Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

Analogue Studio. Boston, MaDesignerDesign and on site coordination of chandelier light installation. Field measurements, site analysis, documentation, and proposal preparation for interior renovation. Web design, marketing and award graphic design/layout, and other administrative office tasks. designLAB. Boston, MaDesignerArchicad modeling and rendering for remodel and expansion of The Cape Ann Museum.

Starbucks Coffee Company. Boston, MaBarista, Barista TrainerCustomer service, beverage preparation, inventory management, and one-on-one training of new hires.

Ultimate Parking LLC. Boston, MaValetFront of house cash handling, book keeping, and customer interaction.

Material Systems Design. San Francisco, CaIntern (San Francisco Program)Documentation, fabrication and assembly of a Diploid Lamp, a scripted parametric model. Collaborative Design, documentation, and modeling for the Landmark for Aldgate competition, the gateway to the Olympic High Street for London’s 2012 Olympic Games.

China Bound Ltd. Mutianyu, ChinaInternOn site position for design, drafting, and construction supervision of garden folly. Field documentation for modernized farm houses and design, photography, and printing of guest information books.Concierge and Server Welcoming clients, serving beverages, managing buffet service, kitchen preparation tasks, and addressing all customer needs, during the Beijing Olympic Games.

Finalist 2010 ShiftBoston International Moon Capital CompetitionCNN - Moon Base 2069 - articleArchDaily - Stadium for International Lunar Olympics - postWork Included in Il Progetto “Borgo Abruzzo” a Castelvecchio Calvisio

Rhinoceros (VRay, Grasshopper, Firefly), AutoCAD, ArchiCAD, Revit, SketchUp (Podium), Adobe CS6 and CC (Photoshop, InDesign, Illustrator, Dreamweaver, Flash, After Effects), Microsoft Office (Word, PowerPoint, Excel), FormZ, Arduino, Laser Cutter Fabrication

Education

Experience

Competitions & Publications

Skills

201011.18.201011.28.201010.4.2010

6.2011Spring 2010Fall 20096.2006

5.2010 - 7.2010

6.2008 - 9.2008

9.2011 - 12.2011

5.2012 - 7.2013

5.2013 - 8.2013

4.2013 - 5.2013

California Polytechnic State University, San Luis Obispo, Bachelor of Architecture San Francisco Program Pantheon Institute, Study Abroad, Rome, Italy Petaluma High School, with honors

Keith bradley / Cell: 707-849-0485 tkb.bradley@gmail.com

Cnn ArtiCLE,

ELEvAtor

CorE, hotEL

rooM, StADi-

UM, DiAgrAM

ORBIT DURATION 27.3 DAYS

03SOLAR-EMBEDDED ORBITAL DEBRIS

ARMOR

04ANODIZED ALLOY PROTECTIVE

STRUCTURE WITH FUSED SILICA GLASS

05HOTELS / STAFF AREAS

/COMMERCIAL AREA/ RESTAURANTS

06COMMUNICATIONSTOWER

/ CONTROL ROOMS/ BEACON

02SOLAR ASSISTEDFUEL CELL REACTOR

01INTRA-CRATER SPORTS ARENA

PROTECTIVE STRUCTURE

ARMOR

COMMUNICATIONS TOWER

CIRCULATION CORE

HYDROGEN REACTOR

HOTEL / GREENHOUSE

COMMENTATOR AREA

TIER 3

TIER 2

TIER 1

MAIN EVENT FIELD

STADIUM OF INTERNATIONAL

LUNAR OLYMPICS

CONCEPT

PROGRAM

ENERGY

ENVIRONMENT

SILOWITHIN THE LUNAR COLONIES OF THE FUTURE, RECREATIONAL ACTIVITIES WILL ARISE AND EVOLVE TO TAKE ADVANTAGE OF THE MOON’S MICRO-GRAVITY. THE SPORTS WE KNOW TODAY WILL BE MODIFIED, AND BRAND NEW SPORTS WILL BE INVENTED. LUNAR SPORTS ASSOCIATIONS WILL BE CREATED, TEAMS WILL BE SPONSORED, GAMES WILL BE TELEVISED, AND PEOPLE FROM ALL OVER THE GLOBE WILL WATCH AS THE BEST OF THE BEST COMPETE IN AN ARENA IN WHICH ALL THE RULES HAVE CHANGED. WELCOME TO THE SILO.

