SA官方合作 | 欧洲顶尖建筑院校IAAC暑校项目-内有申研奖学金机会！

官方合作

暑/校/项/目

位于巴塞罗那的加泰罗尼亚高等建筑研究院IAAC，作为西班牙最具实力的建筑院校，被GraduateArchitecture(世界建筑网)评为世界上最顶尖的十所建筑学院之一。此次暑校项目SA作为中国唯一官方合作单位，享有独家报名优惠，同时参与过IAAC暑校项目的同学在申请院校时将有机会优先获得丰厚的奖学金哦！报名方式+独家优惠详见文末~

本次IAAC的暑校项目为全程线上英文授课，总共有四部分内容，主题为探索新工具在不同规模的新高级架构定义中的影响。学生可选择报名单个部分课程，也可以参与整个课程。每一部分课程都将由 IAAC 教员直接管理，让学生可以加入到互动、合作、开发项目、参与全球讲座并会见我们的国际专家和讲师。

Part 1

Computational Design

课程详情

高级切石术：

运算描述性几何体

ADVANCED STEREOTOMIC:

COMPUTATIONAL DESCRIPTIVE GEOMETRIES

“Stereotomy” is the art and science of cutting three-dimensional solids into particular shapes. Formulated in the 16th–17th century, stereotomy is valuable in contemporary architecture, and research about it continues today in various centers around the world. The reason for this is a sense of constructive rationalisation inherent to the discipline of stereotomy which permits the optimization of structural form through the knowledge of geometry and cutting techniques and to simplify it using advanced technologies and techniques for design and production of building elements.  

The course will focus on the design of shell structures with discretised building blocks for 3d printing technology. With the help of computational design workflows and optimization processes, we will deal with form finding exploration with live physics simulations, FEM analysis and stereotomic subdivision for the production of rationalised interlocking structural elements that can self-support structural loads. 

 Modular Stereotomy, Alexander 

Dommershausen & Iulia Lichwar

课程目标

At course completion the student will:

-Understand fundamental concepts of computational design

-Be introduced to logical algorithm thinking

-Have knowledge of basic concepts of generative design

-Be capable of generating parameterised processes

-Learn how to create dynamic modelling

-Be capable of creating parametric fabrication workflows

-Learn basic concepts of funicular structures

-Be introduced to basic structural analysis methods

-Learn about Stereotomic subdivision and voussoirs generation

导师简介

Rodrigo Aguirre

（Faculty）

Rodrigo Aguirre is a Nicaraguan architect specialised in the fields of Algorithmic design, parametric tooling, digital fabrication and manufacturing. He obtained his bachelor in architecture at UAM (American University) in Managua, Nicaragua and completed the two-year master in advanced architecture at the Institute for Advanced Architecture of Catalonia (IaaC) in Barcelona, Spain. He is a principal member of the computational faculty, and has acted as studio instructor for the masters program since  2014. His ongoing collaboration with the Institute´s REsearch + DEvelopment department and IAAC special projects has involved advanced form-finding and computational methods related to generative design. His labor as a ‘Tallerista’ has led to his involvement with workshops related to the translation of computational protocols to fabrication of physical prototypes.

Ashkan Foroughi

（Faculty Assistant）

Ashkan Foroughi is an architect and researcher, interested in multidisciplinary and multi scalar approaches in architecture. He holds a bachelor of architecture, followed by a master of advanced interaction at (IAAC-2018) and a postgraduate degree in 3D printing architecture (IAAC-2019), where he specializes in robotic additive manufacturing and computational design. Since then he has been involved as a computational designer and roboticist at IAAC, collaborating in an array of seminars, workshops and projects.

课程安排

Option 1：2021.07.05-2021.07.08

10:00 to 14:00 (Barcelona time – GMT+2)

Recommended to European, African, Asian and Australian participants.

– 8 hrs of live teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final GSS diploma certificate ceremony

Option 2：2021.07.05-2021.07.09

11:00 to 13:00 (America time – GMT-4)

Recommended to participants from all the time zones who are looking for a more flexible schedule. 

– 8 hrs of recorded teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final live GSS diploma certificate ceremony

主要工具

向上滑动阅览

Software

Rhinoceros 7.0. 

The 90-day trial version can be downloaded from 

the web: www.rhino3d.com/eval.html Other software to be specified by session.

Because Grasshopper 3D works best for the Windows operating system, we recommend students  to have an installation of Windows (preferable Windows 10 x64).  If you have an Apple computer, it is recommended that you install Windows on Boot Camp which will perform better than Parallels or VMWare.  It is recommended that you max out the RAM potential on your computer.

Plugins

All Grasshopper plugins will be provided by the instructors.

