VI-JWDEY中文资料

完整vi项目策划书VI项目策划书VI（Visual Identity）是企业形象标识系统，包括企业名称、标志、字体、颜色、等多个元素。

VI对企业品牌建设至关重要，可以提升品牌形象、建立品牌认知度和忠诚度。

本文旨在介绍一个完整的VI项目策划书，包括项目背景、目标、定位、策略等要素。

一、项目背景公司名称：XXXX有限公司公司简介：XXXX有限公司成立于20xx年，是一家专注于xxxx领域的创新型企业。

项目背景：由于市场竞争日益激烈，公司决定进行VI项目，提升品牌形象和市场认知度，增强品牌忠诚度和价值。

二、项目目标1. 提升品牌形象：通过VI项目，强化品牌形象，塑造专业、稳健、创新的企业形象。

2. 建立品牌认知度和忠诚度：通过VI项目微信精准定位、市场推广等措施，建立品牌知名度和忠诚度，提高市场竞争力。

3. 提高品牌价值：通过VI项目，提高品牌价值，扩大市场份额，增加品牌收益。

三、VI定位1. 定位理念：专业、稳健、创新。

2. 定位目标：以XXXX领域的创新技术和卓越服务为支撑，成为业内领先品牌，为客户提供最优质的服务和产品。

3. VI元素设计：符合公司定位理念和目标，主要颜色为深蓝色、绿色和白色，字体和排版简洁明快。

标志创新、简洁、易于辨识。

四、VI策略1. 完善VI系统：按照VI定位原则，完善VI系统，包括logo、字体、颜色、标志等元素，明确使用规范。

2. 推广VI形象：通过各种渠道推广VI形象，包括微信公众号、宣传册、名片等，提高VI形象知名度和认知度。

3. 与相关产业联动：与相关产业联动，建立良好的合作关系，加强产业协同发展，共同打造智能化、数字化产业园区。

4. 提升服务品质：加强企业内部管理，提高服务品质和水平，保证客户满意度，提高品牌忠诚度和价值。

五、项目计划时间节点 | 项目活动 | 负责人 | 备注---- | ------ | ------ | ----xx年x月 | 项目立项 | 总经理 |xx年x月 | VI策略制定 | 市场部主管 |xx年x月 | VI设计及定稿 | 设计师 |xx年x月 | VI标准手册制定 | 市场部主管 |xx年x月至xx年x月 | VI形象推广及宣传 | 市场部 |xx年x月至xx年x月 | 与产业联动沟通 | CEO |xx年x月至xx年x月 | 企业服务品质提升 | 服务部 |六、预期成果1. 优化VI系统，形成较为完整的VI标志系统。

