DAVID STAMATIS MARCHII Academic Projects pg. 1-5 Professional Projects pg. 5-10 Vignette/Vehicle Variety pg. 10-14 2013 WORK SAMPLE
Mar 09, 2016
DAVID STAMATIS MArchII
Academic Projects pg. 1-5
Professional Projects pg. 5-10
Vignette/Vehicle Variety pg. 10-142013
WORK SAMPLE
DAVID STAMATIS1605 S. Wooster St. Los Angeles, CA 90035m. [email protected]
EDUCATION
EXPERIENCE
Prototypes_ Los Angeles, CA (2009)Research Prototype, Pro ject Designer
Hunnan Cultural Complex_ Hunnan Prov ince , Ch ina (2010) Short L ist Compet it ion , Sen ior Designer
Yeosu Ocean ic Pav i l ion_ Yesou, Korea (2009)Compet it ion , Lead Designer
Publ ic Art Piece on Santa Monica and La Brea_ Los Angeles, CA (2009)Compet it ion , Lead Designer
2013 Nat ional Games Sports Complex and Arena_Shenyang, Ch ina (2011 )1st Place Compet it ion Win , Concept ion-DD, Sen ior Designer
Kaohsiung Pop Music Center and Mar it ime Museum_Kaohsiung, Ta iwan (2010)Compet it ion , Lead Designer and Compet it ion Manager
Bei j ing Nat ional Hotel_ Bei j ing , Ch ina (2011 )Commiss ion , On-Hold , Sen ior Designer
Kaohsiung Port Terminal_ Kaohsiung, Ta iwan (2010)Compet it ion , Lead Designer and Compet it ion Manager
Semi-Rig id Car_ Los Angeles, CA (2011 )Speculat ive Design Pro ject , Sen ior Designer
ARCTIC-Mass Paint ing_ Anaheim, CA (2011 )Publ ic Art Compet it ion Shortl ist , Pro ject Designer
Busan Opera House_ Busan Korea (2011 )Compet it ion , Sen ior Designer
M. Arch II Candidate, UCLA, (Expected June 15, 2013)
B. Arch, California Polytechnic State University San Luis Obispo, 2009
Study Abroad Travel Scholarship, CSUIP Firenze Study Center, 2008
Private funding granted to set up a research and design office in Downtown Los Angeles that also acts as a satellite to Trahan Ar-chitects. Research takes an inter-disciplinary approach to emerging technologies in architectural design and fabrication including robotics, scripting, computation, and advanced work in contemporary 3D modeling and visualization platforms.
+ Design Direction on Bengbu Opera House Competition + Led management of partner relations with Shanghai TONJI University Design Institute + Led conceptual development ranging from industrial design to large scale stipend international competitions + Managed opening of office_ found and rented office space, registered software, admin
Worked in close collaboration with Priciple, Tom Wiscombe, on a variety of scales of design projects, from speculative research prototypes to large scale competition-winning building designs.
+ Lead role in design for over 19 projects in less than 2 years + Project and office management with as many as 12 people in my design teams + Experience as Senior Designer and Project Manager on multiple private development and governement contract competition wins based in China + Travelled to China for project presentatoins and meetings with client and government officials
Architecture, Design, and Research
(formerly Emergent Architecture)
DESIGN DIRECTOR, AUG. 2011- AUG. 2012
compMatter [TA]
SENIOR DESIGNER, 2009-2011
Tom Wiscombe Design
GPA 3.9/4.0
GPA 3.5/4.0
GPA 3.75/4.0
ACADEMIC EXPERIENCE
AWARDS/DISTINCTIONS
PUBLICATIONS
COMPETENCIES
+ Worked part-time on CDs for new construction residential duplex in San Francisco + Corrected red lines for details and schedules + Corresponded with manufacturers and fed information back into design + Rendered and visualized project for client and neighborhood council approval
+ Designed and modeled for high end commercial projects + Managing and Engineering rapid prototyping jobs of multiple scales + Client base raned from high-end production houses, to industry leading car companies, to international architecture firms
+ Worked in most phases of Type V construction from framing to finish work of single family homes
+ Taught series of 2-3 day digital workshops on digital design based around platforms that include Autodesk Maya, Rhino 3D, Zbrush, Maxwell Studio, and Grasshopper
+ Travelled to Troy, NY to teach technical workshops and sit on design pin-ups throughout the semester in Tom Wiscombe’s undergraduate vertical studio called “Shells and Branes” focusing on composite shell and membrane interaction through contemporary design platforms.