Hardware

8 GB memory (RAM) or more
At least 600 MB space in the hard drive
We recommend a compatible video card for OpenGL 4.1.

Operational System

Windows 10, 8.1 or 7 SP2 (Grasshopper 3D is only currently available for the Windows operating system. For this reason, every student is required to have an installation of Windows).

If you have an Apple computer, it is recommended that you install Windows on Boot Camp which will perform better than Parallels or VMWare.

Part 2

Urban Analyics

课程详情

城市分析：

大数据可视化

URBAN ANALYTICS：

UNDERSTANDING CITIES THROUGH BID DATA MAPPING

Data is everything, and is everywhere. From our social interactions to the way we work, there is not a single moment of our days that isn’t propelled nor generating some sort of data. These bits of information have saturated our cities radically transforming their productive sectors, and are now food for training models and AI, which are promising to drastically alter our perception of society. It became clear that quantity does not stand quality and data ownership, interoperability, scalability, and – more important – objectivity are key topics around which the future is currently being debated. 

These challenges call for designers and creative thinkers to reconsider our interactions with data. They demand innovative solutions that hack the current status quo and switch the paradigm from a mere bits-to-product extraction to a real citizen empowerment. Participants will be introduced to geospatial data analytics with a specific focus on the understanding and representation of urban patterns, following the question of what is the nature of the city through the lens of its services and urban fabric. 

 Iacopo Neri, Eugenio Bettucchi

课程目标

At course completion the student will:

- Manipulate and combine data  from different data source and data typologies

- Set up a flexible protocol to analyse different urban contexts in the world

- Learn the fundamentals of APIs

- Learn how to creatively represent geospatial data and how to create a web map

导师简介

Iacopo Neri

（Faculty）

Iacopo Neri’s research lies at the intersection between architecture, computer science and urban planning. He holds a Master of Science in Architecture with Distinction at The Polytechnic University of Milan, and a Masters in City and Technology at the IAAC – Institute for Advanced Architecture of Catalonia. He has been involved in teaching activities since 2015 at the University of Florence, The Polytechnic University of Milan, and at IAAC – Institute for Advanced Architecture of Catalonia, where he is currently faculty of urban computational design and part of the AAG’s Computational Urban Design Research Team.

Eugenio Bettucchi

（Faculty）

Eugenio Bettucchi is a civil engineer with a degree in Building Engineering & Architecture from Alma Mater Studiorum, University of Bologna (IT). He developed his thesis focusing on robotic material deposition based on real-time feedback. Actually he is senior designer at Noumena Barcelona, his interests and skills lie in computational design and digital fabrication. He is part of the IaaC assisting students in MRAC (master in Robotic and Advanced Construction) and MaCT master programme. He is also involved in the ROMI project (Robotics for Micro Farming) contributing to the development of autonomous aerial solutions.

课程安排

Option 1：2021.07.12-2021.07.15

10:00 to 14:00 (Barcelona time – GMT+2)

Recommended to European, African, Asian and Australian participants.

– 8 hrs of live teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final GSS diploma certificate ceremony

Option 2：2021.07.12-2021.07.16

11:00 to 13:00 (America time – GMT-4)

Recommended to participants from all the time zones who are looking for a more flexible schedule. 

– 8 hrs of recorded teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final live GSS diploma certificate ceremony

主要工具

向上滑动阅览

Software

– Rhinoceros
– Grasshopper 3D
– Code Editor (Visual Studio Code or PyCharm (Community) or Jupyter Notebook, etc.)
– Python 3.7
– Postman
– Adobe Photoshop

Hardware

8 GB memory (RAM) or more
At least 4 GB space in the hard drive

Operational System

- Windows 10

- Mac OS (10.14+)

- Ubuntu 16.04 or 18.04

All the exercises and topics are able to run in any operating system; however, we suggest to use the latest versions of your operating system.

Part 3

Design for Robotics

课程详情

机械臂设计逻辑：

机械臂远程遥控制造

DESIGN FOR ROBOTICS: 

FABRICATION THROUGH REMOTE CONTROLLED ROBOTS

Although reusing reclaimed material can significantly reduce the environmental impact in building construction, current design processes are not set up for this shift in thinking. Contrary to conventional practices, designing within the constraints of available material means that geometry and topology cannot be fully pre-determined. What if an industrial robotic arm had to perform different tasks in unknown environments? 

In order to challenge the conventional conceptual framework posed by notational systems, this workshop will focus on the design and fabrication of 2D no-standardised elements, offering the opportunity to develop experience on working with robotic sensor data and integrate the data into the computational design. The students will explore different design intentions through the definition of performance criteria parameters, which are constantly evaluated and adjusted in real-time.  The application generated at the end of the workshop will be the assembly of a mosaic using recycled leftover pieces where the closed-loop system will guide the robotic arm to choose the right piece in each step of the process. Participants will have the unique opportunity to remote control robots in IAAC and EDEK and will learn about the necessary technology to execute the project while having the possibility to design and make their own assembly processes.