THIS COLONIZATION IS A SYMBOL OF MANKIND’S GREAT AMBITION AND ACHIEVEMENT – THE PERFECT LANDSCAPE FOR A STRUCTURE WHOSE PURPOSE IS TO PROVIDE A STAGE FOR MANKIND TO DISPLAY ITS GREAT STRENGTH AND SPIRIT. THE MOON PROVIDES A NEUTRAL PLAYING GROUND ON WHICH NO COUNTRY HAS THE HOME FIELD ADVANTAGE.

THIS STADIUM, RESTING WITHIN A CRATER HALF A KILOMETER IN DIAMETER, CONSISTS OF THE FOLLOWING: A LARGE, RECONFIGURABLE PLAYING FIELD UTILIZING DIGITAL TECHNOLOGY TO PROJECT VARIOUS BOUNDARY LINES AND FIELD MARKERS DEPENDING ON THE SPORT, SEATING FOR OVER 100,000 SPECTATORS, A LARGE HOTEL FOR GUESTS, VARIOUS RESTAURANTS, A SOLAR-ASSISTED FUEL-CELL POWER PLANT, AND COMMUNICATIONS TOWER.

THE MAJORITY OF NECESSITIES FOR OCCUPANTS ARE HARVESTED AND RECYCLED ON SITE. OXYGEN WILL BE HARVESTED FROM MOON ROCKS THAT ARE HEATED BY HYDROGEN FUEL CELLS OR LOW CURRENTS FROM THE SOLAR ENERGY SYSTEM, AND HYRDOGEN WILL BE IMPORTED FROM EARTH WITH REGULAR LUNAR SHUTTLE TRANSPORTS. THESE TWO ELEMENTS WILL POWER THE FUEL CELL REACTION CREATING BOTH ENERGY AND WATER AS A BYPRODUCT.

THE EXPELLED CARBON DIOXIDE FROM INHABITANTS WILL BE CHANNELLED INTO THE GREEN HOUSES LOCATED BELOW THE HOTEL. A COMBINATION OF EDIBLE FOLIAGE AND VIRILE OXYGEN PRODUCING ALGAE MANAGE CARBON DIOXIDE AND SUSTAIN MUCH OF THE REQUIRED SUPPORT SYSTEMS. ON EARTH, IT IS BELIEVED THAT ABOUT 75% OF OXYGEN IN THE ATMOSPHERE IS PRODUCED BY MARINE PLANTS, AN UNRIVALED EFFICIENCY. THE GREENHOUSE WOULD ALSO PLAY A SIGNIFICANT ROLE IN THE PROCESSING OF GRAY WATER FOR THE STATION, THE ALGAE WOULD FLOURISH WITH THE ADDED NITROGEN AND PHOSPHATE CONTENTS OF THE USED WATER.

500 ME

TER

S

FUEL CELL GENERATORS

ATRIUM / TOWER

HOTEL / GREENHOUSE

OLYMPIC STADIUM SEATING

COMMENTATOR AREA / EMERGENCY SERVICES

THE FIVE INTERLOCKING RINGS OF THE OLYMPIC LOGO, DESIGNED IN 1912, REPRESENT THE FIVE CONTINENTS INVOLVED IN THE OLYMPICS AT THAT TIME. WE PROPOSE TO ADD AN ADDITIONAL

RING TO SYMBOLIZE THE MOON.

+

CIRCULATIONCORE

ATRIUM

STADIUM

REACTOR

HOTEL ROOM

ProJECt tYPE

LoCAtion

ProgrAM

PUBLiCA-tionS

SoFtWArE

The colonization of the moon is an unprecedented achievement for all of humankind, the international endeavor claims the moon as neutral land for all of the inhabitants of earth, welcoming all without prejudice to any nation.

