徐逸航 / Gordon

上海包玉刚国际学校 在读高三学生

一位有着创客精神的17岁小创客，因为他的英文名字Gordon，我们大家都叫他狗蛋。他十分热爱动手制作，主持了多个项目：开源3d打印机，手势控制人机等。同时参加过许多创客马拉松，帮助数制工坊举办开源硬件工作坊。参加2015年科技部《浦江创新论坛－创客文化分论坛》并发表主题演讲。受邀拍摄中央电视台纪录片《中国人的活法》- 第二季第五集-我是创客，并于2017年2月1日在中央电视台新闻频道播出。（链接：https://v.qq.com/x/page/g0371c3yvlo.html）

近日，狗蛋被世界大学联盟成员之一的罗切斯特大学录取,准备攻读电子与计算机工程和经济双学位。即将迈入大学的他，又会创造出怎样的惊喜呢？

精彩内容

FABO Academy X, China, is a 3 week course into digital manufacturing and rapid prototyping. Here you will learn how to envision, prototype and document your ideas through many hours of hands-on experience with digital fabrication tools. The course is based on MIT’s How To Make Almost Anything class and Fab Academy global class and can be used as a stepping stone to enter the full Fab Academy course.

Fablab O Academy X｜“中国智造学术”是一个三周的数字制造和快速成型课程。在这里你将会学习到如何把你的想法通过几个小时的数字制造工具的实践操作来想象、塑型、记录。这课程基于麻省理工学院的How To Make Almost Anything（HTGAA）课程和Fab Academy 全球课程，由同济大学FABO实验室的团队来发，是简约版本，也是踏入完整的Fab Academy课程的基石。

第5期中国"数制"工坊基于美国麻省理工全球的网络“数制”课程基础开发的经典版本FABO Academy X |“数智学术X”(课程号码：FABOX2017-4)，时间在暑假：2017年7月3日－2017年7月23日，这是3周集中课程，尤其适合本地或者外地集中时间的学员。

 "地书"机器人: 

学生在FABO Academy X中学到的知识等同于FAB Academy的前九节课。 今年，FABO Academy的第十节课是设计制造机器人，学生将在上海的两周课程里制作出这个不可思议的机器。

https://v.qq.com/txp/iframe/player.html?vid=t1316ze3s83&width=500&height=375&auto=0

如果你想完成像“地书”这样有趣的项目，来FABO Academy X就对了！

Travis Russet和胡赵伟设计了”地书“机器人，一个能在大平面上运动的CNC 绘图机，用毛笔和水画中文字符。机器人有3D打印的部件，步进和直流电机，激光切割部件，并由Arduino电子板和CAM软件控制。

FABO Academy X is the little brother of Fab Academy. It is a shorter course teaching you the fundamentals of digital manufacturing. FABO Academy X is based on MIT Fab Academy global class and can be used as a stepping stone to enter the full Fab Academy course.

If you have completed Fablab O, FABO Academy X and choose to take the Global Fab Academy course, the tuition fee for Fab Academy X will be deducted from the Fab Academy tuition fee.

Anyone interested in getting stated in making, getting all your ideas out in real life. No previous experiencein digital fabrication is needed,we will start from the beginning, the only requirement is determination, self motivation and an interest to learn.

You will learn the following digital fabrication tools and workflows.

•   Laser cutter.

•   Milling Machine.

•   3D printer.

•   2D & 3D design tools.

•   Basic electronic design.

•   Producing your own circuit boards.

•   Programming AVR micro controllers.

•   Building a Documentation Website.

Part 1: DESIGN 

1.  Intro & Prep,Documentation & Project Management.

2.  2D Design softwares, Computer Controlled Cutting.

第一部分 设计 

1. 介绍&准备，归档和项目管理

2. 2D设计软件，数控机床

3. 3D扫描，3D 建模介绍

第二部分 制造 

1. 加式制造：3D打印，3D建模软件

2. 减式制造：数控机床铣切,参数化设计

3. 电子制造：精准CNC PCB切割

第三部分 自动化

1. 电子设计

2. 嵌入式编程

3. 最后产品记录及展示

GENERAL CLASS STRUCTURE

The principal for teachingis hands on learning: keeping the theory short but dense before continuing onpractical applications. This cycle will be repeated several time during theday.

