poster海报模板blueBevel_24x48

poster海报模板blueBevel_24x48

学术装腔Poster篇

学术会议的交流主要有两种形式:oral 和poster,就是所谓的口头和张贴两种。 poster,可以译为“海报”或“展板”,扼要展示自己或团队的工作,以供学术交流。 -------------------------------------------------------分割线------------------------------------------------------------------- 假装前言 话说我有这么门儿课,“学术写作”。留了个作业,找篇文献,做一个poster。2-3人小组作业,这个周日deadline。话说一开始我没有组,正打算单干呢,昨天课前正好撞见我的俄罗斯同学,她说我也没组呀,咱俩吧;她前一天刚报告了一篇文献,说咱就这个吧,我心想也不错,反正自己也没开始。 昨天晚上大概不到10点的时候,这位俄罗斯妹子发来了她的初稿(见图一),邮件里还说“我在这上面花了1个小时40分钟,公平起见吧,你是不是也得差不多花一样的时间捏?”我暗自思忖,行啊,无所谓。打开初稿一看,出了一身汗,全TM的工作量啊……不过心想她文章看了至少2遍吧,得嘞,开干吧。 图一. poster 初稿

从10点大约折腾到凌晨1点找素材,确定模板,然后睡觉去了。今天早晨8:30起的,起来就断断续续干这件事儿,但累计也得五六个小时了吧。我在晚上7点时候基本完成了这个poster,妹子给我挑了一些毛病,然后后面说“忽略那些小问题,我非常喜欢这个post er哈!”(你丫敢不喜欢……)8点半左右基本定型了,明天早起再最后看一眼。 闲言少叙,正题吧。 -------------------------------------------------------分割线------------------------------------------------------------------- 正文部分 先是一些关于poster的基本要点和原则: ?制作软件-PPT!poster的制作软件是PPT,以前一直以为是什么高级软件,但现在发现PPT这货还真是挺强大的。好在我PPT基本功还不赖,呵呵。 ?确定尺寸。这是制作poster第一步,也是很重要的一步是。比如A0,比如36x48 cm等等。这一方面取决于会议给出的标准规格,一方面取决于你要展示内容的多少。 如果会议给出标准那自然好,如果没有的话最好问清楚展板的大小。大老远飞过去,如果发现自己带的poster太大了,那就只能一直在旁边举着了。(个人观点是,横版的poster能容纳更多的内容,竖版的少一些。) ?模板来源:http://www.posterpresentations.com/html/free_poster_templates.ht ml#42x90 真是世界之大,什么都有,这是当时打算自己单干的时候找到的一个网站。里面给 出了各种尺寸的poster(见图二),大家按需下载。网站还给出了一个不错的视频教程(它的视频配乐很亮),初次接触的话可以简单学习一下。

学术会议海报模板

学术会议海报模板 软件工具: PowerPoint 海报的尺寸要求: 不同的会议,海报的大小要求可能略有不同。

AAMAS2019规定:The posters should need to measure maximum 1,18 m or 3.8 ft (height), and maximum 83 cm or 2.7 ft (length). 可以在PPT“页面设置”中设置大小。 背景:整张海报背景颜色不宜太花哨,也不宜太深,背景及其颜色要简单明快整洁。 分栏:栏与栏之间间隔3cm,纵向版面建议分2栏,横向版面建议分3栏。留白: 列与列、大段文字之间、图表之间都要注意留白。 在海报四周边缘留出最少4cm的空白。 字体: 可以用Helvetica, Times New Roman, Trebuchet, CenturyGothic。 据说无衬线字体(e.g. Helvetica) 通常要比衬线字体(e.g. Cambria) 好! 标题、标题栏、作者及其单位、海报主体、图注以及参考文献等,都可以设置成不同的字体,但同一类别的字体要相同。 字体大小:主标题字号> 小标题字号> 正文字号,主标题字号90-150,内容文字字号30-32。 图表: 使用图、表、照片提高直观效果,推荐使用量≥40%,用彩色图:.jpg或者.emf ,图片的质量:200-300dpi,避免拉扯失真。 在图表上放置小标题,图表的编号和命名和文字内容对应。 个人信息:可以放学校的Logo,可以在最下部留下联系信息。 最后:

制作好poster 后,先将其放大为100%。 这时如有问题,及时调整(如图片不清晰,及时更换图片格式)。然后存为PDF 版,保证打印出的纸版poster 无差异。

poster,session,模板

竭诚为您提供优质文档/双击可除poster,session,模板 篇一:学术装腔poster篇 学术会议的交流主要有两种形式:oral和poster,就是所谓的口头和张贴两种。 poster,可以译为“海报”或“展板”,扼要展示自己或团队的工作,以供学术交流。 -------------------------------------------------------分割线 ------------------------------------------------------------------- 假装前言 话说我有这么门儿课,“学术写作”。留了个作业,找篇文献,做一个poster。2-3人小组作业,这个周日deadline。话说一开始我没有组,正打算单干呢,昨天课前正好撞见我的俄罗斯同学,她说我也没组呀,咱俩吧;她前一天刚报告了一篇文献,说咱就这个吧,我心想也不错,反正自己也没开始。