DESIGNER, AUG 2012- MAR 2013
Stephen Phillips Architects
DESIGNER and RAPID PROTOTYPING MANAGER, 2009-2011
Crystalline-RP
CARPENTRY APPRENTICE, 2004-2008
Timberline Construction
_UCLA AUD Graduate Fellowship Full Scholarship (2012-2013)_ Multiple projects chosen for UCLA AUD Currents Exhibition (winter 2013)_MARCH II Class Representative (chosen by colleagues and professors)_Accepted and recieved scholarships (but will not attend) from Harvard GSD MARCHII, Yale SOA MARCHII, and SCI ARC ESTM_Thesis Project exhibited at LA Forum for Architecture and Design (Spring 2009)_CSUIP Travel Scholarship: Florence, Italy (Summer 2007- Spring 2008)_Cal Poly Deans List Honor Roll (Fall 2007, Winter 2008, Spring 2009)
_Dezeen.com, Inhabitant.com, Suckerpunchdaily.com_Personal website Featured on CARGO COLLECTIVE “cargo gallery” (2012)_Studio Ambition: Design Research Laboratory (2010)_Research Practice Symposium (2009)_ Architecture+Design+Discourse 10 (2010)_Architecture+Design+Discourse 9 (2009)_Rise and Run (2009)
DIGITAL SKILLS _ Professional Proficiency in the following : AUTODESK MAYA 2013, RHINO 3D 5, GRASSHOPPER, MAXON C4D R13, ZBRUSH 4.2, MAXWELL RENDER 2.6, AutoCad, REVIT 2014 (beginner), ADOBE CREATIVE SUITE 6, MICROSOFT OFFICE, MAC OSX, WINDOWSPHYSICAL PRODUCTION_ CAD/CAM, LASERCUTTING, RAPID PROTOTYPING, COMPOSITE LAYUP, BASIC WOOD CONSTRUCTION
Technical and Design Workshop Instructor_ 2010-2011California Polytechnic State University SLOLos Angeles Metro Program Cal Poly
4th Year Undergraduate Vertical Teaching Assistant_ Fall 2010Rensselaer Polytechnic Institute (RPI)
Tom Wiscombe 2010 Sci-Arc Vertical Studio Teaching Assistant_ Spring 2010Southern California Institute of Architecture (Sci-Arc)
opera_ SMALL FIGURE-GROUND
PERFORMANCE SPACE TYPOLOGIES conpares the Opera vs Circus because they are on opposite ends of the typology spectrum. Cirque Du Soliel non-travelling shows are a kind of hybrid of the two.The OperaIn the plan of Paris Opera House, the figure-ground of performance space to back of house, amenities, and procession is a really small proportion.The CircusThis Barnum & Bailey Big Top plan has the opposite affect with almost all of the plan devoted to performance space.The ambition was to figure out a way to use a moving element to fluidly transition between these typlogies.
circus/big top_ MASSIVE FIGURE-GROUND
The first move was a typology shift as well as a formal idea. Called the TRI FLY. So, here we take the traditional theater setup with flytower side and back stages and perform a series of operations. The first of which deletes the side stages and splits the flytower and backs stage into two.The second operation cants the flytowers and lifts the backstage chunks up in the air. The last operation cants the substage to create a third diagonal fly that comes from below the ground.
This gives the performance hall the advantage of three separate multi-use backstage areas with direct diagonal access to the hall.
1. 3.
4.2.
Suprastudio UCLA Advisor: Greg LynnChosen for UCLA Currents Winter 2013 Exhibition
CIRQUE DU SOLEIL THEATERHOLLYWOOD, LA, CA
ENTRY INTO AUDITORIUM
FLY TOWER b
FLY TOWER a
FLY TOWER c
MOVING GRID
UNDERSIDE FLYTOWER CONNECTING PERFORMANCE CATWALKS
CLOSED GRID POSITION:
SEPARATE RESTAURANT SPACE AND PERFORMACNCE SPACE
SECTION e
SECTION d
SECTION c
SECTION b
OPEN GRID POSITION:
COMBINED RESTAURANT SPACE AND PERFORMACNCE SPACE
MOVING GRID IN CLOSED POSITION
MOVING GRID IN OPEN POSITION
PERFORMANCE SPACE
PERFORMANCE SPACE
RESTAURANT LOUNGE PUBLIC SPACE
UNDERGROUND FLYTOWER
UNDERGROUND FLYTOWER
Suprastudio UCLA Advisor: Greg LynnOngoing Project Spring 2013
OMNI HOTEL REDESIGN DTLA
EXISTING SITE
MASSING IDEA HOTEL IDEA (4 LANDSCAPES)
GRAND
st.
