Yen's portfolio

YENHSI TUNG portfolio 2018

CONTENTS

Cover pages, contents page: Tribes in Riverside, original work size 6’x6’, 2017. Instructor: Molly Hunker

URBAN /ARCHITECTURE

thesis

01

HIGH-RISE MODULAR

comprehensive design studio

05

HIGH RISE / DD

practical work

13

AFFORDABLE HOUSING

design studio

21

PUBLIC PROJECT

practical work

27

CONTAINER DESIGN

competition

31

PUBLIC INSTALLATION

competition + practical work

35

ANALYSIS & OPTIMIZATION

competition

39

[TOPO-SKIN FACADE]

ENVELOPE DESIGN

competition

43

[CLOUD T]

ENVELOPE DESIGN

competition

47

[2008 POST-QUAKE RECONSTRUCTION]

HYBRID MODULAR

practical work

49

[EXPERIMENTAL LANDSCAPE]

REPRESENTATION

drawing

50

[SNAFU]

[TOWER C]

[THE SPIRAL]

[ORGANIC FENCE] [RINARI INDUSTRIAL DEVELOPMENT CENTER]

[POP-UP HABITAT]

[IMMERSIVE CLOUD]

[CENTER OF EXCELLENCE]

[SUICIDE NORMAL-APPLE-FOXCONN-UTOPIA] thesis website http://snafuonline.wixsite.com/snafu

[ WORKSHOP ]

[ DIETING ]

[ RECREA

imput 品

質

要

保

障

人

人

放

心

output

上

recycle seating area

assembly

painting

waiting are

president kuo’s quotation : quality assurance keep in mind

monitoring room dock

exit metal detector x2

drying painting

12.5'

inspection area

2’ radiant bin

0700 locker / no belongings change the dress code

cooling area

dry store

3’ disinfection

0720 leader speech

5.5’ 50’

1.5’

datum

10t FLOUR

1.3’

3’

5.5’

cooking area - stir - deep fry

40t RICE

datum

0740 check - in

500barrel COOKING OIL

1.3’

sink/boiled water supply

50+ COWs president kuo’s quotation : benevolent confident decisive

10,000+ CHICKEN

clean

愛心 信心 決心

inventory

胸 懷 千 萬 里 心 思 細 如 絲

packaging area packaging/packing

17'

loading/shipping dock

return enter metal detector x2

cooking area - fry

200,000+ EGGs

conveyor examination

1’

1’

300+ PIGs

1’

catering

quick clean

seasoning

cooking area - barbecue

bakery

delivery cart

meat prep.

cooking area - stew - simmer

veg. prep.

package walk-in fridge walk-in freezer

$

assembly workshop

dish-washers

lockers

detector checkpts.

assembly/package

circulation area

paint/ examination

$

$ $

$

imput

admin. office

lockers/bathroom

checkpts.

admin. /lockers

dishwash

$

loading/shipping dock

output

medical treatment station

cold dishes

hot food production area

stroage

$

cold

cooking area - steam - rice-cook

checkpoint

imput

$

shelves

output

entrance

seating area

checkpts.

lockers/bathroom

seating area

admin. office

existing building typology investigation certified no.208

f9347140

07:00

01

workshop

08:00

central kitchen

f9347140

12:30

dining hall

$

2018 BEST THESIS AWARD 2017 August - 2018 May Collaboration with Yuchi Kuo Instructor : Jonathan Louie with Mitesh Dixit, and Daniele Profeta SNAFU is a study of modern architecture and urbanism in the information age. It posits that the metropolis spectacle that can be infinitely extended as a sprawling and systematic intervention and showing the labour issues from a spatial perspective.

[ ACCOMMODATION ]

ATION ]

[ EDUCATION ]

ea buffet

control room

enterprise slogan

unified tv room

president kuo’s quotation : opened mind and exquisite mind

vendors area

sub-control

tbd vendor meal tbd

back-drop

om

fr

0500 breakfast : 23cent

tv studio checkout buffet

1200 lunch : 68cent

om

t ro

as

dc

oa

br

stage

10’

central elevator shaft

2.5’

10’

33.5’ 28’

central fire stairway

host broadcast

3’

1800 dinner : 75cent

anti-suicides nets

vtr room ator elev

9.5’

28.5’

4’

11’ 3’

2’

4.5’

from

2200 dessert : 68cent

checkout buffet

6’

15’9” 5’

9.5’

control room 20’

sr

as

cl

vendors area

m

oo

outdoor wash space typical unit : 12 p.

roll call

news station/ broadcast rm.

unified tv room

phd degree

computer register

register the seat

baidu it

om

anti-suicides bar

standarized bunk beds

fr

order and check-out

on-line game

$

master degree

message

$

tv show

13’ 22” 18”

22”

5.5’ 19’

from

4’

bedr

33.5’

13’ $

33.5’

limited books

om

$

seating area

2.5’ 5’

9.5’

5’

2’

5’

or

32.5’

expired magazines

at

ev el

unified tv show

$

bachelor degree

fr

19’

oom

shopping

5’8” 19’ 13’4”

2.2’

9.5’

communication program anti-suicides bar

5’ 2’ 5’ 2’ 5’

f9347140 f9347140

f9347140

20:30

cyber cafe

anti-suicides nets + bars

22:00

education center

management program

f9347140

23:30

dormitory

02

[SUICIDE NORMAL-APPLE-FOXCONN-UTOPIA] SNAFU narrates the spectacle of high-efficiency in the Shenzhen and Hong Kong region, as represented by the existing Foxconn Technology Group in the Longhua campus. This manufacturing panorama is utopian. It consists of normal and all-inclusive phenomenon for each occupant in the form of productive cell that is embedded within an efficient coordinated system. Additionally, the standardization, optimization and hierarchical manipulation formulated by SNAFU generates a city that is detached from its surroundings and that frames individuals by social exclusion.

shenzhen factory area

shenzhen suburban

workflow-oriented layout with centralized dwelling zone

Dormitory as a billboard

Non-Stop Nutrition Supply The promise of healthy food supply contributes to a good working performance.

03

Cell Life The safe and comfort dormitory. The cell offers an high efficient living style.

