Offshore Islands
Based on past experience, the ar-
Taiwan Countryside | 2022
chitectural design process has the
A Roof for Democracy
patterns
ability to transcend established through
Programming
A BIG ROOF = 10,000 sqm | 2022
and actively shape spatial rela-
Crystallisation
this idea, if design embraces “ex-
Collective Housing as Urban Platform | 2021
Robotic Medical Labs Bio-ICT Campus, NYCU | 2021
Open Ground Service Centre in Hsinchu Park | 2020
Co-living+ Intergenerational Co-living House + Shop | 2020
P2 | P8 | P12 | P17 | P21 | P23
tionships in design. Expanding on
ploration and transformation into the commons” as a dynamic, then Commoning becomes the verb that
embodies the concept of “common in design.” It highlights the collective
consciousness
within
the design process, which remains
a crucial focal point that cannot
be disregarded, even when subjectivity is present. Moreover, the Commoning Ground that emerges
through design maintains its effectiveness as a realm for knowledge production. It is a domain that can be revisited, extended, and applied
in a sustainable manner, serving as P26 | P27 | P28
a catalyst for discussions on related topics and contextual cues.
URBAN DESIGN / RESEARCH
PORTFOLIO
APPENDIX | 2021 | Selected Report Bio-ICT Campus a positioning analysis APPENDIX | 2013-2014 | Selected Report NorthWoolwich/ Albert Island/ Beckton a response
PUBLICATIONS / EVENTS
Keywords:
APPENDIX | 2015-2022 | Selected Work
# Artfact
EXHIBITION / WORKSHOP
# Collective Form
APPENDIX | 2015-2022 | Selected Work
# Open Structure
# Automated Landscape
2019 _ 2023 YUN SHIUAN HSIEH URBAN-COUNTRYSIDE RESEARCH | ARCHITECTURE DESIGN
Offshore Islands Taiwan Countryside Y3-S5 | 21/9-22/1 | INDIVIDUAL WORK
Site | Western Coastline, Taiwan
Adviser | Chiaju LIN (OMA)
1-1 Collage : Taiwan’ s Coast and Offshore Islands
1-1
Rem Koolhaas reminds that “country-
ny, showcases a unique coexistence of di-
world a better place. Humans must
Throughout history, the island’s inhab-
side” is the foundation for making the bravely explore beyond the familiar ur-
ban environment to confront unfamiliar territories, rediscover neglected places,
recognise the associated risks, and reanimate new imaginations of the countryside.
Taiwan Countryside Studio draws inspira-
tion from OMA’s research on the country-
verse life forms and water environments. itants have managed to resist coastal
erosion caused by ocean currents and climate change. In the case of the alluvial land along the west coast, the transformation of shoreland use reveals four dis-
tinct stages: Farming, Industrialisation
(including landfill), Port Development, and On-to-Offshore Energy Generation.
side. The research “Offshore Islands” fo-
Overall, offshore resources create oppor-
landscape and raises the core question:
but also carry the potential for regional
cuses on Taiwan’s ever-changing coastal How do people on this island, located in East Asia and the Pacific region, actively shape our maritime territory?
Taiwan, an island formed through tecton-
tunities for international collaboration conflicts. Hence, how will Taiwan’s forthcoming offshore operations impact the
boundaries of the strait and the maritime domain?
ic plate movement and geological oroge-
M.ARCH | Y3-S5 | PROJECT 001 /
2
1-3
1-2 5
6
7
1-4
1-2 Changes in Changhua Coastal Landscape [ 1905 – 2021 ] 1-3 West Coast Development 1720 – 1979 | 1970 – 1999 : Agriculture / Fisheries | Coastal Industrial Zone
1-4 West Coast Development 1990 – 2000s :
Landfill / Wastewater / Factory / Power Plant / Harbor / Park
1-5 Natural Coastal Scenes Coexisting with the Sea :
Subsidence | Oyster Shacks | Wetland Birds | Intertidal Zone
1-6 West Coastal Scenes 1990s – 2020s :
1-7 West Coastal Scenes 2020s :
Offshore Wind Power Terminal in Taichung
90s Breakwater Blocks / Open Dump / LNG Plant 20s Breakwater Blocks in double
M.ARCH | Y3-S5 | PROJECT 001 /
3
Global warming trends indicate that
by 2050, Taiwan will likely experience
a significant rise in sea level (approximately 6-7 meters higher, equivalent
to B.P. 6,000), resulting in land displacement by the marine environment.
The Fukushima nuclear disaster in 2011 prompted Taiwan, which is also
located in the Pacific seismic zone,
to adopt a path towards becoming a
“Non-nuclear Homeland.” The plan involved replacing coal-fired power
generation with natural gas and expanding renewable energy sources such as hydro, wind, and solar power.
Since 2019, liquefied natural gas (LNG) has officially surpassed coal in electricity generation, and additional LNG
terminals are planned near the thermal power plants on Taiwan’s west coast.
