work sample _ 2022 _ XH by Xingyue Huang

Work Sample

XINGYUE HUANG

24 Durham St. 24 Somerville, MA 02143

2022

xingyuehuang@gsd.harvard.edu

8 B

CHARLES RIVER PARK URBAN PLAN SCALE: 1" = 640'-0"

20 40

160 FEET

1. Inverted courtyard

6. Esplanade

2. In-between Garden

7. Double-edged Waterfront

3. Hollow Bridge

8. Stepped Seating

4. Enclosed Garden

9. Bridge to Nowhere

5. Grand Stand

Storrow Drive

10 9

A RIVER PARK

Sequences of Experiences

W ee

ks B

rid

Individual Work Instructor: Danielle Choi Site: Charles River, Boston, MA. U.S. 2017 Fall Harvard GSD, STU1111 This design creates three distinct sequences of experiences that connect urban with water: A widening path between buildings, leading one to a returning journey of the hollow bridge. A series of enclosed gardens to an open waterfront that cascades gently down to water. A linear route that culminates at the bridge to nowhere. The overlaying of linear sequences and spaces creates multiple spatial qualities within the park. An inverted courtyard carves out a more private space from the hollow bridge. Meanwhile, it communicates with other spaces at different levels on each side with different boundary conditions. The double-edged waterfront enables people to engage with water of Charles River in a safe shallow pool.

Birch

Japanese Tree Lilac

Gikgo Black Walnut

Dawn Redwood

CHARLES RIVER PARK PLAN SCALE: 1" = 160'-0"

40 FEET

SECTION B - B 0

20 FEET

In-between

SECTION A - A 0

40 FEET

20 FEET

FEET

40 FEET

20 FEET

SECTION C - C 0

FEET

Land-form Study of Piazza del Campo

THE CITY HALL PLAZA Three Squares Individual Work Instructor: Francesca Benedetto Site: Cityhall, Boston, MA, US 2017 Fall semester, Harvard GSD, STU1111 This design re-imagines the role of city hall plaza as a public plaza in a playful way. The three squares in the plaza are based on land-vform study of the Piazza del Campo. They challenge the geometry of the City Hall that takes a dominant role in shaping the form of the plaza. The three squares are connected by a continuous surface that allows wander and derive. The topography of squares enables spontaneous activities and events: the directional surfaces within squares create points of gravitational force. The edges of squares serve as seating. To soften the hardness of the city plaza, trees are introduced as another layer- a new nature framed by hard-paved plaza in the urban environment.

E GR

RE ST SS

+23

1.0

8.0 +2

+34.0

1 5.0 +3

6.0 +3

8.0

5.0 +3

0.0

TRE NS

UNIO

+24.0 7.0 +3

9.0 +3

1.0 +4

3.0 +4

2.0 +4

+43.0

GE BRID M CA

+38.0

+33.0

+28.0

TREET ESS S

R CONG

+13.0 +41.0

ET E STR

RE STATE ST

Betula papyrifera

.0 +21 .0 +22

.0 +25

.0 +24

.0 +27

.0 +26

+30

+29

.0 +28

2 +3

SA 3.0 +3 0 4.

STREET N CO

EE TR YS UR SU W NE

MARSHAL L

Acer saccharinum

COU RT ST R

Sassafras albidum

EET

CITY HALL PLAZA PLAN

SCALE: 1" = 80'-0"

FEET

THRESHOLD ARCHIPELAGO In collaboration with: Kira Clingen, Zoe Holland, Ui Jun Song Instructor: Sergio-Lopez Pineiro 2018 Fall, Harvard GSD, STU1211 What does public space look like when the basic elements of enjoying it are threatened by climate and sea level rise? Under the changing rate of the rate of change, what kinds of new understandings of the temporal and spatial scale of changes can be developed? This project employs three climate sensitive pathogens as agents in the design of urban form. It proposes a new set of climatic tipping points for these pathogen populations and the everyday experiences that they threaten.

