Fuzor 2021中文版介绍.ppt

AS500213Moving Toward the Future of Design with Generative Design in RevitLilli SmithAutodeskEsra AbumounsharStantecElisa AmbrassaENELSean FruinSigma AEC SolutionsDescriptionGenerative Design in Revit software was released last year for the first time in Revit 2021. This new suite of emerging tools enables generative design workflows that automate the creation and analysis of design options directly in the Revit context. This session will showcase the value that generative design brings to the design process, and demonstrate how analyzing more data-backed design options can lead to an enhanced design process. We will show how customers are using the tools to automate design exploration in their projects to optimize sustainability and efficiency and reduce construction waste. We’ll cover the product principles we use to prioritize new work and future directions. Finally, we’ll address the future of the product, where we intendto invest, and the road map for achieving our vision.Speaker(s)Lilli Smith, AIA, Sr. Product Manager at Autodesk, is an architect with apassion for re-envisioning the way that buildings are designed. Afterworking for several years as an architect, she joined Revit Technology asa fledgling start up and helped grow it to where it is today in almost everyarchitect’s tool box. She has gone on to work on many Autodesk toolsincluding Vasari, FormIt, Dynamo, Project Fractal and Project Refinerywhich recently graduated to a suite of tools for generative design studiesin Revit.Esra Abumounshar is the generative and computational design lead atStantec. She has been working on adopting computational and generativedesign tools and implementing them across her company. My workinclude Healthcare, High Ed, Mixed-use & Master Planning.Elisa Ambrassa is a Structural Engineer who is curious and passionateabout buildings, architecture and innovation. As a BIM Coordinator sheworks in the BIM Implementation unit of Enel, based in Rome, Italy,where she carries out coordination and automation of wind and solarplants desing and model checkings. She started her career in 2018 at anarchitecture and engineering office, where she designed structures,buildings and bridges. During my Master Degree she worked inSwitzerland applying BIM methodology in the context of seismicvulnerabily of masonry buildings.Sean Fruin is a Mechanical Engineer (EIT) who has an ardentfascination with automation and the exploration of computational designsolutions for the AEC industry. He has had the opportunity to learn manyaspects of the design industry, having worked in manufacturing, MEPdesigning, and General Contracting. Sean started Sigma AEC Solutions,a BIM consulting firm focusing on engineering and process improvementand is living his dream; having the opportunity to explore the latesttechnologies and acquire the knowledge to innovate, improve efficiencyand increase quality in the AEC industry.Safe HarborDuring the course of this presentation, we may make statements regarding future events and/or statements regarding planned or future development efforts for our existing or new products and services. We wish to caution you that such statements reflect our current expectations, estimates and assumptions based on factors currently known to us and that actual events or results could differ materially. Also, these statements are not intended to be a promise or guarantee of future delivery of products, services or features but merely reflect our current plans, which may change. Purchasing decisions should not be made based upon reliance on these statements. The statements made in this presentation are being made as of the time and date of its live presentation. We do not assume any obligation to update any statements we make to reflect events that occur or circumstances that exist after the date of this presentation. Autodesk, the Autodesk logo, 3ds Max, BIM 360, Forge, Revit, and other solutions mentioned by name are registered trademarks or trademarks of Autodesk, Inc., and/or its subsidiariesand/or affiliates in the USA and/or other countries. All other brand names, product names, or trademarks belong to their respective holders. Autodesk reserves the right to alter product and services offerings, and specifications and pricing at any time without notice, and is not responsible for typographical or graphical errors that may appear in this document.© 2021 Autodesk, Inc. All rights reserved.Why Generative Design?A stunning 40% of global energy is used by our built environment. Buildings alone consume 25% of our water, and building construction produces 30% of all global waste. Architects and engineers as designers of the built environment have a responsibility to take on these issues. Workflows like generative design have the potential to revolutionize the way we design by using goals and measurable outcomes to guide our designs.Architectural and engineering services have evolved from drawing by hand on paper and delivering it to others to build buildings. Autodesk digitized this process over 40 years ago with the advent of AutoCAD. We’ve evolved to Building Information Modeling and more efficient ways to deliver building instructions to the field. What we really want to do next is to pair human intelligence with machine intelligence so that we can use data-backed design decisions to create a better built environment.Over the past few years we’ve been exploring how generative design can help improve desig n and construction work. Autodesk Research experimented with generative design workflows to help us better optimize space during our Toronto office renovation a few years ago. We surveyed our employees about their preferences for collaboration, lighting, acoustics, and distance to the kitchen. Then used that data to guide the design. Different floor plan layouts are created and the design process keeps track of the scores for each of the preference metrics. These kind of automated design explorations are not new – generative designers have been using automated techniques for decades, but the have mostly been in the realm of research.Autodesk’s mission is to bring new technology to the market so that more people can use it an participate in the design process. You’re all are here today to hear about a new suite of generative design tools first added to Revit 2021 and updated in Revit 2022,and I imagine you want to understand more about what they are and who’s using them. You also may be wondering what new tools are under development and what is on our future roadmap. This talk will be split into 3 sections:1. What’s new?2. How are people using Generative Design?3. What’s next?1. What’s new?More resources on the generative design tools enhancements in Revit 2022.https://youtu.be/yv8Kcz1XGBgMore additions in Revit 2022.1https://youtu.be/LliPUgosPfYWhat’s new in Dynamo 2.10 (version in Revit 