LabVIEWLabVIEW is a highly productive graphical programming language for building data acquisition an instrumentation systems.With LabVIEW, you quickly create user interfaces that give you interactive control of your software system. To specify your system functionality,you simply assemble block diagrams - a natural design notation for scientists and engineers. Tis tight integration with measurement hardware facilitates rapid development of data acquisition ,analysis,and presentation bVIEW contains powerful built -in measurement analysis and a graphical compiler for optimum performance. LabVIEW is available for Windows 2000/NT/Me/9x, Mac OS, Linux, Sun Solaris, and HP-UX, and comes in three different development system options.Faster DevelopmentLabVIEW accelerates development over traditional programming by 4 to 10 times! With the modularity and hierarchical structure of LabVIEW, you can prototype ,design, and modify systems in a short amount of time. You can also reuse LabVIEW code easily and quickly in other applications.Better InvestmentUsing a Lab VIEW system, each user has access to a complete instrumentation laboratory at less than the cost of a single commercial instrument. In addition, user configurable LabVIEW systems are flexible enough to adapt to technology changes, resulting in a better bong-term investment.Optimal PerformanceAll LabVIEW applications execute at compiled speed for optimal performance. With the LabVIEW Professional Development System or Application Builder, you can build stand-alone executables or DLLs for secure distribution of your code. You can even create shared libraries or DLLs to call LabVIEW code from other programming languages.Open Development EnvironmentWith the open development environment of LabVIEW, you can connect to other applications through ActiveX, the Web, DLLs, shared libraries, SQL(for databases), DataSocket, TCP/IP,and numerous other e LabVIEW to quickly create networked measurement and automation systems that integrate the latest technologies in Web publishing and remote data sharing. LabVIEW also has driver libraries available for plug-in data acquisition, signal conditioning , GPIB,VXI,PXI, computer-based instruments,serial protocols, image acquisition, and motion control. In addition to the LabVIEW development systems, National Instruments offers a variety of add-on modules and tool sets that extend the functionality of LabVIEW .This enables you to quickly build customizable, robust measurement and automation systems.LabVIEW Datalogging and Supervisory Control ModuleFor high channel count and distributed applications, the LabVIEW Datelogging and Supervisory Control Module provides a complete solution. This module delivers I/O management, event logging and alarm management, distributed logging, historical and real-time trending, built-in security, configurable networking features, OPC device connectivity, and over 3,300 built-in graphics.LabVIEW Real-TimeFor applications that require real-time performance, National Instruments offers LabVIEWReal-Time. LabVIEW Real-Time downloads standard LabVIEW code to a dedicated hardware target running a real-time operating system independent from Windows.LabVIEW Vision Development ModuleThe LabVIEW Vision Development Module is for scientists, automation engineers,and technicians who are developing LabVIEW machine vision and scientific imaging applications. The LabVIEW Vision Development Module includes IMAQ Vision, a library of vision functions, and IMAQ Vision Builder, an interactive environment for vision applications. Unlike any other vision products, IMAQ Vision Builder and IMAQ Vision work together to simplify vision software development so that you can apply vision to your measurement and automation applications.Countless ApplicationsLabVIEW applications are implemented in many industries worldwide including automotive, telecommunications, aerospace, semiconductor, electronic design and production, process control, biomedical, and many others, Applications cover all phases of product development from research to design to production and to service. By leveraging LabVIEW throughout your organization you can save time and money by sharing information and software.Test and MeasurementLabVIEW has become an industry-standard development tool for test and measurement applications. With Test Stand, LabVIEW-based test programs, and the industry's largest instrument driver library, you have a single, consistent development and execution environment for your entire system.Process Control and Factory AutomationLabVIEW is used in numerous process control and factory automation applications.Many scientists and engineers look to LabVIEW for the high speed, high channel count measurement and control that graphical programming offers.For large, complex industrial automation and control applications, the LabVIEW Data logging and Supervisory Control Module provides the same graphical programming as LabVIEW, but is designed specifically for monitoring large numbers of I/O points, communicating with industrial controllers and networks, and providing PC-based control.Machine Monitoring and ControlLabVIEW is ideal for machine monitoring and predictive maintenance applications that need deterministic control, vibration analysis, vision and image processing, and motion control. With the LabVIEW platform of products including LabVIEW Real-Time for real-time deterministic control and the LabVIEW Data logging and Supervisory Control Module, scientists and engineers can create powerful machine monitoring and control applications quickly and accurately.Research and AnalysisThe integrated LabVIEW measurement analysis library provides everything you need in an analysis package. Scientists and researchers have used LabVIEW to analyse and compute real results for biomedical, aerospace, and energy research applications, and in numerous other industries. The available signal generation and processing, digital filtering, windowing, curve-fitting, For specialized analysis, such as joint time-frequency analysis, wavelet,and model-based spectral analysis, LabVIEW offers the specially designed Signal Processing Toolset.The Sound and Vibration Toolset offers octave analysis, averaged and nonaveraged frequency