HIGH-EFFICIENCY CITY PANORAMA Our work is manifested via “ ludicrous situations “ established as stories that elaborate on a citizen’s daily routine. It seeks to reveal abnormal architectural situations and the alienation of citizens. Our design starts with the following hypothesis: if Foxconn’s absurdity is expanded on its own autonomous territory as an architectural intervention, it will transform projections of individual cases into the generic design of a high-efficiency city.

hong kong cbd

port of hong kong

Retail of the foxconn city edge follows the zero inventory principle and forms the commodification spectacle

Assembly clusters linked to the global market

locker detector gate junior

senior

prime

THE SIZE OF AN ORGANIZATION IS IRRELEVANT; WHAT MATTERS IS IF YOU ARE A VIP IN IT.

hierarchical pool hierarchical organization is a way to manage 380 thousand employees. the way people treat you is totally different when knowing your level

Zero Inventory After assembling the product, conveyors send the product directly into retail stores in the Hong Kong central business district. The conveyor shelves exhibit the product from all sides and customers can watch the assembly in real time behind the conveyor and net surface.

Hierarchical Pool The size of an organization is irrelevant, what matters is if you are a VIP in it.

04

[TOWER C] Tower C project pursues the integrated high-rise design which includes clustered modular units, passive design and heating, ventilation and air conditioning design.The multi-layer organic cluster creates the self-shading and private terrace and semi-public opened green space for family units.

greenery public

5

circulation

public area private

semi-public

church

parish hall

corridor

residential

public

HIGH-RISE MODULAR Comprehensive Design Studio Spring 2016 Instructor Elizabeth Krietemeyer, David Shanks Collaboration with Yuchi Kuo, Andi Li

visualization 6

[TOWER C] unit type

studio

a

b

c

d

1 bedroom

e

f

2 bedroom

g

h

different combinations of units

accessible 1 bedroom & studio

1 bedroom

7

studio

2 bedroom

HIGH-RISE MODULAR aggregation

7th floor

8th floor

9th floor

10th floor

8

[TOWER C] passive design

section + environmental flows 9

HIGH-RISE MODULAR sunlight / wind / oxygen / greenery

annotated section / high rise floors

annotated section/ ground floor

10

[TOWER C] mechanical system

sectional perspective

7th floor

7th floor

centralized mechanical system for public space

decentralized system for public space / 7th floor

pipes work

HIGH-RISE MODULAR interior environmental quality

exploding drawing / 2 levels apartment unit

structure diagram

core / beam / column

slab

structure with units

[THE SPIRAL] Located at the intersection of the High Line and the newly developed Hudson Boulevard Park on Manhattan’s new western frontier, THE SPIRAL extends the green space of the former train tracks in a spiraling motion towards the sky – from High Line to the skyline.

13

HIGH RISE / DD Bjarke Ingels Group Design Assistant / May -August 2017 / Assigned Works : DD Entrance Layout and Panelization Research, Terrace Material Design Research, Entrance Doors Research,Louvre Band & Corner Mullion Modeling, Visualization

14

[THE SPIRAL] spiral terrace

The 1005 ft high-rise isOPTION a unique 3: hybrid that intertwines a continuous green pathway with workspaces on every level. Inside, every terrace becomes a double height EQUALIZES INDEPENDENTLY FROM FACADEsetting ABOVE for meetings, events and recreational activities. atrium with impressiveSPIRAL viewsFACADE over Manhattan, offering a more informal 6’-3 5/16” 5’

5’

EQ

EQ

EQ

EQ

EQ

EQ

EQ

OPTION 3: SPIRAL FACADE EQUALIZES INDEPENDENTLY FROM FACADE ABOVE OPTION 1: OPTION 2: STRETCH LAST PANEL ONLY SPIRAL MULLIONS TRACK THE MULLIONS ABOVE *PROBABLY DOES NOT WORK FOR ALL CORNERS 6’-3 5/16” 5’

6’-3 5/16” 5’

5’

EQ

5’

5’

EQ

5’

5’

15

5’

5’

6’-4 1/2”

EQ

copper nickel grating soffit

EQ 5’

EQ

EQ

EQ

6’-3 5/16”

EQ

EQ

EQ EQ

6’-3 5/16” 6’-3 5/16” 3’-9”

EQ

EQ

facade corner panelization

N THIS OPTION PROBABLY DOESN’T WORK AT SOME CORNERS. THE PANELS BECOME TOO LARGE FOR WIND PRESSURE.

N IF SPIRAL MULLIONS FOLLOW THE FACADE ABOVE, THEY CREATE A SHORT CORNER DUE TO THE SPIRAL BEING SET BACK 2.5FT.

HIGH RISE / DD material / panelization / lighting

visualization of the grating guardrail option

visualization of the grating soffit lighting option 16

[THE SPIRAL] entrance lobby & storefront

STOREFRONT GLASS LOUVER OPTIONSUGGESTS 2A 5” LOUVER + 3” RATION GAP HEINTGES THE MAX IS 1 TO 10

STOREFRONT GLASS LOUVER OPTION 1 3” LOUVER + 2” GAP

DESIGN TEAM

ground floor plan / redrew

WE ARE PUSHING THE RATIO TO 1 TO 12 LOUVER RATIO : 1 TO 12 OPENNESS: 37.5%

LOUVER RATIO : 1 TO 20 OPENNESS: 32.5%

PREFERRED

TOTAL 14 NON-STANDARD PANELS WITH 9 DIFFERENT DIMSIONS

TOTAL 14 NON-STANDARD PANELS WITH 9 DIFFERENT DIMSIONS

3” GAP

2” GAP

PLAN

PLAN 5’ MODULE GLASS PANEL

5’ MODULE GLASS PANEL

4’-6”

4’-6”

3”

5”

RETAIL ENTRANCE DATUM VS STEPPED

10’ MODULE GLASS PANEL

ELEVATION

10’ MODULE GLASS PANEL

ELEVATION

RETAIL ENTRANCE DATUM VS STEPPED

louver band options

PERSPECTIVE STREET VIEW

PERSPECTIVE STREET VIEW

PG 23

PG 24

OPTION 7: NARROW DIVISION C 8’-9”PANELIZATION + 2 DOUBLE SWING DOOR

south west entrance

PROPOSED LOBBY FACADE FLUSH WITH SPIRAL FACADE HEADER STRETCHED TO SAME DATUM

RETAIL ENTRANCE OPTION 1 : PERPENDICULAR FRAME OPTION 8: NARROW DIVISION C 8’-9”PANELIZATION + DOUBLE SWING DOOR

EXTERIOR VIEW

10'

INTERIOR VIEW

HEADER STRETCHED TO SAME DATUM

5'-4"

6'

10'

4'-6"

7'-8"

8'

8'-6"

8'-6"

5'-4"

6'

4'-6"

7'-8"

8'

EQUAL DOOR OPENING HEIGHTS EQUAL DOOR OPENING HEIGHTS

OPTION 8: NARROW DIVISION C 8’-9”PANELIZATION + DOUBLE SWING DOOR

INTERIOR VIEW

EXTERIOR VIEW

7'-10"

4'-6"

7'-10"

7'-8"

8'

7'-8"

INTERIOR VIEW

EXTERIOR VIEW

entrance arrange & panelization options 7'-10"

4'-6"

7'-10"

7'-8"

8'-6"

8'-6"

5'-8"

5'-8"

4'-6"

8'

17

13’-0”

18’-7” MAX.