昨天晚上大概不到10点的时候,这位俄罗斯妹子发来了她的初稿(见图一),邮件里还说“我在这上面花了1个小时40分钟,公平起见吧,你是不是也得差不多花一样的时间捏?”我暗自思忖,行啊,无所谓。打开初稿一 看,出了一身汗,全tm的工作量啊……不过心想她文章看了至少2遍吧,得嘞,开干吧。 图一.poster初稿 从10点大约折腾到凌晨1点找素材,确定模板,然后睡觉去了。今天早晨8:30起的,起来就断断续续干这件事儿,但累计也得五六个小时了吧。我在晚上7点时候基本完成了这个poster,妹子给我挑了一些毛病,然后后面说“忽略那些小问题,我非常喜欢这个poster哈!”(你丫敢不喜欢……)8点半左右基本定型了,明天早起再最后看一眼。 闲言少叙,正题吧。 -------------------------------------------------------分割线 ------------------------------------------------------------------- 正文部分 先是一些关于poster的基本要点和原则:

学术会议海报模板2

Figure 5: Reflection patterns using various connectors (reduced Fresnel magnitudes inside yellow box ) Introduction Optical Time Domain Reflectometry (OTDR ) is a common technique for detecting damage in fiber optic cables. The process involves transmitting a pulse of light down the optical fiber, analyzing the amount of light reflected back to the source, and displaying the reflection patterns on the OTDR screen. Connector Type The index of refraction of the patch vs. the test fiber was allowed differ by up to 10%, which created a mismatch at the junction of the two fibers. Four types of connectors were simulated to determine which produced the lowest reflection magnitude. Plotting the reflection response patterns from all four connection types shows that the Angled Physical Contact connector produced the lowest reflection (see Figure 6). Though much less expensive, Index Matching Fluid only has a lifetime of 2 years. Most optical fiber applications require 10 years life or more [3]. References [1] Sadiku , N .O . Matthew . Numerical Techniques in Electromagnetics [2]Newton , Steven A . Novel Approaches to Optical Reflectometry [3]Knapp , John . Characterization of Fiber -Optic Cables Using an Optical Time Domain Reflectometer (OTDR ) Fiber optic characterization using a simulated Optical Time -Domain Reflectometer (OTDR ) Robb P . Merrill Department of Electrical and Computer Engineering - University of Utah During characterization of short fiber optic cables of approximately 1 meter, Fresnel reflections pose a serious challenge to accurate damage detection. The Fresnel tail obliterates any small reflections that are produced by damaged sections of cable, and the damage is overlooked. Simulation Method The Finite Difference Time Domain method [1] was implemented in MATLAB to simulate a pulse of light traveling through the patch and test fibers. The following parameters used in the simulation were obtained from an actual OTDR system: Index of refraction (n) of test fiber = 1.4525, Wavelength (λ) of light pulse = 850 nanometers [3] . Pulse Duration 1 Abnormalities in the fiber, such as bends, cracks, connectors, and other abrupt changes in the refractive index create reflection spikes called Fresnel (“Fre'-nel”) reflections [2]. After a spike is detected, a significant delay occurs when the reflectometer ‘settles down’ from its saturated state. This delay is called a Fresnel tail (Figure 1). Figure 3: Simulated Fresnel Tail skews , then obliterates , the damage reflection at larger durations Figure 4: Common types of fiber optic connectors with relative reflection magnitudes shown 1 1.5 2 2.53 3.5 4 4.5 5 00.005 0.010.015 0.020.025 0.030.035 Travel Distance from Source (m) E l e c t r i c F i e l d (V /m ) 1 μ second 2 μ seconds 3 μ seconds 2 2.5 3 3.5 x 10 Figure 1: OTDR screenshot showing reflection spike from cable connector , and resulting Fresnel tail (area marked by bracket ) Figure 2: Simulated ideal response showing fiber damage (small reflection bumps ).Damage is visible because no Fres -nel tail is present . To determine the effect of the light pulse duration on the saturation level of the OTDR unit, one period of a raised cosine pulse was transmitted through the fiber at various frequencies. A pulse duration of 1 microsecond proved to be the most favorably responsive for the parameters of the simulation (see Figure 3). In real-world application, however, the duration must actually be smaller due to the relatively slow simulation speed vs. the physical speed of light. Summary Short fiber optic cables present many challenges that must be overcome in order to accurately detect fiber damage using OTDR . Pulse durations shorter than 1 microsecond, and Angled Physical Contact (APC ) fiber connectors are recommended to provide the greatest reduction in Fresnel reflection. By performing OTDR simulations, an optical systems engineer could understand the behavior of a fiber network and detect potential problems before actual production.

