The document presents Ziyi Wang's architecture portfolio from Cal Poly, detailing projects like the design of a spatially significant wall and a community of tiny homes for the homeless. It includes analyses of site conditions, design models, and a community center plan. Additionally, it mentions participation in a summer school program focused on advanced technology and interactive design.

1. Ziyi Wang2nd Year Architecture Portfolio | Cal Poly, SLO | Instructor: Angela Bracco & Margaret Pedone

2. 2016S P R I N G & Fa l l Q U A R T E R
Design Village
This project is about redefining our community while contextualize our community within the ecology of the
Poly Canyon.01
The Wall
This project is to design a wall of high craft and detail that spatially separates two spaces yet links them with
a stair and a ramp. The wall should performs a crucial and powerful role in the composition of space.02
The Homeless Village
This project is to use all of the formal, spatial, compositional, and tectonic design factors learned and ex-
plored to design a community of tiny homes for the homeless.03

3. 1 Design Village

4. Design Village
Design Village
Group Member:
Ziyi Wang
Chaomin Chen
Erick Vazquez
Mateo Ibarguen
SITE

5. Design Village
Design Village
Site Analysis-Wind
Site Analysis-Sun
Site Analysis-Light
7:30am
1:00pm
11:00am 2:30pm
10:30am
4:00pm
9:00am
7:00pm
5:30pm

6. Design Village
Design Village
Morning Afternoon Evening
Study Model 1

7. Design Village
Design Village
Study Model 2
Sleeping Position

8. Design Village
Design Village
Structute

9. Design Village
Design Village
Connection
Construction
Removable Surface
Irremovable Surface
Skin
Structure
1 2
3 4
5
A. For the irremovable surface
Use Zip Ties to connect to the rode
B. For the irremovable surface
Irremovable surface
Tabs (fabric/plastic sheet)
Fuzzy side of Velcro (outside of the tabs)
Hook side of the Velcro (inside of the skins)
Surface 3+4 & 1+2 are connected by scone
( dashed line)
* 8 removable surface for community space
* 1 removable surface for entrance (surface 5)
Removable surface
Tools
Materials
Connection

10. Design Village
Design Village
Final Structure

11. Design Village
Design Village
Final Project on Site

12. Design Village
Design Village

13. The Wall
2

14. The Wall
The Wall
Weave
Ripple
StudyModel1

15. The Wall
The Wall
1/8”=1’ Study Model
1/4”=1’ study model

16. The Wall
The Wall
1/2”=1’ study model

17. The Wall
The Wall
1”=1’ Final Model

18. The Wall
The Wall

19. The Wall
The Wall
Plan and Section

20. The Wall
The Wall

21. The Homeless
Village
3

22. The Homeless Village
The Homeless Village
ConceptualStudyModel

23. The Homeless Village
The Homeless Village
Site Condition
Materials
C C C C C C C C C C C C
C C C C C C C C C C C C C C C
ASPHALT
CONCRETE
VEGETATION
ROOFS
TILE
PART A:
EXISTING SURFACE MATERIALS PLAN
WEIGHTED RUN-OFF
COEFFICIENT = 0.88
PEAK RAINFALL
INTENSITY = 2.7"/HOUR
PEAK RUN-OFF VOLUME
= 3.42 CU. FT/SEC
C C C C C C C C C C C C
C C C C C C C C C C C C C C C
ASPHALT
CONCRETE
VEGETATION
ROOFS
TILE
PART A:
EXISTING SURFACE MATERIALS PLAN
WEIGHTED RUN-OFF
COEFFICIENT = 0.88

24. The Homeless Village
The Homeless Village
FirstMasterPlan
Original Parking Structure

25. The Homeless Village
The Homeless Village
Master Plan in Progress
ADA
Pedestrian
Vehicular

26. The Homeless Village
The Homeless Village
Final Master Plan

27. The Homeless Village
The Homeless Village
Street View

28. The Homeless Village
The Homeless Village
Unit 2 Design
Unit 1 Design

29. The Homeless Village
The Homeless Village
CommunityCenterDesign
1st Floor 2nd Floor

30. The Homeless Village
The Homeless Village
Physical Model

31. The Homeless Village
The Homeless Village
Bird-eyeView

32. A Little Bit EXTRA
4

33. Extra
Extra
Self-rotation 0.300
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Converge 0.100
Expand 0.100
Self-rotation 0.200
Orbit 0.100
Converge 0.100
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Self-rotation 0.300
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.200
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.100
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.100
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.000
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.000
Orbit 0.100
Converge 0.100
Expand 0.100
Orbit 0.080Orbit 0.050Orbit 0.025Orbit 0.000
Self-rotation 1.500
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 1.200
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 1.000
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.900
Orbit 0.100
Converge 0.100
Expand 0.100
Self-rotation 0.300
Orbit 0.400
Converge 0.200
Expand 0.600
Self-rotation 0.400
Orbit 0.500
Converge 0.400
Expand 0.400
Self-rotation 0.500
Orbit 0.600
Converge 0.800
Expand 0.200
Self-rotation 0.700
Orbit 0.700
Converge 0.100
Expand 0.200
Converge 0.300Converge 0.300Converge 0.100Converge 0.000
Orbit 0.500Orbit 0.320Orbit 0.200
Orbit 10.00Orbit 3.000Orbit 1.200Orbit 0.800
Orbit 0.120
Expand 0.080Expand 0.050Expand 0.025
Expand 1.000Expand 0.320Expand 0.200Expand 0.120
Expand 0.000 IAAC’s Summer School Program
This is a highly computer science based architecture program I did
during Summer break, 2016. In 2 weeks of intense study, I was ex-
posed to different kinds of advanced technology, and various com-
puter program. For the final project, our group made an interactive
device that would respond to human’s action and have different
corresponding reaction.
FormDiagram
01

34. Extra
Extra
Prototype

35. Extra
Extra
Pump
Light source
Optical fiber
Acrylic tube
ARDUINO
Pump
Start
Infra-Red Sensors
Sensing People
Keep Light On BLN Light ControlIncrease power of the pump Decrease power of the pump
No People
Loop
Output
Interactive Design Using Arduino
Alga as energy source

36. Extra
Extra
02 Photography

37. Extra
Extra

38. Extra
Extra
Fashion Design
03