Theory Lecture：Video/Slide Presentation(15-20 min)

Practical Lecture: Machine Training,Practical Application

实践操作是教学宗旨：在实际应用前保持理论的短小精悍，一天反复几次。

理论讲座：视频/PPT展示（15-20分钟）

实践讲座：机器熟练操作，实际操作

Each individual documents their progress for each day, resulting in a personal portfolio of technical accomplishments. Former students use Bootstrap framework for building a documentation webpage：https://faboshanghai.github.io

一周日程安排| Weekly Schedule：

Introduction to what a FabLab is and is not. Introduction to buildingthe documentation web page and ideation process understanding the principles ofproject management. Learn how to use 2D Graphic and 3D Modeling softwares and starttraining on cutting tools and 3D scan.

Overview of what a Fablabis, its rules and the Fab Charter. Installing softwares needed for the comingweeks. Using Bootstrap framework for building a documentation webpage.Understanding the 12 steps of project management and Spiral development.

Assignment:

1.  Read the fab charter and reflect what it means in practice.

2.  Buildand upload your web page.

3.  Understand the how and why of spiral development.

Learning outcomes:

· Understand the Fablab philosophy.

· Know how HTML code and CSS style sheet are used.

· Understand the how and why of spiral development.

Softwares: Brackets, Sublime Text, Bootstrap

课堂 1：FABLAB 是什么？学习记录，项目管过程

Investigating 2D design tools.Learning key concepts of design. Understanding the possibilities andlimitations of laser and vinyl cutting.

Assignment:

1.  Design and make a name tagwith a stand and press fit joints. (Laser cutter)

2.  Design and make a stickerstarting from a raster image. (Vinyl cutter)

Learning outcomes:

· Learn the basic operations of 2D Graphic softwares and understand the difference between vector and raster images.

· Be comfortable going from a 2D design to the cutting tool.

· Know what kerf is and how to compensate for it in the design.

· Optimize the use of material.

Softwares: Inkscape, Rhinoceros

Machines:Laser Cutter, VinylCutter

Learn how to digitize thephysical world using the 3D scanner. Understand how a 3D Modeling softwareworks and use it to modify the file and prepare it for printing. 

Assignment:

1.  Scan a person with a 3DScanner.

2.  Repair the mesh and designa base or pedestal with an inscription.

3.  Prepare the model to beprinted as a little bust.

Learning outcomes:

· Understand the advantages and limitations of 3D Scanning.

· Learn the basic operations of 3D Modeling softwares.

· Understand the difference between mesh and solid shapes.

Softwares: Rhinoceros, Skanect, Meshmixer

Device: 3D Scanner

An overview of differentmanufacturing techniques such as additive and subtractive manufacturing, theiradvantages and limitations and applications. Understanding how the machines work,what are the materials available and learning how to draw models that comply tothe design rules of each machine. Introducing precision CNC milling for PCB andlearning soldering techniques.

第二部分：制造

不同制造技术的简介与综述，例如加式和减式制造，他们的优势，局限和应用。理解机器的工作原理，可用的材料。学习如何构建满足机器设计准则的模型。精确CNC PCB切割和焊接技术。

An introduction todifferent 3D printing technologies. Learn the limitations of what can beprinted and the workflow going from design to print. Analyze and debuggingprinter errors. Design thinking, quickly going from idea to design to 3Dprinted prototype and then back to design.

Assignment:

1.  Design and 3D print a modelfor testing the design rules for the printer.

2.  Design and print somethingthat cannot be laser cutted.

3.  Optional: 3D print themodel you scanned.

Learning outcomes:

· Tool chain and workflow for 3D printing.

· Knowledge of the different 3D printing technologies.

· Identifying and solving printer errors.

· Design thinking and rapid prototyping.

Softwares: Rhinoceros, Makerbot Print

Device: 3D Printer

Teaching the fundamentalsof milling using the Roland milling machine to create 3 dimensional parts. Designinga 3D model, generating toolpaths and milling a finished object or mold of the model.  Learning parametric tools to generate complihansive geometry.

Assignment:

1.  Design a model that complywith the design rules of the machine and tools used.

2.  Mill the model or anegative mold in foam.

3.  Optionally do a cast of itin plaster or concrete.

Learning outcomes:

●  Understand the workflow used in milling a 3D part.

●  Design objects within the limitations of 3 axis machining.

Softwares: Rhinoceros+Grasshopper, Roland CAM

Device:Roland MDX-40

Make the Fab (tiny) ISPin-circuit programmer form a pre-made design using Fab Modules and the RolandSRM-20. Solder the components and program the board.

Assignment:

1.  Make the Fab (tiny) ISPin-circuit programmer.

2.  Load the firmware on it.

Learning outcomes:

●  Milling circuit boards.

●  Soldering skill.

●  Basic knowledge of electricity.