For instance, Taichung Harbour was established in the 1970s as an international freight port. In 1986, the construction of coal-fired power plants
began in the southern area through land reclamation. From the 2000s onwards, LNG terminals were added and expanded. Today, the reclaimed ash 8
12
10
14
9
11
13
15
1-16 1-17
1-8 Taiwan shaped by the Eurasian and Philippine Sea Plates
1-13 West Coastal Scene : Beach Life (1989)
1-10 / 11 Taiwan’ s Energy Transition Goals for 2025 :
1-15 Guantang LNG Terminal on Algal Reef in Taoyuan
1-9 Fukushima nuclear accident caused by earthquake and tsunami [+] Green Energy, Natural Gas; [-] Coal, and Non-Nclear
1-12 Changes in Taiwan’ s Coastline [ B.P. 6000 – 2050 ]
1-14 Yongan LNG Terminal nearby Wetland in Kaohsiung 1-16 Active LNG Terminal | Thermal Power Plant + planed LNG Terminal
1-17 Port Expansion : Fishing Pier / Cargo Terminal / Thermal Power Plant + LNG + Wind Turbine Terminal
pond from the coal-fired power plants has been transformed into a storage platform for offshore wind turbine components, serving as a port base. M.ARCH | Y3-S5 | PROJECT 001 /
4
Taiwan’s land planning contrasts with
its unfamiliarity in ocean management, which forms the national border. The ocean includes sensitive areas like military zones, undersea cables,
gas pipelines, and protected zones for conservation and resource extraction.
National security concerns arise as human-made structures intervene in the
area. China’s illegal sand mining and offshore wind farm plans near Matsu exemplify these challenges.
Asia will experience significant wind power growth due to the narrow sea
passage effect in the Taiwan Strait,
known for high wind speeds. Large-
scale offshore wind power construction is currently underway in Taiwan’s western waters, surpassing the traditional coastal area extended up to
the 30-meter isobath line. Within the
50-meter isobath line, international offshore wind power teams establish
a sea-based community. Future development using floating platforms may
expand into deeper areas. Research marks that the seabed infrastructure
of wind turbines will create a thriving marine environment akin to artificial
reefs, benefiting fisheries resources. In essence, the expansion of on1-18 1-19
1-20
21
23
22 24
1-18 Sensitive Areas in Taiwan’ s Waters |
1-21 Fixed Foundation Offshore Wind Power [ Depth < 50m ]
1-19 International Teams establish Offshore Wind Power Community
1-23 Artificial Reefs promote Undersea Ecologies
Offshore Wind Farm Site planning along Taiwan Strait
1-20 Wind Power Density Map + 2050 Offshore Wind Power Prediction
1-22 Floating Platform Offshore Wind Power [ Depth > 50m ] 1-24 Offshore Wind Plants : Construction Phase disturbance to Marine Ecologies | Operation Phase formation of Artificial Reef Effects.
to-offshore energy production en-
larges Taiwan’s living territory and establishes a newly-defined ocean boundary.
M.ARCH | Y3-S5 | PROJECT 001 /
5
The offshore areas of Changhua, Yunlin, and Chiayi have undergone
ship channel and operational space re-planning. Wind farm areas are lim-
ited to construction vessels, and fishing activities are restricted to coastal
areas. However, large cargo ships can still navigate through the designated
channel between wind farms. Marine traffic has transitioned to regulated
control, prompting active defence of fishing rights by fishermen.
Coastal areas of Changhua feature di-
verse artificial coastlines, including
wetlands, oyster farms, fishing docks, fishponds, wave breakers, and reclaimed industrial zones. These areas
now contribute to renewable energy transformation, with onshore wind turbines at maximum density and
inshore areas becoming the world’s largest offshore solar power zone.
Abandoned lands serve as storage for offshore wind components, while nearby substations facilitate future energy transmission.
The architecture of human-made
ocean facilities has evolved from
oyster trellises to high-rise wind turbines. Today, advancements in ma25
29
27
31
26
28
30 32
1-33 1-34
1-25 Coastal Area [ Depth < 30m ] | Artificial Coastline Rate on West Coast
1-30 Onshore Wind Power | Small-Scale Wind Power | Traditional Oyster Trellises
1-27 Navigation Channel + Subsidence in Changhua-Yunlin-Chiayi Region
1-32 Offshore Wind Power Pioneer project in Miaoli
1-26 Offshore Wind Projects + Subsea Artificial Reefs [ > 88 sites, 237 km² ] 1-28 Ship Tracking Map
1-29 Marine Engineering VS. Coastal Engineering
1-31 Offshore Wind Power Substations in Changhua 1-33 Coastal Landscape Scenes in Changhua
1-34 North Sea Offshore Power Hub and Hydrogen Network
rine engineering promote sustainable development, while coastal engineer-
ing, including seawalls and breakwaters, remains prevalent.