8'-6"

8'

10’-1”

8'-6"

5'-8"

5'-8"

4'-6"

8'

7'-8"

south storefront entrance options FLAT EXTRUDING SIGNAGE

SIGNAGE

TALL

FLAT SIGNAGE

EXTRUDING + FREE STRANDING SIGNAGE

MEDIUM

FREE STRANDING SIGNAGE

INDEPENDENT SIGNAGE

SHORT

HIGH RISE / DD panelization / modulation / material

SOUTH-WEST LOBBY

visualization of entrance lobby option 18

[THE SPIRAL] copper nickel grating design options

19

terrace view

entrance lobby

terrace view

entrance lobby

terrace view

entrance lobby

terrace view

entrance lobby

HIGH RISE / DD corner mullion and handrail design options

STOREFRONT + PODIUM FACADE CORNER OPTION 1 45 DEGREE MULLION JOINT + SEALANT JOINT + PODIUM FACADE CORNER STOREFRONT + PODIUMSTOREFRONT FACADE CORNER OPTIONJOINT 1 45 DEGREE MULLION OPTION 1 45 DEGREE MULLION + SEALANT JOINT JOINT + SEALANT JOINT

EFRONT + PODIUM FACADE CORNER N 3 45 SEALANT JOINT + SEALANT EFRONT + PODIUM FACADE CORNERJOINT DE CORNER NSEALANT 3 45 SEALANT JOINT JOINT + SEALANT JOINT

TYPICAL PODIUM FACADE CORNER

TYPICAL PODIUM FACADE CORNER

typical podium facade corner

typical podium facade corner

TYPICAL PODIUM FACADE CORNER TYPICAL PODIUM FACADE CORNER

PODIUM FACADE CORNER TYPICAL PODIUM FACADE CORNER

storefront facade corner

STOREFRONT FACADE CORNER STOREFRONT FACADE CORNER

OPTION 1: TUBE RETURNING TO WALL MONUMENTAL STAIR HANDRAIL

SE CORNER SE CORNER

SE CORNER

storefront facade corner

STOREFRONT FACADE CORNER

RETURNING TO WALL ISSTOREFRONT OPTION 2: TUBEFACADE RETURNING TO GROUND CORNER STOREFRONT FACADE CORNER VISUALLY LESS BUSY, MONUMENTAL STAIR HANDRAIL HOWEVER IT INTERRUPTS THE REFLECTIVE CORE.

SE CORNER SE CORNER

SE CORNER

1 1/4”

1 1/4” PROFILE

PROFILE

1 1/4”

10TH AVENUE

HUDSON BOULEVARD

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

WEST 35TH STREET

WEST 34TH STREET

WEST 34TH STREET

ELEVATION

ELEVATION 10TH AVENUE

HUDSON BOULEVARD

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

WEST 35TH STREET

WEST 34TH STREET

WEST 34TH STREET

OPTION 3: TUBE RETURNING TO GROUND MONUMENTAL STAIR HANDRAIL

OPTION 4: BAR RETURNING TO WALL MONUMENTAL STAIR HANDRAIL

7/8”

7/8”

2 1/4”

2 1/4” 1 1/4”

7/8”

2 1/4” PROFILE

1 1/4”

1 1/4”

WEST 34TH STREET

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

WEST 34TH STREET

ELEVATION

ELEVATION WEST 35TH STREET

HUDSON BOULEVARD

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

WEST 34TH STREET

10TH AVENUE

PROFILE

WEST 34TH STREET

OPTION 5: BAR RETURNING TO FLOOR MONUMENTAL STAIR HANDRAIL

OPTION 6: BAR RETURNING TO FLOOR MONUMENTAL STAIR HANDRAIL

7/8” 7/8”

7/8”

2 1/4”

2 1/4”

PROFILE

PROFILE

WEST 34TH STREET

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

10TH AVENUE

HUDSON BOULEVARD

WEST 35TH STREET

WEST 34TH STREET

ELEVATION

ELEVATION WEST 35TH STREET

10TH AVENUE WEST 34TH STREET

HUDSON BOULEVARD

WEST 35TH STREET

10TH AVENUE

2 1/4”

HUDSON BOULEVARD

RONT FACADE CORNER

WEST 34TH STREET

20

[ORGANIC FENCE] The project emphasizes the conversion of the typical NYCHA fenced in campus into a positive concept of organic being and creative promotion its residents. Based on the daily life pattern with such fences, this project introduces the concept of programing the fence and the fence’s characteristics of defining the boundary between public and private areas.

climb on fence

sit on fence people with carts

lean on fence

sit against fence

pattern : fences and residents’ lives. Fences that surround the greenswards of buildings, the basketball courts, the public plaza space, and the handrails for the stairs or ramps in front of the entrance for the physically challenged. On occasion people who push small grocery shopping carts also become a sort of fence defining a boundary between public and private areas. Nevertheless, local people still use these fences in their daily life, and you can see people leaning against them when waiting for the bus, taking a rest, or chatting with their friends

the design includes a private residential area and a private extensive space which can be creatively expressed by residents to either garden, create an informal economic area, and representing own culture. Such as, brownsville’s graffiti in the render shows the culture representation is also a design expression for the residents.

21

[IMMERSIVE CLOUD] The intension is to serve both as a medium for providing immersive experiences as well as a platform for fostering social interactions. With the stainless steel disks floating on top of a forest of thin columns, the surrounding environment including the trees, people, and sky are reflected, distorted, and multiplied before the eyes.

reflection

plan

35

divided landscape

PUBLIC INSTALLATION / SD DD CD 1-st Place of Reimagine Place Competition AIA Central New York / 2016 Collaboration with Daekwon Park, Yuchi Kuo, Jaegeun Lim, Bharat Krishnan

visualization

section

36

[IMMERSIVE CLOUD] The physical characteristic of the Immersive Cloud transforms with the changes in the surrounding. The seasonal color changes of the deciduous trees are amplified by the reflective surfaces, and the seasonal density changes of the leaves (luscious leaves in summer and bare branches in winter) will create daylighting conditions for seasons.

overall installation is approximately 56 feet in diameter with sitting areas (tables and benches) and a bust stop canopy

steel reinforced concrete slab, polished stainless steel disks, galvanized steel pipes 37