New Territories

Vibrio’s reproduction rates Increases nearly 150 times with one degree rise in water temperature

Territory | Oyster (Crassostrea sp.)

Territory | Vibrio (Vibrio Alginolyticus)

Section

Section Vibrio Pathway

Mantle

Capsule

Adductor Muscle

Sheathed flagellum

Gills

Current

Cytoplasm

Scale 5 : 1 0

Scale 70,000: 1

0.2

0.4

0.8

1.6

Inch

0.5

1.5

µm

A Mosquito can lay 400 eggs within one day in Water

Territory | Mosquito (Ochlerotatus solicitans)

Territory | Human (Homo sapiens)

Section

Midgut

Blood Circulation

Malphigian tubes Salivary glands

Scale 1:5

Scale 75 : 1 0

0.04 0 0.08

0.16

0.32

0.48

Inch

10.0

20.0

40.0

60.0

Honey Fungus deteiorates the root system of trees, eventually killing the tree with the advent of any additional stressor

Territory | Honey fungus (Armillaria mellea)

Territory | Northern red oak (Quercus rubra)

Elevation

Medullary Zone (Pith)

Bark Xylem

Hollow Center

Scale 70,000: 1

Scale 220,000:1 0

Pathogen & Territory Drawings Credit:

Phloem (Infection site)

0.5

1.5

µm

Cambium Scale 1:80 0

40.0

80.0

Kira Clingen, Zoe Holland, Ui Jun Song Inch

New Public Spaces

Territoria

The quotidian experiences, bathing in sea water, salt marshes and fall color of New England, are threatened by pathogens and their new

CURRENT RE

CURRENT O

al Projections & Temporal Scales

ECREATION SPACES AND TREES | FUTURE VIBRIO BREEDING GROUNDS

CURRENT STAGNANT WATER ZONES | FUTURE MOSQUITO BREEDING GROUNDS

Scale 1:125,000 0

Scale 1:125,000 3

MILES

Coastal recreational space Future Vibrio infection zone

OPEN SPACES AND TREES | FUTURE AMARILLA BREEDING GROUNDS

Open space

MILES

Soil capable of supporting tidal flat

Current salt marsh

Current tidal flat

PROPOSED OCCUPIED BUILDINGS

Scale 1:125,000 0

Impervious surface

Scale 1:125,000 3

MILES

Soil capable of supporting oak (Quercus sp.)

Coastal buffer zone sloped 0-3%

MILES

Future occupied building

Existing street tree

Soil capable of breeding Armillaria (honey fungus)

MAINTAINED ROADWAYS

PROPOSED UPWELLING BOWL ZONES

Scale 1:125,000 0

Maintained roadway

Scale 1:125,000 3

MILES

Proposed upwelling zone

MILES

rid

PORT-PARK Individual Work Site: Jijiazui, Wuhan, Hubei, China 2015 Summer Wuhan is my hometown. Yangtze River cuts through Wuhan,

citizens as it connects the two parts of this mega-city divided by Yangtze River. The river is the ‘neighborhood’ for destitute markets. In summer, people engage with a wide range of activities related to water: swimming, boating, rafting, diving, etc. The river becomes the playground for people. However, a continuous line of retaining walls bound the river. The site is a shoal at the intersection between the Yangtze River and one of its tributaries - Hanjiang(Han River). The design envisions the area as the congregation of various activities related to the river - the people taking ferries, workers and

of engaging with water. Responding to the changing water activities relying on the season, weather, community size, number, etc., pools serving various functions are proposed adopted in other areas along the river.

FLUCTUATIONAL FLOOD FIELDS Timed Spaces Research: In collaboration with Xinyi Zhou Design: Individual work Course: Instructor: Alex Wall 2019 Spring, Harvard GSD, STU1212 Accessible to all types of users, transportation infrastructures embody the most universal type of collective realm in the city. program needs, they do not raise a sense of place. Could infrastructures become new types of public places that allow people to appropriate them in different ways? This project imagines infrastructures as timed spaces – spaces of multiple identities and would become public when they are appropriated.

indeterminant conditions: vernal ponds, river edges, wetlands, pools, etc. They accommodate different uses and imaginations.

