Portfolio 14-16 by helloschweppes

Portfolio Louise CHIA

Page 2

CONTENTS

TERNAL RENDER

TAKEN FROM MOUNT FABER

1-4

5-10

11-16

17-20

21-22

23-26

WATER SUSTAINABLE TOWER TYPE OF PROJECT / HIGH DENSITY RESIDENTIAL LOCATION / KEPPEL-LABRADOR AREA DURATION / MAY - SEP 2015 COURSE / SUTD, 20.112 SUSTAINABLE DESIGN OPTION STUDIO 2

BREIF Sited at the Keppel-Labrador area, this housing development explores ecoliving at a deeper level. Plugging into and enhancing existing ecological conditions on the site, the development engages residents in an active role in the recycling and re-using of their water. WHY WATER? Worries

‘25% less rainfall in the first half of this year, which reduced the main source of water to Singapore’s 17 reservoirs’ ‘Imported water can supply up to 60% of Singapore’s water needs.’ WORRIES Singapore’s water supply : Where does it come from? Aug 5 ‘15, M Ghangaa “25 per cent less rainfall in the first half of this year, which reduced the main source of water to Singapore’s 17 reservoirs ... ”

‘... bulk of their water usage include washing of common areas, landscaped areas and multistory carparks.’ Steps in place to save more water, Aug 11 ‘15, Carolyn Khew “Imported water can supply up to 60 per cent of Singapore’s water needs.” Singapore’s water supply: Where does it come from? Aug 5, 2015, M Ghangaa “... use less as the water levels of Linggiu Reservoir dropped to a historic low.”

“... bulk of their water usage include washing of common areas in apartment blocks, landscaped areas and multistorey carparks.” Steps in place to save more water, Aug 11, 2015, Carolyn Khew

SOURCES WaterWATER sources

WATER SOURCES

40 MALAYSIA 30 DESALINATION 20 RESERVOIR 10 NeWATER (5% RESERVOIR, 95% INDUSTRY) WATER CYCLE

OVERALL TARGET

Overall target

OVERALL TARGET

SHAPE

150L / PERSON

150L / PERSON SPECIFIC TARGET

Specific SPECIFIC TARGET

140L / PERSON

target

WATER USAGE BREAKDOWN (%)

https://www.nccs.gov.sg/nccs-2012/images/chapter-4/chart-04.jpg

WATER USAGE BREAKDOWN (%)

29 22

VISION

POTABLE WATER

16 10

SUBSTITUTED BY NON-POTABLE WATER (49%)

To design a new residential typology that allows residents to play an active role in the recyling and re-using of their water. With this engagement, residents will develop a better understanding and appreciation of the importance and scarcity of water.

VISION

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POTABLE WATER

SUBSTITUTED BY NON-POTABLE WATER (49%)

RECTANGLE BIGGER ROOF ARE TOWER FOR MORE RECTANGLE BIGGER ROOF WATE AREA TOWER FOR COLLECTION MORE WATER COLLECTION

EA ER A

EXTERNAL RENDER VIEW TAKEN FROM MOUNT FABER

Interior render - Physical model + Photoshop

STREAMLINED FOR BETTER STREAMLINED WATER FLOW FOR BETTER WATER FLOW

INCREASE BASE WIDTH TO SIT INCREASE BASE OVERTO WATER WIDTH SIT

STREAMLINED SHAPE STREAMLINED SHAPE

OVER studies WATER- ways to harvest as much rainwater for cleansing as possible Massing Page 2

WATER CLEANSING SCENARIOS WATER CLEANSING SCENARIOS WATER CLEANSING SCENARIOS

Phytoremediation : 3 hours of 1800 - 2000 PAR Phytoremediation : Plants actively cleansing 3 hours of 1800 - 2000 PAR harnessed water Plants actively cleansing harnessed water

Showers Water harnessed into growing Showers mediums and planter beds Water harnessed into growing mediums and planter beds

Thunderstorm Waterfall show Thunderstorm Roof closes to keep out larger Waterfall show quantities of water from planter Roof closes to keep out larger beds quantities of water from planter beds

WATER CLEANSING FEATURE

WATERCLEANSING CLEANSING FEATURE WATER FEATURES Drain Drain Sand Sand Aggregate Aggregate Pebbles