PUBLIC INSTALLATION/ SD DD CD Immersive Cloud aims to improve under-utilized community spaces within the urban core. With the support of public, private, and non-profit organizations, Immersive Cloud activates the underutilized and poorly-maintained concrete plaza into a playful and immersive public space for the community to gather and interact.

pre-fabricated metal discs and columns (laser cut and welded/riveted together by fabricator) bolted to the site-casted reinforced concrete structural slab 38

AFFORDABLE HOUSING Affordable Housing Design Studio Summer 2016 Instructor Nadine Maleh Individual Work

a-a’ sectional model

F E E VAN DYKE COMMUNITY CENTER

A B C D E F

courtyard reception for residential area pavilion of bus stop daycare center shops craft workshop

A

a

a’ B D

C

ground floor programming includes a central courtyard, two receptions for the east & south units and north & west units, daycare center, shops, craft gallery and pavilion. The form of the building responds to the natural climate and context. This form is a stepped shape, which on the east and south part is from 9 to 12 stories and on the north and west part is from 12 to 14 stories.

22

[ORGANIC FENCE] Each residential unit design in this project, has its own private garden that is serviced by the top of the unit below it. The private garden area is not only for cultivating purposes, but can also become an extensive area in which people can create and design. It can transform into an organic element to enclose a garden, pavilion or small shop designed using their creativity and servicing their needs for the space.

extensive area

extensive area

extensive area

unit types with extensive area created by the residents

23

AFFORDABLE HOUSING Each two floors constitutes a cluster and has a a small public garden for the neighborhood. The corridors of the east and south part face the courtyard, the north corridor faces the community center, and the western corridor faces the NYCHA campus building. Each unit private garden, provides a continuously void/garden area and solid/ residential area space. It is beneficial for both air ventilation and visibility out to the city.

neighborhood garden

laundry

neighborhood garden

typical floor plan_upper Each typical floor has neighborhood garden

typical floor plan_lower 24

[ORGANIC FENCE]

VAN DYKE COMMUNITY CENTER

a-a’ section

25

VAN DYKE EXISTING BUILDING

BASKETBALL COURT

SITTING SLOPE

AFFORDABLE HOUSING

SHOPS

COURTYARD

RECEPTION FOR EAST & SOUTH RESIDENTIAL AREA

DUMOUNT AVE

26

[RINARI INDUSTRIAL DEVELOPMENT CENTER] The design objective was to exhibit the traditional art and develop cultural and creative industries of the nearby tribes with the traditional housing typology, black slate. In traditional life, the courtyard is the important place for grain drying, grass weaving, and carving. It is the place used for private and public activities. The courtyard house becomes the basic form of this project. The traditional material, slate, also is used in the construction.

traditional typology relating to the tribal life

long section 27

design development of Rinari center

PUBLIC PROJECT / SD DD John K.C. Liu Architects Yuan-Yie Award 2016 Redrew in 2017

traditional plants

landscape design design // combine combine the the planting planting design design and and the the activities activities needs needs in in different different studios. studios. landscape

28

[RINARI INDUSTRIAL DEVELOPMENT CENTER]

traditional black slate house

e sculpture and clay studios. The area in between serves as an exhibit space d the courtyard of tribal kitchen construction completed

e

H

G

c

D E F A B C D E F G

exhibit hall office information center tribal kitchen fabric weave studio clay studio sculpture workshop H pavilion ground floor plan

29

d

PUBLIC PROJECT / SD DD

c gross slope and slate fence

b gross slope and slate fence

a main building complex for activies and ceremony

a

b

A

C

B

30

[POP-UP HABITAT] The design emphasizes stacking the shipping containers and having the upward or horizontal expansion for additional living space. It overcomes the narrow footprint of the shipping container and making the space more flexible.

The basic idea is to extend vertically or horizontally for an extra space and serve the small family. In addition, we stack the containers for wide and flexible space.

type A: the bedroom space is extended upwards to accommodate a living space beneath

31

type B : extending sideway to overcome the narrow space

type C : vertically stacked containers, upper level with a garden and a deck extending outwards

CONTAINER DESIGN Final list of The Go Beyond: International Design + Engineering Competition/ Summer 2016 Collaboration with Yuchi Kuo, Daekwon Park

The design consists of the corrugated steel exterior cladding and structural insulated panel interior wall system. This interior system is configured as rigid thermal insulation sandwiched between structural wood panels. This assembly eliminates thermal bridging and reduce air and moisture infiltration.

interior visualization The project combines the efficiency of the kit-of-parts approach with the flexibility of the pop-out concept. The majority of the components from the original shipping container are creatively repurposed and redesigned to add value to the habitat units.

32

The proposed service modules functions not only as mechanical, electrical and plumbing distribution room but also as semi-outdoor community space. Solar panels are integrated with the faรงade of the service module for electricity generation and rainwater is collected and filtered for irrigating the community gardens.

Service container is the semi-outdoor community space for 6-8 units. It collects the clear energy and recycle facilities and pipes work.

Each habitat units has its own compact heating, ventilating, air conditioning and refrigeration system (i.e. decentralized HVAC&R) and the service units supply and collect energy and waste to and from the units.

[CENTER OF EXCELLENCE] The idea of the site location and formal orientation of the building is meant to connect the downtown public, Syracuse campus and the CoE building through inducing flow of pedestrians passing by. It set up a stage in downtown Syracuse. People and systems inside the building act as the performers. New technology and research projects take place on the “stage� and are showed to the visitors inside.

1

Brown Field

A B C

Storm Water

E F

Exhaust Air M O

5

N

H

T

W

3 N

Sensors L

H

H

H

G

P

G H

I

3

F

J 4

W

Daylighting

H

C

T

Ventilation

K L

W

T

M M

H

H

H

C

H

T W N

4

W

C

T

N

H

H

5

H

Temperature

O P Q

W

C

T

Green Roof / Water Tank Ceramic Dots Glazing Metal Shading Buffer Zone Air Handling Unit Supply & Return Air Raised Floor with diffusers Interactive Sensors & BMS Air Exhaust Carbon Dioxide Sensor Temperature Sensor Window Sensor Natural Ventilation Sensor

W

T

H

Mat Doundation Point Doundation Cantilever Cantilever

W

T

H

Radiant Ceiling Panel Humidity Sensor for Dew Point Tectonic for Seting up Pipes Geothermal Field for Hydronic Heating Humidity Sensor

M

2

W

C

T

T

K

M

C

D

Return Air I

AHU

J

Supply Air

Q

E

A B 1

environment control diagram

39

sectional system diagram

D 2

system

ENVIRONMENTAL CONTROL DIAGRAM

ANALYSIS & OPTIMIZATION

ION

mechanical sys.