M.ARCH | Y3-S5 | PROJECT 001 /
6
In the North Sea region of Europe,
plans are underway to convert marine wind energy into hydrogen through a
multinational energy network. Artificial energy islands in the ocean will serve as bases for engineers, ensuring the smooth transition, storage, and transportation of energy.
Ideally, hydrogen energy storage and facility pipelines have the potential
to replace fossil fuel and gas technologies in the future, achieving the
ultimate goal of carbon neutrality. Furthermore, the mechanism of a multinational energy network will
promote regional energy governance and reach new milestones.
Ultimately, the final design scene represents a metaphor suggesting that
humanity may develop an ideal living territory coexisting with natural energy at sea. However, in a cyclical pattern and in the far future, humans
may once again face challenges such
as retirement, abandonment, demolition, or reactivation in the realm of the
ocean, referred to as the “re-generation” of offshore artificial islands.
1-35 Collage : On-to-Offshore Islands in the far future
1-35
M.ARCH | Y3-S5 | PROJECT 001 /
7
A BIG ROOF = 10,000 sqm
GSH AN
1 Site | Taipei, Taiwan
ZHO N
Y3-S6 | 22/5-22/6 | INDIVIDUAL WORK
SOU TH R
OAD
A Roof for Democracy Adviser | Cheng-Hsuan Wu, Tze-Chun WEI
2 Executive Yuan
Control Yuan
2-1 Urban Analysis : Site Plan
Legislative Yuan 2-1
In the 21st century, social movements
decentralised citizen actions. The archi-
centralising coordination and participa-
roof to create a post-pandemic demo-
blend online and offline networks, de-
tion. Communication networks enable information flow, empowering organisations, promoting agendas, and foster-
cratic space that supports national de-
in urban areas, forging an“autonomous
Yuan blocks, preserving historic sites with
The 2014 Sunflower Movement in Tai-
wan demonstrated the power of crowd-
sourcing through an internet platform that broadcast live coverage of the occupation. This transparency led to collaborative mechanisms for digital democ-
BOULE
VARD RENAI ROAD
Judicial Yuan
rates the Legislative Yuan and Control
5
an asymmetrical roof. Opening towards Qingdao East Road, the roof symbolis-
4
es a path for social movements, guid-
ing crowds to the surrounding chamber
5
6
square. The parliament square connects
to the Executive Yuan in the north, forming an urban green belt with urban park
and campus. In the south, it intersects with significant institutions, establishing an important node for democracy and citizen participation in Taiwan.
1 2 3 4 5 6 7 8
Taipei Station Huashan 1914 Creative Park 228 Peace Monument Liberty Square National Theater & Concert Hall Chiang Kai-shek Memorial Hall NTU Hospital NTU College of Medicine
AD RO
Augmented reality technologies enable
8
ELT
cision-making from on-site constraints.
ALAN
EV OS
transformation, freeing democratic de-
KETAG
RO
racy. The pandemic accelerated digital
Presidential Office
mocracy.
The new parliament site design incorpo-
space.”
3
tecture aims to design a 100,000 sqm
ing resistance. These movements seek to merge virtual and physical networks
Bureau of Consular Affairs
7
M.ARCH | Y3-S6 | PROJECT 002 /
8
2-2 Diagram : FOUR LAYERS of the Design in Democracy
2
2-3 A Roof for Democracy : Structure in Progress 2-4 A Roof for Democracy : THE ROOF
2-3
2-5 A Roof for Democracy : Time-Bridge [ dark side ]
2-6 A Roof for Democracy : Parliament + Plaza under Inclined ARCHES
4
“A Roof for Democracy” utilises Arches
6
and continuity in democracy. It categoris-
5 7
and Bridges as symbols of collaboration es the social reform process into four spatial structures: Democratic Foundation, Parliamentary
Parliamen-
tary Circular Plaza, and Time-Bridge.
Time-Bridge
These spaces represent task-oriented,
Circular Plaza Parliamentary Chamber Democratic Foundation
1 Main Concept: Arch and Bridge
Chamber,
representative, dynamic, and commemo-
rative functions, unified through the roof design.
4 Plaza for People
The roof incorporates inclined Arches that
support the main beam Bridge, serving as the primary deliberation space in parliament. Below is a Circular Plaza for citizen activities, while the Chamber witness-
es ongoing democratic discourse. The
Time-Bridge houses a space dedicated to commemorating democracy’s evolution, 2 Hackathon Foundation
5 Roof Structure
resembling a time tunnel transitioning
from darkness to brightness with a double inverted arched opening welcoming light and urban views.
Regarding the Democratic Foundation,
the lower layer adopts an open-grid structure of concrete deep beams, creat3 Open Ground: Parliament Hall
6 A Double-side Roof for Democracy
ing a flexible workspace for citizen part-
nerships such as hackathons. The upper layer balances the inclined arches with
curved and V-shaped deep beams, providing a media space for online discussions, participatory interactions, and potential support for augmented reality.