Temporal Patterns

Four types of temporal patterns and exemplar phenomenons in Boston are mapped. These mappings reveal the multiplicity of temporal scales and patterns in physical environment, introducing The four patterns establish four frameworks for four sited designs. Tthe Fluctuational Flood Fields is the one of the largest scale- the territorial scale among the four designs.

Temporal Pattern: Fluctuational

Temporal Pattern: Continuous Temporal Pattern - Continuous 1:30000

Meters

0 0

Soil Horizons

0.15 0.3 0.3

0.6

0.9

1.2

Miles

1.8

2.4

Kilometer

Surface Horizon Subsoil Horizon/Peat Plant Residule Sub Stratum / Parent Material Organic Deposit

Dec.

Jan. Dec. Nov.

203

Oct.

Sep. Aug. Jul.

Pra r

210 210 0 0 21 00 210 0

210

Jun.

ie V ern al P ond s

May. Apr.

207

Mar.

Feb.

Jan.

207

210

Jan.

Oct.

Rain Season

ge Ver n

0 050

203

Jul.

ina

207

Sep. Aug.

Dra

207

0- 2

0 2 10

207

Nov.

203

210

Dec.

Jun.

203

May.

al P ond s

0- 2

Apr. Mar.

Vernal Ponds & Drainage

050

Feb. Jan.

Timed Space Vernal Pond Extent

Transportation Infrastructure & Expire Time Open Permeable Ground

Exemplar Phenomenon: Vernal Ponds 10000

Exemplar Phenomenon: Sea Level Rise 12000

14000

4000

2000

Sea Level Rise Inundated Area

8000

10000

12000

14000

16000

8000

10000

12000

14000

16000

Transportation Area

6’

Open Permeable Ground 16000

16000

5’ 4’ 3’

12000

6000

18000

8000

14000

6000

18000

4000

2000

2’ 1’

Mapping of Timed Spaces 1:40000 0

0.15 0.3 0.3

0.6

0.9 1.2

1.2 1.8

Miles 2.4

Kilometer

10000

Mapping of Timed Spaces

4000

6000

8000

Water

12000

10000

14000

Continuous Temporal Pattern - Sea Level rise

Fluctuation Temporal Pattern - Vernal Ponds 1:30000 0

0.15

0.3

0.6 0.6

0.9 1.2

1.2

Miles

1.8

2.4

2000

4000

6000

8000

10000

12000

14000

2000

Kilometer

2000

4000

6000

g different perspectives for designing in response to climate change.

Temporal Pattern: Episodic

Temporal Pattern: Cyclic Time

0:0

4:0

Jan 11:0

Height

17:0

1st Au

23:0

No w

0:0

2nd

Road

Cyc - T lical - 1 ide day

Dec

3rd

Jan

-V - 1 ernal yea Po nd r

4th

205

5th

Water

Epis

Temporal Diagram

-5

CO - Se NTIN U - 5 a Lev OUS 0y ears el Ris in

Sea Level

1 : 3000 0

0.06

0.12

Showing 4 types of temporal pa ern

207

Inundated place has its owe life span, which according to the topogra-

yea

Temporal Pattern - Episodic

0.24 0.24

0.36 0.48

0.48 Miles 0.72

0.96 Kilometer

High Tide Water

Temporal Pattern - Cycle

Low Tide

1 : 3000 0 0

0.06

0.12

0.24 0.24

0.36 0.48

0.48 Miles 0.72

0.96 Kilometer

Exemplar Phenomenon: Inundation 332000

334000

336000

Exemplar Phenomenon: Inter-Tidal Zone 340000

338000

2000

4000

Water (Color-Filled Area) inundated.

