DESIGN PORTFOLIO
ABI ARAGON
CONTACT OBJECTIVE EDUCATION
770.689.7487 aaaragon1991@gmail.com abiaragon.com linkedin.com/in/abiaragon To utilize and develop my skills and knowledge in a collaborative design environment GEORGIA INSTITUTE OF TECHNOLOGY MASTER OF ARCHITECTURE, NAAB ACCREDITED SUMMER 2014 - SPRING 2017 OVERALL GPA: 3.94 UNIVERSITY OF GEORGIA BFA ART: INTERIOR DESIGN, CIDA ACCREDITED FALL 2009 - SPRING 2014 OVERALL GPA: 3.86, MAGNA CUM LAUDE GORDON COLLEGE HIGH SCHOOL DUAL ENROLLMENT PROGRAM FALL 2008 - SPRING 2009 OVERALL GPA: 4.00
SOFTWARE & SKILLS
AWARDS
Rhino + VRay AutoCAD Revit Photoshop Illustrator InDesign Microsoft Office Suite
Sketching Drawing Hand Drafting 3D Modeling Communicating Collaborating Problem Solving Managing Planning Organizing Sustainable Design
2017 HENRY ADAMS AIA CERTIFICATE OF ACHIEVEMENT 2017 AIA GEORGIA MERIT AWARD 2016 DAGMAR EPSTEN ENVIRONMENTAL VISION HONOR AWARD ZELL MILLER SCHOLARSHIP, 2008-2014 FEATURED ARTIST IN ATHENS’ AMPERSAND MAGAZINE
EXPERIENCE
PRINTING OFFICE ASSISTANT COLLEGE OF DESIGN GEORGIA INSTITUTE OF TECHNOLOGY FEBRUARY 2015 - PRESENT Set up I.T. equipment. Administer the order and release of print jobs. Monitor and maintain printing equipment. Provide technical assistance. Cultivate customer satisfaction. Manage time, organization, and monetary transactions. ARCHITECTURE INTERN BLDGS ATLANTA, GEORGIA JUNE 2016 Participated on the design team for a competition project for the MALI Museum in Lima, Peru. Created, reviewed, and edited documents in AutoCAD. Produced 3D models of various structural options for proposal. Rendered final perspective views in Photoshop. INTERIORS INTERN OFFICE OF THE UNIVERSITY ARCHITECTS UNIVERSITY OF GEORGIA JUNE 2013 - JUNE 2014 ASSISTANT TO DIRECTOR OF INTERIORS Honored with internship awarded to top senior Interior Design student. Reviewed and edited computer-based documents (AutoCAD, Revit, Excel, PowerPoint, Word). Obtained and organized material samples. Attended all meetings for interiors projects. Recorded meeting minutes. Created presentations for review. Maintained materials library. Attended continuing education units and local Lunch and Learns. Corresponded with key individuals involved with projects. Printed construction documents. RECEPTIONIST Interacted with guests. Facilitated office correspondence including phone calls, mail, and shipping. Coordinated schedules of employees and meetings. SERVER CHILI’S APRIL 2012 - JUNE 2014
COOK PITA PIT FEBRUARY 2010 - MAY 2010
TEAM LEADER KINNUCAN’S JUNE 2011 - MARCH 2012
COOK, SERVER, ASSISTANT MANAGER SLICE’S PIZZERIA JULY 2008 - JULY 2010
Interacted with customers. Cultivated customer satisfaction. Performed extensive cleaning and preparatory stocking. Managed time, money, stress, and organization.
TABLE OF CONTENTS GRADUATE ARCHITECTURE GEORGIA INSTITUTE OF TECHNOLOGY
8 22 34 44 62
SUBLIME TECTONICS THE LIVING BUILDING CHALLENGE ON GEORGIA TECH CAMPUS
RIVERFRONT GRADATION A SAVANNAH, GEORGIA HOTEL
ELASTIC EARTH GEORGIA TECH’S DAYCARE CENTER
SUPERCHARGER MANIFOLD ATLANTA’S OPERATIONAL ARMATURE
TOKYO SMART CITY THE 2020 OLYMPIC SITE AT URAWA-MISONO
UNDERGRADUATE INTERIOR DESIGN UNIVERSITY OF GEORGIA
86 92
SUBTERRANEAN LIVING RECONDITIONING AN ATLAS F MISSILE SILO
CRYSTAL COGNITION GREENBURG AND GREENBURG LAW OFFICES
FINE ARTS
98 100 101 102
SPACESHIP RENDERING
SPIRIT ANIMAL / SELF PORTRAIT
BUST
CHUCK CLOSE PORTRAIT
8 22 34 44 62
SUBLIME TECTONICS THE LIVING BUILDING CHALLENGE ON GEORGIA TECH CAMPUS
RIVERFRONT GRADATION A SAVANNAH, GEORGIA HOTEL
ELASTIC EARTH GEORGIA TECH’S DAYCARE CENTER
SUPERCHARGER MANIFOLD ATLANTA’S OPERATIONAL ARMATURE
TOKYO SMART CITY THE 2020 OLYMPIC SITE AT URAWA-MISONO
GRADUATE ARCHITECTURE
SUBLIME TECTONICS THE LIVING BUILDING CHALLENGE ON GEORGIA TECH CAMPUS PORTMAN PRIZE COMPETITION RECIPIENT OF THE 2017 AIA GEORGIA MERIT AWARD AND THE 2016 DAGMAR EPSTEN ENVIRONMENTAL VISION HONOR AWARD GROUP PROJECT WITH JOSÉ SOSA GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR JEN PINDYCK SPRING 2016 The purpose of the Portman Prize and the Portman Visiting Critic Program is to foster design excellence and student creativity in the School of Architecture at Georgia Tech. The Portman Prize is awarded through competition by a distinguished jury chaired by the Portman Visiting Critic. - Georgia Institute of Technology The Living Building Challenge is the built environment’s most rigorous performance standard. It calls for the creation of building projects that operates as cleanly, beautifully, and efficiently as nature’s architecture. To be certified under the Challenge, projects must meet a series of ambitious performance requirements. - Living Future This project generates a park-like atmosphere and fosters a new “hot spot” on the northern edge of Georgia Tech campus, which lacked a conducive area for students to socialize, study, and collaborate. The site design re-establishes the historic topography, creating a new wetland area as a nod to the creek that once existed. Based on the created topography, the ideas of rich composition, wonder, complexity, and discovery manifest themselves in the Living Building. Looking to natural formations as massing strategies, dramatic spaces that manipulate scale, light, and texture take form, creating a strong dynamic between intimidation and playfulness. Spaces prompt fascination with the relationship of interior and exterior and the framed views to landscapes beyond. This interaction between the building and larger site programming is carefully calibrated to create a stronger correlation between the two.