Instructor: David Shanks Collaboration with Yuchi Kuo, Hui Shen

| INTERACTIVE DEVICES ENTILATION | INTERACTIVE DEVICES

ION

M

MOISTURE SENSOR On the edge of the air supply pipe. Turn-on or turn-off of the pipe is controlled by the moisture sensor.

| INTERACTIVE DEVICES

WINDOW SENSOR Window on motorized actuator. Set up on all the windows, to moniter the windows opened or closed then adjust the interior air

R

ROOF W W

N LEVE

L 5

M LEVE

ROOF

L 4

T

H

T

W

W W

W W

W W

R

LEVE

W

L 3

N

W

W

M

W

LEVEL ROOF

W

5

LEVE

R

L 2

M W

W

L 1

LEVEL 4 LEVEL 5

T

H

T N

LEVEL

3

4

T

LEVEL LEVEL

H

W

R

M

M

W

W W W W W W W M W

R

W W W W

W

W W

R

W

M W W W W

W

W

M R

W

M

W

M

W W

M

R R

M S

M

W W

TW

M M

W

M

W

R R

W

W W

M

M

W W W W

W

1

W

S

T

W

W W

M

M

M

M W M

W

MW

M

M

W

M

M

M

W

W

WINDOW SENSOR SENSOR SOLAR RADIATION

Window on motorized actuator. Set up on all the windows, to moniter windows opened on or closed then adjust interior air or slats the of blinds. Mounted the outside of thethe curtain wall, especially on the south facade.

W W

W W W W

W

CO2 SENSOR

W W

W W

SOLAR RADIATION SENSOR SURFACE TEMPERATURE SENSOR

T

or slats of blinds. Mounted TEMPERATURE SENSORon

N S

NATURAL SURFACE VENTILATION TEMPERATURE SENSOR

T

TEMPERATURE SENSOR temperature, humidity, rain fall, wind speed, etc. The BMS will turn

N H

NATURAL VENTILATION WW HUMIDITY On the roof ofSENSOR the building are

W

On the roof of the building are several sensors for outdoor air

M

W W

H

W

W

GR

EE

N

MW

W

OF

VE

M

W

W

RO

LE

L

VE

L

2

C T H

T

T

H several sensors for outdoor air T speed, etc. The BMS will turn temperature, humidity, rain fall, wind

C C T T H T T W W H H HUMIDITY SENSORH

W

MW

the outside of the curtain wall,

especially on the south facade.

W

LE

W

R S

W

W W

W

W

W

W

W

R

W

W

W

HUMIDITY SENSOR

W W W

W

W

W

W

W

W

W

M W

M

W

M

W

W

Window on motorized actuator. Set up on all the windows, to On the edge of the air opened supply pipe. Turn-on or adjust turn-offthe of interior the pipeair is moniter the windows or closed then controlled by the moisture sensor.

W R

| INTERACTIVE DEVICES M

C

W

W

W

NATURAL VENTILATION

H

M

W W

W

W W

W

W

W

W

W

W

W

R

W

M

W

TEMPERATURE SENSOR

N

WINDOW SENSOR MOISTURE SENSOR

W M

On the roof of the building are several sensors for outdoor air temperature, humidity, rain fall, wind speed, etc. The BMS will turn

INTERIOR SENSOR _CASE OF M2nd FLOOR

W

LEVEL

W

W

W

W

LEVEL LEVEL 1 2

R

SURFACE TEMPERATURE SENSOR

T

W

W

W

S

On the edge of the air supply pipe. Turn-on or turn-off of the pipe is controlled by the moisture sensor.

W

W W

W

W

W

3

W

M W

T

W W MW W

W

AIR VENTILATION

W

W

W

2

W

M

M

W W T

W W

W W

W W

W

M

W

W

S

W

W

W

W

W

LEVEL

R

M

M

W

M

W

LEVE

W

W W

W

W

W

W W

W

W W

M

W W

W W

M M

R

W

W

SOLAR RADIATION SENSOR or slats of blinds. Mounted on the outside of the curtain wall, especially on the south facade.

W W

MOISTURE SENSOR

M

air ventilation

W

H

H

CO2 SENSOR

CC

H T

T

building management system CO2 SENSOR

C

W

W W

W

W

1

W

SCENARIO 1_STABLE STATE

Air ventilation and interior environment is controlled by the system, air is supply from lower level of each floor and goes up to the return grille of return pipe on high level.

AIR BREATHER AIR SUPPLY

AIR RETURN A GR

EE

N

RO

O

C

T

T

W

LE

VE L 2 GR EE N RO

O

LE

V LE EL VE 1 L 2

LE

VE

SCENARIO 2_UNSTABLE STATE

When the window is opened, window sensor ,carbon dioxide can detect and record. Then device will close the air supply to response the nature ventilation.

C

T

T

W

40

L

1

[CENTER OF EXCELLENCE]

| SOUTH FACADE

1

3

4

5

6 7 8

9 10 11 12

TRANSLUCENT / TRANSPARENT

SETUP

2

- Performing to the public 5th Level S.S. EL. 58’-10”

DOUBLE GLAZING / LAYER

PREREQUISITE | PREREQUISITE / CONDITIONS / CONTROL VARIABLES 13

1

[TURN]

1

- Environmental control

16’-0”

[TRANSPARENT] PREREQUISITE | PREREQUISITE / CONDITIONS / CONTROL VARIABLES 2

SETUP

3

[TURN]

1

4th Level S.S. EL. 42’-10”

7

9

Facing to downtown on the west

5 6

13’-6”

CONDITIONS PREREQUISITE - 2 /[TRANSPARENT] | PREREQUISITE / CONDITIONS CONTROL VARIABLES Ushering daylight in and embracing campus on the south. 3 [TIME] 1 [TURN]

SETUP

2

© Hui Sheng 2016

3rd Level S.S. EL. 29’-4”

SETUP

2

[TURN]

1

the9am extreme values evaluation more Select the office hours from to 5pm and that focusmakes on twothe specific periods 5o distinguishable.

Select the office hours from 9am to 5pm and focus on two specific periods

CONDITIONS -

?

the extreme values that makes the evaluation more distinguishable.

[SEASON]

Select Summer and Winter which are the two opposite conditions with

CONTROL VARIABLES -

3

the extreme values that makes the evaluation more distinguishable.

CONTROL VARIABLES 5 [ANGLE]

3

[ANGLE]

CONTROL VARIABLES [ANGLE]9 o

9o

13o

13o 17o

o 2117

o

Based on the prerequisites, setup 5 angles from 5o to 21o to experiment

21o

and simualte.