MOCA
the MOUNTAIN
the OUTCROPPINGthe HILLS
the ISLAND
CALPLAZA TOWER
CALIFORNIA PLAZA
OLIVE st
.
The Omni Hotel is a redesign that sits adjacent to California Plaza, MOCA, Grand and Olive streets. The massing idea is to raze the ex-isting lobby and create a connec-tion between Grand (the cultural thoroughfare) and Olive (connec-tion to the rest of DT), as well as adding 4 floors of rooms to the top for more views of the city.
The hotel idea is to inject 4 Califor-nia landscapes into the hotel which all create new types of rooms that all have a new relationship to the city and hotel ameneties.
MOVING GRID IN OPEN POSITION
EXPANDED PERFORMANCE SPACE
SLIDING SURFACE OF UNDERGROUND FLYTOWER
UNDERGROUND FLYTOWER
original room type
LANDSCAPE/ TOPOGRAPHICAL PANELLING SYSTEM
B.ARCH THESIS CAL POLY, SLO2009
STRIATE THE BLOCK
The investigation takes place in Long Island City in a site
harboring multiple highline train systems along with stor-
age for the adjacent Sunnyside Railyards. With Manhattan
maxed out and Brooklyn growing rapidly, LIC is experienc-
ing influx of new development. With art and creative culture
in its roots a school of design and new 7 line train stop
connected by an urban park will help establish new sys-
tems for development that maintain and enhance cultural
identity.
Architectural exploration includes development of systems
regarding variations in patterning, porosity, paneling, and
texturing within structure and landscape.
LANDSCAPE/ TOPOGRAPHICAL PANELLING SYSTEM
BENGBUOPERA HOUSE
WITH CompMatter-TA and Trahan ArchitectsAwarded 2nd Place in Competition behind P. Scott Cohen Architects
Bengbu, Annhui, China
ROLE: +Design Director+Concept Development+Massing and Form +Managed partnership and shared work with TONJI Design Institute+Managed relation with Chinese PR partner+Worked on all Plans, Sections, Diagrams, and Deliverables+Rendering and Vis
The new Opera House sits along a newly developed coastline and public park integrating existing and natural landscape with a new sphere of public space and iconography. The Opera House and Music Halls are embedded into the building like pearls of a clam; It is made up of layers. These layers echo the complex-ity of the site and its own make up (the people, the new city, the natural land-scape, the beauty of the views).
WITH TOM WISCOMBECOMMISIONBeijing, China
BEIJINGNATIONAL HOTEL
ROLE: +Senior Designer +Developed Parametric Skin Apertures +Negotiated Massing with Parametric Room Layout+Rendering and Visu-alization
At 1,500 rooms, this hotel will be the largest hotel in Beijing. It is located near the Beijing International Airport in the 5th Ring, and will be used to host international conferences. The building is 303 meters long and is intended to become a major landmark, visible to landing aircraft.
The building is organized around three volumetric rings fused together by surfaces draped from the top and bottom. The rings create atriums which are enclosed by ETFE domes, housing a 10,000 m2 interior rainforest as well as the conference center and hotel amenities. Rooms, radiating out along each ring, are oriented both outwards and inwards, creating views out to the city as well as down into the rainforest. The droop of the rings towards the perimeter of the building also allows views outward from the interiors of the rings. Structural bays are flexible and can be broken down into standard, business suite, and presidential types. A sky restaurant is located at the high-est level of the building, with views out to the city in all directions.
The skin is also em-bedded with a second system of solar thermal pipes and grey water capture grooves which hybridizes the base diamond pattern with a sporadic weaving pattern.
INTERIOR LOBBY(-below), SOLAR THER-MAL(side)
WITH TOM WISCOMBE DESIGNFIRST PLACE COMPETITION WINNERShenyang, China
ROLE: +Senior Designer +Project Manager +Traveled to Shenyang to work with our part-ner SADI and meet with government officials and client+Developed Fishscale Concrete Panel System +Solar Array Pattern +Massing and Form +Managed Drawings & Competition Submittal
2013 CHINESE NATIONAL GAMESJUDO ARENA
The site for the Chinese National Games Arena is located in a Shen-yang University courtyard lined on three sides by University buildings and on one side by major arterial street which features the new 300kmh Shenyang High-Speed Rail line. The design is a simple volume which becomes increas-ingly articulated and transparent towards public spaces and its main entry.