2022)https:///dynamo-core-2-10-release/What’s new in Dynamo 2.12 (version in Revit 2022.1)https:///dynamo-core-2-12-release-part-1-2/https:///dynamo-core-2-12-release-part-2-2/2. How are people using Generative Design?This section covers three customer use cases. Check out the presentations for more details.1. Building Mass GeneratorEsra Abumounshar, Generative Design Lead at Stantec, will show us a massingworkflow where she can evaluate different forms very quickly, keeping track of floorarea and pushing the designs back into Revit for further development. She willexplain how she enables many members of her team even those not skilled inDynamo to take advantage of these tools.2. RPC CoordinationSean Fruin, Director of Technology at Sigma AEC Solutions, will show us a workflow he developed to automate the design of reflected ceiling plans so that among other reasons he could free up his Friday evenings and maintain a healthier work life balance.3. Windfarm AccessFinally, Elisa Ambrassa, BIM Coordinator at Enel Green Power Corporation in Italy,will show us how she uses generative design to lay out access roads in a windfarm.She will explain that because the demand for windfarms is growing so rapidly andtheir company has so many projects to do, they can no longer design things likethese access roads manually - they MUST use automation to design and documentthem.3. What’s Next?Here is a brief summary of some of the things are working on for future releases:1. Generative Design to Core Dynamo: We are working on bringing a lot of thefunctionality that we developed for generative design, like file descriptions and images into Dynamo core. We have always had a Generative Design menu available fromDynamo for Revit, but this move to core will also enable generative design tools to be natively available for all of our dynamo enabled products like Formit, Civil 3D, as well as Dynamo Sandbox.2. Dynamo Player Updates: In recent months, we’ve seen a big increase in the numberof Dynamo Player users as more and more people discover the power of automating parts of their BIM workflows. This warrants making some updates to Dynamo Player. We plan to start by bring a lot of the updates that we’ve made in the Generative Design in Revit tools into Dynamo Player.3. Dynamo UI Updates: While providing tools to run Generative Design studies directlyfrom Revit is appealing to many users, we find that most of the value of generativedesign is in customization and being able to run specialized studies for individual design needs. We continue to see an increase in Dynamo use for BIM Automatin andGenerative Design. More and more people are investing in learning how to useDynamo. Therefore, we are investing heavily in improving the tools and giving Dynamoa user interface update, making it easier to express custom logic while making theexperience more visually appealing. We’ve heard a lot of feedback that Dynamo error messages can b e annoying and confusing so we’re working on making these messages and warnings, more helpful and less in the way. Organizing and annotating Dynamo scripts for use by others is vital when handing off a script. We’re enhancing groups with more room for notes, enabling groups within groups, and providing ways to collapsegroups down to just show their inputs and outputs to reduce visual distraction andcomplexity.4. Dynamo Node Auto-Complete We’ve heard a lot of people complain that they often getstuck trying to figure out which nodes can feed into others. Node Autocompleteaddresses these concerns by providing an applicable list of choices and even presenting the mostly likely nodes first.5. More Output Types: Going back to generative design outcomes, we want to expand thetypes of outcomes that are available for automated generation. We currently can create numbers and design thumbnails, but it would be really great if we could create more views of a design, assets like excel files, and data in charts to name a few of thepossibilities we think would be useful.6. Faster Energy Analysis Autodesk has many analysis tools that we want people to beable to access through whichever design tools they may be using. We are working on ways to speed up energy analysis with machine learning so that energy use intensity metrics can be studied while designing with Generative Design, Dynamo, FormIt, and/or Spacemaker.7. Spacemaker Synergies Spacemaker is a company that we have recently acquired –that is thinking about early stage design problems in a similar way. When you start a design by choosing a site it can imply a whole design space and come up with databacked options that you can compare against eachother. We’ve already released tools that make generative methods available to communities of designers who have never been able to access these ways of solving problems, and with the Spacemakeracquisition we will continue in similar and even more powerful ways, makingcustomizable tools available for more and more people. Analysis needs to be a pre-emptive part of the design process, to create a close collaboration with our existingcustomers and our new colleagues in Spacemaker and together building a future of outcome based designResourcesAU2021 Courses on Generative Design•Optimize Road Design with Dynamo for Civil 3D and Generative Design (CES500103)•Generative Design Using Dynamo for Multifamily Residential (AS500109)•HVAC System Selection with Generative Design (AS500212)•Two Weeks to Four Hours: How Populous Built Efficiency with Generative Design (AS500272)AU2020 Courses on Generative Design•Generative Design in Revit for Workspace Layout - Tomasz Fudala•Non-Geeks Guide to Optimizing Daily Workflows with Generative Design - Raquel Bascones Recio•Using Generative Design and Machine Learning for Faster Analysis Feedback - Varvara Toulkeridou•Generative Design at Hogwarts: Using Tech Instead of Magic - Jacob Small •Generative Design für Revit in der Praxis - Lejla Secerbegovic•Diseño Generativo en Revit para todos los públicos - Raquel Bascones Recio •Generative Design—Daylighting and CFD: A Practical Application for a Nonprofit - Luc Wing•Generative Design of Landforms with Dynamo in Civil 3D - Andreas LukaPast Years Autodesk University Courses on Generative Design and Project Refinery•Geometry Systems for AEC Generative Design: Codify Design Intents into the Machine •MEP Explore: Generative Design for MEP Designers•Getting Started with Generative Design for AEC•Using Generative Design in Construction ApplicationsDynamo Resources•Getting Started with Dynamo:https:///https:///learn/•Dynamo Forum for questions, inspiration:https:///•Design Script:http://designscript.io/DesignScript_user_manual_0.1.pdfhttps:///wp-content/links/DesignScriptGuide.pdfhttps:///Amoursol/dynamoDesignScriptGenerative Design Resources•Generative Design Primerhttps:///•Generative Design in Revit Help •Generative Design general education:https:///generative-design。