analysis, transient analysis, weighted filtering, and sound-level measurement, and more.Draw Your Own SolutionWith LabVIEW, you build graphical programs called virtual instruments (VIs) instead of writing text-based programs. You quickly create front panel user interfaces that give you the interactive control of your system. To add functionality to the user interface, you intuitively assemble block diagrams- a natural design notation for engineers and scientists.Create the Front PanelOn the front panel of your VI, you place the controls and data displays for your system by selecting ob jects from the Controls palette, such as numeric displays, meters, gauges, thermometers, LEDs, charts,and graphs.When you complete and run your VI,you use the front panel to control your system whether you move a slide, zoom in on a graph, or enter a value with the keyboard.Construct the Graphical Block DiagramTo program the VI, you construct the block diagram without worrying about the syntactical details of text-based programming languages. You do this by selecting objects (icons) from the Functions palette and connecting them together with wires to transfer data among block diagram objects. These objects include simple arithmetic functions, advanced acquisition and analysis routines, network and file I/O operations, and more.Dataflow ProgrammingLabVIEW uses a patented dataflow programming model that frees you from the linear architecture of text-based programming languages. Because the execution order in LabVIEW is determined by the flow of data between nodes,and not by sequential lines of text,you can create block diagrams that execute multiple operations in parallel. Consequently, LabVIEW is a multitasking system capable of running multiple execution threads and multiple VIs in parallel.Modularity and HierarchyLabVIEW VIs are modular in design, so any VI can run by itself or as part of another VI. You can even create icons for your own VIs, so you can design a hierarchy of VIs that serve as application building blocks. You can modify, interchange, and combine them with other VIs to meet your changing application needs.Graphical CompilerIn many applications, execution speed is critical. LabVIEW is the only graphical programming system with a compiler that generates optimized code with execution speeds comparable to compiled C programs. You can even use the LabVIEW profiler to analyse and optimize time-critical operations. Consequently, you increase your productivity with graphical programming without sacrificing execution speed.Measurements and MathematicsLabVIEW includes a variety of other measurement analysis tools. Examples include curve fitting, signal generation, peak detection, and probability and statistics. Measurement analysis functions can determine signal characteristics such as DC/RMS levels, total harmonic distortion (THD),impulse response, frequency response, and cross-power spectrum. LabVIEW users can also deploy numerical tools for solving differential equations, optimization, root finding, and other mathematical problems.In addition, you can extend these built-in capabilities by entering MATLAB or HIQ scripts directly in your LabVIEW programs. For charting and graphing, you can rely on the built-in LabVIEW 2D and 3D visualization tools. 2D tools include features such as autoscaling X and Y ranges, reconfigurable attributes (point/line styles, colors, and more)andcursors, Microsoft Windows users can employ OpenGL-based 3D graphs and then dynamically rotate, zoom, and pan these graphs with the mouse.Development SystemThe LabVIEW Professional Development System facilitates the development of high-end, sophisticated instrumentation systems for developers working in teams, users developing large suites of VIs, or programmers needing to adhere to stringent quality standards.Built on the Full Development System, the Professional Development System also includes the LabVIEW Application Builder for building stand-alone executables and shared libraries (DLLs）and creating distribution kits. In addition, the development system furnishes source code control tools and offers utilities for quantitatively measuring the complexity of your applications. With graphical differencing, you can quickly identify both cosmetic and functional differences between two LabVIEW applications.We include programming standards and style guides that provide direction for consistent LabVIEW programming methodology. The system also contains quality standards documents that discuss the steps LabVIEW users must follow to meet internal regulations or FDA approval. The Professional Development System operates on Windows 2000/NT/Me/9x,Mac OS, HP-UX, and Linux.LabVIEW Full Development SystemThe LabVIEW Full Development System equips you with all of the tools you need to develop instrumentation systems. It includes GPIB, VISA, VXI, RS-232, DAQ, and instrument driver libraries for data acquisition and instrument control. The measurement analysis add DC/RMS measurements, single tone analysis, harmonic distortion analysis, SINAD analysis, limit testing, signal generation capabilities, signal processing, digital filtering, windowing, curve fitting, statistics, and a myriad of linear algebra and mathematical functions. The development system also provides functions for direct access to DLLs, ActiveX, and other external code. Other features of the system include Web publishing tools, advanced report generation tools, the ability to call MATLAB and HiQ scripts, 3D surface, line, and contour graphs, and custom graphics and animation. The Full Development System operates on Windows 2000/NT/Me/9x, Mac OS, HP-UX, and Linux.LabVIEW Base PackageUse the LabVIEW Base Package, the minimum LabVIEW configuration, for developing data acquisition and analysis, instrument control, and basic data presentation. The Base Package operates on Windows 2000/NT/Me/9x.Debug License for LabVIEWIf you deploy LabVIEW applications, including LabVIEW tests for use with Test Stand, the debug license allows you to install the LabVIEW development system on the target machines so you can step into your test code for complete test debugging. This license is not intended for program development.虚拟仪器（LabVIEW）虚拟仪器是一种高效用于构建数据采集与监测系统图形化编程语言。