8
CONCEPTUALIZATIONS
SCALE CONTRAST
CONTINUOUS SPACE
FRAMED VIEWS
LIGHT DIFFUSION
LIGHT MANIPULATION
FRAMED VIEWS
SITE EXPLORATION
MASSING MODEL
10
10TH STREET
1 5
2
H MP HE UE EN AV
4
NW
6 7
8
SITE PLAN 1. RECREATIONAL AREA & PARK 2. TOPIARY 3. RENTABLE KIOSKS 4. FOOD TRUCKS AND TERRACE 5. FOOD FOREST & COMMUNITY PLAYGROUND 6. GREENROOF PLAZA 7. OUTDOOR STUDY AREAS 8. LIVING BUILDING SITE 9. REFLECTING POOL 10. THERMOWETLAND SCULPTURES 11. MARSHLAND 12. GREENHOUSE 13. FARMER’S MARKET 14. OUTDOOR AMPITHEATER 15. PICNIC AREA 0 25’ 50’
STATE STREET
ILL
3
RECONSTRUCTED 9TH STREET
9
10
12
11
13 14 15
100’
FERST DRIVE
MASSING STRATEGY ROOF EARTH SKYLIGHTS PHOTOVOLTAIC PANELS
SET THE VIEWS
PROGRAM CLASSROOMS LABORATORIES LOBBY AND OFFICES COMMUNITY CENTER MECHANICAL
EXTRUDE THE FRAMES
CIRCULATION
TILT THE FRAMES
12
LOWER LEVEL FLOOR PLAN 1. THE CLIFF (AUDITORIUM) 2. THE FOREST (SEMINAR ROOMS, BREAK OUT) 3. SKY ROOMS (CLASSROOMS) 4. CLASSROOM SUPPORT 5. THE VOID (LABORATORIES, LAB SUPPORT, LAB STAFF) 6. FRIGID TRENCH (BREAKOUT) 7. MECHANICAL ACCESS 8. WC 9. CANYON VAULT (MECHANICAL HEART) 10. HORIZON ROOM (LIGHT BIOLOGY LABORATORIES, LAB STAFF OFFICES) 11. THE CLEARING (OPEN OFFICE SPACE) 12. THE CAVERN (QUIET STUDY AREA) 13. STUDY ROOM 14. THE CASCADES (LEARNING STUDIO, KITCHEN, STORAGE) 15. SERENDIPITY HALLWAY 18. REFLECTING POOL 19. WETLANDS
5 1 6
10
7
2 2
9
2
8
8 8 11
8 3
12 13
4
14
13
18
3 15
14 19
0
8’
16’
32’
UPPER LEVEL FLOOR PLAN 1. THE CLIFF (STUDIO) 2. THE FOREST (SEMINAR ROOMS, BREAK OUT) 3. SKY ROOMS (CLASSROOMS) 4. CLASSROOM SUPPORT 5. THE VOID (LABORATORIES, LAB SUPPORT, LAB STAFF) 6. FRIGID TRENCH (BREAKOUT) 7. MECHANICAL ACCESS 8. WC 9. CANYON VAULT (MECHANICAL HEART) 10. HORIZON ROOM (LIGHT BIOLOGY LABORATORIES, LAB STAFF OFFICES) 11. THE CLEARING (LOBBY, CAFE) 15. SERENDIPITY HALLWAY 16. THE MOOR (COLLABORATION LEARNING AREA) 17. THE PRAIRIE (COMMUNITY CENTER) 18. REFLECTING POOL 19. WETLANDS
5 1
6
10
7
2 2
9
2
8
8 8 11
8 3 4
16
18
3 15
17 19
14
A daylit mechanical room is efficiently located at the center of the building and provides a visual learning experience
Food truck courtyard
0
8’
16’
Rainwater is collected from the sloping roofs and channeled to a cistern for potable water use
32’
1
2 3
4
5 6
A reflecting pool in front of the building’s south facade serves as an overflow for the stormwater system while protecting the lower level from direct sunlight as it cascades down The rainwater cistern overflows to this pool and later onto the wetland in extreme storm events
LONGITUDINAL SECTION 1. WASTEWATER TANK 2. CENTRAL PUMP 3. ELECTRICAL/COMMUNICATIONS PANELS 4. THERMOWETLAND HEAT PUMP 5. RAIN/TREATED WATER TANK 6. RAIN/TREATED WATER TANK PUMP 7. LIVING MACHINE WETLAND CELLS 8. THERMOWETLAND HEAT EXCHANGERS
Part of the wetland is reserved for the living machine’s water treatment cells The main water body of the wetland serves as a thermal exchange system
7
7
7
8
8
8
16
THE CLEARING (LOBBY, CAFE)
THE PRAIRIE (COMMUNITY CENTER)
18
HORIZON ROOM AT DAWN
CANYON VAULT (MECHANICAL HEART)
MIDDAY
SERENDIPITY HALLWAY
DUSK
FRIGID TRENCH (BREAKOUT)
20
RIVERFRONT GRADATION A SAVANNAH, GEORGIA HOTEL GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR SABIR KAHN FALL 2015
This project is located within the historic fabric of Savannah at the convergence of commercial, residential, and industrial zones of the city. The site dictates a logic of layering, taking cues from major public spaces starting at the Savannah River and moving south through River Street, Emmett Park, and East Bay. This inherent layering is the basis for the gradation of public to private spaces within the hotel. A set of tartan-like rules are established once the original Oglethorpe logic of tything lots divided on an east/west axis is taken into consideration. The ground level incorporates a commercial space with covered avenues pulling pedestrian traffic toward a quiet garden on the south side of the site. The upper levels house doublestory porches facing north which function as a communal living area where visitors can lounge outdoors and enjoy the public energy of East Bay, Emmet Park, and River Street. This north elevation has a faรงade meant to provide sun shading and privacy while still maintaining a sense of connection to the busy street below. Separating the outdoor communal space from the private units is a glass-walled circulation hallway capable of completely opening to the porc to blend boundaries between interior and exterior spaces. The individual units are separated from their indoor/outdoor living by the same glass sliding systems. The south faรงade is clad similarly to the north face of the building, but it is broken down into smaller, individually operable panels for each room to control privacy and sun shading. The hotel is designed to encourage the flow of pedestrian traffic, air, and light throughout the building by providing avenues for circulation on a north/south axis while contributing to the vital commercial fabric of Savannah particularly evident in this part of the city.