Softwares: Inkscape, Fab Modules, Roland CAM

Device:Roland SRM-20

Using an electronic design softwarelike Eagle to design or modify a simple board sothat it includes at least a button and an LED with current-limiting resistor.Overview of standard electronics components, explanation of how they work andwhat they are used for. Introduction to input and output devices.

Assignment:

1.  Design a circuit board that have a button and a LED withcurrent-limiting resistor.

2.  Mill the board, prepare the bill of materials (BOM), solder the components.

Learning outcomes:

●  Drawing a circuit.

●  Understanding the function of each electronic component.

●  Workflows used in circuit board design.

Softwares: Eagle, Inkscape, Fab Modules, Roland CAM

Machines: Roland SRM-20

Introducing the ATtiny44 Datasheet, C programming and the Makefile. Learning the basics features of ATtiny44microcontroller. Using Arduino IDE to write or modify a program for yourmicrocontroller. Modifying a Makefile for uploading the program to themicrocontroller.

Assignment:

1.  Program yourboard to do something, Read a microcontroller data sheet.

Learning outcomes:

●  What is a Datasheet and how to use it.

●Understanding the Makefile and uploading new code to yourcircuit board.

●  Be comfortable with the Arduino IDE environment.

●  Understanding how input and output devices work.

Softwares: Arduino IDE, Sublime Text, Brackets, AVRDude

Complete all the work of theprevious weeks and update the documentation on the website. Review your workand present it to the class. Imagine a future project.

Assignment:

1.  Complete all the work andthe documentation.

2.  Present your work to theclass.

2.  Imagine a project you would like to make in the futurewith your new skills.

About the Teachers:

Saverio Silli

Saverio Silli from ItalyGraduated from Fab Academy 2015 and are now the local mentor for Fab Academy2016 at Fablab O Shanghai. He is an Architect, Product Designer,DigitalFabrication specialist, he was Local Instructor @ Fab Foundation / FabAcademy, Volumes / WOMA,Paris, France and manager for Rome Maker Faire.

来自意大利的 Saverio Silli 2015年毕业于Fab Academy，现在Fablab O Shanghai任职Fab Academy 2017的导师。他是一位建筑师，产品设计师和数字制造专家，他曾任法国巴黎Fablab实验室课程主任，Roma创客嘉年华（Maker Faire)负责人。

丁峻峰 Junfeng(Jeff)Ding

Jeff was graduated from HarvardUniversity with master degree specificon Digital Design. Junfeng (Jeff) Ding isfounder of the first Fablab in China,Fablab-Shanghai in College of Design andInnovation, Tongji University. His research and practice are focusing onparametric design andmanufacture, open design and digital fabrication.

本科毕业于东南大学建筑学，并获得哈佛大学设计学和爱荷华建筑学双硕士，自2013年开始，担任同济大学设计创意学院Fablab 主任（中国第一个“开放创造”实验室）,创办了 Fablab O品牌。

Teacher Assistants:

沈思旸 Siyang Shen

From School of Materials Engineering, Tongji University. Siyangis core member of FablabShanghai.He likes to inventnew stuffs. Hehas changed the doorlock of his dorm into electronic one andadded a intelligent for his bicycle. He has taken part in various Make-a-thon and prized second at China-US Youth Maker Competition. He enjoyed the process of making a lot!

同济大学大四在读本科生。进入大学时恰逢FablabO Shanghai筹办，加入并成长为其核心成员。参与过比赛举办，工作坊策划开办等各种工作。也以创客身份参加了中美青年创客大赛，优酷土豆黑客松等等多个创客类赛事，并获得了中美创客大赛决赛二等奖，优酷土豆黑客松一等奖等较好的名次。通过在FablabO的学习锻炼，从自行小改小造的兴趣爱好者成长为更规范更成熟的创客精神践行者，并希望能使更多的人熟悉乃至加入创客这个群体，为万众创新做出自己的努力。

Price:  3,000 US Dollars （If students continue FabAcademy Class later, 1,000 US Dollars will be offered as scholarship)

Teaching language:  English

时间：

价格：3,000 美元（折合人民币20,000元）

（如果学生继续FabAcademy全球课程，我们将返1,000美元作为奖学金）

授课语言：英文

电话：186-2183-2152（丁老师）

          186-2128-4185（薛老师）

邮箱：

长按二维码，填写报名信息

●（方式一）

户名：上海飞契尔商务咨询有限公司

账号：455962956149

开户行：中国银行上海赤峰路支行

●（方式二）

支付宝账号：fablabpay@126.com