M.ARCH | Y3-S6 | PROJECT 002 /
9
A
B
7
B
C
C
6
A
SECTION CC 0
10
BRIDGE FLOOR +2500
20
50 M
6 The Moment Bridge 7 Skylight
0
+10
3
4
10
20
50 M
+10
4
- 400
2
1
2 5
1 Congress Hall 2 Media Studio 3 Press Room
B1 FLOOR -300 0
10
20
B2 FLOOR -600 50 M
4 Administration 5 Think-tank Workshop
0
10
20
50 M
GROUND FLOOR +300 0
10
20
50 M
M.ARCH | Y3-S6 | PROJECT 002 / 10
SECTION AA 0
10
20
50 M
2-8 Cross Section : Parliament under Inclined ARCHES 2-9 Plan B1 : Parliament + AR Media Studio
Plan B2 : Hackathon Think-tank Workshop
2-11 Plan : ROOF BRIDGE Floor 2-12 Longitudinal Section
2-13 Cross Section : Southern Ramp Entrance
SECTION BB 0
10
20
50 M
2-14 A Roof for Democracy : Time-Bridge [ light side ] 2-15 Inclined ARCHES support the ROOF BRIDGE
2-8
2-10
2-9
2-11
PREVIOUS
2-10 Plan : Ground Floor
2-12 2-13
2-14
2-15
M.ARCH | Y3-S6 | PROJECT 002 / 11
Crystallisation
shared corridor /roof platform / circulation
more types of shared outdoor space
6 units in 1 modual
5 units in 1 modual
linear units
multi-type units
Collective Housing as Urban Platform Y2-S3 | 20/12-21/1 | INDIVIDUAL WORK
Site | Hsinchu, Taiwan
OLD HOUSES
NEW RULES
Adviser | Ling-Li TSENG
3-1 Flexibility : Room Division 3-2 Form in Transformation 3-3 Architectural Platform
1
3-4 UNITS in Architecture
3-5 / 6 Diagram : Public Space
The“Crystallization”reimagines collec-
tive housing as an adaptable “crystal-
lized structure”in the city. It starts with a fundamental unit, a “Room,”to form
different “Homes” and allows for adjustments based on changing needs, relationships and lifestyle choices. The ar-
chitectural design features a single-layer
parallelogram volume with six“Rooms,” forming a “Group” with three layers.
Each “Group,” similar to the original
R R R R R
form spaces, and introduces fluidity
through gaps. The building maintains an
open and flexible approach, progressing from individual “Rooms” to the collective
FLIP OPEN / CORRIDOR
PLATFORM [S]
SHIFT / CONNECTION
PLATFORM [L]
POSITION
5
K
L K
R
greenhouse amphitheatre
L
K
canyon arena
Studio
L
K
open ground
OUTDOOR SPACE
FRONT VIEW (PARK SIDE)
R R
Living with Old Parents
R R
vertical bazaar
R
vertical bazaar
R R
courtyard plaza
Studio
R R R
sual variations, generates public plat-
DIRECTIONALITY
6
L
Studio
cludes a vertical circulation system. By
ulating angles, the design creates vi-
BASIC MODUAL
Core Family
Studio
stacking parallelograms and manip-
4
VOLUME IN TOTAL
General
double-row houses on the site, accommodates four to five households and in-
3
3-2
L K L K
canyon arena
courtyard plaza
greenhouse amphitheatre
R R Couple
open ground
INDOOR UNITS
BACK VIEW (NEIGHBORHOOD SIDE)
M.ARCH | Y2-S3 | PROJECT 003 / 12
3-7 Longitudinal Section : Public Space + UNITS
3-8 / 9 Housing GROUPS in Development >> Housing UNITS : 10 types 3-12 >> 3-16 Plan : Ground Floor to 7F
3-7
NEXT
3-17 Model : Crystallisation [ Collective Housing ]
3-8
3-9
3-11
3-13
3-15
3-16
3-10
3-12
3-14
3-17
“Community.”It envisions collective
housing as a dynamic space where urban wanderers interact, fostering fluid-to-solid relationships.