244.00 Wh/m2

447.00 Wh/m2

15 JAN 15:00 162.00 Wh/m2

SIMULATIONS 6

9o

13o

17o

21o

15 JAN 14:00 271.00 Wh/m2

SIMULATIONS [RADIAITON] & [ILLUMINATION]

6

6

[RADIAITON] & [ILLUMINATION]

Focus on these two main factors which influence on the comfort of “performers” indside the building the most.

SIMULATIONS 6

41

[RADIAITON] & [ILLUMINATION]

[RADIAITON] & [ILLUMINATION]

SIMULATIONS 6

431.00 Wh/m2

22 JUL 10:00

obuilding the most. 13o “performers” indside 17 654.00the Wh/m2

2

456.00 Wh/m2

22 JUL 11:00 228.00 Wh/m2

15 JAN 10:00 203.00 Wh/m2

15 JAN 11:00 349.00 Wh/m2

15 JAN 15:00

“performers” 162.00 Wh/m2 indside the building the most.

[RADIAITON] & [ILLUMINATION]

6

optimization simulation:

22 JUL 16:00 244.00 Wh/m2

41.00 22 Wh/m2 JUL 14:00 507.00 Wh/m2

Focus on these two main factors which influence on the comfort of

349.00 Wh/m2 JAN 14:00 271.00 Wh/m2

15 JAN 13:00 368.00 Wh/m2

?

Winter

21o

4 22 JUL 9:00 431.00 Wh/m2

Wh/m2 on the comfort of two main factors which654.00 influence 22 JUL 11:00 17o 21o JUL 12:00 228.00 Wh/m2 15 JAN 130.00 Wh/m2 4 9:00 “performers” indside22 the building the most. 447.00 Wh/m2 456.00 Wh/m2 130.00 Wh/m2

15 JAN 14:00 271.00 Wh/m2

22 JUL 16:00

21o

22 JUL 15:00

[RADIAITON] & [ILLUMINATION] 22 JUL 10:00

15 JAN 11:00

Fall

1483.00 Wh/m2 15 JAN 16:00

Focus on these 22 JUL 14:00 13o 15 JAN 9:00 507.00 Wh/m2 22 JUL 13:00

15 JAN 12:00 15 415.00 Wh/m2

1

N

5 of Focus on these two main factors which influence onWh/m2 the comfort 3 244.00

15 JAN 10:00 203.00 Wh/m2

Focus on these two main factors which influence on the comfort of

“performers” indside the building the most.

2 4

o

15 JAN 13:00 15 JAN 12:00 [RADIAITON] & [ILLUMINATION] 368.00 Wh/m2 415.00 Wh/m2

15 JAN 16:00 41.00 Wh/m2

Focus on these two main factors which influence on the comfort of

6

15 JAN 15:00 SIMULATIONS 162.00 Wh/m2 15 JAN 13:00 368.00 Wh/m2

447.00 Wh/m2 4

456.00 Wh/m2

15 JAN 12:00 415.00 Wh/m2

Focus on these two main factors which influence on the comfort of

Focus on these two main factors which influence on the comfort of

“performers” indside the building the most.

“performers” indside the building the most.

?

West Wind

[RADIAITON] & [ILLUMINATION] 22 JUL 9:00 3

654.00 Wh/m2

15 JAN 16:00 9o 41.00 Wh/m2

5

and simualte. 5o

9o1

21o

o

SIMULATIONS -

6

22 JUL 9:00 431.00 Wh/m2

22 JUL 14:00 22 JUL 10:00

22 JUL 15:00 483.00 Wh/m2

15 JAN 16:00 41.00 Wh/m2 o

Summer

17o

Polluted Air

13 “performers” indside the 17o building the most.

9

6

5

?

22 JUL 16:00 244.00 Wh/m2

3 Interstate

13o

6 o

507.00 Wh/m2 22 JUL 14:00 JUL 13:00 22 JUL 12:00 22 JUL 16:00 setup 5 angles from 22SIMULATIONS JUL 11:00 Based on the prerequisites, 5o to 2122o to experiment 507.00 Wh/m2 3 22 JUL 13:00 22 JUL 12:00 228.00 Wh/m2

and simualte. o 55

simualte.2 22 JUL 15:00 483.00 Wh/m2

5o

22 JUL 15:00 483.00 Wh/m2

and simualte.

5o

1

17o

In order to block the cold wind and polluted air from the Interstate traffic from west and north, the west facade is entirely solid as a shield protecting the indoor working space from outside. All the users inside are provided a better quality of environment duirng the office hours and rush hour traffic as well.

Based on the prerequisites, setup 5 angles from 5o 2to 21o to experiment 6

22 JUL 16:00 1244.00 Wh/m2 and

CONTROL VARIABLES -

Based on the prerequisites, setup 5 angles from 5o to 21o to experiment

6

[ANGLE]

5

5

22 JUL 16:00 244.00 Wh/m2

5

[ANGLE] Based on the prerequisites, setup 5 angles from 5o to 21o to experiment

5

13o

Based on the prerequisites, setup 5 angles from 5 to 21 to experiment

and simualte. Select Summer and Winter which are the two opposite conditions with

Select Summer and Winter which are the two opposite conditions with

4

12

Spring

- 100% Sealed

SIMULATIONS -

-5 the extreme valuesCONTROL that makes theVARIABLES evaluation more ? distinguishable. 5o

are the two opposite conditions with Select the office hours from 9am to 5pm and focus on two specific periods the extreme values that makes the evaluation more distinguishable.

[SEASON] - morning and afternoon to run the simulation.

| WEST WIND. POLLUTED AIR

SOLID WEST FACADE + EAST WING

o

[SEASON]

4

- morningSelect and afternoon to run the Winter simulation. Summer and which

4

[ANGLE]

5

[TIME] 4 the[SEASON] Select office hours from 9am to 5pm and focus on two specific periods 3 [TIME]

9o

WIND BARRIER

and simualte.

Select andCONTROL Winter which are the two opposite conditions with VARIABLES Select the office hours from 9amSummer to 5pm and focus on two specific periods therun extreme values that makes the evaluation more 5o distinguishable. 9o - morning and afternoon to the simulation.

[TIME]

CONDITIONS - morning and afternoon to run the simulation. 3

11

Based on the prerequisites, setup 5 angles from 5o to 21o to experiment

[SEASON]

4

[TIME]

3

CONDITIONS -

Ushering Ushering daylight in and embracing campus on the south. daylight in and embracing campus on the south.