Solar-embedded Orbital Debris ArmorThe regularly occupied areas of the SILO and the vital systems in the base of the tower are protected from orbital debris with polymer armor. This armor is an additional line of defense beyond the anodized alloy protective struc-ture and fused silica glass. The armor protects the majority of the tower and extends out over the hotel portion of the stadium. It is also embedded with a solar collection array that takes advan-tage of its exterior location and large surface area to supplement energy generation and life support harvesting on site.

Solar Assisted Hydrogen ReactorRegular Earth-Moon transports solve part of the equation for life support systems for the moon station, but the majority of necessities for occupants

would be harvested and recycled on site. Some oxygen can be harvested from moon rocks that are heated by the hydrogen fuel cells or low currents from the solar systems, while water could be collected from ice and recovered as a byproduct of the hydrogen reaction. Grey water collected after use can be split into oxygen and hydrogen through solar powered electrolysis completing a closed loop life support system.

Artificial Green HouseThe expelled carbon dioxide from inhabitants will be channeled into the green houses located below the hotel. A combination of edible foliage and virile oxygen producing algae manage carbon dioxide and sustain much of the required support systems. On Earth, it is believed that about 75% of oxygen in the atmosphere is produced by marine plants, an unrivaled efficiency. The green house would also play a significant role in the processing of gray water for the station, the algae would flourish with the added nitrogen and phosphate contents of the used water.

ShiftBoston Moon Capital Competition 2010 [FINALIST]

Project Completed with Brian Harms

The Moon

Stadium, Transit Center, Hotel, and Support Facilities

Moon Base 2069 - article on CNN [NOV 18, 2010]

Stadium for Interna-tional Lunar Olym-pics / Brian Harms & Keith Bradley - post on ArchDaily [NOV 28, 2010]

Rhino, Grasshopper, Maxwell Render

STADIUM OF INTERNATIONAL LUNAR OLYMPICS

PUbliShed WorK2

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

ORBIT DURATION 27.3 DAYS

03SOLAR-EMBEDDED ORBITAL DEBRIS

ARMOR

04ANODIZED ALLOY PROTECTIVE

STRUCTURE WITH FUSED SILICA GLASS

05HOTELS / STAFF AREAS

/COMMERCIAL AREA/ RESTAURANTS

06COMMUNICATIONSTOWER

/ CONTROL ROOMS/ BEACON

02SOLAR ASSISTEDFUEL CELL REACTOR

01INTRA-CRATER SPORTS ARENA

PROTECTIVE STRUCTURE

ARMOR

COMMUNICATIONS TOWER

CIRCULATION CORE

HYDROGEN REACTOR

HOTEL / GREENHOUSE

COMMENTATOR AREA

TIER 3

TIER 2

TIER 1

MAIN EVENT FIELD

STADIUM OF INTERNATIONAL

LUNAR OLYMPICS

CONCEPT

PROGRAM

ENERGY

ENVIRONMENT

SILOWITHIN THE LUNAR COLONIES OF THE FUTURE, RECREATIONAL ACTIVITIES WILL ARISE AND EVOLVE TO TAKE ADVANTAGE OF THE MOON’S MICRO-GRAVITY. THE SPORTS WE KNOW TODAY WILL BE MODIFIED, AND BRAND NEW SPORTS WILL BE INVENTED. LUNAR SPORTS ASSOCIATIONS WILL BE CREATED, TEAMS WILL BE SPONSORED, GAMES WILL BE TELEVISED, AND PEOPLE FROM ALL OVER THE GLOBE WILL WATCH AS THE BEST OF THE BEST COMPETE IN AN ARENA IN WHICH ALL THE RULES HAVE CHANGED. WELCOME TO THE SILO.

THIS COLONIZATION IS A SYMBOL OF MANKIND’S GREAT AMBITION AND ACHIEVEMENT – THE PERFECT LANDSCAPE FOR A STRUCTURE WHOSE PURPOSE IS TO PROVIDE A STAGE FOR MANKIND TO DISPLAY ITS GREAT STRENGTH AND SPIRIT. THE MOON PROVIDES A NEUTRAL PLAYING GROUND ON WHICH NO COUNTRY HAS THE HOME FIELD ADVANTAGE.