IAAC – Master in Robotics and Advanced Construction

workshop 2.2 – 2020/2021

课程目标

At course completion the student will:

- Be introduced to integrated computational design and robotic fabrication
- Be introduced to robotic fabrication
- Learn the concepts of sensor feedback and machine vision
- Learn how to perform online robotic control methods

导师简介

Soroush Garivani

（IAAC Faculty）

Soroush Garivani  is an architect and researcher, interested in the multidisciplinary and multi-scalar approaches in architecture. He holds a Master in Advanced Architecture (2018) followed by a Master in Advanced Robotics and Construction (2019) from IAAC, Barcelona. His research explores integration of new fabrication methods, intelligent material systems, and computational tools. He has collaborated as a Computational designer with Appareil, Barcelona and The Alliance, Tehran. Currently he is working as a roboticist at Noumena.

Seyed Mobin Moussavi

（EDEK Faculty）

Seyed Mobin Moussavi is a Research Associate (and doctoral candidate) at the Tragwerksentwurf (TWE) at the University of Kassel. He holds a 5-year architectural engineering degree, as well as a master in science from Integrative Technologies and Architectural Design Research program (ITECH) at University of Stuttgart. In his master thesis “Design based on availability”, he introduces a design methodology for corrugated shell structures from folded sheet metal of variable geometries and properties, in which the design goal adapts to available material. Robotic fabrication of the project included object recognition, metal sheet folding and consideration of different metal spring back behaviour.

课程安排

Option 1：2021.07.19-2021.07.22

10:00 to 14:00 (Barcelona time – GMT+2)

Recommended to European, African, Asian and Australian participants.

– 8 hrs of live teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final GSS diploma certificate ceremony

Option 2：2021.07.19-2021.07.23

11:00 to 13:00 (America time – GMT-4)

Recommended to participants from all the time zones who are looking for a more flexible schedule. 

– 8 hrs of recorded teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final live GSS diploma certificate ceremony

主要工具

向上滑动阅览

Software

Rhinoceros 7.0. 

The 90-day trial version can be downloaded from the web: www.rhino3d.com/eval.html

Other software to be specified by session.

Because Grasshopper 3D works best for the Windows operating system, we recommend students  to have an installation of Windows (preferable Windows 10 x64).  If you have an Apple computer, it is recommended that you install Windows on Boot Camp which will perform better than Parallels or VMWare.  It is recommended that you max out the RAM potential on your computer.

Plugins

All Grasshopper plugins will be provided by the instructors.

Hardware

8 GB memory (RAM) or more
At least 600 MB space in the hard drive
We recommend a compatible video card for OpenGL 4.1.

Operational System

Windows 10, 8.1 or 7 SP2 (Grasshopper 3D is only currently available for the Windows operating system. For this reason, every student is required to have an installation of Windows).

If you have an Apple computer, it is recommended that you install Windows on Boot Camp which will perform better than Parallels or VMWare.

Part 4

Environmental Design

课程详情

环境设计：

计算建模与模拟

ENVIRONMENTAL DESIGN：

COMPUTATIONAL MODELLING AND SIMULATIONS

Over the last years, sustainability has become a key topic in the architecture, engineering, and construction industry. Professionals involved in AEC have the opportunity to impact change within the environment, and thus the responsibility to do so from a standpoint of knowledge and diligent evaluation. Aligned with the necessity for performance-aware design, a growing suite of environmental analysis and simulation tools are developed and readily available within mainstream CAD frameworks. Literacy around environmental data analysis and the ability to use environmental simulation as drivers of the design process is key to the toolset of the emergent architects, urban planners, and decision-makers. This workshop aims to take students through the complete workflow of evidence-based environmental design supported by a generative optimization framework to enable the exploration of vast design spaces.

Starting from the analysis of an existing unused plot or a site selected for rehabilitation, students will formulate the design problem, develop an optimization hypothesis, parametrically explore the wide solution space and propose an optimal solution supported by data. This hands-on investigation will enable students to apply state of the art analytical techniques to complex problems in real context.

 INTERLINK _ Stefana Zapuc; Teddy Fadous; Deniz Akyürek_Faculty:  Rodrigo Aguirre_ Faculty assistant: Ashkan Forough; Ivan Marchuk

课程目标

At course completion the student will:

- Learn key concepts of environmental analysis using parametric tools

- Understand concepts of multi-objective optimization

- Understand how to define sustainability      goals as measurable design parameters

- Learn to setup a generative optimization process

- Be capable to perform multi objective optimization on a parametric model

- Be able to set out an optimization strategy on a given problem

导师简介

Oana Taut

（Faculty）

Oana Taut is a Romanian architect with a Master’s Degree in Advanced Architecture from the Institute for Advanced Architecture of Catalonia. She obtained her first master degree in architecture at UAUIM in Bucharest, Romania and completed the two-year Master in Advanced Architecture at the Institute for Advanced Architecture of Catalonia (IAAC) in Barcelona, Spain. Oana’s professional aim is to design space from objective data, and materialize it in a sustainable way. Her interests include computation, genetic optimization, digital fabrication and immersive visualization technologies.