Filter medium Physical filtration Physical filtration

Large particles (rubbish)

Chemical filtration Chemical filtration

Filter medium

Large particles (rubbish)

Pebbles

Extensive green roof Planter boxes

<15cm Growing medium >15cm Filter layer <15cm Growing medium Drainage layer >15cm Protection fabric Filter barrier layer Root Drainage layer Insulation Protection fabric Root barrier Water proofing membrane Insulation Roof deck Water proofing membrane Roof deck

Intensive green roof

Accessible green spaces

Intensive green roof

Accessible green spaces

PLANT DIAGRAM 75-100M DRY EPIPHYTES AERIAL ROOTS Epipremnum aureum (Money Plant)

Dischidia ruscifolia (Million Hearts)

Ficus pumila (Creeping Fig)

Sedum mexicanum (Lemon Ball)

Tradescantia spathacea (Boat Lily)

Victoria amazonica (Giant Water Lily)

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Philodendron hederaceum ( Heartleaf Philodendron)

Heliconia densiflora (Fire Flash)

Excoecaria cochinchinensis (Buta-buta)

Thalia dealbata (Water Canna)

50-75M MODERATE CLIMBERS SHALLOW ROOTS

0-50M HUMID ROOTED TERRESTRIAL DEEP ROOTS

Polyscias fruticosa (Ming Aralia )

Typha angustifolia (Cat Tail)

Hanguana malayana (Common Susum)

<0M AQUATIC PLANTS

Diagramatic section

External render Page 4

SINGAPORE 2050 TYPE OF PROJECT / SELF SUSTAINABLE SINGAPORE LOCATION / KEPPEL-LABRADOR AREA DURATION / JAN - APR 2016 COURSE / SUTD, 20.501 OPTION STUDIO 3

BREIF In the 21st century city, the main issues of growth and expansion need to be addressed with different methods as we are planning for the future. As an island city state, Singapore cannot be forever reliant on foreign resources Sustainable Self-Sufficiency - The 4 Aspects and imports. In this studio, we explore the possibilities of creating a self-sufficient nation using sustainable methods.

Resources

Environment

Keppel 2050

MobilityEnvironment Social

Aspects of self-sufficiency

Singapore will have a forecasted population of 10.7 million (building on Scenario 2C of the IPS), and a population density of 23, 000ppl/ kmÂ². This is less dense than Hong Kong at 30, 472ppl/km2, but with only 8.2 million people. To accomodate for this sudden increase, 3D planning, with multiple vertical stratas will be needed to retain liveability in this new hyper-dense city.

FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

SPRING 2016 | SUTD | WOHA | 13

3D Planning Design Strategies Page 5

FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D M

MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

Photograph of |model site (1:500) SPRING 2016 SUTD |inWOHA | 211 Page 6

3D Planning Design Strategies - 3D Masterplanning Flow

STRATA - GOVERNMENT INFRASTRUCTURE 300m

Possible Future Strata

3D Plot

Inter-strata circulation

3D Plot

200m

Second Strata

3D Plot

Inter-strata circulation

100m

First Strata

3D Plot

Inter-strata circulation

Ground Strata

Infrastructure Design Strategies - Strata 1

FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

Public Plaza

Following our 3D planning strategy, we have designed Government infrastructure in terms of the Stratas at 100m high intervals. Space in between the stratas would be designed by architects, thus allowing variety into the development.

SPRING 2016 | SUTD | WOHA | 63

Indoor and Outdoor Experiences

Vibrant Mixed-Uses Space

Key Plan

Stratas 1

STRATA 1 AXOMETRIC PLAN Retail/Commercial Office Community Space Vegetable Farming FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

Commercial focus

SPRING 2016 | SUTD | WOHA | 121

Strata 1 would cater to the bulk of commerical pedestrian traffic, allowing for more retail and offices. Trusses doubly serve as vertical farms to ensure self-sustainability of Infrastructure Design Strategies - Strata 1 food. Public Plaza

Indoor and Outdoor Experiences

Vibrant Mixed-Uses Space

Key Plan

Stratas 2-5

STRATA 1 AXOMETRIC PLAN Retail/Commercial Office Community Space Vegetable Farming FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