VI手册设计说明（福州外语外贸学院美术与设计系 14艺术设计五专1班周悦）摘要主要木艺主营业务和行业关系设计其视觉识别系统，很具该企业的行业特点设计了一个简洁的标志。

之后陆续设计了包括：办公用品系列、标识系列、广告系列、服饰系列交通系列、旗帜系列、环境系列等，合成为一套完整的设计。

整套产品具有鲜明的行业特征，无论从颜色和样式上都比较生动。

本设计主要运用了AI、PS这两款平面设计软件，完成了全部的矢量图形的绘制。

关键词：视觉识别 VI设计标志现代感矢量图形一、大利东方标志本标志是猫头鹰原型，以简单间接的线条勾画出猫头鹰形状，以黑色调为标志的主要颜色，使其更加系统的表现木艺的特点，简单明了的特点让观者印象深刻。

二、大利东方的辅助图形本册VI设计的辅助图形是线条和长方形，使其帮助观者提高对木艺的关注，更加明了清晰的表现公司的优雅环境。

三、大利东方VI设计的应用部分总体概括基础部分完成以后，必须通过多种传媒去应用才能进行传播，如名片、信封、广告牌等。

通过这些媒介，展示公司形象、文化、精神，与公众进行沟通。

又以统一化应用，反复加深印象，达到记忆和认知的目的。

1、大利东方员工服装为了更好的宣传公司的形象，增加公司的识别性、生动，服装采用了绿白搭配，显得格外的活力十足。

2、大利东方车体设计专用车是大利东方形象宣传重要的渠道，对内能产生提升形象的心理效果，对外是流动的公司形象。

1.待客用项目类洽谈会、会客厅、会议厅家具、客户用文具。

商品及包装类商品包装设计、包装纸、包装箱、包装盒、各种包装用的徽章、封套、封缄、粘贴商标、胶带、标签等。

2.符号类公司名称招牌、建筑物外观、招牌、室外照明、霓虹灯、出入口指示、橱窗展示、活动式招牌、路标、纪念性建筑、各种标示牌、经销商用各类业务招牌、标示。

3.帐票类订单、货单、帐单、委托单、各类帐单、申请表、通知书、确认信、契约书、支票、收据等。

4.文具类专用信笺、便条、信封、文件纸、文件袋、介绍信等。

VI基础设计项目1、企业标志设计□企业标志□标志墨稿□标志反白效果图□标志标准化制图□标志方格坐标制图□标志预留空间与最小比例限定□标志特定色彩效果展示2、企业标准字体□企业全称中文字体□企业简称中文字体□企业全称中文字体方格坐标制图□企业简称中文字体方格坐标制图□企业简称英文字体□企业全称英文字体方格坐标制图□企业简称英文字体方格坐标制图□企业全称英文字体3、企业标准色（色彩计划）□企业标准色（印刷色）□辅助色系列□下属产业色彩识别□背景色使用规定□色彩搭配组合专用表□背景色色度、色相4、企业造型（吉祥物）（酒店版无此项目）□吉祥物彩色稿及造型说明□吉祥物立体效果图□吉祥物基本动态造型□企业吉祥物造型单色印刷规范□吉祥物展开使用规范5、企业象征图形□象征图形彩色稿（单元图形）□象征图形延展效果稿□象征图形使用规范□象征图形组合规范6、企业专用印刷字体□企业专用印刷字体7、基本要素组合规范□标志与标准字组合多种模式□标志与象征图形组合多种模式□标志吉祥物组合多种模式□标志与标准字、象征图形组合多种模式□基本要素禁止组合多种模式VI应用设计项目1、办公事物用品设计□高级主管名片□中级主管名片□员工名片□信封□国内信封□国际信封□大信封□信纸□国内信纸□国际信纸□特种信纸□便笺□传真纸□票据夹□合同夹□合同书规范格式□档案盒□薪资袋□识别卡（工作证）□临时工作证□工作记事簿□文件夹□文件袋□档案袋□卷宗纸□公函信纸□备忘录□简报□签呈□文件题头□直式、横式表格规范□电话记录□办公文具□聘书□岗位聘用书□奖状□公告□维修网点名址封面及内页版式□产品说明书封面及内页版式□考勤卡□请假单□名片台□办公桌标识牌□及时贴标签□意见箱□稿件箱□企业徽章□纸杯□茶杯、杯垫□办公用笔、笔架□笔记本□记事本□公文包□通讯录□财产编号牌□培训证书□国旗、企业旗、吉祥物旗旗座造型□挂旗□屋顶吊旗□竖旗□桌旗2、公共关系赠品设计□专用请柬□邀请函及信封□手提袋□包装纸□钥匙牌□鼠标垫□挂历版式规范□台历版式规范□日历卡版式规范□明信片版式规范□小型礼品盒□礼赠用品□标识伞3、员工服装、服饰规范□贺卡□专用请柬□邀请函及信封□手提袋□包装纸□钥匙牌□鼠标垫□挂历版式规范□台历版式规范□日历卡版式规范□明信片版式规范□小型礼品盒□礼赠用品□标识伞□管理人员男装（西服礼装\白领\领带\领带夹）□管理人员女装（裙装\西式礼装\领花\胸饰）□春秋装衬衣（短袖）□春秋装衬衣（长袖）□员工男装（西装\蓝领衬衣\马甲）□员工女装（裙装\西装\领花\胸饰）□冬季防寒工作服□运动服外套□运动服、运动帽、Ｔ恤（文化衫）□外勤人员服装□安全盔□工作帽4、企业车体外观设计□公务车□面包车□班车□大型运输货车□小型运输货车□集装箱运输车□特殊车型5、标志符号指示系统□企业大门外观□企业厂房外观□办公大楼体示意效果图□大楼户外招牌□公司名称标识牌□公司名称大理石坡面处理□活动式招牌□公司机构平面图□大门入口指示□玻璃门□楼层标识牌□方向指引标识牌□公共设施标识□布告栏□生产区楼房标志设置规范□立地式道路导向牌□立地式道路指示牌□立地式标识牌□欢迎标语牌□户外立地式灯箱□停车场区域指示牌□立地式道路导向牌□车间标识牌与地面导向线□车间标识牌与地面导向线□生产车间门牌规范□分公司及工厂竖式门牌□门牌□生产区平面指示图□生产区指示牌□接待台及背景板□室内企业精神口号标牌□玻璃门窗醒示性装饰带□车间室内标识牌□警示标识牌□公共区域指示性*能符号□公司内部参观指示□各部门工作组别指示□内部作业流程指示□各营业处出口／通路规划6、销售店面标识系统（酒店版无此项目）□小型销售店面□大型销售店面□店面横、竖、方招牌□导购流程图版式规范□店内背景板（形象墙）□店内展台□配件柜及货架□店面灯箱□立墙灯箱□资料架□垃圾筒□室内环境7、企业商品包装识别系统（酒店版无此项目）□大件商品运输包装□外包装箱（木质、纸质）□商品系列包装□礼品盒包装□包装纸□配件包装纸箱□合格证□产品标识卡□存放卡□保修卡□质量通知书版式规□说明书版式规范□封箱胶□会议事务用品8、企业广告宣传规范□电视广告标志定格□报纸广告系列版式规范（整版、半版、通栏）□杂志广告规范□海报版式规范□系列主题海报□大型路牌版式规范□灯箱广告规范□公交车体广告规范□双层车体车身广告规范□Ｔ恤衫广告□横竖条幅广告规范□大型氢气球广告规范□霓红灯标志表现效果□直邮ＤＭ宣传页版式□广告促销用纸杯□直邮宣传三折页版式规范□企业宣传册封面、版式规范□年度报告书封面版式规范□宣传折页封面及封底版式规范□产品单页说明书规范□对折式宣传卡规范7□网络主页版式规范□分类网页版式规范□光盘封面规范□擎天拄灯箱广告规范□墙体广告□楼顶灯箱广告规范□户外标识夜间效果□展板陈列规范□柜台立式ＰＯＰ广告规范□立地式ＰＯＰ规范□悬挂式ＰＯＰ规范□产品技术资料说明版式规范□产品说明书□路牌广告版式9、展览指示系统□标准展台、展板形式□特装展位示意规范□标准展位规范□样品展台□样品展板□产品说明牌□资料架□会议事务用品10、再生工具□标准展台、展板形式□特装展位示意规范□标准展位规范□样品展台□样品展板□产品说明牌□资料架□会议事务用品□色票样本标准色□色票样本辅助色□标准组合形式□象征图案样本备注：
1、企划“整体规划”方案的“规范系统”并不独立成项，但是始终贯穿“基础”和“应用”两大系统，引导并有机的结合这两大系统，以保证企业形象的规范、统一；
2、可根据我们酒店自身实际需要来选择规范项目；
3、根据酒店管理公司和业主的特殊要求，双方协商解决。