10

setup

2 [TRANSPARENT] [TRANSPARENT]

scenario setup

Facing to downtown on the west

[ANGLE]

5 - morning and afternoon to run the simulation.

CONDITIONS -

Facing to downtown on the west

9

© Yuchi Kuo 2016

4

optimization

Facing to downtown on the west

PREREQUISITE 2 [TRANSPARENT]

3

3

5 [ANGLE] - morning and afternoon to run the simulation. [TRANSPARENT] Based on the prerequisites, setup 5 angles from 5o to 21o to experiment CONDITIONS Ushering daylight in and embracing campus on the south. 4 [SEASON] and simualte. 3 [TIME] Select Summer and Winter which are the two opposite conditions with CONTROL VARIABLES -

2

PREREQUISITE - daylight in and embracing campus on the south. Ushering 1 [TURN] 1 [TURN]

fiber cement panel

12 RCP electrical lighting

Ushering daylight in and embracing campus on the[SEASON] south. [TURN] 3 [TIME] Select Summer andCONTROL Winter whichVARIABLES are the two opposite conditions with Facing to downtown on the west the9am extreme values the evaluation more distinguishable. Select the office hours from to 5pm andthat focusmakes on two specific periods

/ CONDITIONS / CONTROL VARIABLES

1 [TURN] / CONDITIONS / CONTROL VARIABLES | PREREQUISITE

9

7

- morning and afternoon to run the simulation.

CONDITIONS [TRANSPARENT]

2

3

10 cont. angle the9am extreme values that makes evaluation Select the office hours from to 5pm and focus on twothe specific periodsmore distinguishable. 11 suspended ceiling 8

3 Facing to downtown on the west

Below - Operative panels on the lower half of each window allow for the human comfort ventilation.

PREREQUISITE -

© Yuchi Kuo 2016

2

4

scenario setupscenario optimization optimization

2nd Level S.S. EL. 15’-10”

1 cw attachment clip at verticals 2 flashing 3 1/2” pressure treated wood blocking 4 perforated alum. vent

1

4 5 spray foam insulation Ushering daylight in and embracing campus on the[SEASON] south. 6 fiber cement board 5 7 hat channel 3 [TIME] Select Summer 6and Winter which are the two opposite conditions with 8 alum. flashing

Mid - The glass above is fritted with white ceramic dots that aid in passive shading and diminishing solar heat gain.

1

5 4 5

| PREREQUISITE / CONDITIONS / CONTROL VARIABLES

- morning and afternoon to run the simulation.

| PREREQUISITE / CONDITIONS / CONTROL VARIABLES CONDITIONS PREREQUISITE - 2 [TRANSPARENT]

4

3

Select the office hours from 9am to 5pm and focus on two specific periods

Facing2 to downtown on the west

Up - The blinds lie between the two panels of glass to effectively keep excess heat out of the buffer zone.

13’-6”

3

1

2

insulated glass w/frit operable unit @ bottom 2” rigid insulation 2-sided SSG system w/ solera glazing fire safing typ. at floor slab edge steel angle to attach vertical cw mullions back pan to match curtainwall framing sealant cont. 12” raised floor system composite deck system

10

4

Image below - 4th1 floor with poured concrete floor and radiant ceiling panel

2

SETUP

1 2 3 4 5 6 7 8 9 10

2

8 Ushering daylight in and embracing campus on the south.

© Yuchi Kuo 2016

Image above - 5th floor with raised floor system and radiant ceiling panel

2

4

SETUPPREREQUISITE | PREREQUISITE -

p.t. wood blocking 14” mtl stud min. 16 guage typ. 1/2” exterior sheathing roofing membrane tapered rigid insulation pitch to drain alum. drip sliding furning channel Z channel flashing CPU controlled blinds insulated glass w/frit Radiant ceiling panel

1

4

3

SETUP

1 2 3 4 5 6 7 8 9 10 11 12 13

Facing to downtown on the west

3

The south facade features highly insulated glass with integrated eletronically controlled blinds that provide solar heat and glare control, capable of operation at 15-degree increments. The ceramic white dots on the windows passively reduce glare and solar heat gain.

wall sections

16’-0”

2

| PREREQUISITE / CONDITIONS / CONTROL VARIABLES

wall sections

3

4

1

SETUP

Roof Level S.S. EL. 74’-10”

envelope system

THE FOURTH WALL

| SOUTH FACADE

envelope system

THE FOURTH WALL

15 JAN 11:00 349.00 Wh/m2

15 JAN 9:00 130.00 Wh/m2

15 JAN 10:00 203.00 Wh/m2

22 JUL 15:00 objectives: 483.00 Wh/m2 max illuminance &2216:00 min radiation JUL 14:00 15 JAN 41.00507.00 Wh/m2Wh/m2 22 JUL 13:00 control variables: 447.00 Wh/m2 15 JANarea 15:00 orientation angles of main 162.00 Wh/m2

15 JA 162.0

22 45

15 JAN 14:00 271.00 Wh/m2

15 JAN 16:00 41.00 Wh/m2 15 JAN 15:00 162.00 Wh/m2 15 JAN 14:00 271.00 Wh/m2

15 JAN 13:00 368.00 Wh/m2

15 J 415

ANALYSIS & OPTIMIZATION

3pm

9am

3pm

9am

3rd

Summer

13o

17o

21o

Summer

Winter

4th

Seasonal Solar Irradiation analysis

/ NOTES

Monitoring/ Contorls

Office suite Illuminance (lux)

Office suite

Office suite

Illuminance (lux)

Illuminance (lux)

10.8 Office suite Office suite

10.8 10.8

107

Office suite

Dark day 107 Twilight Dark day 107

Dark day 1075

1075

1075

Twilight Twilight

Overcast day

Overcast day

PUBLIC AREA / DARK

20

PUBLIC AREA / DARK

20

/ DARK 20 50 PUBLIC SHORTAREA VISITING SHORT VISITING

50

WORKING AREA 50 100SHORT VISITING WORKING AREA

100

WAREHOUSE/ARCHIVES 100 150WORKING AREA 150 WAREHOUSE/ARCHIVES

Overcast day

250

CLASS

500

PC / LABORATORY

150 250 WAREHOUSE/ARCHIVES CLASS 500 CLASS PC / LABORATORY 250

13° /13° WINTER / 9am / 4th FLOOR / WINTER / 9am / 4th FLOOR 79.8% between 10&3000 lux 79.8% between 10&3000 lux

1.8% of 1.8% area of > 3000 18.4%0f area <10 area >lux; lux; 18.4%0f arealux <10 lux 13° / WINTER / 9am / 3000 4th FLOOR

10752 Full Fulldaylight daylight 10752

SUMMARY SUMMARY

South corridor which faces downtown occupys the area with with higher lux. Eace space equally hashas South corridor whichtofaces to downtown occupys the area higher lux. Eace space equally

1.8% of area > 3000 lux; 18.4%0f area <10 lux

higher andlux lower beseen clearfrom seen oustide. from oustide. working spaces are meet higher and lower andlux canand be can clear MainMain working spaces are meet the the baicbaic lux lux for working for working area. area.