Residential focus

SPRING 2016 | SUTD | WOHA | 121

Stratas 2-5 serve more domestic needs, catering to more pockets of urban farming and community space within the strata. Page 7

Sustainable Massing Strategies ect’s Role - Sustainable Massing Strategies

CKING ULE

TOWER

GONAL CTOR

DIUM

SUSTAINABLE MASSING STRATEGIES - ARCHITECT

3 V TOWER 2 EIGHT TOWER 1 Architect’s 3D STACKINGRole - Sustainable2Massing EIGHT TOWER Strategies MODULE

1 3D STACKING MODULE

5 SPIRAL TOWER

6 STAGGERED TERRACE

5 SPIRAL TOWER

9 3D DIAGONAL CONNECTOR

7 VERTICAL TERRACE

6 STAGGERED TERRACE

10 3D PLAZA 9 3D DIAGONAL CONNECTOR

8 HELICAL 7 VERTICAL TERRACE TERRACE

7 VERTICAL TERRACE

10 3D PLAZA

13 PLAZA

4 SHADED COURTYARD

8 HELICAL TERRACE

11 TRIPOD TERRACE

10 3D PLAZA

12 STADIUM

3 V TOWER

2 EIGHT TOWER

6 STAGGERED TERRACE

4 SHADED 3 V TOWER COURTYARD

POPULATION

14 MARKETHALL

FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

POPULATION ENERGY ENERGY FARMING FARMING WATER WATER GREEN SPACESPACE GREEN COMMUNAL COMMUNAL RETAIL OFFICE RETAIL STAYING FIT

OFFICE 14 MARKETHALL STAYING FIT SPRING 2016 | SUTD | WOHA | 140

14 different massing typologies have been developed based on our toolkit strategies

meet our population and resource targets (energy, food, water) on the site.

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SUSTAINABLE MASSING STRATEGIES - RENDERED VIEWS SHOWING INTEGRATED RESOUR communal space office retail residential services/storage vegetable farm poultry farm fish farm FRAMING THE ISSUE | SUSTAINABILITY RESEARCH | 3D MASTER PLANNING | STRATEGY IMPLEMENTATION | CONCLUSION

Urban framing within Vertical Terrace with views to Mount Faber and Helical Terrace

View from Markethall showing integrated farming strategies

Page 9

SPRING 2016 | SUTD | WOHA | 187

Strata view - showing integration of capsule cars & bicycles within retail street

Urban farming within the Tripod terrace creates shaded environment within

Farming on earth ground ground plane to nature, a for more recreation

RCE STRATEGIES

d returns allowing

Modular units allow for independent construction of units, with shaded PV canopy

Hanging farms and free space for poultry to move around in are seen in this view of the 3D Plaza

Overall long section Urban farming is made possible via terracing of units and vertical farming on strata bridges

Overall 3D render

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YORK HILL RESIDENCE TYPE OF PROJECT / URBAN HOUSING LOCATION / YORK HILL DURATION / OCT - NOV 2014 COURSE / SUTD, 20.009 CORE STUDIO 3

BREIF This new type of housing increases density and livable spaces at York Hill. Plugging into and enhancing existing connections with the surroundings, the shopping street on the ground floor of the development will become a main artery, livening up the entire district.

1:50 Aparment model

Page 11

Exterior render - Photoshop + Vray(Rhino)

Massing studies - ways to plug into existing connections and improve circulation Page 12

GENERATING SHARING SPACES

The existing housing type had an absence of infrastructure to allow for interaction between neighbours. Massing developed from cr from cr developed Units were designed either with inbuilt small pockets of spaces or Massing with large gathering courtyards in between them. The intent was to maximise sharing spaces between both adjacent and neighbouring units. CONCEPT DEVELOPMENT CONCEPT DEVELOPMENT SHARING SPACES AMONG THE UNITS SHARING SPACES AMONG THE UNITS Ground Floor Unit Ground Floor Unit Unit Exploration Unit Exploration Section of Appartment Section of Appartment 4 room 4 room

Units on Higher Floors Units on Higher Floors

De Des

2 room 2 room

1 room 1 room

2 Units Stacked 2 Units Stacked

Stacked Units Stacked Units

Exposed sharing spaces Exposed sharing spaces

Pockets of sharing spaces Pockets of sharing spaces Little Interaction, Little Environment Little Interaction, Little Environment