The “Crystallization” collective hous-
ing complex is a large village comprising ten groups of parallelogram
volumes, with each group selecting
Green House
from ten different types of “Homes” through
Amphitheatre
Courtyard / Plaza
heterogeneous
combina-
tions. Each “Home” faces both private
Vertical Bazaar
circulation and a public platform,
providing choices for daily living. The building showcases a spacious public
Canyon Arena
platform that maximizes surface area and connects with the city. Notably, the section drawing reveals five landscape-like spaces: the Amphitheatre
(deep cavity), co-learning Green-
house (shallow cavity), Sky-Courtyard (flat concave), Canyon Arena
(double banks), and Vertical Bazaar
(spiral) from left to right. These outdoor public platforms sustain the atmosphere of the Green Corridor and
Longen Canal in Hsinchu City. As a
community, residents can collectively manage these spaces or open
their “Homes” to engage with urban wanderers. The “Crystallization” ultimately demonstrates the active ca-
pabilities of each architectural unit
Section A-A
to the entire building. 0 1
3
6
10 M
M.ARCH | Y2-S3 | PROJECT 003 / 13
3 UNITS
3 UNITS
2 UNITS
4 UNITS
3 UNITS
3 UNITS
3 UNITS
4 UNITS
3 UNITS
3 UNITS
LINE
WIDE-L
SINGLE
DOUBLE-MID
2 DOWN+1 UP
1 DOWN 2 UP
SHARP-L
DOUBLE-SIDE
2 DOWN 1 UP
3 FLOORS
M.ARCH | Y2-S3 | PROJECT 003 / 14
13
12 4.94
11 4.94
10 4.94
8
9 4.94
4.94
7 4.94
6 4.94
5 4.94
4 4.94
3 4.94
2 4.94
1
17
4.94
16 4.94
WD
4.94
15 4.94
14 4.94
13 4.94
12 4.94
11 4.94
10 4.94
A B
4.94
7 4.94
6 4.94
5 4.94
4 4.94
3 4.94
2 4.94
1 4.94
+900
WD
C WD
5.66
WD WD
+900 WD
+900
+900
+900
2.82
2.82
E
5.66
+900
5.66
F
WD
WD
WD
WD
D
WD
D
WD
WD
WD
WD
5.66
+300 +300
B
C
WD
WD
WD
A
5.66
5.66
WD
8
9 4.94
2.83
14 4.94
WD
15 4.94
WD
16 4.94
2.83
17
E F
8.50
8.50
WD
WD
G
SECOND FLOOR
0 1
3
6
G
FOURTH FLOOR
10 M
17
16 4.94
0 1
15 4.94
14 4.94
13 4.94
12 4.94
11 4.94
10 4.94
8
9 4.94
4.94
7 4.94
6 4.94
5 4.94
4 4.94
3 4.94
2 4.94
3
6
10 M
1 4.94
2.83
±0
WD
+600
A B
5.66
+600 +600
WD
C 5.66
WD WD
WD
±0
WD
D
+600
WD
+600
WD
WD
WD
+600
5.66
±0
2.82
WD
A +600
E F
8.50
WD
A
G
FIRST FLOOR
0 1
3
6
10 M
THIRDTH FLOOR
0 1
3
6
10 M
M.ARCH | Y2-S3 | PROJECT 003 / 15
14
13 4.94
12 4.94
11 4.94
10 4.94
8
9 4.94
4.94
7 4.94
6 4.94
5 4.94
4 4.94
3 4.94
2 4.94
1
17
4.94
2.83
+1560 +1560
15 4.94
14 4.94
13 4.94
12 4.94
11 4.94
10 4.94
8
9 4.94
4.94
7 4.94
6 4.94
5 4.94
4 4.94
3 4.94
2 4.94
1 4.94
A B
C
WD
2.82
2.82
+1860
F
8.50
WD
+1860
E
+1560
G
SIXTH FLOOR
0 1
15
14 4.94
13 4.94
12 4.94
11 4.94
10 4.94
8
9 4.94
4.94
7 4.94
6 4.94
5 4.94
4 4.94
3 4.94
2 4.94
3
6
10 M
1
A B
5.66
WD
+1260
+1260
C 5.66
WD
0 1
4.94
WD
+1200
F
G
SEVENTH FLOOR
10 M
WD
4.94
6
2.83
16
3
E
8.50
WD WD
5.66
D
5.66
D WD
4.94
B
C
+1860
5.66
WD
17
A
WD
5.66
+1560
16 4.94
WD
4.94
2.83
15 4.94
5.66
16 4.94
5.66
17
WD
D
+1200
5.66
+1200
WD
2.82
+1200
F
8.50
WD
+1260
E
WD
G
FIFTH FLOOR
0 1
3
6
10 M
M.ARCH | Y2-S3 | PROJECT 003 / 16
Robotic Medical Labs Bio-ICT Campus, NYCU Y2-S4 | 21/4-21/6 | INDIVIDUAL WORK
Site | Hsinchu, Taiwan
Adviser | Shu-Chang KUNG, Yuchang LIANG, Shu-Hsien CHOU
1
Bio-ICT : Biomedical Information and Communi-
2
Tingpu Canal : TINGPUZHEN
cation Technology 3
4-1 Bio-ICT Campus 4-2 / 3 HOSPITAL
Eighteen Peaks Mountain : SHIBAJIANSHAN
2
3
forest area (green belt). Additionally, a
research labs, dormitories, and preserv-
portation to the hospital. The hospital
ing historical buildings. The site, located between Hsinchu Park and a canal2 along
the mountain3, offers an ideal natural
setting for an open campus. It consists
of two main axes: the “Robotic Medical Campus” integrating human-machine
medical care and the “Healthy Living Programs”for the public and citizens, promoting sports, learning, and socialisation. It embodies a living experiment driven by scientific knowledge transparency.