THIS STADIUM, RESTING WITHIN A CRATER HALF A KILOMETER IN DIAMETER, CONSISTS OF THE FOLLOWING: A LARGE, RECONFIGURABLE PLAYING FIELD UTILIZING DIGITAL TECHNOLOGY TO PROJECT VARIOUS BOUNDARY LINES AND FIELD MARKERS DEPENDING ON THE SPORT, SEATING FOR OVER 100,000 SPECTATORS, A LARGE HOTEL FOR GUESTS, VARIOUS RESTAURANTS, A SOLAR-ASSISTED FUEL-CELL POWER PLANT, AND COMMUNICATIONS TOWER.

THE MAJORITY OF NECESSITIES FOR OCCUPANTS ARE HARVESTED AND RECYCLED ON SITE. OXYGEN WILL BE HARVESTED FROM MOON ROCKS THAT ARE HEATED BY HYDROGEN FUEL CELLS OR LOW CURRENTS FROM THE SOLAR ENERGY SYSTEM, AND HYRDOGEN WILL BE IMPORTED FROM EARTH WITH REGULAR LUNAR SHUTTLE TRANSPORTS. THESE TWO ELEMENTS WILL POWER THE FUEL CELL REACTION CREATING BOTH ENERGY AND WATER AS A BYPRODUCT.

THE EXPELLED CARBON DIOXIDE FROM INHABITANTS WILL BE CHANNELLED INTO THE GREEN HOUSES LOCATED BELOW THE HOTEL. A COMBINATION OF EDIBLE FOLIAGE AND VIRILE OXYGEN PRODUCING ALGAE MANAGE CARBON DIOXIDE AND SUSTAIN MUCH OF THE REQUIRED SUPPORT SYSTEMS. ON EARTH, IT IS BELIEVED THAT ABOUT 75% OF OXYGEN IN THE ATMOSPHERE IS PRODUCED BY MARINE PLANTS, AN UNRIVALED EFFICIENCY. THE GREENHOUSE WOULD ALSO PLAY A SIGNIFICANT ROLE IN THE PROCESSING OF GRAY WATER FOR THE STATION, THE ALGAE WOULD FLOURISH WITH THE ADDED NITROGEN AND PHOSPHATE CONTENTS OF THE USED WATER.

500 ME

TER

S

FUEL CELL GENERATORS

ATRIUM / TOWER

HOTEL / GREENHOUSE

OLYMPIC STADIUM SEATING

COMMENTATOR AREA / EMERGENCY SERVICES

THE FIVE INTERLOCKING RINGS OF THE OLYMPIC LOGO, DESIGNED IN 1912, REPRESENT THE FIVE CONTINENTS INVOLVED IN THE OLYMPICS AT THAT TIME. WE PROPOSE TO ADD AN ADDITIONAL

RING TO SYMBOLIZE THE MOON.

+

CIRCULATIONCORE

ATRIUM

STADIUM

REACTOR

HOTEL ROOM

4

Keith bradley / Cell: 707-849-0485 tkb.bradley@gmail.com

SitE MoDEL, AtriUM

DEtAiL, SKin StrUC-

tUrE, FLoor PLAtES,

FULL BUiLDing MoDEL,

tYPiCAL FLoor PLAn

Architecture has the opportunity to remain consistently contemporary through unique social interaction. It can become an unique and adaptable pub-lic experience, space with gradient from group to the individual, with each user gaining a sense of authorship.

Visitors to museums already have an elevated consciousness and are more readily aware of their environment. The enhanced conscious allows them easily accept the unfamiliar and adapt socially to change.

Contemporary museums use traveling exhibits and large scale installations to drive repeat visits and to further their own relevance. Museum architecture uses circulation and installation to en-gage visitors in a curated experience.

Architecture that is adaptive to the culture it inhabits, that allows for public manipulation, interpretation, and redistribution will more readily remain contemporary. The circulation of users will be active, the system itself with follow suit.

In an already condensed environment, where static architecture meets chang-ing space contemporary art can flour-ish. A unique environment for digital media and electronic intervention will give the digital collection a space to in-terface with users. New forms of digital installation are encouraged and even required by the architecture.