Various Conﬁgurations Various Conﬁgurations Pulled Apart for Open Space Pulled Apart for Open Space

A Creation of sharing space between units Creation of sharing space between units Shades lower unit Shades lower unit

Better interaction between levels Better interaction between levels

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Allows light to reach corirdor Allows light to reach corirdor

Plan of Ground Floor Unit

Model - 3F of unit

Floorplan - Ground floor unit

Model - Rooftop (5F) of unit

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S TION

Facade Detail

Appartment Section Glass rail

Footer Floor Finish Cement Floor Slab Ceiling Suspension Suspended ceiling

Timber louvres

Rolling Track Timber decking Footing Screet Drain

Waterproof cap

g-in to existing connection

1st Floor, linked backyard

West Elevation

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2nd Floor, linked balcony

3rd Floor, common walkway

4th Floor, shared balcony

Private Roof Floor

West Elevation

Section SECTION

Overall 1:200 Model (Structural + Facade)

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THE WEAVING GREEN TYPE OF PROJECT / HOUSING COMPLEX LOCATION / YUAN CHING ROAD, JURONG EAST DURATION / OCT - NOV 2014 COURSE / SUTD, 20.011 BUILDING INFORMATIONTHE MODELING BREIF Sited between an industrial park and the Jurong lake district, this housing complex at Yuan Ching Road is designed with 300% green to weave the green to the industrial site. Also, to drive the design, wind and solar analysis on massing was conducted using Vasari software. BIM software (Revit) was used in this design.

E N E R G

CONCEPT GENERALIZATION

CONCEPT GENERALIZATION SINGULAR UNIT Minimal interaction

SINGULAR UNIT minimal interaction

TWO UNITS improved interaction

MULTIPLE UNITS maximum interaction

TWO UNITS Improved interaction

CONCEPT GENERALIZATION

ULAR UNIT mal interaction

TWO UNITS improved interaction

MULTIPLE UNITS maximum interaction 2

ARRANGED BY UNIT VIEW TOWARDS PARK MAINTAINED 3-bedroom unit 4-bedroom unit

MULTIPLE UNIT MULTIPLE UNITS Maximum interaction

NITS eraction

maximum interaction

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pent house unit

VIEW MAINTAINED CHANGE IN DIRECTION INDICATE CHANGE IN UN

NIT TYPE

20.011 - BUILDING INFORMATION MODELING ASSIGNMENT 2 Louise Chia Hui Min & Millicent Trieu Mong Nhu

Exterior render - Photoshop + Vray(Rhino)

ALLIGN 3 & 4-BEDROOM UNITS GREEN SPACE

GREEN CORRIDOR

GREEN SPACE WEAVES

PENT HOUSE INTRODUCED

INTO INDUSTRIAL SITE

IN THE MIDDLE

MIRROR MORE UNITS

Massing studies - ways to connect views to green Page 18

WIND ANALYSIS Modification 1 : Rotate 30o anti-clockwise MODIFICATION Aligned to NE & SW wind direction View to Jurong Lake area maintained ORIENTATION

VASARI ANAL

WIND AN

IMPROVED WINDF THROUGHOUT THE FLOOR PLATES.

ROTATE 30 DEGREE ANTI-CLOCKWISE FACING NORTH-EAST & SOUTH-WEST WIND DIRECTION view generally maintained

Vasari

SOLAR ANALYSIS Modification 2 : Adding planters as shading device and green facade VASARI ANALYSIS

VASARI ANALYSIS

SOLAR IRRADIATION - FULL BUILDING

VASARI ANALYSIS

MODIFICATION 2: PLANTERS (GREEN FACADE)- FULL BUILDING

SOLAR IRRADIATION - FULL BUILDING

Vasari

The highest value of the top floor (10th floor) in this zoomed in view, is 187.3. This indicates

THESE PLANTERS CONTRIBUTE TO THE GREEN FACADE OF THE BUILDING, AS WELL AS PROVIDE SHADING TO THE LOWER UNITS. THIS ALSO SOLVES THE PROBLEM OF SUNLIGHT NEEDED FOR GREENERY. 19

THE ENTIRE FACADE OF THE BUILDING HAVE HIGH IRRADIATION VALUES (>100), EXCEPT FOR THOSE THAT ARE RECESSED IN.