22
SITE PLAN
0
100’
200’
400’
MAJOR DESIGN CONSTRAINTS
50% MAX LOT COVERAGE
EAST BAY TRAFFIC
GOALS & DESIRES
24
GROUND LEVEL FLOOR PLAN 1. STAIRWELL 2. OPEN AIR PASSAGE 3. CAFE 4. LAUNDRY 5. RECEPTION & LOBBY 6. OFFICE 7. WC 8. ELEVATOR LOBBY 9. GARDEN 10. REFLECTING POOL
1
5 2
3
2
1
4
6
7
7 8
9
10
2
3
2
FIRST - FOURTH LEVEL FLOOR PLAN 1. STAIRWELL 2. WC 3. BED AND KITCHENETTE 4. PRIVATE BALCONY (DINING AND LIVING AREAS) 5. SHARED BALCONY 6. MAIN CIRCULATION 7. ELEVATOR LOBBY 5 6 1
2
3
1 7
4
0
WORKING RULES
OPEN & CLOSED SPACES SEMI-ENCLOSED COVERED OUTDOOR OPEN SKY
4’ 8’
16’
PUBLIC & PRIVATE ACCESS PRIVATE (UNIT) PUBLIC (HOTEL) PUBLIC (CITY)
26
NORTH ELEVATION
0 10’20’ 40’
SOUTH ELEVATION
0 4’ 8’
16’
28
2
3 4
1
5
6
7
LONGITUDINAL SECTION 1. GARDEN 2. PRIVATE BALCONY 3. MAIN CIRCULATION (LEVELS 3 AND 5) 4. MAIN CIRCULATION (LEVELS 2 AND 4) 5. SHARED BALCONY 6. OPEN AIR PASSAGE 7. EAST BAY STREET 8. EMMET PARK 9. RIVER STEET 0
100’
200’
400’
8
9
30
GARDEN
PRIVATE BALCONY
MAIN CIRCULATION (LEVELS 2 AND 4)
OPEN AIR PASSAGE
MAIN CIRCULATION (LEVELS 1 AND 3)
32
ELASTIC EARTH GEORGIA TECH’S DAYCARE CENTER GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR MARISABEL MARRATT FALL 2014
This site encompasses the location of Georgia Tech’s Tech Green, an area on campus dedicated to student use. The project’s main idea is the stripping of the site, which leaves a majority of Tech Green dedicated to campus with improved functionality and accessibility. The daycare structure camouflages itself within the earth to preserve the green space. The elastic quality of the strips rising from the ground creates dynamic spaces for the campus community to occupy on the east and west sides, while changes in elevation separate daycare play areas from the larger public. The interior spaces are functional and efficient in their design and placement. Thick walls and ceiling structures emulate the depths of the earth and control sound barriers and sunlight distribution within the building. Curved concrete strips penetrate the building and serve as hanging gardens within the multipurpose space. This double-story area within the daycare serves as an indoor play room during bad weather, an auditorium for performances, and a general gathering space for the entire building.
34
PRELIMINARY INTERESTS
EMERGENCE
PERFORATION
MANIPULATION
SITE PLAN
SITE INTEGRATION DIAGRAM
1
2
3
4
5
6
36
DAYCARE CENTER / PROJECT C
GROUND LEVEL FLOOR PLAN
ABI ARAGON ARCH 6026 / CORE II STUDIO / MARRATT
PLAY YARD
1. PLAY YARD 2. PRESCHOOL CLASSROOM 3. PLAY STORAGE 4. JANITOR 5. MUSIC ROOM 6. ARTS AND CRAFTS ROOM 7. WC 8. OLD TODDLER CLASSROOM 9. KITCHEN 10. STORAGE 11. LAUNDRY 12. LUNCHROOM 13. MULTIPURPOSE SPACE 14. LOFTED PLAYSPACE
MUSIC ROOM PLAY STORAGE PRESCHOOL CLASSROOM
PLAY YARD ARTS & CRAFTS ROOM
JANITOR
WC STORAGE
KITCHEN
WC
1
ELEVATOR
LAUNDRY
WC
LUNCHROOM
OLD TODDLER CLASSROOM
MULTIPURPOSE SPACE
3
2
5
4
1
LOFTED PLAYSPACE
7 7 8
9 10 11
6 7
12 13
14 0
16
4 8
2
0
16
4 2
8
GROUND FLOOR PLAN
GROUND FLOOR PLAN
DAYCARE CENTER / PROJECT C
FIRST LEVEL FLOOR PLAN
ABI ARAGON ARCH 6026 / CORE II STUDIO / MARRATT
PLAY YARD
1. ENTRY 2. AFTERSCHOOL CLASSROOM 3. WAITING AREA 4. CONFERENCE 5. RECEPTION 6. PC 7. ASSISTANT 8. SICK BAY 9. INFANT CLASSROOM 10. WC 11. STAFF LOUNGE 12. STORAGE & COPY ROOM 13. DIRECTOR’S OFFICE 14. READING ROOM 15. YOUNG TODDLER CLASSROOM
MUSIC ROOM PLAY STORAGE PRESCHOOL CLASSROOM
PLAY YARD ARTS & CRAFTS ROOM
JANITOR
WC STORAGE
KITCHEN
ELEVATOR
LAUNDRY
WC
WC
1
LUNCHROOM
OLD TODDLER CLASSROOM
3 2
5 6 7
MULTIPURPOSE SPACE
9
LOFTED PLAYSPACE
10 10 14
0
16
4 2
8
15
4
10 10
10
4 8 12
11
13
15
GROUND FLOOR PLAN
FIRST FLOOR PLAN
0 4’ 8’
16’
38
EAST ELEVATION
LONGITUDINAL SECTION
40
PRELIMINARY MODEL
MASSING MODEL
42
SUPERCHARGER MANIFOLD ATLANTA’S OPERATIONAL ARMATURE GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR KEITH KASEMAN FALL 2016
Operational Armatures is a working regimen set up as an architectural think-tank and experimental studio format. Ultimately, the point of this studio is not to “solve problems” in a traditional sense, but rather to identify, invent, incubate, refine, develop and deliver versions of architectural imaginaries and cultural engagements to the city, in the myriad ways that only such an exploratory format can. - Keith Kaseman The starting point for this design began with exercises in modeling – creating experimental sculptural pieces in digital form and building communal interests continuously through critiques and collaborations. Play during this process evolved into physical experimentation, enabling the development of more tangible models. These constructed models were traded throughout the studio and edited to cultivate the growth of new ideas. Designer interest included the idea of a balancing, giant cantilevered volume of floating space so vast and impressive that viewers can’t help but be drawn inside to try and discover the wondrous world contained within and explore its many passageways and volumes. Eventually, these concepts developed into the Supercharger Manifold; a discovery hub, a new way to connect to the city, and Atlanta’s new plug into arts and culture. This project focuses on spatial experimentation and establishing new connections between different levels and areas of Atlanta. At its core, the structure is a web of travel possibilities, but it also functions as a venue for all sorts of activities including skate park days, laser tag events, and movie nights. It is an open air pavilion structure that draws the public in through its inspiration of wonder and vast presence.