伍德里奇计量经济学导论第六版英文课件Woodridge's Introduction to Econometrics, 6th Edition, is a comprehensive textbook that covers the fundamentals of econometrics in a clear and concise manner. The accompanying courseware is designed to help students further understand and apply the concepts discussed in the book.The courseware includes PowerPoint slides, practice quizzes, and interactive exercises to enhance students' learning experience. The slides cover the key topics in each chapter, providing visual aids to help students grasp complex concepts. The quizzes allow students to test their understanding of the material and receive immediate feedback on their performance. The interactive exercises provide hands-on practice withreal-world data sets, helping students develop their econometric skills.In addition to the courseware, students have access to online resources such as supplementary readings, video tutorials, and self-assessment tools. These resources are designed to support students in their learning journey and provide additional assistance when needed.Overall, Woodridge's Introduction to Econometrics, 6th Edition, is a valuable resource for students studying econometrics. The comprehensive courseware offers a range of tools to support students in their learning, making it easier for them to understand and apply the concepts discussed in the textbook. With its clear explanations and practical exercises, this courseware is an essential companion for students looking to excel in econometrics.。

VI全称Visual Identity, 即企业VI视觉设计VI系统视觉基本要素设计企业标志企业标志，可分为企业自身的标志和商品标志。

企业标志特点：其一，识别性。

其二，系统性。

其三，统一性。

其四，形象性。

其五，时代性。

企业标志设计作业流程：调查企业经营实态、分析企业视觉设计现状，其具体包括如下现状：其一，企业的理念精神内涵与企业的总体发展规划。

其二，企业的营运范围、商品特性、服务性质等。

其三，企业的行销现状与市场占有率。

其四，企业的知名度与美誉度。

其五，企业经营者对整个形象战略及视觉识别风格的期望。

其六，企业相关竞争者和本行业特点的现状等。

1、确立明确的概念。

2、具体设计表现。

3、标志作业的缜密化：其一，标志细部的缜密化。

其二，标志形态的数值化：一是方格化，二是比例尺寸标志法，三是圆弧角度标志法。

其三，标志形态的多样化：线条粗细的变化；正负形的变化；彩色与黑白的变化；各种点、线、面的变化（如空心体、网纹、点成面、线成面等）；对应不同媒体的形态变更；缩小或放大形态的变化。