18 quite an extreme condition for the top floor units and hence an improvement for rooftop is needed.

GENERIC FLOORPLAN / SCHEDULE

OVERALL FLOOR PLAN ODD NUMBERED FLOORS

1:500 AREA CALCULATION SCHEDULE/

5 0 12 17 510

03 49

SCHEDULE/ AREA CALCULATION SCHEDULE / AREA CALCULATION

Page 19

TOTAL AREA TOTAL AREA

TOTAL AREA IS CALCULATED BY SUMMING EVEN AND ODD NUMBERED FLOORS AREA. 60

0 00 25

4 29 40

4 02 40

4 69 27

TOTAL AREA

03 51

SCHEDULE / AREA CALCULATION

TOTAL AREA

7845

4350

UNIT FLOOR PLAN 4-BEDROOM UNIT

Toilet

4075

4.49 m²

Bedroom

11.45 m²

10.32 m²

17.05 m²

1:50

Toilet

5010

Kitchen

5.41 m²

3000

7.76 m²

Bedroom

Dining Room Living room 9.94 m²

11800

Bedroom

2000

Bedroom

12.51 m²

2725

45.07 m²

Study 11.47 m²

3458

4368 12500

Typical 4 room appartment

4675

Revit

Vray (Rhino)

1 l e v e 0 L 1

: 10

Interior rendering of appartment - Revit + Photoshop + Vray (Rhino) Page 20

A MILLION CUTS

NAME OF PROJECT / PATTERNED LAM TYPE OF PROJECT / A MILLION CUTS DURATION / JAN 2014 COURSE / SUTD, 20.007 DIGITAL DEIS

TYPE OF PROJECT / PATTERNED LAMP DURATION / JAN 2014 COURSE / SUTD, 20.007 DIGITAL DESIGN AND FABRICATION

Brief This design plays with the properties of cutter machine, patterns are engraved o

T / PATTERNED LAMP / A MILLION CUTS 014 BRIEF This project begin investigating 0.007 DIGITAL DEISGN ANDwith FABRICATION

Before jumping into the conceptual des We experimented with engraving on bo P -35

the materiality of veneer with a laser cutter. Using our findings, we then used these properties as a basis for design.

Using a laser cutter, a luminaire was created that showcased various light th the properties a sheet of wood veneer. qualities of that are created from the Using a laser same material. terns are engraved onto both surfaces of the veneer.

Front of veneer Severely damaged ﬁber

Back of vene

This project allowed me to really learn how to use a laser cutter and how both the conceptual design stage, group to learn more about this material. the parameters of themy tool and decided the with engraving on both sides of the wood veneer. properties of a material can come together to make something beautiful. P -35

S -50

Also, this was one of the first times where a back and forth process between digital, physical and machine mediums was needed.

Back of veneer

ﬁber

P -25

P -15

Having found that different engraving S -70 p P -75 Where the material was doubly engrave

P -100

Front of veneer Effect from double side engraving

Grasshopper Setting Deﬁnition Back of veneer

ifferent engraving patterns create different translucent effects on the material, we decide was doubly engraved, all the veneer would be burnt away, leaving a hole in the patterns.

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opper on

Setting up of grid

Flatten cells for individual cell selection via the ‘List Item’ function.

SGN AND FABRICATION

ser

f a sheet of wood veneer. Using a laser rn more about this material. onto both surfaces of the veneer.

aterial.

S -70

P -75

S -70 sign stage, my group decided to learn more about this material. oth sides of the wood veneer. P -100

ble

Back of veneer S -50

P -100

Translucency of veneer after engraving

S -70

P -75

Translucency of veneer neer t effects on the material, we decided to go ahead in this direction. after engraving way, leaving a hole in the patterns.

eer

P -25

P -15

P -100

Front of veneer

ial, we decided to go ahead in this direction. Effect from double the patterns.

Back of veneer

side engraving

Translucency o after engraving

patterns create different translucent effects on the material, we decided to go ahead in th ed, all the veneer would be burnt away, leaving a hole in the patterns.

cell according to direction and point B.