44
AKA:
PLAYHOUSE
Tags:
NOTES:
EXTRUDED HEXAGON PATTERN SHAPING DYNAMIC SPACES
By:
AKA:
HEXIGALLERY
Tags:
NOTES:
HEXAGON PATTERNS SCALED AND LAYERED TO CREATE SPACE
By:
CLEAN SLICES
AKA:
THE MATRIX
Tags:
NOTES:
FRAMING PARTIAL VIEWS OF SPACE
By:
CLEAN SLICES
AKA:
SEPARATED CONNECTIONS
Tags:
NOTES:
ALTERNATING ETHERNET AND POWER PLUG STRIPS
By:
ABI ARAGON
AA-01
ABI ARAGON
AA-12
Tags, tags, tags
ABI ARAGON
Tags, tags, tags
ABI ARAGON
AA-04
AA-03
MILLI-SLICE
AKA:
HEXICAVE
Tags:
NOTES:
ROTATING HEXAGONAL CEILING STRUCTURE SLICED FOR LIGHT
By:
AKA:
CEILING LAYERS
Tags:
NOTES:
BOOLEANED SHAPES FORMING SPACES WITH SLITS OF LIGHT
By:
AKA:
HEXICAVE II
Tags:
NOTES:
ROTATING HEXIGONS VARYING IN SIZE CREATING SPACE
By:
AKA:
LAYERS OF DISCOVERY
Tags:
NOTES:
HEXAGONS BOOLEANED AND CAGE EDITED TO FORM FLOORS
By:
PRELIMINARY ARMATURE MODELING
ABI ARAGON
Tags, tags, tags
AA-04
ABI ARAGON
AA-18
ABI ARAGON
AA-15
ABI ARAGON
AA-00
AKA:
HEXIBRIDGES
Tags:
NOTES:
HEXAGON PATTERNS SCALED AND LAYERED TO CREATE LEVELS
By:
AKA:
MORE LAYERS OF DISCOVERY
Tags:
NOTES:
HEXIGONS COPIED, BOOLEANED, SCALED TO FORM FLOORS
By:
AKA:
LAYERS UPON LAYERS OF DISCOVERY
Tags:
NOTES:
HEXIGONS ROTATED, COPIED, BOOLEANED, SCALED, MIRRORED
By:
AKA:
GEOGATHERING
Tags:
NOTES:
BOOLEANED HEXAGONS WITH VARYING INNER WIDTHS AND SPACES
By:
ABI ARAGON
AA-14
ABI ARAGON
AA-16
ABI ARAGON
AA-17
ABI ARAGON
AA-05
?
AKA:
TWISTED HEXAGON PLANES
Tags:
NOTES:
HEXAGON SHAPES REPEATED AT DIFFERENT SCALES AND TWISTED
By:
AKA:
HEX SCREEN
Tags:
NOTES:
EXTRUDED HEXAGONS,VARYING INTERIOR WIDTHS AS WALL
By:
AKA:
HEXXED SPACE
Tags:
NOTES:
LARGE SCALE HEXAGON FRAMING SHAPING SPACE
By:
AKA:
SMALL LEG VIEW
Tags:
NOTES:
EXTERIOR
By:
ABI ARAGON
AA-09
ABI ARAGON
AA-13
ABI ARAGON
AA-06
ABI ARAGON
AA-00
AKA:
FOREST OF HEXICOLUMNS
Tags:
NOTES:
HEXAGONAL COLUMNS EXTRUDED FROM CEILING
By:
AKA:
HEXACADE
Tags:
NOTES:
STRUCTURAL HEXAGONAL FRAME
By:
AKA:
ROTATING HEXIHALL
Tags:
NOTES:
By:
AKA:
SHADES OF HEX SPATIAL SIGNATURE
Tags:
NOTES:
BIRDS FLYING THROUGH OPENINGS OF VARIOUS SIZES
By:
ABI ARAGON
AA-07
ABI ARAGON
AA-03
ABI ARAGON
AA-09
ABI ARAGON
AA-18
AKA:
SUBTERRANEAN STATION
Tags:
NOTES:
WALL OF LIGHT, FLOORS OF POWER PLUGS
By:
AKA:
SHADES OF HEX
Tags:
NOTES:
ROOF STRUCTURE WTIH HEXAGONS VARYING IN INNER WIDTH
By:
HORIZONTAL SLICES
AKA:
TREMORS
Tags:
NOTES:
LAYERED SPACE WITH TUNNELED LIGHTWELLS
By:
SUBTRACTION W/O SLICES
AKA:
TORN LANDSCAPE PART II
Tags:
NOTES:
TECTONIC WALLS AND FLOORS
By:
SUBTRACTION W/O SLICES
Tags, tags, tags
ABI ARAGON
AA-02
ABI ARAGON
AA-02
Tags, tags, tags
ABI ARAGON
AA-12
ABI ARAGON
AA-22
MILLI-SLICE PROGRESSION
SUBTRACTION W/O SLICES
AKA:
SMALL LEG VIEW
Tags:
NOTES:
EXTERIOR
By:
AKA:
HEXIFABRIC
Tags:
NOTES:
HEXAGONS FLOWED ALONG SURFACE AND CAGE EDITED
By:
AKA:
LAYERS OF DISCOVERY
Tags:
NOTES:
HEXAGONS BOOLEANED AND CAGE EDITED TO FORM FLOORS
By:
AKA:
KINETIC HEX WALL
Tags:
NOTES:
SLIDING UNIFORM SIZED HEXIGONS WITH DIFFERENT DEPTHS
By:
ABI ARAGON
AKA:
AA-00
LEVELS OF HEX
Tags:
NOTES:
By:
AA-10
MILLI-SLICE
AKA:
UNDERGROUND ATRIUM
Tags:
NOTES:
(UPSIDE DOWN) CEILING LANDSCAPE
By:
AA-00
ANGLED SLICES
AKA:
POWER LIFT TO INFORMATION
Tags:
ABI ARAGON
NOTES:
VERTICAL MOVING PLATFORMS ON CABLES, USB PLUG DATA LIBRARY
By:
AA-08
AKA:
WONDER CAVERN
Tags:
ABI ARAGON
NOTES:
LARGE SCALE HEXAGONS BOOLEANED TO CREATE SPACE
By:
ABI ARAGON
Tags, tags, tags
ABI ARAGON
Tags, tags, tags
ABI ARAGON
Tags, tags, tags
AA-12
AA-06
ABI ARAGON
AA-11
ABI ARAGON
AA-11
46
OPERATIONAL ARMATURE MODEL
48
ROOF MEMBRANE
VERTICAL WALLS
ROOF MEMBRANE
STRESSED SKIN ROOF
VERTICAL MULLIONS
POPULATION
THICKET INSTALLATION
UPPER LEVEL FLOOR PLATE
TRAFFIC FLOWS
LOWER LEVEL FLOOR PLATE
EXPERIENTIAL PATHWAYS
SUSPENDED INSTALLATION
SPATIAL SIGNATURE
50
X-RAY AERIAL
52
LONGITUDINAL SECTION CUT
54
TRANSVERSE SECTION CUT 1
TRANSVERSE SECTION CUT 2
56
LOWER LEVEL INTERIOR PERSPECTIVE
GROUND LEVEL ENTRY PERSPECTIVE
58
NOTE: THE FOLLOWING ARE ALTERATIONS OF FOUND EVENT POSTERS, CREDIT ATTRIBUTED TO ORIGINAL VENUES INCLUDING:
21/222 MILSOM PLACE, BATH I DENVER SKATE PARK I DIRECT ENERGY CENTER I COLLEGE CENTER I EVERSON MUSEUM OF ART I AFTERHOURS
60
TOKYO SMART CITY THE 2020 OLYMPIC SITE AT URAWA-MISONO GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR PERRY YANG SPRING 2017 GROUP CONCEPTUAL DESIGN SECTION WITH PATRICIA SAMARTZIS, PAUL STEIDL, AND SEAN RENCURRELL
This project, a 2020 smart city Olympic site at Urawa-Misono, is a project in which Georgia Institute of Technology was commissioned for its ideas to improve the planned Olympic city’s design. Through iterations, charrettes, and a visit to the site in Japan, the conceptual design team created a design proposal which involved the ideas of transitoriented development, a central raised green promenade, urban metabolism, agriculture, constructed moments of discovery, and walkability. Another team created ideas and designs for how to make these designs fall under the category of “smart city.” The conceptual design team also helped to develop planning support systems through the implication of performance zoning and definition of block typologies. Each performance zone or block typology has a specific criteria of density and performance, as well as suggested urban context in the form of a matrix of cellular typologies. This allows for an organized system of adaptable growth. The CD team’s final recommendations for the government officials and stakeholders of the Urawa-Misono Smart City include the implementation of two major ideas on the site. The first is infrastructure changes – changing grey infrastructure to green infrastructure. These changes allow for the same amount of capacity while creating a better experience within the city. The green promenade in particular improves public experience and creates a sense of place at the functional core of Misono. The implemented ideas of metabolism create a sense of co-location with layers of train station, green promenade, shopping, and parking all located within the most central part of the city. The other major move is the planning support system that creates a framework for smarter development in terms of design, experience, and performance.
62
TOKYO TYPOLOGICAL RESEARCH
SELECTED AREAS OF STUDY
BUILDING USES
SELECTED AREAS OF STUDY
BUILDING HEIGHTS
OTEMACHI MARONOUCHI KYOBASHI IRIFUNE MINATO AKASHICHO TSUKISHIMA
64
AGRICULTURAL CONCEPT
GARDEN CONCEPT
DENSITY
HYDROLOGY
PEDESTRIAN PROMENADE
GREEN NETWORK
EXISTING ROAD NETWORK
PROPOSED USES
TWO PARKS CONCEPT
66
URAWA-MISONO REDESIGN DIAGRAMS
EXISTING BUILDINGS
DENSITY MAP
PERFORMANCE ZONING / BLOCK TYPOLOGIES
FOCUS ON NATURAL HYDROLOGY
TRANSIT EXPANSION
GREEN NETWORK CONNECTING STATIONS TO STADIUM
68
CELLULAR PERFORMANCE TYPOLOGIES PROGRAMMATIC DISTRIBUTION
70
CELLULAR PERFORMANCE TYPOLOGIES BULK STATISTICS
72
74
SMART CITY SYSTEMS LOCATED THROUGHOUT URAWA-MISONO
SITUATIONAL KINETIC FACADES THESE KINETIC FACADES HAVE THE ABILITY TO OPEN OR CLOSE BASED ON THE AMOUNT OF SUNLIGHT A BUILDING RECEIVES. THEY ALSO HAVE THE ABILITY TO FOLD DOWN ONTO TRACKS ON THE GROUND TO FORM HARD PAVING, TABLES, OR CHAIRS WITHIN THE PUBLIC COURTYARD.
Processor LED Light Sensor
Projector
SITUATIONAL PUBLIC SPACES ON GAME DAYS, THIS LOT OF LAND CAN BE USED FOR PARKING, BUT ON NORMAL DAYS IN WHICH PARKING IS NOT IN DEMAND, SMART SENSORS IN THE LIGHT POSTS CAN TURN THIS SPACE INTO A PUBLIC AMENITY.
76
SMART CITY SYSTEMS LOCATED THROUGHOUT URAWA-MISONO
PEDESTRIAN NAVIGATION APP THE APP DEVELOPED FOR MISONOURAWA ALLOWS NAVIGATION BASED ON PREFERENCE WHILE ALSO OFFERING INCENTIVES TO ENCOURAGE PEDESTRIANS TO USE DIFFERENT ROUTES. THIS HELPS TO LESSEN HEAVY TRAFFIC ON ANY ONE SPECIFIC PATH BY ENCOURAGING USERS TO TAKE LONGER, MORE SCENIC ROUTES IN ORDER TO CLAIM REWARDS SUCH AS LOCAL COUPONS.
RESPONSIVE LIGHTING SYSTEMS SMART STREET LIGHTS ARE IMPLEMENTED AT NIGHT WHERE SENSORS RECOGNIZE VEHICULAR OR PEDESTRIAN TRAFFIC AND ENABLE STREETLIGHTS TO GUIDE THEIR PATHS. THESE SENORS PREVENT ENERGY WASTE WHEN ROADS ARE EMPTY WHILE ALLOWING USERS TO FEEL SAFE AND SECURE.