Inundated Time 4698000

4698000

Long Time Short Time

6’ Sea Level rise Inundated Area

Mapping of Timed Spaces Cycle Temporal Pattern - Intertidal Zones

Mapping of Timed Spaces

1:10000

Episodic Temporal Pattern - Inundation

0 0

0.045

0.09 Miles 0.15

0.075

1:20000

Kilometers

0.8 0.8

1.6 1.6

2.4 3.2

3.2 4.8

Miles

4000

0.4

4000

6.4

4696000

Kilometer

Future Bathymetry of Tidal Zones

Open Water

4694000

RAIL-BRIDGE

2000

RVR-BRIDGE

4692000

RD-BRIDGE

332000

334000

336000

338000

340000

TUNNEL

2000

4000

Landform Study Model

era

Eph

ane

m Per

Concept Model - Urban developments & Landform

Concept Model - Station

Detailed Design Model - A Chunk of Flood Fields

Outlet

Inlet

etla lW era

t an nst

ter Wa

el Lev

Outlet

Inlet

ter Wa nt sta

a cC

el Lev

bli

Perspective - phase 3 New Station Then follows the formation of different environments of different ecological conditions, temporal patterns, spatial qualities etc. infrastructure through all phases and into the future.

Overview - Phase 3

FRANKLIN PARK The Urban’s Edge

Individual Work Instructor: Silvia Benedito Site: Franklin Park, Boston, MA, US 2018 Spring, Harvard GSD, STU1112

Existing Canopy New Canopy_deciduous

The greatest amount of intensity is concentrated on edges of Franklin Park, where the urban meets nature, as well as where the regulated circulation turns into a more relaxed journey.

New Canopy_indeciduous New Canopy_multistem Canopy Cluster Hard Surface

Plan

Overall Framework

1” -160’ 0

100

400 200

600

Transforming lines This design transforms the current edges - the passives boundary lines - into spaces that brings the communities together. Three major boundary lines the inaccessible edge next to two communities, and the inconspicuous entrance. These boundary lines are re-designed into an urban boulevard, a sloped promenade, and an entering plaza. Visual connections between spaces are established by “deep lines“of trees park, only spaces for walking, resting, and wandering off.

Entering Plaza

Transforming the neglected corner of into an entrance plaza that brings people in and serves neighboring communities, the topographical division becomes a public space.

Sloped Promenade

A sloped , broad promenade extending from sidewalks; a social space of walking; an open ground; a presence of the park in urban context

Dorthea - The Closed

Zora - The Sloped

Esmeralda - The Giant

Argia - The Walled

Moments in Park

Dorothea

Individuals

Lines

Groups

Betula (Birch)

Quercus (Oak)

Individual, Line, Group

Individuals multiply into a line, and lines multiply into a group. It is a matter of purely numeric growth. Spatially, it is much more complex. The morphology of

When the three conditions, individuals, lines and groups, encounter each other in a space, they create dynamic spatial qualities. A group may be the division, or the frame.

Panorama of “New Lines”

Clearings And Openings

and died trees are spots of new succession. Birches are introduced to these clearings. Birches are pioneer species in primary successions. They rapidly colonize open land, fast grow, short lived. Colonizing through root sprouts, the original planting grid and edges are soon diminished by new shoots. The new “lines” of trees establish a spatial dialogue within the park at a the large scale.

Entering Plaza - Oblique

Sloped Promenade - Oblique

Section 1-1 Walled Path ; Winter 1” -32’ 20

5 0

60 40

Walled Path - Sectional Perspective

Section 3-3 1” - 4’ 0 2.5

Sloped Promenade - Sectional Perspective

Sloped Boulevard ; Spring

5 10

Plan Oblique 1” -72’