学术报告海报空白模板

学术报告海报空白模板 篇一:中国矿业大学学术报告海报模板 XXX 时间:X年X月X日(周日)下午14:30 地点:理学院X 讲座:XXXXXXXXXXXXXX 报告人单位:XXXX XXXX学习和科研工作简介 xxxx,男,汉族,xx省xx市xx县人,中共党员。xxxxx大学力学与建筑工程学院博士生,主要研究高xxx。在xxx等国际著名学术期刊发表SCI论文x篇,其中第一作者x篇,第二作者x篇,授权发表专利x项;多次参加国内外学术会议,并作口头报告;曾获博士研究生国家奖学金、中科院宁波材料所优秀学生、“优秀创新博士”、博士一等、硕士特等等奖学金多次。主持江苏省研究生科研创新计划等项目x项、参与“973”,国家自然科学基金等项目多项。 欢迎各位同学积极参加~ 篇二:2016.学术海报规范 1,学术海报内容: 1 学术报告 报告题目:******** 报告人: 姓名(职称) 报告时间:2016年*月*日(星期*)13:15 报告地点:化学楼化阶二

报告人简介:100字左右,可以无此项 热诚欢迎各位师生参加 -------(1,学术海报内容的时间地点,由报告人确定;2,海报的电子版,在做报告之前的一周左右,须由科研秘书在科研群里面发布消息;3,海报制作,将由科研秘书办理,并提前三天粘贴公布;4,须请报告人组织听众和现场拍照)------ 2,学术海报数量:一式四份。 贴到如下地方:化学楼一份;主楼大厅一份(若不让贴,送至大楼923室刘冠珠老师处,并说明情况); 六舍和七舍之间的宣传板一份;一食堂南侧的宣传板一份。 3,安排照相:照片不少于10张(其中PPT题目1张、学生听报告的全景照片4张、老师和PPT的全景照片3张、任意角度拍摄若干张)。 4,照相者在学术报告结束后及时将照片保存到化学楼208办公室。 2 5,填写学术报告登记表,交到科研处923刘冠珠老师处或化学楼208办公室。 篇三:学术报告海报的内容(2011年) 学术报告题目:涉及模糊数理论的若干应用和思考 报告人: 巩增泰教授 报告人单位:西北师范大学数学与信息科学学院数学系 时间:2011年11月12日(星期六)上午 8:30-10:30 地点:信息院综合楼六楼多媒体教室 巩增泰教授教学和科研工作简介

科学类Poster模板

Gap-Crossing Decisions by Red Squirrels in Fragmented Forests Victoria J. Bakker, University of California, Davis Rationale ?Knowing how mammals move in fragmented forests can aid in location of reserves and corridors. ?Questions exist about which factors control decisions of mammals to cross gaps in their preferred habitats. Objective To study factors for decisions by red squirrels (Tamiasciurus hudsonicus) to cross gaps in fragmented forests. Forest-clearcut edge at central Mitkof Island study site, Tongass National Forest, Alaska. Logging is the primary land use. Translocation of individual squirrels across gaps for release and subsequent tracking. Hypotheses ?Efforts to minimize predation risk, en- ergy expenditures, or encounters with territorial conspecifics were hypoth- esized to control crossing decisions. ?Predation risk was assumed higher in clearcuts than in forests because of lower overstory cover and lack of trees for escape. ?Energy expended per distance trav- eled was assumed higher in clearcuts due to higher shrub stem densities. ?Conspecific encounter rates were lower in clearcuts than forests. Methods ?Documented home ranges and terri- torial behaviors of squirrels living near clearcuts less than 10 years old. ?Induced movement by translocating individuals across gaps. ?Used radio-telemetry to document homing paths. ?Conducted call-back surveys along clearcut perimeters to determine con- specific defense levels. ?Used logistic regression to relate ex- trinsic factors, such as gap size, and intrinsic factors, such as body mass, to gap crossing probability. Results and Discussion ?Of 30 squirrels translocated at 5 clearcuts, 11 crossed clearcuts and 19 detoured along forested routes. ?Gap crossing probability was in- versely related to squirrel body mass and detour efficiency (η D ): ?Lighter squirrels were more likely to cross clearcuts. Squirrels in poor condi- tion may take more risks when moving. ?Squirrels were more likely to cross if detours were long, suggesting that squirrels assess distances of detours and that predation risk, energetics, or both influence crossing decisions. ?Squirrels choosing forested routes avoided the route with the greatest number of highly defended territories. ?Non-significant factors were crossing distance, clearcut size, clearcut age, and individual’s territorial behavior. Determinants of gap-crossing: Relationship be- tween detour efficiency, body mass, and gap-cross- ing probability, based on logistic regression. Acknowledgments: U.S. Environmental Protection Agency Office of Research and Development home distance Indirect home distance Direct = D η

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