78
SMART CITY SYSTEMS LOCATED THROUGHOUT URAWA-MISONO
METABOLIST INSPIRED PUBLIC SPACES THE MAIN TRAIN STATION WAS INSPIRED BY METABOLIST IDEAS OF LAYERING PUBLIC SPACES. THE HIGHEST LAYER, THE GREEN PROMENADE, IS LOCATED ATOP THE TRAIN STATION AND OFFERS A PUBLIC AMENITY TO CITY-GOERS EVEN IN THE DENSEST SECTION OF THE CITY. SOME SHOPS AND BUILDINGS ARE LOCATED AT THIS LEVEL AND MANY MORE ARE LOCATED ON THE LOWER STREET LEVEL. PARKING IS HIDDEN BENEATH THE PROMENADE AND SHOPS.
INTERACTIVE INFRASTRUCTURE THIS INTERACTIVE BUS STOP SERVES MULTIPLE PURPOSES INCLUDING INFORMATION SHARING, GAME PLAYING, AND CONNECTIVITY. USERS AT THIS BUS STOP CAN PLAY GAMES WITH USERS WAITING AT OTHER BUS STOPS TO PASS TIME. THIS INTERACTIVE OPTION ALSO OFFERS SAFETY AND COMPANY DURING THEIR WAIT.
80
TOKYO SMART CITY STUDIO TEAM GEORGIA INSTITUTE OF TECHNOLOGY PERRY YANG, ASSOCIATE PROFESSOR OF SCHOOL OF CITY AND REGIONAL PLANNING AND SCHOOL OF ARCHITECTURE, DIRECTOR OF ECO URBAN LAB - URBAN DESIGN AND MODELING ELLEN DO, PROFESSOR OF SCHOOL OF INDUSTRIAL DESIGN AND SCHOOL OF COMPUTING - INTERACTIVE DESIGN AND COMPUTING ECO URBAN LAB RESEARCH GROUP YIHAN WU, PROJECT MANAGER, ECO URBAN LAB SHANGHAI OFFICE LISA LI, OFFICE MANAGER, ECO URBAN LAB SHANGHAI OFFICE ZHIKAI PENG, RESEARCH ASSISTANT, ECO URBAN LAB SHANGHAI OFFICE SCHOOL OF CITY AND REGIONAL PLANNING ROBERT BINDER, TRANSPORTATION DONTREY GARNETT, TRANSPORTATION WENHUI YANG, TRANSPORTATION TIANRAN ZENG, URBAN DESIGN AND TRANSPORTATION EMMA FRENCH, ENVIRONMENTAL PLANNING AND HEALTH MARCELA MORENO, ENVIRONMENTAL PLANNING AND HEALTH ELLEN RAY, ECONOMIC DEVELOPMENT AND TRANSPORTATION REVATHI ROOPINI VERIAH, ENVIRONMENTAL PLANNING AND HEALTH KARINA BRASGALLA, LAND USE PLANNING AND HEALTH BONWOO KOO, ENVIRONMENTAL PLANNING ZACHARY LANCASTER, URBAN DESIGN, GIS, AND BIG DATA ANAYLSIS GABRIEL JIAN PANG, URBAN DESIGN, TRANSPORTATION, AND GIS SCHOOL OF ARCHITECTURE ABI ARAGON, MASTER OF ARCHITECTURE PAUL STEIDL, MASTER OF ARCHITECTURE AND URBAN DESIGN PATRICIA SAMARTZIS, MASTER OF ARCHITECTURE SEAN RENCURRELL, MASTER OF ARCHITECTURE ZACHARY HICKS, MASTER OF ARCHITECTURE SCHOOL OF INDUSTRIAL DESIGN SUZHI WANG, MASTER OF SCIENCE - INTERACTIVE DESIGN DUO-WEI YANG, COMPUTATIONAL MEDIA RUIHAN ZI, COMPUTATIONAL MEDIA CAYLA VINZONS, COMPUTER SCIENCE
MISONO UDCMi AND INDUSTRIAL STAKEHOLDERS YUKI OKAMOTO, DIRECTOR OF MISONO URBAN DESIGN CENTER (UDCMi) HIROAKI NISHI, PROFESSOR, DEPARTMENT OF SYSTEM DESIGN ENGINEERING, KEIO UNIVERSITY KANAE MATSUI, ASSISTANT PROFESSOR OF TOKYO DENKI UNIVERSITY NATIONAL INSTITUTE FOR ENVIRONMENTAL STUDIES - GCP YOSHIKI YAMAGATA, CHAIR RESEARCH SCIENTIST OF NIES AND HEAD OF GLOBAL CARBON PROJECT, NEIS - URBAN SYSTEMS MODELING AND CLIMATE RESEARCH NISHI HIROAKI NISHI, PROFESSOR, DEPARTMENT OF SYSTEM DESIGN ENGINEERING, KEIO UNIVERSITY KANAE MATSUI, ASSISTANT PROFESSOR OF TOKYO DENKI UNIVERSITY AND RESEARCHER OF KMD RESEARCH CENTER, KEIO UNIVERSITY AYOOB SHARIFI, EXECUTIVE DIRECTOR, GLOBAL CARBON PROJECT, NEIS DAISUKE MURAKAMI, POST-DOCTORAL RESEARCHER OF NIES TAKAHIRO YISHIDA, PHD CANDIDATE, TSUKUBA UNIVERSITY, POST-DOCTORAL RESEARCHER OF NIES ANASTASCIA MILOIDOVA, POST-DOCTORAL RESEARCHER, PHD CANDIDATE, SOPHIA UNIVERSITY OF NIES UNIVERSITY OF TOKYO AKITO MURAYAMA, ASSOCIATE PROFESSOR OF DEPARTMENT OF URBAN ENGINERRING, UNIVERSITY OF TOKYO, ISAUR - LAND USE PLANNING AND DESIGN XU KAI, CIVIL ENGINEERING, PHD MAI CHI NGUYEN, CIVIL ENGINEERING, PHD BIRUKTAWIT TAYE, CIVIL ENGINEERING, PHD TANAKORN SRITARAPIPAT, CIVIL ENGINEERING, PHD HIROKI BABA, URBAN ENGINEERING, PHD BINDU SIGDEL, MASTER OF URBAN ENGINEERING GENMA YADA, MASTER OF URBAN ENGINEERING XIANG ZHOU, URBAN ENGINEERING, PHD OUKOKU MARUYAMA, MASTER OF URBAN ENGINEERING BRYAN TRAN, URBAN ENGINEERING, INTERN
82
86 92
SUBTERRANEAN LIVING RECONDITIONING AN ATLAS F MISSILE SILO
CRYSTAL COGNITION GREENBURG AND GREENBURG LAW OFFICES
UNDERGRADUATE INTERIOR DESIGN
SUBTERRANEAN LIVING RECONDITIONING AN ATLAS F MISSILE SILO UNIVERSITY OF GEORGIA PROFESSOR TAD GLOECKLER SPRING 2014