The main strategy involves preserving a long plaza connecting historical buildings
and communities, creating a waterfront recreation area (blue belt), and linking a hill to both the park and the preservation
HEALTHY LIVING PROGRAMS
4-1
The project aims to design a Bio-ICT1
campus in Hsinchu, including a hospital,
ROBOTIC MEDICAL CAMPUS
HEALTHCARE
LIGHT RAIL STOP
light rail stop at the park enhances trans-
MEDICAL RESEARCH
HOSPITAL
design prioritises equal and continuous freedom of movement. The front
section houses outpatient treatment and
media exhibition areas, while the back
MEDICAL LABS SPORT CENTRE PHARMACY
section contains surgical treatment and
patient rooms. The basement connects
to Robotic Medical Labs, supporting automated machinery for medical equip-
HISTORICAL ZONE
ACCOMMODATION
ment and services.
In a smart-service environment, the Ro-
botic Medical Labs feature health-themed
experimental units for customised local
INCUBATOR
FOREST
health services. On the campus, individuals can regain an active lifestyle by integrating nature, community life, and body data digitisation.
M.ARCH | Y2-S4 | PROJECT 004 / 17
PA
A
H
Lig
ht
il Ra
Sto
N SI
RK
U C H ail Stop Lig
ht
R
p
1
B
8
5
2
+0
7 6 3 11
4
13
A 12
10
+0
+0
+0
9 +0
-3
-3
-3
1 LOBBY / CAFE SHOP 2 EMERGENCY DEPARTMENT
-3
14
3 BUS STOP 4 MEDICAL RESEARCH BUILDING
-4
TING
P UZ
HEN SH
IBA
N JIA
SH
AN
5 BIO LAB 6 ROBOT MAKING ASSISTIVE DEVICES 7 LOGISTIC ENTRANCE
MASTER PLAN 0
5
10
8 3D PRINTING PHARMACY 9 ACCOMMODATION 10 SPORT CENTRE 11 VIP RECEPTION 12 HOTEL 13 RESTAURANT 14 WATERFRONT
Level +200 30 m
B
M.ARCH | Y2-S4 | PROJECT 004 / 18
3D PRINTING PHARMACY
ROBOT MAKING DEVICES
TELEMEDICINE CENTRE
AUTOMATED RESTAURANT
M.ARCH | Y2-S4 | PROJECT 004 / 19
16 BUS STOP 17 BOOKSHOP
8 EMERGENCY DEPARTMENT 9 INFORMATION
1 LOBBY / CAFE SHOP 2 OUTPATIENT
18 RADIOTHERAPY 19 SURGICAL OPERATIONS
10 MEDECINE 11 MEDIA ROOM 12 SUN HOUSE
3 SPECIAL OUTPATIENT 4 REHABILITATION 5 RESTAURANT
13 GREENHOUSE 14 WARDS 15 ROBOTIC LIFT
6 HEALTH CENTRE 7 EMERGENCY PATIENT ENTRANCE
20 INTENSIVE CARE UNIT 21 CENTRAL STERILE SUPPLY DEPARTMENT 22 ANESTHESIOLOGY 23 PATHOLOGY LABORATORY 24 ISOLATION UNIT
HOSPITAL
LIGHT RAIL STOP ACCOMMODATION 14 24
6
23
SPORT CENTRE
INNOVATION INCUBATOR
22
21
13
19
20
5
19
4 12
18
3
11
17
10
16
9
8
2
1
7
15
A 2378.7
PERSPECTIVE SECTION AA 0
TELEMEDICINE
AUTOMATED RESTAURANT
5
10
20 m
SPORT CENTRE _ HOSPITAL _ HSINCHU PARK
A
ACCOMMODATION
INNOVATION INCUBATOR
ROBOT MAKING DEVICES
3D PRINTING PHARMACY
HISTORICAL BUILDING
B
AUTOMATED FARMING
WATERFRONT BAR
PERSPECTIVE SECTION BB ROBOTIC LABS _ ACCOMMODATION _ WATERFRONT 0
6
4-13
8
15 16 17 18 12
7
4-14
9
10
11
PREVIOUS
4-4
5
4-19 4-20
4-4 Master Plan : Ground Floor
4-19 Section : Living Cluster [ Gym + Accommodation ] — HOSPITAL
4-5 >> 4-12 Diagram : Design Steps
4-20 Section : LABS — Green Belt — Living Cluster — Waterfront
5
10
20 m
B
4-13 Exploded Views : HOSPITAL 4-14 Exploded Views : LABS 4-15 >> 4-18 Automated LABS
M.ARCH | Y2-S4 | PROJECT 004 / 20
Open Ground W
or
ks
ho
p
Service Centre in Hsinchu Park Y1-S2 | 20/3-20/4 | TEAM WORK
Site | Hsinchu, Taiwan
st
au
ra
nt
Pl
5-7
door reading room (reader's theater)
to understand and interact effectively.