Urban Threshhold`

40 0

120 80

DESCRIPTIVE LAND-PROCESSES Modelling geographical processes Individual work 2020 Summer Credit: coding advice from Pine Wu Climate warming in regions of ice-rich permafrost in Arctic can result in widespread accelerated permafrost thawing, which displaces trees from their vertical direction as they grow, causing the formation of drunken forests. The silent, slow process of tilting of each individual spruce takes place through a time span that escapes immediate perception of difference. It raises a new kind of awareness of climate change: that it is not a threatening state to be reached at certain point, but a perpetual state of change. The boundary between individual life and a specie’s life is not clearly delineated in plants’ lives. The forest also points back in time - to the distant, remote past back to the inception of the specie. The contrast between geological time scale and anthropogenic time scale is manifested in the tension of the tilting force. This project experiments with computed forms that transform according to certain set of rules, in order to simulate the evolution of the new Arctic landscape. It hopes to measure, interpret, and represent what would be impossible without computational power.

Layers of Processes

Drunken Forest - tilting as a result of surface subsidence

Tilting Force Field - tilting vector generated from surface curvature

Subsided Land Form - resulting form ice wedge melting

Subsiding Pattern - ice-wedge polygonal pattern based on Thiessen pattern

Melting Ice Wedge

Year0

lte

d:0

lte

d:1

.4M

lte

d:2

.7M

lte

d:4

.1M

lte

d:5

.5M

lte

d:6

.8M

lte

d:8

.2M

lte

d:9

.5M

lte

d:1

lte

0.9

d:1

lte

2.3

d:1

lte

3.6

d:1

lte

d:1

lte

6.4

d:1

lte

7.7

d:1

lte

9.1

d:2

0.5

Tree Tilting Logic

Find closest surface normal direction

(resulting in averaged surface normal

Multiply surface normal vector in

Tilting direction is the product of adding surface normal vector and vertical vector

Ice wedge melting & Ground subsidence Logic

Year40

Melted volume

t+ ta

Melting height

tio va

lte

d:2

1.8

lte

d:2

3.2

Ground subsided volume

Ele

on ati

in po

3 t -2 ta

year 0 year 15 year 25 year 30

Visible & Invisible Processes

Tilting Force Field

year 30

year 25

year 15

year 0

Appendix

Script Overview

Appendix

Snapshot of code for customized components

INQUIRING “RESILIENCE” BERGER PARTNERSHIP Research Internship Work Advisors: Jonathan Morley, Matt Martenson, Jennifer Montressor 2019 summer Berger Partnership What constitutes the common understanding of “resilience” in landscape design; what constructs the knowledge base for designing “resilient” landscape; and how to apply these to a issues – the South Park neighborhood in Seattle? This design research is comprised of three parts: theoretical framework, boundaries, looks into different spatial-temporal perspectives, and examines sea level rise at a more nuanced scale.

Excerpts From Research Report

GRADATIONAL RECIPROCALITY In collaboration with: Hiroki Kawashima, Qiaoqi Dai, Xinyi Zhou Instructor: Sawako Kaijima 2019 Spring, Harvard GSD, SCI 6359 This is a full-scale wooden pavilion project exhibited in the backyard of GSD on May 2019. This project investigates the potential of reciprocal structure system, in which all the structural members rely on/interlock each other. The structure design is composed of the following

safety assessment with one-to-one interlocking joints model. The different depths of the structural members are based on of the forces. The designed form interacts with the existing canopy on site, which also serves as a structural element. In translating the 1:5 scale model into 1:1 scale pavilion, we had to switch from laser cutting to CNC milling. The different fabrication method and change of scale required us to take into consideration

A MUSEUM Competition Proposal 2020 summer This project is a response to a competition brief that asks the designer to transform a deserted reservoir from Roman time

Site Plan

ruin? What does it mean to re-use it as a museum? What kind of art should be on display in such a museum? The design scheme attempts to create spaces in-between landscape, architecture, and infrastructure.

