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TOWN LAKE ROWING CENTER
MIXED USE COMPLEX
BUS STOP
INFLATO WONDER
SOCIAL HOUSING IVRY-SUR-SEINE
ADDITIONAL WORKS
TOWN LAKE ROWING CENTER
Professor: Ed Richardson One of the most intriguing processes of rowing is the act of launching and storing the boat. Rowers would begin their ritual as they entered the monolithic rowing center. Emerging from the bunker, rowers would walk to the designated path that housed their specific racing shell. The crunch of the gravel and the long procession to the pod was deliberate, encouraging rowers to mentally prepare for their rowing routine. Finally, the row would arrive at a specific pod, and launch the boat. Each pod was able to accommodate anywhere from a 2-person rowing shell to an 8-person rowing shell. The roofs were accessible too, providing patrons and visitors access to views of the lake and of course, the rowers.
Bay Study Model
Site Model
Site Plan
Site Model
View From Water
South Elevation
West Elevation
East Elevation
Deck View
Path View
Offices Locker Rooms
Office
Training Facility
Clubhouse
Plan of Clubhouse
Section Through Boat Bays
1
2
Boat Bay Structural System
12
11
Glass Handrail
Upper Decking
3
Floor Joists 4
Primary C- Columns 5
Lower Decking
6
7
Decking Structure
Clubhouse Structural System 8
9
1 10
Detailed Wall Section 1. 2”x10” Wooden Louvers 2. CRL Aluminum Base Shoe 3. W 6”x6” Steel I-Beam 4. C 15”x50” Steel C-Channel Column 5. Operable Boat Storage Rack 6. Steel Support Bar 7. Steel L-Bracket 8. Steel Rollers 9. 2”x10” Wooden Decking 10. Modular Galvanized Dock Structure 11. 2”x6” Wooden Decking 12. 1/4”x3’x6’ Glass Hand Rail
Roof
Secondary Ceiling Joists
Primary Structure
1”=1’ Bay Model
1”=1’ Bay Model
Boat Storage and Deck
MIXED-USE COMPLEX
Professor: Charlton Lewis Partners: Jorge Martinez, Jorge Faz, Travis Hicks
In groups, at various sites along Airport Blvd. we were assigned to examine and analyze the area for future growth and development. Geographically this site is at the center of Austin with great potential for growth. Through multiple site visits and GIS programming careful analysis was drawn and a development plan was designed with the goal of reviving the surrounding community. During analysis we found a pattern that seemed to facilitate growth that our site was missing. The connections between residential and commercial districts were divided by heavy traffic, thus impeding future growth. We proposed to bury Airport Blvd., create a tunnel for traffic and a linear park for pedestrians in order to bridge the separated districts. We were then asked, in groups, to further develop our proposed site redesign by creating a mixed use housing complex. Mapping Studies
Unit Studies
Proposed traffic redesign
Proposed Mixed-Use Intervention
Site Model
According to our proposed redesign, it was necessary to provide a mixed use complex that would help foster the growth of the community. A dry creek bed that is currently desolate borders the site. Part of the redesign was to convert the creek bed into a hike and bike trail. The path cuts through the center of the site and divides the two mixed use complex buildings. The path opens up to an inner courtyard with a large green space and cafe where denizens are free to do as they please. The main walkway branches off and connects to the two adjacent streets so that there’s a sense of enclosure, but not a sense of entrapment. These double height walkways cut through the buildings and act as entry points to the interior of the complex. Trail View
Entryway View
Site Plan
Courtyard View
Units are staggered to ensure maxiumum privacy
Two types of units ensure that lower income housing needs are met
BUS STOP
Sit
Professor: Alan Knox The bus stop was developed through section with three primary actions in mind: sit, stand and observe. While waiting for the bus, people generally seek shelter, especially during the hot summer months. Bus stops also provide information on routes and can be a medium for communication among the community. During the day the bus stop acts as a shelter and at night transforms into a beacon. A soft glow provides patrons with a sense of safety as they wait while a blue glowing light indicates the next bus is minutes away.
Stand
Observe
Sit, Stand, Observe
Skin Study
Illumination while waiting
Blue light indicates approaching bus
Bus stop rendering
Structural System
INFLATO-WONDER
Professor: Jack Sanders Partner: Sam Anderson The goal of this project was to design and build an architectural intervention that would convey sense of wonder for the Bastrop Fire Benefit Relief, a fund raiser held in Taylor, Texas for victims of the local wildfires. Inspired by Ant Farm, the potential for inflatables seemed endless. In order to prove it could be done, a 5’x5’x5’ cube was constructed out of duct tape, reclaimed plastic drop cloth and a 7” fan. In constructing the cube the seams proved to be the most crucial point of having a successful inflatable be. Materiality, pattern forming, and seams were thoroughly studied. After many small iteration, the most interesting aspect of the form was bringing a 2-dimensional star into a 3-dimensional torus. Seams were made by folding 4-ply poly drop cloth, duct taping, and grommeting two pices together. This created a tight seal, and the grommet holes provided the potential for a lighting system to be implemented.