Guided by the principle of all-age shar-
ing, "Open Ground" envisions Hsinchu
Park's hill, opening the boundary with a windmill plan. This design creates a continuous and independent interme-
diate space, providing opportunities for encounters and immediate choices between dynamic and static options.
The floor plan harmoniously blends
building volumes on one side in a rhythmic "solid, solid, void" pattern, creating a dynamic interaction between interior and exterior spaces. The upper layer of
le
Po
ol
To i
D t
neously, the lower-level exhibition space
le
tain openness for diverse individuals
through a spacious staircase. Simulta-
To i
in relationships. It is essential to main-
necting to the outdoor theater and in-
Ex
as a catalyst to establish common values
knowledge, objects, and spaces, serving
re Ro s si om ng
the largest solid extends outward, con-
t
Openness promotes accessible, shared
hi b Sh iti op on
/
5-3
5-6
Re Th ad ea er t e ’s r
5-4
NEXT
5-4 >> 5-7 Section + Diagram : Clusters & Layers
5-5
Re
5-3 Plan : Ground Floor
5-2
5-1
of
5-2 Model : "solid, solid, void" - a rhythmic
Ro
5-1 Model : Open Ground - PARK SERVICE
at
fo
rm
O u Th td ea oo te r r
Adviser | Chun-Chieh FANG Team | Yu-Shuan LO, Hsin-Hsiang HUANG
utilizes the staircase height, opening to a well-lit area on the opposite side and of-
fering a second exit to the central plaza.
Interconnected changing rooms and the
outdoor pool, blending both solid and
PL AY
void elements, form a unified water play space with the outer wall.
On the opposite side, building volumes
are arranged in parallel corridors be-
tween structures, allowing pedestrians
Outdoor Theater To Reader's Theater
PAUSE
Reader ’s Theater Exhibition/Shop
Central Plaza
Dressing Rm.
Pool
Toilet/Equipments
to move swiftly and efficiently choose
A
A
A’
A’
among various service spaces, including washing facilities, dining areas, indoor workshops, and rooftop platforms for outdoor workshops.
SECTIONSECTION A-A’ A-A’
0
1
2
0
1
25M
5M
M.ARCH | Y1-S2 | PROJECT 005 / 21
SECTION A-A’
Roof Platform Restaurant
To Workshop
Reader ’s Theater Exhibition/Shop
A 0 1 2 Outdoor Theater To Reader's Theater
A’ 5M
A B
A’ B’
SECTION A-A’
0
1
2
SECTION A-A’
0
1
2
5M
SECTION B-B’
0
1
2
5M
5M
B
B’
C’ B
SECTION B-B’
To Exhibition/ Shop
G: Baby Room H: Equipments I: Restaurant J: Kitchen K: Office L: Workshop
A: Reader's Theater B: Exhibition / Shop C: Dressing / Locker D: Pool E: Toilet F: Accessible Toilet
L
Reader ’s Theater Exhibition/Shop
To Restaurant
To Workshop
Workshop
0
1
2
B’
5M
Outdoor Theater
SECTION B-B’ SECTION C-C’
C’
0 0
1
2
1
2
C
5M
5M
C’ D’
±0
±75
C
SECTION C-C’
0
1
2
5M
±0 ±0
+35
D’
+70
C
+105
K
J
I
SECTION C-C’
+105
A
SECTION D-D’
+143
Workshop
B H
To Roof Platform
Roof Platform Restaurant
0
To Exhibition/ Shop
0
Pool
1
2
1 To 2
Dressing Room
5M
D’
E +143
D G
+67.5
C
D
5M
D
SECTION D-D’
0
1
2
5M
SECTION D-D’
0
1
2
5M
F
PLAN
0
1
2
5M
D
M.ARCH | Y1-S2 | PROJECT 005 / 22
Co-living+
6-1 Co-living+ : Shared Spaces [ Collective Platform ] 6-3 >> 6-7 Plan : Ground Floor to 5F
Intergenerational Co-living House + Shop Y2-S3 | 20/9-20/11 | INDIVIDUAL WORK
Site | Hsinchu, Taiwan
Adviser | Yu-Liang HSU
Mid-Level Community Platform | The
tures age. Adapting residences to diverse
floor for a shared kitchen managed by
needs is crucial, and new constructions benefit from increased volume with a focus on open public interaction.
The "Co-living+" project proposes a dual-sharing block structure, combin-
ing "economic/space" principles, using
and new spaces.
ing new public layers in the community.
units cater to six residential roles, with
shop. The 3rd floor serves as a common space for all residents to gather, while the 4th and 5th floors offer semi-outdoor areas for shared activities.
repair space, and workshops, with pre-
al sharing by resident artists and com-
Pop-up Shops and holiday events in the adjacent park.