RUIN

LAKE ROOM

Third Co

ALLE

UNDERPASS

01 Cafe & Restaurant 02 Reception 03 Bathroom o4 Locker Room 05 Conference Room 06 Exhibition Space 07 Courtyard 08 Bookstore 09 Administration A Well C Fountain

Plan 5M 0M

10M

20M

orridor

Second Corridor

First Corridor

ENGRESS/INGRESS

ENFILADE

08 09

GALLERY STEPPED AVEN

Ruin A ruin is an architecture restored to incompleteness, to be inbetween urban and nature. Temporality is inherent in the in-between space. To approach the temporary states in different times of a day, in different days, rainy or sunny, in different seasons, mild or extreme, To reuse it is to approach it

Diagramatic Plan of One-Corridor

20.01M

17.40M 15.00M 11.72M

Corridor Corridor, an element that historically was an instrument of speed,

The ruin, the museum, the landscape, become one corridor. As one approaches sometimes there are art works sometimes the corridor is empty which culminates at the top of a small hill with view to the sea. 11.72M

The ruin, historically an infrastructure of storing water, becomes part of a new infrastructure that connects urban with nature.

Water

11.72M

The journey to cistern presents water in its stillness.

Section

21.00M

Section B-B

In other words: one’s connection with the outside

In each guest house, the solid roof folds down

The enclosed courtyard is the most private space in the house,

RESORT PHUKET - Typical Guest Room 2020 Partner: Lyndon Neri Project Leader: Ziyi Cao, Fongwin Huang Team: Alexander Goh, Jan Lee, Jingyi Bi, Yinan Li, Vanessa Wu, Xingyue Huang Phase: Concept Design Responsibility: topography and circulation study, masterplan planning, design of typical guest room, design of public area

Selections form versions of interior renders

Blankness - A Fictional Project

One an imagined site, somewhere

in a generic urban context, two old

houses, identical to each other, are to be

demolished.

To preserve the blankness is to materialize it in reverse, as solid. The following steps are taken: The ground is excavated. Foundation is poured in layers. Structures are placed in sequence in the pouring of layered foundation. Each column is held in place by liquid layers of different density in different moments of time. Gravity

Blankness - A Fictional Project One an imagined site, somewhere in a generic urban context, two old houses, identical to each other, are to be demolished.

BLANKNESS Individual Work Instructor: Brett H Schneider 2021 Fall Harvard GSD, SCI 6383 Indiscrete Structure

work into architectural and structural spaces.

HUMAN RIGHTS MONUMENT BUREAU BAS SMETS Brussels, Belgium 2017 - 2018 Project Leader: Bas Smets Responsibility: made several study models under the instruction of project leader.

INVISIBLE CITIES Individual Work Instructor: Silvia Benedito 2017 Spring, Harvard GSD STU1112 Taking inspirations from Italo Calvino’s “Invisible Cities“, the cities are transformed into spatial tales.

ESMERALDA

DOROTHEA

City of Infinite Choices City of No Volume

ESMERALDA

ARGIA

City of Infinite Choices

City of Volumes

Atmosphere O 3C

Atmosphere 30OC

Water Canal 24OC

Plaster Wall 4OC

Outdoor Tile 26OC Summer Solstice Relative Humidity: 78% O Mean Radiant Temp: 27.2 C

Winter Solstice Relative Humidity: 63% O Mean Radiant Temp: 3.75 C

0’1’ 3’

6’

12’

0’1’ 3’

ESMERALDA

City of Infinite Choices

DAORRGOI AT H E AZ O R A

Water Canal O 24 C

City of No Volume

Atmosphere 3OC

Atmosphere 7O C

12’

DOROTHEA

City of of Volumes A Recollectable Puzzle City No Volume

Atmosphere O 30 C

6’

Atmosphere 26OC

Plaster Wall 4OC

Brick 9OC

Outdoor Tile O 26 C

Outdoor Tile 24OC

Summer Solstice Relative Humidity: 78% Mean Radiant Temp: 27.2OC

Spring Equinox Relative Humidity: 78% O Mean Radiant Temp: 8.2 C

Winter Solstice Relative Humidity: 63% O Mean Radiant Temp: 3.75 C

0’1’ 3’

6’

0’1’ 3’

“the way that open to each passerby are never two, but many, and they increase further for those who alternate a stretch by boat with one on dry land”

KWhm

KWhm2

1400

1600

1120

1280

700

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0’ 1’

3’

6’

0’ 1’

12’

“You can say that four aluminum towers rise from its walks flanking seven gates with spring operated drawbridges that span the moat whose water feeds four green canals which cross the city, dividing it into nine quarters, each with three hundred houses and seven hundred chimneys.”