企业标准字企业标准字是将企业名称、企业商标名称略称、活动主题、广告语等进行整体组合而成的字体。

企业标准字特征：其一，识别性。

基二，可读性。

其三，设计性。

其四，系统性。

企业标准字种类：其一，企业名称标准字。

其二，产品或商标名称标准字。

其三，标志字体。

其四，广告性活动标准字。

企业命名或更名：企业更名方案有以下几种情况：其一，全面变更公司名称，包括现有标准字、标准色等基本视觉要素。

其二，部分变更或简化企业名称，同时推出新的标准字、标准色。

其三，阶段性变更。

其四，统一企业名称和商标品牌名称。

其五，在企业名称的标准字和标准色不变的前提下，根据不同的使用场合，开发出适应不同场合的变化形式，以求达到形式变化的感觉。

标准字制图法：标准字制图法常用两种方法：其一，方格表示法。

其二，直接标志法。

企业标准色企业标准色，是指企业通过色彩的视知觉传达，设定反映企业独特的精神理念、组织机构、营运内容、市场营销与风格面貌的状态的色彩。

LabVIEWLabVIEW is a highly productive graphical programming language for building data acquisition and instrumentation systems. With LabVIEW, you quickly create user interfaces that give you interactive control of your software system. To specify your system functionality, you simplyassemble block diagrams —a n atural desig n no tati on for scie ntists and engineers. Its tight integration with measurement hardware facilitates rapid development of data acquisition, analysis, and presentation solutions. LabVIEW contains powerful built-in measurement analysis and a graphical compiler for optimum performance. LabVIEW is available for Windows 2000/NT/Me/9x, Mac OS, Linux, Sun Solaris, and HP-UX, and comes in three different development system options.Faster DevelopmentLabVIEWaccelerates development over traditional programming by 4 to 10 times! With the modularity and hierarchical structure of LabVIEW, you can prototype, design, and modify systems in a short amount of time. You can also reuse LabVIEW code easily and quickly in other applications.Better InvestmentUsing a LabVIEW system, each user has access to a complete instrumentation laboratory at less than the cost of a single commercial instrument. In addition, user configurable LabVIEW systems are flexible enough to adapt to technology changes, resulting in a better long-term investment.Optimal PerformanceAll LabVIEW applications execute at compiled speed for optimal performance. With the LabVIEW Professional Development System or Application Builder, you can build stand-alone executables or DLLs for secure distribution of your code. You can even create shared librariesor DLLs to call LabVIEW code from other programming languages.Open Development EnvironmentWith the open development environment of LabVIEW, you can connect to other applications through ActiveX, the Web, DLLs, shared libraries, SQL (for databases), DataSocket, TCP/IP, and numerous other protocols. Use LabVIEW to quickly create networked measurement and automation systems that integrate the latest technologies in Webpublishing and remote data sharing. LabVIEW also has driver libraries available for plug-in data acquisition, signal conditioning, GPIB, VXI,PXI, computer-based instruments, serial protocols, image acquisition, and motion control. In addition to the LabVIEWdevelopment systems, National Instruments offers a variety of add-on modules and toolsets that extend the functionality of LabVIEW. This enables you to quickly build customizable, robust measurement and automation systems.LabVIEW Datalogging and Supervisory Control ModuleFor high channel count and distributed applications, the LabVIEWData logging and Supervisory Control Module provides a complete solution. This module deliversI/O management, event logging and alarm management, distributed logging, historical and real-time trending, built-in security, configurable networking features, OPCdevice connectivity, and over 3,300 built-in graphics.LabVIEW Real-TimeFor applications that require real-time performance, National Instruments offers LabVIEW Real-Time. LabVIEW Real-Time downloads standard LabVIEWcode to a dedicated hardware target running a real-time operating system independent from Windows.LabVIEW Vision Development ModuleThe LabVIEW Vision Development Module is for scientists, automation engineers, and technicians who are developing LabVIEWmachine vision and scientific imaging applications. The LabVIEW Vision Development Module includes IMAQ Vision, a library of vision functions, and IMAQ Vision Builder, an interactive environment for vision applications. Unlike any other vision products, IMAQVision Builder and IMAQVision work together to simplify vision software development so that you can apply vision to your measurement and automation applications.Countless ApplicationsLabVIEW applications are implemented in many industries worldwide including automotive, telecommunications, aerospace, semiconductor, electronic design and production, process control, biomedical, and many others. Applications cover all phases of product development from research to design to production and to service. By leveraging LabVIEW throughout your organization you can save time and money by sharing information and software.Test and MeasurementLabVIEWhas becomean industry-standard development tool for test and measurement applications. With Test Stand, LabVIEW-based test programs, and the industry 's largest instrument driver library, you have a single, consistent development and execution environment for your entire system.Process Control and Factory AutomationLabVIEW is used in numerous process control and factory automation applications. Manyscientists and engineers look to LabVIEWfor the high speed, high channel count measurement and control that graphical programming offers. For large, complex industrial automation and control applications, the LabVIEW Data logging and Supervisory Control Module provides the same graphical programming as LabVIEW, but is designed specifically for monitoring large numbers of I/O points, communicating with industrial controllers and networks, and providing PC-based control.Machine Monitoring and ControlLabVIEW is ideal for machine monitoring and predictive maintenance applications that need deterministic control, vibration analysis, vision and image processing, and motion control. With the LabVIEW platform of products including LabVIEWReal-Time for real-time deterministic control and the LabVIEW Data logging and Supervisory Control Module, scientists and engineers can create powerful machine monitoring and control applications quickly and accurately.Research and AnalysisThe integrated LabVIEW measurement analysis library provides everything you need in an analysis package. Scientists and researchers have used LabVIEW to analyze and compute real results for biomedical, aerospace, and energy research applications, and in numerous other industries. The available signal generation and processing, digital filtering, windowing, curve-fitting, For specialized analysis, such as joint time-frequency analysis, wavelets, and model-based spectral analysis, LabVIEWoffers the specially designed Signal Processing Toolset. The Sound and Vibration Toolset offers octave analysis, averaged and nonaveraged frequency