7
old roof becomes a "second street," link-
Cityward Community Development |
served vending cart spaces for dynamic
6
Envisioning future housing updates, the
Ground-Level Activities | The ground
floor accommodates bicycle lanes, a DIY
5
turing a rock-climbing area on the other.
the 2nd floor housing an outdoor bicycle
with real-world transitions between old
4
old building's roof on one side and fea-
strategy underscores the diversification Open Connection dimensions aligning
3
cooking enthusiasts, connecting to the
Vertical Sharing Residences | Building
of "sharing" interfaces, with Four Main
NEXT
new building design reserves the 4th
a single-unit street house as a typical Taiwanese renewal model. The spatial
6-2
6-8 Open Connection : Four Main Dimensions
6-8
Enhancing urban living quality is crucial as housing and population struc-
6-1
6-2 Co-living+ : Shared Economic Model
The "sharing economy" involves cultur-
munity activities managed by students,
aiming to create a collaborative hub for urban Pop-up Events.
M.ARCH | Y2-S3 | PROJECT 006 / 23
B
A
15 18
18*
6 3
15*
17 14
11
7
16
1 8
19
2 9
4
12
13
10
20 13*
5
B
6 Bike Store 7 Reading Corner 8 Toilet / Shower 9 Room 1 [ Cyclist ] 10 Bath
A
1 Bike Pathway 2 Bike Workshop 3 DIY Bike Repair 4 Pop-up Shop 5 Storage
11 Living Room 12 Garden 13 Room 2 [ Foodie ] 14 Room 3 [ Artist in Residence ] 15 Room 4 _ Co-working Space [ Designer ]
1st Floor Plan 0
1
3
6M
2nd Floor Plan 0
1
3
6M
3rd Floor Plan 0
1
3
18* Room 5 [ Student ] 19 Roof 20 Room 6 [ Professional ]
13* Room 2 [ Foodie ] _ Storage 15* Room 4 [ Designer ] 16 Shared Kitchen 17 Outdoor / Climbing Wall 18 Room 5 [ Student ]
6M
4th Floor Plan 0
1
3
6M
5th Floor Plan 0
1
3
6M
M.ARCH | Y2-S3 | PROJECT 006 / 24
6-9 Diagram : Publicity - Community Platforms
6-10 Model : Co-living+ [ Street House Prototype ]
6-9
6-11 / 6-12 Elevation : Front / Rear
6-13 / 6-14 Cross Section : Open Space / Circulation
Next Door
6-10
13
12
14
Room
Roof
Food
Sport
+ Sport Platform
11
+ Food Platform
Living
Shop
+ Skills Platform
Publicity
100% Street / Business Space 50% Visitor Shared
Front Elevation 0
1
3
6M
Section A-A
0
1
3
6M
Section B-B
0
1
3
6M
10% Priveate Shared 0%
Complete Private
Rear Elevation 0
1
3
6M
M.ARCH | Y2-S3 | PROJECT 006 / 25
Bio-ICT Campus a positioning analysis M.ARCH Y2-S4 | 21/3-21/4 | TEAM WORK Team | Yun Shiuan HSIEH (leader) and 9 other students.
Site | NYCU Campus - Hisnchu, Taiwan
Urban Design / Research APPENDIX | 2021 | SELECTED REPORT / 26
NorthWoolwich/ Albert Island/ Beckton a response MS-S2 | 2014 | TEAM WORK Team | Yun Shiuan HSIEH, Aymara LAMCHE, Kai Ting CHANG, Giovanna ASTOLFO, Kino LEE, Kira BESSA, Kristina PAULAUSKAITĖ
Site | Royal Docks - London, UK
Urban Design / Research APPENDIX | 2013-2014 | SELECTED REPORT / 27
VILLAGE TAIPEI _ ONLINE SOCIAL HOUSING IN TAIPEI CITY
HAVE A RICE DAY FEST. Workshop + Event Coordinator | 2017
Editor-in-Chief + Researcher | 2016
VILLAGE TAIPEI _ MAGZINE Vol.7 & Vol.8
TAIPEI COMMUNITY FEST. Festival Event Consultant | 2019
Editor-in-Chief + Interviewer | 2016 - 2017
VILLAGE TAIPEI _ POP-UP OPEN URS VILLAGE
GIA PROJECT REVIEW LOGIN TO REALITY
Curator + Event Designer | 2017
Curator + General Coordinator | 2022
TAIPEI GOVERNMENT-LED URBAN REGENERATION HANDBOOK
Q-LAB 15th ANNIVERSARY TRANSFORMATION Architectural Graphic Coordinator | 2022
Editor-in-Chief + Inforgraphic Designer | 2019
Publication / Event
VILLAGE TAIPEI _ ONLINE Planner + Project Manager | 2015 - 2018
Exhibition / Workshop APPENDIX | 2015-2022 | SELECTED WORK / 28