portfolio

Digital Design - Portfolio Semester 1, 2018 Yawen Kang

Student Number Alex Wong + Studio 10

1

email: 528771827@qq.com

A mug shot or photo of yourself.

Content:

Reflection:

Education: 2017 - current 2010-2017

03

Precedent Study

XX

Generating Design Through Digital Processes

Bachelor of Design Shanghai Pudong Foreign Language School

Awards / Exhibition: 2017 FOD:R Exhibition, AFLK Gallery/ Imagine and text1: graphic design

XX

Queen Victoria Garden Pavilion

XXXX

What did you achieved

Skills:

Frankly, my motivation to become a designer is that I can do whatever I want to do. There is no border in the design which we can as free as bird. What’s more, design is just like a media that we can fluently communicate with those ‘interesting’ designer and interact with the world in another way. As a perfomance and Graphic Design student, it is excited to learn Unreal Engine which is really helpful in my future study. Further, the rhino technique and making model is also vital after finishing the whole serise of lesson. Especially making model, in this semester i first have a chance to do the 3d printing. And also aware of that to find a real suitable material is vital throught this process. My aspiration as a designer is really simple that is ‘less is more’ while it is different meaning to me. To use what i already had and to create something new. Bascially, to use every resouce, even it may looks wired. What’s more, the feeling from the people is also vital that people can really enjoy in the design. In my modulus2, I not only comsider the figure of the pavillion, but also fully consider the lighting issue which helpful in my modulus 3.

Rhino Grasshopper Unreal Photoshop Illustrator Indesign Fabrication add more ++

However, I still need to improve a lot of area, especially the use of the rhino and grasshopper which I can't use them skillfully. This is my weaker part and I will enhance them in my spare time.

2

Diagramming Design Precedent

I was inspire by Hyperbolic Pavillion, especially the outside look of this pavillion. It seems can enlarge the area because of the shape and curve of the roof. So, How can I build a pavillion in a limited area but still bring the sense of spacious? So i bascially imitated and proved the shape of my pavillion and bring other elements (such as the whole on the roof ) as well.

Isometric of your precedent study

3

Diagram 01

Thresehold

Diagram 02

Circulation

4

Generating Ideas Through Process

5

Design Matrix

Lofts

1.1

(150, 0, 150)

1.2

1.3

1.4

(142.3, 256.66, 0)

(50, 150, 150)

(-265, 591, 150)

Key {0,0,0}

(241.87, 94.52, 0)

(0, 0, 150)

Grid Points

(90, 150, 0)

(90, 150, 0)

(15, 150, 150)

Attractor / Control Points (X,Y,Z) Attractor / Control Curves

(150,150,150)

(0, 75, 150)

(150,150, 75)

(0.23, 149.78, 0) (150, 0, 0)

(150, 150, 75) (0, 150, 112.5)

(90, 0, 0)

(60,150, 0) (150, 75, 0)

(150, 100, 0)

(50, 150, 0)

(150,150, 0)

(150, 150, 0) (0, 150, 50)

(150, 0, 0)

(0, 50, 0)

(0.2, 75, 0)

(112.5, 0, 0) (0, 60, 0)

Paneling Grid & Attractor Point

{Index Selection}

{Index Selection}

2.1

2.2

(0, 125, 0)

{Index Selection}

{Index Selection}

2.3

2.4

(32.85, 87.16, 0)

(306.98, 0, 5.63)

(72.54, -46.23, ,63.29)

(-78.31, 108.33,49.36)

Paneling

{Attractor Point Location}

{Attractor Point Location}

{Attractor Point Location}

{Index Selection}

3.1

3.2

3.3

3.4

NNEL:

6 THE DIAGRAM OF: ANGEL & CAMPACITY (approximately)

ANGEL:

0*

g

Surface and Waffle

THE FIRST PANNEL:

THE DIAGRAM OF: ANGEL & CAMPACITY (approximately)

ANGEL:

0*

THE CAPICITY OF WHITENESS: 0%

ANGEL:

30*

THE CAPICITY OF WHITENESS: 0%

ANGEL:

TEH SECOND PANNEL

60*

THE CAPICITY OF WHITENESS: 0%

make 2d view

ANGEL:

90*

THE CAPICITY OF WHITENESS: 0%

the top view

I started with the surface, them is the warfell structure. the isomatic view (wireframe)

For the both pannel, I do a 2D panneling in the grasshopper and I define the exact shape fom rhino. Then, I bake them from grasshopper into rhino in order to make 2d(print them out and make a model.) In my process of design, I met a problem that the surface is too curve that it is inresonable to build a pannel on the surface. So i changed a little bit. During the process of model making, i found my pannel is too complex that i can’t fold them nicefully.

7

Computation Workflow

Each surface is divided into a serise of point. This is the first to create a warfall structure,

These are used to create cut in the structure.

8

This is the final step which is make 2d. The warfell structure is enable to be printed.

9

These are my part of my 2d print. The process of make 2d is very vital that it is necessary to consider the mmaterial of the model wether it can represent well.

10

11

Paneling

wen Kang- 904859

3.1

3.2

3.3

3.4

(165.75, -184, 61.12)

SOLID AND VOID

Basically, I only use the sphere as the most important element. However, in my design, i use the multiple attraction point to change the inside structure. Look through my isomatric, there are 3 types sphere and some of them interect together. When seeing from these ‘holes, u can see the interection is highly emphasized by the light and shadow. What’s more, it will change accroding to the the change of the light to get a different view.

Axonometric 1:1 0

20

60mm

12

Design Matrix

Lofts

1.2

(165.75, -184, 61.12)

1.3

1.4

(125.47, 19.93, 66.15) (101.66, 117.97, 104.42)

(70.67, 111.15, 104.03)

(78.28, 69.75, 61.98) (-35.75, 39.84, 66.5)

2.1

2.2

2.3

2.4

Paneling

Yawen Kang- 904859

Paneling Grid & Attractor Point

Module 02 - Task 02

1.1

3.1

3.2

3.3

3.4

Insert your Design Matrix for Task 02 13

(165.75, -184, 61.12)

Computational Process

The first step is to make a box and to devided them.

By using two attraction points, the area are redivided.

14

Adjust the relationship between each serphere and bake them out.

M2 Task 2 3D Printing

3d print in different angel

Comment on 3D Printing

15

Green victoria Pavillion

16

M3 - QueenVictoria Pavillion Isometric

Matthew Greenwood - 000000

Exploded Isometric 1:25

1500mm 500 0

17

circulation

threshold

18

19

Computational Process

Task 01 Grasshopper Script Showing input - associate - output

Using the grasshopper to create the sin shape structure.

Creating the pattern on the surface

20

ompleate the dimond shape hole on the surface.

360 Image Output

Digital Design Semester 1, 2018 21