This project is a semi-permanent living environment utilizing an abandoned missile silo that can support a thriving community for a five year period. The silo requires a list of mechanical systems to handle air production and filtration, waste management, water filtration, power sources, and communications systems. The five year time requirement and limited space also calls for creative solutions for issues such as storage and creation of food, water sources, and medical supplies. Everything from sunlight, outdoor parks, theatrical experiences, and even classrooms are replicated within the project to help produce a more enjoyable and thriving environment for inhabitants. In order to counteract the health issues the absence of natural sunlight can cause, the facility implements artificial sunlight through the installation of LED solar simulators. These are installed throughout the building and are set to mimic the natural circadian rhythm of our bodies, fading slowly to replicate nightfall and becoming brighter to imitate sunrise. Sound is a heavy influence on how space is perceived. Key spaces such as the artificial outdoor park and pool areas are equipped with audio systems and filled with ambient sounds of nature. The tranquility and perceived authenticity of these spaces are crucial in creating an environment that mimics life above ground. Due to color’s profound effect on the human psyche, the facility’s chosen color schemes serve the wellbeing of the inhabitants. The main family gathering space houses a large kitchen with yellow accents and a red-walled dining room because these colors are known to increase metabolism and help boost appetites. The color blue is used in settings such as the classroom and library to help increase productivity. In the apartment living areas, bright green is paired with orange to help freshen the space and increase energy. This subliminal design method helps to positively influence moods within the facility.
86
SECTION
LEVEL 15 164’ - 0”
TRASH STORAGE
LEVEL 14 153’ - 0”
CLASSROOM, LIBRARY, & THEATRE
LEVEL 13 141’ - 0” LEVEL 12 132’ - 0”
LOUNGE, DINING, & KITCHEN LAUNDRY, MEDICAL, & FOOD STORAGE
LEVEL 11 121’ - 0”
AQUAPONICS SYSTEM PARK
LEVEL 10 110’ - 0” LEVEL 9 99’ - 0”
APARTMENT HOMES
LEVEL 8 88’ - 0”
APARTMENT HOMES & STORAGE
LEVEL 7 77’ - 0”
APARTMENT HOMES
LEVEL 6 66’ - 0”
APARTMENT HOMES
LEVEL 5 55’ - 0”
APARTMENT HOMES
LEVEL 4 44’ - 0”
APARTMENT HOMES
LEVEL 3 33’ - 0” LEVEL 2 22’ - 0”
APARTMENT HOMES
LEVEL 1 0’ - 0”
MECHANICAL, WATER FILTRATION, & STORAGE
POOL, GYM, & STUDIO
MAIN CIRCULATION PUBLIC AREAS ARTIFICIAL OUTDOOR AREAS APARTMENT HOMES MECHANICAL
0
8’ 16’
32’
APARTMENT ARTIFICIAL SUNLIGHT AND CIRCADIAN RHYTHM DIAGRAMS
MORNING LIGHT
MIDDAY LIGHT
DUSK LIGHT
88
PLAY YARD
PLAY YARD
PLAY YARD
YALP DRAY
YALP DRAY
YALP DRAY
MUSIC ROOM
MUSIC CISUM ROOM MOOR
MUSIC CISUM ROOM MOOR
CISUM MOOR
PLAY STORAGE
PLAY STORAGE
PRESCHOOL CLASSROOM
PLAY STORAGE
YALP EGAROTS
PRESCHOOL CLASSROOM
YALP EGAROTS LOOHCSERP MOORSSALPLAY C YARD
PLAY YARD
ARTS & CRAFTS ROOM
JANITOR
ARTS & CRAFTS ROOM
STFARC & STRA MOOR
JANITOR
YALP DRAY
STFARC & STRA MOOR
LAUNDRY
ELEVATOR
ARTS & CRAFTS ROOM
STFARC & STRA MOOR
JANITOR
ROTINAJ
WC STORAGE
LOOHCSERP MOORSSALC
YALP DRAY ROTINAJ
ROTINAJ
WC KITCHEN
YALP EGAROTS
PRESCHOOL CLASSROOM
LOOHCSERP MOORSSALC
WC
ROTAVELE
YRDNUAL
EGAROTS
STORAGE
KITCHEN
CW CW
WC
WC
ELEVATOR
LAUNDRY
CW
ROTAVELE
YRDNUAL
EGAROTS
CW KITCHEN
NEHCTIK
WC
NEHCTIK
WC
CW
STORAGE
WC
ELEVATOR
LAUNDRY
CW
ROTAVELE
YRDNUAL
EGAROTS
NEHCTIK
WC
CW
CW
CW
LUNCHROOM
OLD TODDLER CLASSROOM
LUNCHROOM
OLD TODDLER CLASSROOM MOORHCNUL
OLD TODDLER CLASSROOM
MOORHCNUL
MULTIPURPOSE SPACE
MULTIPURPOSE SPACE
DAYCARE CENTER / PROJECT C ABI ARAGON ARCH 6026 / CORE II STUDIO / MARRATT
LUNCHROOM
RELDDOT DLO MOORSSALC
MOORHCNUL
REL M
RELDDOT DLO MOORSSALC
ESOPRUPITLUM ECAPS
MULTIPURPOSE SPACE
ESOPRUPITLUM ECAPS
DAYCARE CENTER / PROJECT C
ESOPRUPITLUM ECAPS
C TCEJORP / RETNEC ERACYAD
ABI ARAGON ARCH 6026 / CORE II STUDIO / MARRATT
LOFTED PLAYSPACE
LOFTED PLAYSPACE
NOGARA IBA T TARRAM / OIDUTS II EROC / 6206 HCRA
DETFOL ECAPSYALP