Her master thesis project developed in IaaC is a research on the topic of artificial intelligence as enabler of a renewed architectural process. During the last year she has also acted as student assistant for the Computation Seminar, and then for the Self-Sufficient Buildings Research Line. Before coming to IAAC Oana has worked as an architect in Ireland, involved in education projects locally and hospitality projects in the Middle East.

Ivan Marchuk 

（Faculty Assistant）

Ivan Marchuk is an architect and a computational designer with a background in both traditional and advanced architecture, urban planning, and design. Ivan obtained a Bachelor’s degree in Architecture from Moscow Institute of Architecture (2018) and completed the two-year Master in Advanced Architecture at the Institute for Advanced Architecture of Catalonia (IAAC) in Barcelona, Spain.

During the past couple of years, Ivan has participated in a broad variety of academic and professional projects, most of them tightly related to advanced computational tools and digital fabrication strategies. Ivan has also been involved in various academic activities and workshops at IAAC such as the “Complex Forming” and “Bifurcation” seminars (in 2020) and performed as a computational design student assistant at IAAC during the academic year of 2019-2020. At the moment Ivan works as a computational designer at External Reference Architects and works on computational research and education at the In_Generic online parametric bureau.

课程安排

Option 1：2021.07.26-2021.07.29

10:00 to 14:00 (Barcelona time – GMT+2)

Recommended to European, African, Asian and Australian participants.

– 8 hrs of live teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final GSS diploma certificate ceremony

Option 2：2021.07.26-2021.07.30

11:00 to 13:00 (America time – GMT-4)

Recommended to participants from all the time zones who are looking for a more flexible schedule. 

– 8 hrs of recorded teaching
– 8 hrs of live mentoring and exercises review
– 1 hr of IAAC summer lecture
– Final live GSS diploma certificate ceremony

主要工具

向上滑动阅览

Software

Rhinoceros 7.0. 

The 90-day trial version can be downloaded from the website www.rhino3d.com/eval.html

Other software to be specified by session.

Because Grasshopper 3D works best for the Windows operating system, we recommend students  to have an installation of Windows (preferable Windows 10 x64).  If you have an Apple computer, it is recommended that you install Windows on Boot Camp which will perform better than Parallels or VMWare.  It is recommended that you max out the RAM potential on your computer.

Plugins

All Grasshopper plugins will be provided by the instructors.

Hardware

8 GB memory (RAM) or more
At least 600 MB space in the hard drive
We recommend a compatible video card for OpenGL 4.1.

Operational System

Windows 10, 8.1 or 7 SP2 (Grasshopper 3D is only currently available for the Windows operating system. For this reason, every student is required to have an installation of Windows).

If you have an Apple computer, it is recommended that you install Windows on Boot Camp which will perform better than Parallels or VMWare.

学员要求

The workshop is open to all applicants with a bachelor degree related to the fields of Architecture, Design, Arts and Engineering willing to engage in the program. No previous extensive knowledge is required. The participants will receive lectures and classes to be introduced to the workshop’s topics, software and tools.

课程费用

单门课程 2560rmb/人

两门课程 4450rmb/人

三门课程 5520rmb/人

四门课程 6820rmb/人

可用SA学时兑换

（团报优惠可添加下方微信咨询）

申请方式

请长按下方二维码备注“IAAC”

添加老师咨询报名

Studio Alpha （SA）大巧筑人

SA于2009年最初创立，手握万枚名校offer！近几年中国地区哈佛，耶鲁，麻省理工，哥伦比亚大学，宾夕法尼亚大学，剑桥大学，伦敦大学学院UCL等学校offer录取数量最高记录保持者。SA长期专注的主要指导方向包括建筑设计、景观、城市设计和城市规划，辅以房地产、交互设计、室内设计和历史保护方向的指导。我们每年坚持记录并公布每位同学的录取结果，让所有录取统计都有据可查，想了解自己院校的前辈都申请到了哪里，请点击“一个都不能少“系列。

扫描二维码或点击文末阅读原文，填写留学评估，可以帮助我们更快地了解你现在的准备状态，并给予相应的建议。你所提交的信息将会严格保密。

SA留学评估二维码

22-23FALL建筑景观规划留学报名中

Studio Alpha 大巧筑人 | 2021 资费及服务

StudioAlpha大巧筑人

长按二维码咨询

微信号 : StudioAlpha

电话：15618520581

点击“阅读原文”，免费留学评估