12’

It is a Two-Dimensional City, A City of Numeric Relationships A City of No Volums

640

0’ 1’

ZORA

Water Canal 22 C

Autumn Equinox Relative Humidity: 65% O Mean Radiant Temp: 24.35 C

12’

DOROTHEA

3’

6’

3’

6’

12’

0’1’ 3’

6’

12’

ZORA ARGIA

A Recollectable Puzzle

City of Volumes

ESMERALDA

ARGIA

City of Infinite Choices

City of Volumes

Atmosphere O 3C

Atmosphere 30OC

Water Canal 24OC

Plaster Wall O 4C

Outdoor Tile 26OC Summer Solstice Relative Humidity: 78% Mean Radiant Temp: 27.2OC

Winter Solstice Relative Humidity: 63% Mean Radiant Temp: 3.75OC

0’1’ 3’

6’

12’

0’1’ 3’

6’

12’

ZORA

D O R OATRHGEI AA ESMERALDA

ARGIA

A Recollectable Puzzle

City of City No Volume City of Infinite Choices of Volumes

City of Volumes

Atmosphere 7 OC

Atmosphere 26OC

Atmosphere 3OC

Atmosphere O 30 C

Water Canal O 24 C

Plaster Wall 4OC

Brick 9OC

Outdoor Tile 26OC

Outdoor Tile O 24 C Spring Equinox Relative Humidity: 78% Mean Radiant Temp: 8.2OC

0’ 1’

“ Zora, a city that no one, having seen it, can forget. But not because, like other memorable cities, it leaves an unusual image in your recollections. Zora has the quality of remaining in your memory point by point ”

3’

Water Canal 22 C

6’

Autumn Equinox Relative Humidity: 65% Mean Radiant Temp: 24.35OC

12’

Summer Solstice Relative Humidity: 78% Mean Radiant Temp: 27.2OC

0’1’ 3’

6’

Winter Solstice Relative Humidity: 63% O Mean Radiant Temp: 3.75 C

0’1’ 3’

12’

6’

12’

0’1’ 3’

“What makes Argia different from other cities is that it has earth instead of air. ……On every stair another stairway is set in negative” The non-spatial interface between spaces

Remains in Memory Point by Point KWhm2

2 KWhm

1400

1120

700

420 0

0’ 1’

3’

6’

12’

420

0’ 1’ 3’

6’

12’

ZORA

DOROTHEA

6’

12’

TECTONIC CONSTRUCTION Individual Work Instructor: Emily Wettstein 2017 Spring, Harvard GSD, VIS2142 This project is based upon a score of the temporal void in ice. The morphology of an ephemeral void is captured in another material through the process in reverse. In this 2D tectonic reconstruction, the intangible form is abstracted into material.

XINGYUE HUANG xingyuehuang@gsd.harvard.edu M +1 617(852)-9741

EDUCATION

Harvard Graduate School of Design Candidate for Master in Landscape Architecture 2022

Huazhong University of Science & Technology (HUST) Bachelor of Engineering in Landscape Architecture

2022 U.S.

2012 - 2017 China

General GPA: 3.77, Major GPA: 3.85/4.0 Scholarship of Excellence First Prize, 2012-2013 (3% of domestic university students) National Endeavor Scholarship First Prize, 2012-2013

University of Technology Sydney Exchange Study in Landscape Architecture and Architecture

SKILLS

Analysis:

Grasshopper, Honeybee, Ladybug, ODS Studio, Millipede, ArcGIS, Velux Daylight Visualizer, Paraview, Flow Design, Diva, Ecotect, Climate Consultant

Process:

Rhino, AutoCAD, Adobe: Photoshop, Illustrator, InDesign, SketchUp

Fabrication:

Laser Cutting, CNC Milling, 3D Printing, Physical Model Making

Analogue:

Watercolor, Drafting, Hand-sketching

2014 - 2015 Australia

2020.10 - 2021.6

EXPERIENCE

Shanghai, China

Architectural Design Intern Phuket Resort : In Concept Design Phase: Conducted circulation and topography study. Developed a concept master plan design, including public area and guestroom area layouts, and typical guestroom design. Devised CAD drawings of plans, sections, and built 3D models for master plan and guestroom design. In Design Development Phase: Developed different versions for guestroom area layout. Developed different design schemes of the typical guestroom. Tested design schemes through digital and physical models, renderings, and plan and section drawings. Based on the chosen scheme, tested different versions of facade design. Moganshan Hotel: Developed a concept design for the courtyard and entrance design. Devised elevation and section documentation CAD drawings for the overall project scheme. Interior Design for an Opera House: Coordinated with product team and worked on furniture, Fixtures, and Equipment sheet. Did construction drawings of restrooms.

SWA Group

2020.7 - 2020.10 Shanghai, China

Landscape Intern Developed a concept design for a footbridge. Conducted a modularization study of paving pattern for an Expo plaza. Did a full design development set drawing of the paving. Developed the planting design for a boulevard.

BIG - Bjarke Ingels Group

2019.10 - 2020.3 Copenhagen, Denmark

BIG IDEAS Computational Team Design Assistant selected list of projects: TWC - Toyota Woven City (Japan) CE2 - Central Embassy 2 Bangkok (Thailand) CJLC - CJ Live City (Korea) VSTR - VESTRE _ Factory & Experience Center (Norway) BHQ - BIG Headquarter (Copenhagen) WBH - Westbund Hotel (Shanghai) ENRG - Energy Museum Bjerringbro (Bjerringbro) OPPO - OPPO Headquarter (Shanghai) HANAZO - Hanazono Residential (Japan) ARGO (East Polo Alto, California) Participated in conducting climatic simulations and providing design feedback for 16 projects spanning urban, architecture, and landscape design. Scope of work: meeting with design teams and discussing about the types of simulation to do and the critical design concerns, preparing models for simulations, conducting simulations and debugging, producing visual representations of results, drafting design feedback. Developed urban strategies based on simulation results in CJ Live City

Developed analysis script in grasshopper and graphic template in rhino for Geo-thermal temperature analysis and wind speed analysis using grasshopper plug-ins and rhino.

Berger Partnership

2019.6 - 2019.8 Seattle, WA, U.S

Research Intern Conducted research on “resiliency“ - how it is interpreted and practiced in design. Did research on the human intervention of mapping and design drawings and videos. Excerpts from the research on Berger Partnership’s website: https://bergerpartnership.com/idea-lab/

Harvard Graduate School of Design

2019 fall Cambridge, MA U.S

Research Assistant Worked with professor Danielle Choi on water infrastructure, plant material, modeling, and representation. Did plant material research and visual representation.

Bureau Bas Smets

2018.7 - 2018.9 Brussels, Belgium

Intern Landscape Architect Tour & Taxis:

Human Rights Memorial: Developed and tested design schemes, Made physical models. Antwerpen Hortus Conclusus: Made physical models for the design scheme. Rome UCBM:

PUBLICATION

GSD Platform 11: Setting the Table Three personal projects selected for the compendium of student works from Harvard University Graduate School of Design: Tectonic Construction (Online: http://www.gsd.harvard.edu/project/tectonic-construction-by-xingyue-huang/) Charles River Park Franklin Park - the Urban’s Edge

2017 - 2018

GSD Platform 12: How About Now One group project selected for a compendium of student works from Harvard University Graduate School of Design. Gradational Reciprocality (https://www.gsd.harvard.edu/project/gradational-reciprocality/)

LANGUAGE

English: professional, Chinese: native

2018 - 2019