DETFOL ECAPSYALP
PLAY YARD
LEVEL 2
0
4
POOL. GYM, AND STUDIO
LEVELS 3-9
PLAY YARD
16
0
NALP ROOLF DNUORG
4
8
2
JANITOR
WC ELEVATOR
WC
KITCHEN
STORAGE
LAUNDRY
ELEVATOR
WC
CW
ROTAVELE
YRDNUAL
EGAROTS
LUNCHROOM
OLD TODDLER CLASSROOM
MULTIPURPOSE SPACE
MOORHCNUL
0
16
4
2
8
GROUND FLOOR PLAN
CW
WC
OLD TODDLER CLASSROOM
LOFTED PLAYSPACE
LEVEL 13
0
16
4
LOUNGE, DINING, AND KITCHEN NALP ROOLF DNUORG
2
8
GROUND FLOOR PLAN
ROTINAJ
CW KITCHEN
ESOPRUPITLUM ECAPS
LOFTED PLAYSPACE
LAUNDRY, MEDICAL, AND FOOD STORAGE
WC
NEHCTIK
MULTIPURPOSE SPACE
LEVEL 12
CW
ARTS & CRAFTS ROOM
STFARC & STRA MOOR
JANITOR
WC
LUNCHROOM
LOOHCSERP MOORSSALC
YALP DRAY
ROTINAJ
WC
WC
OLD TODDLER CLASSROOM
ARTS & CRAFTS ROOM
YALP EGAROTS
PRESCHOOL CLASSROOM
PLAY YARD STFARC & STRA MOOR
GROUND FLOOR PLAN
CISUMMUSIC MOORROOM
LOOHCSERP MOORSSALC
ARTS & CRAFTS ROOM
YALP DRAY
0 2
PLAY STORAGE
PLAY YARD
LAUNDRY
4 8
YALP EGAROTS
PRESCHOOL CLASSROOM
STORAGE
61
MUSIC CISUM ROOM MOOR PLAY STORAGE
PRESCHOOL CLASSROOM
KITCHEN
NALP ROOLF DNUORG
0
MUSIC ROOM PLAY STORAGE
JANITOR
PLAY YARD
PARK
GROUND FLOOR PLAN
8
2
61
LEVEL 10
YALP DRAY
16
4
TYPICAL APARTMENT HOMES
GROUND FLOOR PLAN
8
2
NALP ROOLF DNUORG
STORAGE
WC
ELEVATOR
LAUNDRY
CW
ROTAVELE
YRDNUAL
EGAROTS
NEHCTIK
CW
LUNCHROOM
RELDDOT DLO MOORSSALC
MOORHCNUL
RELDD MOO
MULTIPURPOSE SPACE
ESOPRUPITLUM ECAPS
DETFOL ECAPSYALP
LEVEL 14
61
4
0
GROUND FLOOR PLAN
CLASSROOM, LIBRARY, AND THEATRE
NALP ROOLF DNUORG
8
2
PLAY YARD
YALP DRAY
MUSIC CISUM ROOM MOOR PLAY STORAGE
YALP EGAROTS
PRESCHOOL CLASSROOM
LOOHCSERP MOORSSALC
YALP DRAY STFARC & STRA MOOR
JANITOR
ARTS & CRAFTS ROOM
ROTINAJ
WC
CW STORAGE
KITCHEN
ELEVATOR
LAUNDRY
WC
CW
ROTAVELE
YRDNUAL
EGAROTS
NEHCTIK
WC
CW
LUNCHROOM
OLD TODDLER CLASSROOM
MOORHCNUL
MULTIPURPOSE SPACE
RELDDOT DLO MOORSSALC
ESOPRUPITLUM ECAPS
DETFOL ECAPSYALP
LEVEL 11
AQUAPONICS SYSTEM
GROUND FLOOR PLAN
NALP ROOLF DNUORG
TYPICAL APARTMENT BEDROOM PERSPECTIVE
61
4 8
0 2
PARK PERSPECTIVE
MAIN DINING AND KITCHEN 0
8’
16’
32’
90
CRYSTAL COGNITION GREENBURG AND GREENBURG LAW OFFICES UNIVERSITY OF GEORGIA PROFESSOR THOM HOUSER SPRING 2013
The inspiration for this intellectual property law firm based in Athens, Georgia is found in crystals and their benefits on the human psyche. The interior combines both aesthetics and functionality in a way that positively impacts any user or viewer. This is accomplished with the implementation of highly functional furniture and fixtures that allow organization and efficiency as well as warm color schemes that promote productivity, cleanliness, logic, energy, and clarity. The crystals located in the custom desks and sculptures throughout the project are particularly beneficial for trust, honesty, wisdom, decision-making, stress, memory, vitality, and problem-solving. The offices are also equipped with various meeting and collaboration areas that stimulate cooperation and teamwork within the firm, helping it to function in the most productive manner possible.
92
10
9
1
2
3
4
5
6 12 11
2
1
5
2
12 9
10
13
7 1
8
2
14 2
15 14
1 17
16
16
16
16
0
2’ 4’
PLAN 1. PARTNER OFFICE 2. COLLABORATION AND BREAK OUT AREA 3. BUSINESS OFFICE 4. HUMAN RESOURCES 5. WC 6. MECHANICAL AND SERVER ROOM 7. BOARDROOM 8. COPY AND MAIL ROOM 9. COMPUTER LIBRARY 10. CASE STUDY 11. I.T. 12. PARALEGAL 13. RECEPTION 14. LOBBY AND WAITING ROOM 15. ADMINISTRATIVE ASSISTANTS 16. ASSOCIATE PARTNER OFFICE 17. BREAK ROOM
8’
C. I.T., PARALEGAL, AND CASE STUDY
I.T., PARALEGAL, & CASE STUDY
PARTNER OFFICE
ADMINISTRATIVE ASSISTANTS’ DESKS
BOARDROOM
BREAK ROOM
94
98 100 101 102
SPACESHIP RENDERING
SPIRIT ANIMAL / SELF PORTRAIT
BUST
CHUCK CLOSE PORTRAIT
FINE ARTS
SPACESHIP RENDERING PHOTOSHOP GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR SABRI GOKMEN SPRING 2015
98
SPIRIT ANIMAL / SELF PORTRAIT 30” X 22” WATERCOLOR, CHARCOAL, CHALK PASTELS UNIVERSITY OF GEORGIA PROFESSOR DAVID SAVINO SPRING 2010
100
BUST 8” X 9” X 14.5” CLAY GORDON STATE COLLEGE PROFESSOR MARLIN ADAMS SPRING 2009
CHUCK CLOSE PORTRAIT 18” X 24” CHARCOAL GEORGIA INSTITUTE OF TECHNOLOGY PROFESSOR GEORGIA STRANGE FALL 2009
102