The arena will house 3,000 fixed seats above the mezzanine level
WITH TOM WISCOMBE DESIGNFIRST PLACE COMPETITION WINNERShenyang, China
ROLE: +Senior Designer +Developed ETFE system +Managed Diagrams & Competition Submittal
2013 CHINESE NATIONAL GAMESSPORTS COMPLEX
Fiber Composite Sculpture and landscaping_ This public art in-stallation, located in front of the Anaheim Transit Terminal, is the result of intersecting the realms of structural engineering, compu-tation, and painting.
A loopy mass is analysed as a composite shell structure, reveal-ing areas of low and high stress. The resultant color-gradient map is transferred to a digital paint environment where it is manipu-lated to produce specific visual effects-- such as loopiness and spottiness-- but also broken down into layers of variable thickness and material strength. Areas of very low stress become transpar-ent infill, creating deep views inside the inside of the manifold. In the end, color and pattern only partially index material forces; the piece exceeds simple material expression towards something which correlates nature and culture.
Layers of super-thin technology are embedded into the structural-ly sedimented fiber composite shell. Thin film solar tape is tucked beneath the outermost layer of the shell, while organic-LED light-ing film is embedded on the inside, in light colored layers. The solar tape creates micro-patterning which breaks down large sur-faces and generates energy to power the lighting of the piece. At night, the lighting creates mysterious graphic and silhouette effects, heightening the dimensional play of the piece.
WITH TOM WISCOMBE DESIGNCOMPETITION ENTRYANAHEIM, CA
ROLE: +Project Designer +Developed Parametric Tracery +Formal Development
ARCTIC MASS PAINTING
FULL COMPOSITE VARIABLE INSIDE LAYER
WITH TOM WISCOMBE DESIGNSpeculative In-house Design
ROLE: +Lead Designer +All 3D modeling +Rendering & Vis
SEMI RIGID CARspeculative vehicle
Concept cars in the history of the automotive industry, though often produced for brand mar-keting purposes, constitute an avant-guarde. The evolutionary development of that industry has always depended on the deterrito-rialization of domesticated forms of transportation through the introduction of mutations into the system. There are several biases in concept car design, of course, ranging from those which focus on advanced material applica-tions, drive-train, fuel, safety, and other performance dimensions, such as in Formula One, to those which focus on contemporary body styling on a relatively indif-ferent, if not conventional chassis.
These biases are also evident in contemporary architecture, in the current split between discours-es of synthetic materiality and effects vs. approaches based on the behavior of physical matter. In car design, however, this split has not become so academically entrenched, and the vast majority of successful concept car designs leverage crossovers between formal features and material be-haviors. It is this kind of synthetic thinking which drives our design for the Semi-Rigid Car (SRC).
0
1
2
3
4
5
67 8
9
1 0
1 0
1 0
Bioreactor Distribution
Semi - Rigid Polymer Chassis
Soft Polymer SkinBioreactors
Synthetic Cartilage
Electro - Chemical Actuators
WITH Luis Quinones & Jon StahlSpeculative In-house Design
ROLE: +Lead Designer +3D modeling +All Rendering & Vis
[001 HRR] Concept
[001.HRR] is a revolutionary concept motorcycle using the cutting edge of material science and technology. A hybrid in some parts, this race replica uses not only thin film solar and paint to harness solar energy but also uses a kinetic energy recovery system [KERS] as a secondary source of power.
Our goal was to rethink not only linear manufactur-ing processes but also evolve a riders experience and safety through the use of technology and materials. The concept from a mechanical/racer perspective was consulted by Bob Miller (Desmo-Valves Racing) & Luis Quinones (Ducati 848evo WERA Racer). The idea was to maintain a fairly normalized engine package and transmission while innovating in the areas of systems, technology, material research, and manufacturing processes.