Study Models
5’x5’x5’ Full Scale Study Cube
Orange Patterns Cut
Unfold
Restitch
Chosen Pattern
The materials used were light and easy to transport with potential to be redeployed anywhere. The idea of a temporal structure that would appear and disappear on the landscape added to the sense of wonder. Packaging, deploying and inflating the structure soon became just as crucial as the structure itself. The element of wonder is derived from structure’s strict life cycle: Deploy, Inflate, Experience, Deflate, Relocate.
Cutting Pattern
Portable Inflato-kit
Inflated Structure
Proposed vs. Actual Execution Deploy
Inflate
Experience
Deflate
Relocate
SOCIAL HOUSING IVRY-SUR-SEINE
Professor: Igor Siddiqui Partner: Jorge Faz Located on the Ivry-sur-Seine is a plot of land inhabited by homeless people living in the abandon wasteland of what used to be a tire factory. This once lively area has since fallen into disrepair. Much of the surrounding area has become nothing more than a polluted industrial complex. The main goal of the project was to create a social housing block that would act as a catalyst in bringing life to this otherwise industrial wasteland. Through combining the analysis of the site, and producing a single modular unit that would morph according to the site’s conditions, housing blocks and circulation paths were proposed across a 1-hectare strip of the site.
Parti sketches of site
Residential wedge
Commercial wedge
Chosen hectare strip
Circulation grid
Commercial Intervention
Residential Intervention
Module
Site Plan
Modules rotate around building core
Modular Unit Aggregation
Modular Unit Plan
Floorplan with cantilever
Ground floor plan
Typical Floorplan
Floorplan with bridge
Structural System
Building Core
Floorplates
Modular units slide between floorplates
Exterior Structure
Skin Application
Typical floor plan
Ground plan and typical floor plan
Section facing North
Section facing South
View from unit
View from bridge
View from courtyard
SECTION CASE STUDY PROFESSOR: ULRICH DANGLE PARTNER: JORGE FAZ Detailed case study on Snohetta’s Oslo Opera House. 2”=1’ Scaled detail model.
Plan, Section, Elevation
DRAW BLOOD PROFESSOR: JOHN BLOOD Summer drawing class that explored hybrid drawing techniques.
Studio Space
Transparency study
Ice Cream Tower
STUDY ABROAD EUROPE PROFESSORS: JOHN BLOOD, ELIZABETH DANZE, DANILO UDOVICKI, IGOR SIDDIQUI Sketchbook explorations from a one semester study abroad travel program. These sketches reflect typologies, projections and crossings inspiried by buildings and urban infrastructure while traveling abroad in Europe. Drawings range from quick sketches to more time intensive compositions of contemporary and classical architecture. Countries visited were; Copenhagen, Sweden, Denmark, Spain, Portugal and France.
Kiasma Museum light study
Sainte-Chapelle structure study
La Tourette
Paris mapping study
Foster’s subway entrance study
Bilbao Guggenheim
Île de la Cité mapping study
Barcelona Pavillion
Leรงa Swimming pool complex
R
E S U M E
Ryan Rasmussen Address | 803 West 17th St., Apt # Up, Austin, Texas, 78701 Email | Ryan0Rasmussen@gmail.com Telephone | (650) 823 2014 Website | issuu.com/ryan.rasmussen youtube.com/ryan0rasmussen
EDUCATION
TECHNICAL
University of Texas at Austin Bachelor of Architecture
École Nationale Supérieure d’Architecture de Paris-Belleville
Anticipated Graduation Date: May 2012
In Major GPA: 3.75/4.0
Software
AutoCAD Rhinocerous 3D V-Ray for Rhino Kerkythea Ecotect Google Sketch-up Adobe Creative Suite MS Office
Analog
Hand Drafting Hand Rendering Casting Model Building
Tools
Laser Cutter Woodworking
STUDIO WORK Fall 2011
Trans Pecos Festival of Music and Love Installation Instructor: Jack Sanders - Marfa, Texas
Fall 2011
Bastrop Fire Benefit Installation Instructor: Jack Sanders - Taylor, Texas
Fall 2011
Fun Fun Fun Fest Half-Pipe Installation Organization: LOOP - Austin, Texas
Spring 2013
Design Assistant for First-Year Architecture Students Instructor: Smilja Bertrand-Milovanovich
HONORS+ACTIVITIES
WORK EXPERIENCE
City of Austin City Council: Certificate of Appreciation Research and Redevelopment Proposition for Airport Boulevard
City of Plano Lifeguard 2003-2005 City of Frisco Lifeguard 2004-2005 University of Texas at Austin: Dean’s Ambassador 2010-present
University Honors: 2010 - Present Missionary Service in Japan 2006-2008 Fluent in Japanese