The museum as a tower helps to express the project as a landmark in contemporary society. A network of sensors and reactions allow for the building to express the intentions and actions of its users. The central atrium and active circulation connect the gal-leries and personal interfaces through a public space.

The building strives to maintain its contemporaneity by creating unique public space.

Senior Year Thesis

Downtown, San Francisco, CA

A Contemporary Space for Digital Art

Rhino, Grasshopper, VRay

ProJECt tYPE

LoCAtion

ProgrAM

SoFtWArE

SPACE IS INTERFACE: RESPONSIVE SYSTEMS IN ARCHITECTURE

theSiS

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

ProJECt tYPE

LoCAtion

ProgrAM

SoFtWArE

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

TIBER REUSE CENTER

6 Portfolio

SitE SECtion, SitE

PLAn, PiAzzA ConnEC-

tion, MAin BUiLDing,

viEW FroM PortA

PortESE

Studio Project - Rome Study Abroad

Rome, Italy

Recycling Center

SketchUp, Podium

The Tiber Reuse Center reinvents the way Rome looks at recycling, it first looks towards the items themselves, then their materials. The center prac-tices its innovation on its site, including the use of the abandoned 17th century arsenale building in Rome’s Trastevere neighborhood.

Items that are brought to the site are sorted by artisans and craftsmen and then stored under the main piazza for redistribution. Visitors can come to site to find materials, replacement parts, or other items. The arsenale is connected to the main building and used as a gallery of work. The center encourages the re-use of materials for their original purpose or for inventive new life as sculptures, installations, and recycled building materials.

The building form and vocabulary attempt to give the center an iconic im-age. The perforated copper skin varies in opening based on programmatic and bioclimatic requirements, giving the cladding a unique pattern. Light enters during the day and shines outward at night connecting with the urban fabric.

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

PERFORATED COPPER SKIN.

SKIN STRUCTURE.

ENCLOSURE.

FLOORS AND CIRCULATION.

EXISTING ARSE-NALE.

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

UnDEr PiAzzA Stor-

AgE FACiLitY, ArtiSAn

StUDio, ExPLoDED

DiAgrAM

9

Keith bradley / Cell: 707-849-0485 tkb.bradley@gmail.com

ProJECt tYPE

LoCAtion

ProgrAM

SoFtWArE

INGLESIDE BRANCH LIBRARY

Portfolio

The new branch library for the Ingleside neighborhood of San Francisco aims to bring a sense of openness and belong-ing within the community. The library is designed to allow sunlit reading, study-ing, and browsing of various forms of media during the day, while at night the second floor community center space is accessible for community use.

A library is a focal point and gathering place for the community. It should be transparent, inviting people in and con-necting with the neighborhood around it. Using the existing street condition of ocean avenue the urban edge is enhanced by setbacks and variation in height. Transparency in the exterior al-lows views and light to enter and leave the library connecting with the com-munity.

MAin EntrY, Sig-

nAgE, CoUrtYArD,

MArKEtPLACE, toP

FLoor, groUnD

FLoor

Studio Project - San Francisco Program

Ingleside, San Fran-cisco, CA

Branch Library

SketchUp, Podium

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com

The project brief required for a single piece of material to be fabricated into a usable object with minimum material waste.

The light was fabricated from a single sheet of acrylic which was lasercut us-ing Rhinoceros and Grasshopper and then parts were folded with tabs and assembled into place.

An Arduino single-board microcon-troller was used to control the LED lights in response to a photo resistor at the center of the light. The Arduino unit was interfaced with Grasshopper to allow real time results to be displayed on the computer while the lights were reacting.

The project was a study to see if active response systems could make every-day objects more interesting for the user. If products respond, seemingly intelligently to users, will they be used more often or for longer periods and therefore remain relevant? Could archi-tecture do the same?

Interactive Installa-tion

Cal Poly [ARCH 460]

Acrylic

Rhino, Grasshopper

ProJECt tYPE

LoCAtion

MAtEriALS

SoFtWArE

model

INTERACTIVE LIGHTING

11

Keith bradley / Cell: 707-849-0485 tKb.bradley@gmail.Com