Embedded within the front cowl is a network of custom sensors + “circuit” boards which provide feedback to the helmet HUD [VISON]. The lower front cowl houses the “Cerebro”, a series of high precision optic lenses and sensors which process iwnformation for the rider [VISON]. [VISON] allowed us to create a safer motorcycle experience, not only on the street but also on the track. Traditionally “safer” motorcycle concepts involve enclosing the rider inside a shell or protective layer, this is contrary to the spirit of motorcycle riding and racing. Instead [VISON] provides safety in information which is normally not provided as well as eliminating the need to look down at you dash, causing further distractions. This system is powered by a series of “painted” thin film solar sheets embedded in the upper front cowl. These systems along with the emerging circuit board network not only provides power to the sensors but also adds a tectonic quality uncommonly seem in motorcycle fairings.
1. During the day, stick the closed lamp to any window. Thin film solar sheets embedded in the silicone suction cups will charge an array of microbatteries. Boost converters allow voltage to be stepped up, or amplified, to power the OLED lighting elements.
2. At night, simply remove the fixture from the window and reattach it to any sur-face: a desk, the back of your computer, the wall.
3. Press anywhere on the OLED array and the armature unfurls while the light turns on. An armature actuated by spring loaded and gas struts unfurls, while the boost converters are switched on and activate the light itself. An embedded photometric light sensor monitors the ambient light conditions, and adjusts the light output accordingly to preserve battery life, and provide the most balanced and pleasing light quality.
RE-LUXO is a revolutionary lighting concept using state of the art materials and technology. Zero ‘from the grid’ elec-tricity is required to power this ultra compact desk light.
Its usage is simple:
RELUXOEDRELUXO
WITH LUIS QUINONES + JON STAHL*3RD PLACE2012 Anonymous.D Design Competition
RELUXOEDRELUXO
WITH LUIS QUINONES + JON STAHL*3RD PLACE2012 Anonymous.D Design Competition
DEFINE 3 POINT PLANARITY
MOVE BISECTING POINT ALONG PLANAR SURFACE
DISTANCE BETWEEN ORIGINAL SURFACE AND PLANAR SURFACE
FILL IN FRAME
TOTAL DISTANCE POINT CAN MOVE WITHIN PLANARITY
POINT OF PLANARITY
APERATURES CREATED OUT OF FILL FRAME
INCREASED SURFACE AREA OF FILL IN FRAME
VARIABLE SWITCHING OF WHICH POINT IS PULLED PLANAR
DEPENDING ON POINT SOME PANELS RECEDE INTO THE SUR-FACE
Suprasurface Tech Seminar UCLA Advisor: Julia KoernerChosen for UCLA Currents Winter 2013 Exhibition
SUPRA SURFACE
CURVATURE ANALYSIS_ analyzing curvature
ORIGINAL MESH CURVATURE ANALYSIS FIGURE GROUND OF PLANARITY/PANEL
SUNLIGHT ANALYSIS_ analyzing avg. daily sunlight exposure
TOTAL SUNLIGHT HOURS
most sunlight/ closed panels
most shade/ open panels
PANEL APERATURES BASED ON SUNLIGHT ANALYSIS SWITCHING OF PANELS TO ORIENT VARIABLY _85% North Facing
TOOL DEVELOPMENT/IMPLEMENTATION_ comprehen-sive tool that addresses double curvature in individual panels, those panels’ orientation, and their response to environmental cues.
[3] Juno
Tech Seminar UCLA Advisor: Jason Payne[3] JUNO
DISCOVERED: LOCATION:SIZE:COMPOSITION:OTHER KEY ATTRIBUTES:
MORPHOLOGY AND BEHAVIOR[3] Juno is a large semi-spherical asteroid in the Main Belt. Its morphol-ogy is largely defined by a ~60 mile-wide crater “bite”(Fig 1. wl 833nm + 934nm). Juno has an extremely high reclectivity rate which makes it highly visible from earth, but the material excavated by the collision that produced the crater "bite" has low reflectance. Juno is the second largest S-type asteroid and is estimated to contain 1% of the total mass of the asteroid belt.
[3] JUNODISCOVERED: LOCATION:SIZE:COMPOSITION:OTHER KEY ATTRIBUTES:
MORPHOLOGY AND BEHAVIOR[3] Juno is a large semi-spherical asteroid in the Main Belt. Its morphol-ogy is largely defined by a ~60 mile-wide crater “bite”(Fig 1. wl 833nm + 934nm). Juno has an extremely high reclectivity rate which makes it highly visible from earth, but the material excavated by the collision that produced the crater "bite" has low reflectance. Juno is the second largest S-type asteroid and is estimated to contain 1% of the total mass of the asteroid belt.
Suprastudio UCLA Advisor: Greg Lynn
Masses In Motion