analysis, transient analysis, weighted filtering, and sound-level measurement, and more.Draw Your Own SolutionWith LabVIEW,you build graphical programs called virtual instruments (VIs) instead of writing text-based programs. You quickly create front panel user interfaces that give you the interactive control of your system. To add functionality t o the user interface, you intuitively assemble blockdiagrams —a n atural desig n no tati on for engin eers and scie ntists.Create the Front PanelOnthe front panel of your VI, you place the controls and data displays for your system by selecting objects from the Controls palette, such as numeric displays, meters, gauges, thermometers, LEDs, charts, and graphs.Whenyou complete and run your VI, you use the front panel to control your system whether you movea slide, zoomin on a graph, or enter a value with the keyboard.Construct the Graphical Block DiagramTo program the VI, you construct the block diagram without worrying about the syntactical details of text-based programming languages. You do this by selecting objects (icons) from the Functions palette and connecting them together with wires to transfer data amongblock diagram objects. These objects include simple arithmetic functions, advanced acquisition and analysis routines, network and file I/O operations, and more.Dataflow ProgrammingLabVIEWuses a patented dataflow programming model that frees you from the linear architecture of text-based programming languages. Because the execution order in LabVIEW is determined by the flow of data between nodes, and not by sequential lines of text, you can create block diagrams that execute multiple operations in parallel. Consequently, LabVIEW is a multitasking system capable of running multiple execution threads and multiple VIs in parallel.Modularity and HierarchyLabVIEW VIs are modular in design, so any VI can run by itself or as part of another VI. You can even create icons for your own VIs, so you can design a hierarchy of VIs and subVIs that serve as application building blocks. You can modify, interchange, and combine them with other VIs to meet your changing application needs.Graphical CompilerIn manyapplications, execution speed is critical. LabVIEWis the only graphical programming system with a compiler that generates optimized code with execution speeds comparable to compiled C programs. You can even use the LabVIEWprofiler to analyze and optimize time-critical operations. Consequently, you increase your productivity with graphical programming without sacrificing execution speed.Measurements and MathematicsLabVIEW includes a variety of other measurement analysis tools.Examples include curve fitting, signal generation, peak detection, and probability and statistics. Measurementanalysis functions can determine signal characteristics such as DC/RMS levels, total harmonic distortion (THD), impulse response, frequency response, and cross-power spectrum. LabVIEW users can also deploy numerical tools for solving differential equations, optimization, root finding, and other mathematical problems. In addition, you can extend these built-in capabilities by entering MATLAB or HiQ scripts directly in your LabVIEW programs. For charting and graphing, you can rely on the built-in LabVIEW 2D and 3D visualization tools. 2D tools include featuressuch as autoscaling X and Y ranges, reconfigurable attributes (point/line styles, colors, and more) and cursors. Microsoft Windows users can employ OpenGL-based 3D graphs and then dynamically rotate, zoom, and pan these graphs with the mouse.Complex Measurements Made EasyDespite the complexity of the underlying algorithms that implement these functions, you will find them easy to use. For example, a set of built-in measurement functions uses the new waveform data type to accept real-world, time-domain signal inputs directly from DAQ hardware and report results ready for charting, graphing, or the next stage of signal processing.Development SystemThe LabVIEW Professional Development System facilitates the development of high-end, sophisticated instrumentation systems for developers working in teams, users developing large suites of VIs, orprogrammers needing to adhere to stringent quality standards. Built on the Full Development System, the Professional Development System also includes the LabVIEW Application Builder for building stand-alone executables and shared libraries (DLLs) and creating distribution kits. In addition, the development system furnishes source code control tools and offers utilities for quantitatively measuring the complexity of your applications. With graphical differencing, you can quickly identify both cosmetic and functional differences between two LabVIEWapplications. We include programming standards and style guides that provide direction for consistent LabVIEW programming methodology. The system also contains quality standards documents that discuss the steps LabVIEW users must follow to meet internal regulations or other strict quality standards such as ISO 9000 certification or FDA approval. The Professional Development System operates onWindows2000/NT/Me/9x, MacOS, Sun, HP-UX, and Linux.LabVIEW Full Development SystemThe LabVIEWFull Development System equips you with all of the tools you need to develop instrumentation systems. It includes GPIB, VISA, VXI,RS-232, DAQ,andinstrument driver libraries for data acquisition and instrument control. The measurement analysis libraries add DC/RMS measurements, single tone analysis, harmonic distortion analysis, SINAD analysis, limit testing, signal generation capabilities, signal processing, digital filtering, windowing, curve fitting, statistics, and a myriad of linear algebra and mathematical functions. The development system also provides functions for direct access to DLLs, ActiveX, and other external code. Other features of the system include Webpublishing tools, advanced report generation tools, the ability to call MATLAB and HiQ scripts, 3D surface, line, and contour graphs*, and custom graphics and animation. The Full Development System operates on Windows 2000/NT/Me/9x, Mac OS, Sun, HP-UX, and Linux.LabVIEW Base PackageUse the LabVIEWBase Package, the minimumLabVIEWconfiguration, for developing data acquisition and analysis, instrument control,and basic data presentation. The Base Package operates on Windows 2000/NT/Me/9x.Debug License for LabVIEWIf you deploy LabVIEW applications, including LabVIEW tests for use with Test Stand, the debug license allows you to install the LabVIEW development system on the target machines so you can step into your test code for complete test debugging. This license is not intended for program development.虚拟仪器（LabVIEW）虚拟仪器是一种高效用于构建数据采集与检测系统图形化编程语言。

