2016年秋 系联“应用系统变量(VAS)”运算化设计研究坊WORKSHOP

| 2016年秋 系联“应用系统变量(VAS)”运算化设计研究坊
| 2016 Fall Tuning Synesthesia VAS Computational Design WORKSHOP

时间：9月29日至10月7日，人数10-20
地点：北京（具体地址根据人数届时通知）
课程： 9.29-10.1(3天): 阶段1 Rhino & GH；10.2-10.7(6天): 阶段2 System & Design。课程以设计为主，软件为辅，用运算化知识开发与研究设计领域。
费用：A班: 全程(9天)，5200 RMB；B班: 阶段2 (6天)，4200 RMB
语言：英文和中文双语
适合人群：跨领域设计师，建筑、规划、景观、室内、产品、服装等；在职人员、自由职业、学生、研究人员均可，不同职业不同经验及视角将会拓展设计知识。

Curriculum研究课题

设计原型及系统变量(VAS)——本课程的核心内容，是当今世界领先且高效的运算化设计方法。课程旨在帮助学生了解并掌握一系列团队研究总结出来的系统理论与设计原型。在此之前，学生会先进行软件工具的学习，包括：Rhino 5，Grasshopper及插件还有Grasshopper内嵌的基于Python语言的编程。通过变量建模练习，帮助学生形成运算化设计的思维方式。
This course Design Prototype – Variations of Applied Systems (VAS) is designated as the advanced yet efficient entry to the latest computational architecture and design methodologies. The workshop highlights a series of collaborative research in system and prototyping as its goal. Prior to the research, advanced computational design tools and skills will be introduced; Those includes an introduction of Rhino and its plugin Grasshopper (GH)’s essentials, GH plugins, and python coding on GH.
运算化设计——可以控制设计过程的新型设计方式，基于算法逻辑并通过各种嵌入式编程应用于设计，已成为当今赤手可热的前沿设计手段。它已经被广泛运用于建筑设计、景观设计、室内设计、产品设计、家具设计、时装设计等各类领域，并有望在今后实现更多的创造性与可能性。
As an explicit approach of design, computational design bases on algorithmic logic and applies various inserted coding to design. Now it has become an increasingly popular design method. Through diversified explorations done by worldwide scholars, it has been widely involving in various kinds of design fields, such as architecture, landscape, interior, product design as well as fashion design. Of course, it will break the boundary with its potential grows in the future.

Schedule课程安排

Phase1阶段一：Software软件Rhino & GH

第一阶段是Rhino和Grasshopper之间的基础建模。与传统设计不同，参数化设计的本质基于算法，通过GH可以实现从算法到设计的过程。掌握GH的基本工具和工作流程后探索其核心概念——数据结构，充分理解生成机制，还会涉及一些GH插件比如Lunchbox、Weaverbird、Kangaroo、ladybug等。
In this phase, Students are going to learn essential software skills on rhino and grasshopper. Unlike traditional design, parametric design is, by nature, based on algorithmic processes. This approach to design is made possible by GH. In order to help students fully grasp its mechanisms, the emphasis will be placed on a thorough review of the software’s core concept of data structure (List and Tree). It also includes an introduction of several GH plugins such as, Lunchbox, Weaverbird, Kangaroo, and Ladybug.

往届学生Rhino和GH阶段作业

Phase2阶段二：系统与原型设计 System & Prototype + Design

第二阶段是关于系统研究与原型设计的开放设计课，目的在于增强学生对于当今设计与科技的深度理解，使学生能够在小组合作的项目中探索并应用新技能。学会把部分系统运用到设计中去，并体会改变参数如何引发设计结果的改变(功能和美学层面）。 设计过程中，也可以使用3D打印机建造模型。
研究议程请看：http://tuningsynesthesia.com/en/blog/variations-applied-systems-vas/
The highlight of Phase 2 features research lab of the system and prototyping with an open-forum for discussion. The goal of this research platform is to increase depth of students’ knowledge in contemporary design and technologies whereas it largely allows students to explore and apply their new skills through group projects. 3D printer is also available for students to fabricate their design.
See the research agenda at http://tuningsynesthesia.com/en/blog/variations-applied-systems-vas/

往届学生System阶段作业

Team 团队

| Workshop Director 研究坊主导师

Chie Fuyuki

冬木千枝

系联设计（Tuning Synesthesia）创始人、东京立教大学文学学士、普瑞特艺术学院建筑学硕士、曾就职于纽约Lindy Roy事务所、MAD事务所
Founder and Principal Designer, Tuning Synesthesia; M.Arch. Pratt Institute, B.F.A Rikkyo University; Previous Work Experiences: Roy Co., MAD Ltd., THAD.

| Research Team 研究坊团队

Group Photo at Summer Computational Design and Fabrication Workshop 2016 Beijing
From Left, 胡天宝, 覃泽昊, 覃立超, Chie Fuyuki, Julio Lemena, Helen Au, and Billy Brodus

系联设计 Tuning Synesthesia ( http://tuningsynesthesia.com/ )
微信公众号：tSynsth
系联设计是一支由多元背景的设计师与软件工程师组成的国际团队，致力于想法或过程让设计可持续。系联专注于“系统”研究并开发设计原型，把参数化运用在本地及国际各类设计项目中。团队还于2016年在北京开设了系列参数化设计工作坊。独特的跨学科系统研究涉及建筑学、计算机科学、自然科学、文学、艺术和音乐等，将其应用于多个设计领域如城市规划、建筑设计、幕墙优化、景观设计以及网络开发等。作为参数化设计的专业顾问，团队曾与多个事务所合作项目，且某些作品获得奖项，学术和实践项目成果斐然。
Tuning Synesthesia (TS) is an interdisciplinary team of designers and engineers, designeer, dedicated to a sustainable identity in design and its development. The team focuses on a thorough and proactive research of existing systems and design prototypes for application in design and architecture practice; the result of which has been publicly acclaimed in the format of a series of computational design workshops held successfully in Beijing in the year 2016. The team expertise extends to several areas in interdisciplinary system research, including architecture, computer science, nature science, literature, art and music; and applied to master planning, architectural design, building skin standardization, landscape design, and web application. As specialized consultants in computational design, the team has collaborated on projects with many global and domestic firms, some of which have been awarded notable recognition, both practical and academic.

往期优秀学生成果展示

更多往届各阶段学生作业及作品请到系联网站：http://tuningsynesthesia.com/en/blog/

报名方式

请发邮件至info@tuningsynesthesia.com。内容：课程选择（A/B班），姓名、性别、专业、所在城市、院校或单位、电话、微信，还有作品集或作品图片。我们将回复报名信息及微信群。
注意事项 ：自备笔记本电脑，必须使用Windows系统。电脑配置参考：CPU i7，内存8g，独立显卡1g以上。使用3D打印机需另外收费。