China. This hybrid method for calculating polarization parameters has applications in self-adaptive polarization matching of antenna in the electrical system.Number of references:4Ei main heading:Millimeter wavesEi controlled terms:Light polarization - Electromagnetic wave scattering - Radar antennas - Iterative methods - Lagrange multipliers - Frequency domain analysis - Matrix algebra - Computer simulationUncontrolled terms:Signal-versus-clutter ratio (SCR) - Co-polarized channelsEi classification codes:711 Electromagnetic Waves - 741.1 Light/Optics - 716.2 Radar Systems and Equipment - 921.6 Numerical Methods - 921.3 Mathematical Transformations - 921.1 Algebra - 723.5 Computer ApplicationsTreatment:Theoretical (THR)Database:CompendexCompilation and indexing terms, Copyright 2007 Elsevier Inc. All rights reserved