北冥有鱼，其名为鲲。

鲲之大，不知其几千里也；化而为鸟，其名为鹏。

--庄子《逍遥游》 Voxler®4.0中文教程本译文为使用Voxler4.0过程中的的一个中间产物，主要是对Voxler4.0的英文帮助文档进行了一个粗糙的翻译，同时在翻译过程中对有些概念和功能进行了比较系统的梳理和理解。

现分享给大家，希望对大家有用。

Voxler4.0是Golden Software有限责任公司出品的一款卓越的商业三维可视化软件，希望大家在法律法规的框架内使用该软件，尊重软件著作权。

您可以自由传播此文档，可以进行修改、勘误，但建议仅限于学习与研究之用而勿利用此文档进行盈利性的活动，本文档用于纯粹的商业用户是禁止的。

受译者水平和时间限制，译文肯定存在很多很多很多问题，请大家在使用此文档时，自行进行甄别，给予勘误,万分感谢。

译者：目录VOXLER用户界面概览 (4)VOXLER用户界面 (5)改变视窗布局 (6)工作表文档 (6)工作表命令 (7)标签视图 (7)工作表文档 (7)工作表窗口 (8)教程介绍 (10)高级教程 (11)关于文档的一个备注 (11)使用演示版本的教程 (11)开始VOXLER–教程 (11)课程1-装载数据-教程 (12)课程2–创建图形输出模块-教程 (14)2.1-创建一个散射图-教程 (14)2.2–添加一个边界框-教程 (15)课程 3–更改属性-教程 (17)3.1–改变符号颜色-教程 (17)3.2–显示标签–教程 (19)3.3–改变边框盒属性-教程 (19)3.4–旋转图形-教程 (20)课程 4–编辑工作表中的连接数据 (22)课程 5–使用计算模块–教程 (24)5.1–网格化数据-教程 (24)5.2–创建一个等值面-教程 (25)5.3–更改等值面属性-教程 (26)5.4–关于透明度的一个标注-教程 (28)5.5–过滤数据–教程 (28)课程 6–连接多个模块-教程 (32)6.1–添加等值线-教程 (32)6.2–改变透明度-教程 (34)课程 7-保存信息-教程 (35)7.1–保存一个项目-教程 (35)7.2–保存数据–教程 (36)7.3–保存图形–教程 (36)7.4–拷贝一个快照-教程 (36)7.5–捕获视频-教程 (37)课程 8–导入井体数据 (38)8.1–导入井口位置数据 (38)8.2–导入轨迹数据 (39)8.3–井的显示 (40)8.4–导入测井L OG数据 (40)8.5–在井体上面显示测井数据 (41)高级教程导引 (42)高程场-高级建议 (42)方法1 (42)方法2 (43)数学模块–高级建议 (45)Voxler 用户界面概览Voxler 使用多线程来保持用户界面反应灵敏，甚至对计算量较大的后台任务也反应灵敏。