VI手册设计文字说明VIS前言：推行品牌识别设计，实施品牌形象战略，已经成为当代品牌市场竞争的基本战略。

通过视觉性的符号诉求，将抽象的精神内涵与产品特质、服务内容落实为具体可见的形式或符号，作统一性传播，从而达到突出品牌个性，塑造品牌形象的目的。

因此，品牌VI手册制定的目的就是将每个信息传达的设计要素，以简明正确的图解来说明“CI”传播的意向和规范各设计要素在实施中运用的尺度，以便将抽象理念运用到“CI”的整体传播中。

XXX品牌VI手册的内容分为两部分：基础要素系统、应用要素系统。

自发布之日起，各部门、各下属单位在使用过程中均应严格执行本手册所规定的各项规范，不得随意更改，以保证品牌形象的规范和统一性，在实施中如对手册中的规定有疑问或要进行修改与调整，应与本手册设计的公司联系。

XXX品牌标志，只有本企业和被企业认可的合作机构才拥有使用的权利，同时必须有维护标志版权及形象的责任。

本手册应严格管理，不得向无关人员提供。

A基础部分PART OF THE FOUNDATIONA-1标志规范SIGN CODEA-1.1 标准彩色标志标志是品牌视觉形象系统的核心，是品牌特征与品牌文化的图形化表述，它与企业标准字体、品牌色彩代表了品牌视觉形象的三大要素。

在淳天然应用设计项目的范围非常广泛，为了确保品牌形象的权威性和完整性，规范设计要求，在使用时不得误用以致产生不良影响。

注意事项：在一般情况下使用企业标志，应尽量使用提供的光盘电子文件，不建议使用标准制图绘制标志，尽量避免在重绘中出现误差。

A-1.2 标志释义标志以朴实的农民在田间劳作的形象为切入点，提取菜篮子跟凤凰的形象为创意点，将标志图形形象的结合。

给人一种朴实，天然，健康的感觉。

标志以深绿色为主色调，体现出一种绿色，天然，健康，安全的感觉。

标志整体表现出创新与变化的特点，区别于其他类型的标志，表现企业品牌的自有性，创造企业的独特个性风格，强调受众的视觉记忆，加强企业品牌的传播推广。

VI即（VisualIdentity）,第一篇：VI即(VisualIdentity),VI即（VisualIdentity），视觉识别系统，是CIS系统最具传播力和感染力的部分。

是将CI的非可视内容转化为静态的视觉识别符号，是传播企业经营理念、建立企业知名度、塑造企业形象的快速便捷之途。

VI设计特色1.忠实呈现品牌战略定位2.富有视觉冲击力3.富有美感和大品牌的气质4.吻合目标顾客的审美偏好5.具有显著记忆点与差异性6.应用的可操作性与低成本VI设计的流程1.调研（目标顾客审美偏好、行业与品类特性、企业文化与理念）2.品牌战略定位解读3.设计战略方向4.LOGO设计5.基础系统设计6.应用设计VI设计的基本原则VI的设计不是机械的符号操作，而是以MI为内涵的生动表述。

所以，VI设计应多角度、全方位地反映企业的经营理念。

A、风格的统一性原则B、强化视觉冲击的原则C、强调人性化的原则D、增强民族个性与尊重民族风俗的原则E、可实施性原则：F、符合审美规律的原则G、严格管理的原则H、差异性的原则VI设计的组成要素VI设计的基本要素系统严格规定了标志图形标识、中英文字体形、标准色彩、企业象征图案及其组合形式，从根本上规范了企业的视觉基本要素，基本要素系统是企业形象的核心部分企业基本要素系统包括：企业名称、企业标志、企业标准字、标准色彩、象征图案、组和应用和企业标语口号等。

1.企业名称企业名称于企业形象有着紧密的联系，是CIS设计的前提条件，是采用文字来表现识别要素。

企业名称的确定，必须要反映出企业的经营思想，体现企业理念要有独特性，在表现或暗示企业形象及商品的企业名称，应与商标，尤其是与其代表的品牌相一致，2.企业标志企业标志是特定企业的象征于识别符号，其表现形式可分为：1.图形表现（包括再现图形、象征图形、几何图形）；2.文字表现（包括中外文字和阿拉伯数字的组合）；3.综合表现（包括图形于文字的结合应用）三个方面。

vrvvheudy内衣品牌简介
Vvhedy内衣品牌注册于英国伦敦，总公司Tiger & Rose位于英国伦敦普拉德街.中国区运营商为武汉雅黛丽(ALDOLA)服饰有限公司。

Vvhedy主要面向25-35岁的中高端时尚消费人群，客群个性坚定，追求时尚，乐于将快乐传递给周围的人，享受美好家庭时光和孩子成长过程，或是懂得享受工作、关注自我。

Vvhedy开启行业零售新模式，满足消费者一站式购物，同时融合最具体验感的情景销售模式，引进先进体感试衣系统，实现购物新突破。

Vvhedy倡导半自助式无压力的购物体验，全新开设的门店空间，内设Sweet girl, Urban beauty, Fashion mother，Romantic sentiment & Red Baron等四大系列情景区域，采用时尚集合店理念，宽敞而时尚的购物环境为消费者带来完美的VVhedy式购物体验。