Remaps assigned geometry from XY plane to new Target plane. Target plane - new plane respective to each cell.

g up of grid

ction

Translucency of veneer after engraving Remaps assigned geometry from XY plane to new Target plane. Target plane - new plane respective to each cell.

Physical model of lamp

ed to go ahead in this direction.

Creates new plane for each cell according to direction of vector betwween point A and point B. Point A - Center of each cell Point B - Assigned point

Remaps assigned ge Page 22 plane to new Target Target plane - new p to each cell.

CLOUD ATLAS TEA BAR TYPE OF PROJECT / CHINESE TEA BAR PROJECT LOCATION / XIXI WETLANDS, HANGZHOU, ZHEJIANG, CHINA DURATION / MAY - AUG 2013 MENTOR / ZHEJIANG UNIVERSITY LVFENG ORIENT PLANNING AND LANDSCAPE ARCHITECTURE CO LTD

BRIEF This chinese tea bar is designed from basic composition of volumes. The tea bar integrates itself into the site (Wetlands). Consideration was given as to the culture of the Chinese in their restaurants. Clouds - Mystical, ethereal, nebulous shapes. To recreate this, the use of glass panels and gaps in walls are used. This strengthens the connection between the exterior facade and interior decoration. Rooted in Chinese culture, the tea bar features ancient spiral cloud patterns, while redefining vernacular architecture in the modern context.

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Overall render - Photoshop + Vray(Rhino)

Design begins from the basic composition of three 8x8 shaped boxes, taking into consideration the relationship each box has with each other.

Page 24

HIERARCHY OF INTERIOR SPACES Each volume caters to dining rooms of a specific seating capacity to offer different levels of privacy.

Ground Floor Plan

North Elevation

Page 25

North Section

INTERIOR DESIGN CONCEPT To establish a stronger relationship between our tea bar and its surroundings, we decided on turquoise being the main colour of the interior, reflecting Xixi Wetlands. This is coupled with soft white lighting and minimalistic furnishing, creating a more spacious and tranquil feeling.

Interior rendering of entry lobby - Photoshop + Vray (Sketchup) Page 26

Louise Chia +65-8112 6898 clhuim@gmail.com

resume

Work Experience Gensler Singapore Sep - Dec 2015 Intern Client Presentation Drawings Masterplanning and Architecture Jun - Aug 2014 SUTD Advanced Architecture Laboratory (AAL) Student Research Scientist Re-illustrated drawings for ‘Dense and Green’ publication May - July 2013 Hangzhou LvFeng Orient Planning and Landscape Architecture Co Ltd (㝔仦梵⛔㝾⻡宥暭⛉㛰昷⅓⏟) Intern Client Project Design Feb - May 2012 Urban Redevelopment Authority (URA) Architecture and Urban Design Excellence (AUDE) Intern Challenge for the Urban & Built Environment (CUBE) Handbook publication Site study for Tanjong Pagar Railway for alternative uses Education Singapore University of Technology and Design (SUTD) Jan 2016 - Aug 2016 Pursuing Master of Architecture in Sustainable Design May 2012 - Aug 2015 Bachelor of Science (Architecture and Sustainable Design) Magna Cum Laude Jul 2014 Hokkaido University Architecture Workshop Masterplanning for North Campus Worked with an international team of 5 students Representative for SUTD for this International Workshop May - Aug 2013 Zhejiang University, China Asian Leadership Program Scholar Academic Pursuits, SUTD Lee Kuan Yew Centre for Innovative Cities (LKYCIC) Mar - May 2016 Redesigning Neighbourhood Park through community participation for Bukit Panjang Town Council Jan - Aug 2015 The Ascott Limited - Lobby space redesign Redesigning front desk and lobby space Analyzing the Interaction of customer within lobby space Skills AutoCAD Rhinoceros + Grasshopper + Vray Revit SektchUp Adobe Photoshop + Illustrator + InDesign Modeling + Woodworking + L.A.S.E.R Cutting + 3D Printing Languages Spoken and Written ENGLISH + ∌㑅 + FRANCAIS + MELAYU Hobbies Cycling Stringed instruments Painting A highly motivated Architecture and Sustainable Design postgraduate pursuing a Master’s degree and SUTD Asian Leadership Scholar with a diverse portfolio of cross cultural projects.