Contents一、Fuzor 简介二、Fuzor 基础操作及功能三、碰撞检测四、输出动画一、Fuzor简介是由美国Kalloc Studios(卡洛克工作室)打造的一款虚拟现实级的BIM软件平台，首次将最先进的多人游戏引擎技术引入建筑工程行业，软件能实现双向实时无缝链接，具备同类软件无法比拟的功能。

开始界面导航控制工具控制相机设置场景设置双向实时无缝链接：Fuzor可以与建模软件（Revit）链接。

Fozor可以和Revit软件进行同步更新，而改变Fuzor也可以返回到Revit软件，在设计和视觉效果上打造了一个无缝连接的桥梁。

主流BIM数据支持：Fuzor2017不仅仅支持Revit数据双向实时无缝关联同时支持Navisworks数据单向无缝关联同时还支持整合Sketchup和Fbx格式的三维模型同时还增加支持直接下载到欧特克A360云Revit -Fuzor实时同步Revit -Fuzor实时同步Naviswork–Fuzor整合Sketchup-Fuzor整合导航控制功能：人物控制模式：人、车、轮椅模式；2D导航地图：为了帮助更加容易在项目中导航和识别位置，Fuzor加入了2D地图导航功能。

点选地图上某一点，视图将会瞬间移动所需位置。

为了更好的帮助位置确定，Fuzor的地图使用Revit中的轴网，同时还允许用户输入X，Y，Z坐标瞬移相机（或虚拟人物）到项目的特定点。

构件放置：Fuzor的构件放置功能使设计或设计概念得到身临其境的体验，通过Fuzor 的构件放置，可以浏览他们的项目构件库，放置构件直接进入他们的项目，或者另一个更快的方法，使用“选择地点”放置任何选定构件的副本。

实时材质和灯光编辑器：快速编辑材质，轻松地使用Fuzor材质编辑器。

通过材质编辑器可以改变现有材质的属性，添加纹理和凹凸贴图增加真实感，可以创建自己的材质在Fuzor 缓存文件中使用。

运用Fuzor的动态照明控制，可以调整一个单一的或整个空间的灯光的多个变量，并且可以看到他们的实时更新。

Surfer11 最新版中文教程_图文一、Surfer11 教程.................. . (1)第一课预览及创建数据 (3)第二课创建网格文件 (9)第三课创建等值线图 (14)第四课修改数轴 (27)第五课散点图数据点和图形图层的使用 (32)第六课创建一个剖面图 (48)第七课保存图形 (50)第九课增加透明度，色阶和标题 (58)第十课从不同的坐标系中创建图形 (63)第十一课自定义工具栏和键盘命令 (68)第十二课叠加图形层 (71)第十三课白化一个网格文件 (75)第十四课在工作表中更改投影 (79)二、汉化历程 (82)三、答疑解惑 ......................................................................... 89 CUPB第八课创建一个3D 曲面图 (52)一、Surfer 11教程程贤辅翻译 2012.10.20Surfer11版的帮助里面有一套非常好的教程，我希望能将它介绍给大家。

对于某些高手，可以也应该绕开，以免浪费您的宝贵时间。

其他朋友，如果您看了以下的教程，对您有帮助，那我就很高兴，也算我为我国的气象事业间接作了一点贡献。

该套教程共有14课，1到10 是初级教程，11到14是高级教程：1、预览及创建数据；2、创建网格文件；3、创建等值线图；4、修改坐标；5、散点图数据点和图形图层的使用；6、创建剖面图；7、保存图形；8、创建3D曲面图形；9、添加透明度、比色刻度尺和标题；10、从不同的坐标系统创建各类图形；11、自定义工具栏和键盘命令；12、覆盖图形层；13、白化一个网格文件；14、更改工作表中的投影。

我不知道我能不能完成所有的教程翻译工作，因为各种不可预计的因素会影响工作的进展。

尽量做吧。

想起40年前我为了制作一张等值图，要花费3天时间，用掉多少草稿纸和橡皮擦，要画出平滑的等值线还真不容易。