SUMMARY

South corridor which faces to downtown occupys the area with higher lux. Eace space equally has higher and lower lux and can be clear seen from oustide. Main working spaces are meet the baic lux for working area.

PC / LABORATORY

1000DRAWING DRAWING WORK 1000 WORK

750

SHOP / SUPERMARKET

1500DETAIL DETAIL DRAWING 1500 DRAWING

Mean illuminance=671.2 lux

79.8% between 10&3000 lux

750 SHOP SHOP / SUPERMARKET / SUPERMARKET

750

500

Mean illuminance=671.2 lux Mean illuminance=671.2 lux

10752 Full daylight

1000 DRAWING WORK

2000 TASK 2000VISUAL VISUAL TASK

1500 DETAIL DRAWING 5000 VISUAL TASK 5000PROLONGED PROLONGED VISUAL TASK

2000 VISUAL TASK 5000 PROLONGED VISUAL TASK

42

evaluation

Interstitial testing

Interstitial testing

evaluation

Interstitial testing

Monitoring/ Contorls

Monitoring/ Contorls

evaluation

optimization

optimization

| SYMBOLS / LEGENDS / NOTES

| SYMBOLS/ /NOTES LEGENDS Point-in-Time EXAMPLEIlluminance | EXAMPLE SYMBOLSanalysis / LEGENDS

optimization

EXAMPLE

Winter

FLOOR

Summer

FLOOR Winter

4th

9o

3pm

Summer

9am

| RADIATION 5o

FLOOR

3pm

21o

Winter

9am

17o

simulation chart

FLOOR

3pm

13o

simulation chart

3rd

9o

optimization

OVERALL CHART

| ILLUMINATION 5o

9am

optimization

OVERALL CHART

[TOPO-SKIN FACADE] The proposed faรงade integrates topologically optimized structural framing and membrane based dynamic insulation skin. The topology optimization ensures that the volume and weight of the steel framing are minimized without compromising in structural performance. The multi-layered ETFE membrane which is extremely lightweight, durable, and transparent, serve as an alternative to the traditional aluminum and glass cladding system. The air layers between each layer functions as thermal insulation which can be dynamically adjusted by the degree of inflation.

Elevation

Thermal insulation controlling through inflation and deflation

Context & Shadow analysis This Building is uniquely situated on the south-west side of the urban areas in NY. According to the dry-bulb temperature and relative humidity analysis, 40% of the year could be naturally ventilated or heated. To block the direct wind flow from the river side, new types of facade system and their operation schedule will be suggested.

43

ENVELOPE DESIGN Reimagine Structure Competition / The Metals in Construction Magazine / 2017 Design Challenge Collaboration with Daekwon Park, Yuchi Kuo, Bharat Krishnan, Namju Lee, Jungmin Han, Junho Chun,Yang Song

Visualization

44

[TOPO-SKIN FACADE]

Spring

Summer

Fall

Winter

45

50% inflation

deflation

Multi-layered ETFE membrane

100% inflation

interior visualization

ENVELOPE DESIGN

Dynamic Air Valve / deflation

section

Dynamic Air Valve / inflation

46

[CLOUD T] The design introduces various canpopy patterns onto building envelope. The simulation of the canopy shadows during different times of day creates various atmosphere from the light and shadows. The envelope system applies different patterns to the spaces according to the spatial program and activies.

the environment at 10 am

different senarios with tree canopy pattern

47

simulation of different canopy typologies during daytime

ENVELOPE DESIGN For international velux competition 2016/ Building System Class / Spring 2016 Instructor / Daekwon Park Collaoration with Yuchi Kuo, Andi Li

the envelope with tree canopy patterns

apply to urban landscape

interior visualization

48

[2008 POST-QUAKE RECONSTRUCTION] The aim of this project was to build the houses for victims of 14 different villages in Sichuan Earthquake in 2008. Housing form design was based on the traditional typology. But we combined with the light gauge steel framing system which is easy to transport and easy to construct by the residents.

shop house type context

existing housing type_wood door panels

traditional house

traditional black tiles

traditional black tiles / ventilation

construction completed

4 or 5 units become 1 cluster for adapting to the terrain

black tile roofing

49

2x4 light gauge steel framing

black tile roofing

loft floor steel framing

HYBRID MODULAR / SD DD CA Project for Ministry of Housing and Urban-Rural Development, China 2008-2011 Collaboration with Chu-Joe Hsia, Li-Chu Lin, Ying-Hsien Yu, Wei-Hsiu Chang, Shin-Yen, Yuan, Xi`an University of Architecture and Technology, China

Wide doors apply, including several removable wooden panels

front elevation

rear elevation

depending on commercial potential, leave it for the residents to decide where to build the private living space. each family has linear shape site, they can keep on building the living space backward.

section

black tile roof vent

black tile roof detail

50

Zone of Inuence

Tribe Territory Sprawling Lines

Territorial Boundary A.D. 1100

Hunting Area Sprawling Lines

Territorial Boundary A.D. 1200

Farm

Territorial Boundary A.D. 1300

Pigeon Bean

Territorial Boundary A.D. 1400

Yam Area

Territorial Boundary A.D. 1500

Trail

Territorial Boundary A.D. 1600

Farm Terrace

Territorial Boundary A.D. 1700

Forbidden Area

Territorial Boundary A.D. 1800

Slide Area

Alliance

Stone Quarry

Unite

Swamp

Watch Tower

Footprint of Wild Boar

Flood Peak

Tribe Sprawling Trend

Forest

Flood Peak Record

River

experimental landscape

Tribes in Riverside, original work size 6’x6’, 2017. Professor: Molly Hunker

36

51

EXPERIMENTAL EXPERIMENTAL LANDSCAPE LANDSCAPE

territories buffer zone

territories buffer zone territories buffer zone

farms

rainwater run off

vapor

farms farms

rainwater run off rainwater run off

vapor vapor

river area

river area river area

vegetation

territories sprawling dynamic map 37

Through the alternative interpretation, an regional landscape was represented by mutiple map layers in a tempral and dynamic scale

landscape model / 24� x24�, 5 layers, vacuum forming styrene, dying resin

53

yetung@syr.edu