P O R T F O L I OMILES
S c h o o l o f D e s i g n + C o n s t r u c t i o n W a s h i n g t o n S t a t e U n i v e r s i t y
2011 - 2015
AUSTIN
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C O N T E N T S TABLE OF
This undergraduate student design portfolio portrays a first generation college student that brings small town simple morals and thoughts into the advanced design world that architecture inhabits. Coming from a family of blue collars, I push a similar ethic of hard work and dedication into the professional environment where words, thoughts, and ideas are a driving force and motivation in the workplace.00
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PROGRAMMATIC SPACES
WHEAT INTORSION
RESUME 040102
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EXPLORING REPETITION AND VARIATION0306
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TRANS-URBAN POROSITY 1805
INTEGRATED DESIGN EXPLORATION 2606
INTERNSHIP EXPERIENCE 3407
LETTERS OF RECOMMENDATION 4208
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Washington state University Masters of Architecture Student
Miller Hull Partnership Seattle WA. Summer Internship(Construction Administration_ Bothell City Hall)Summer 2015
Loofburrow Wetch Architects Yakima, WA. Summer Internship (Construction Docs. + Marketing Design) Summer 2014
Kearby Wetch ConstructionYakima, WA. Demo Crew (Demolition Construction Crew + Bids + Take-Offs) Summer 2014
Prodigy Construction, George Farwell. Pullman, WA. Remodeling Construction(Framing to drywall + paint) Summer 2013
Garret Electric Co. Richland, WA. Commercial Electrical Contractor. (Office assistant | RFI + Submittal Experience ) Summer 2012
Washington State University Biotech Life Sciences Department (Viverium tech | assist in daily animal care) Fall 2011-Spring 2014
W O
R K E X P E R I E N C
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Mike JobesMiller Hull Partnership Seattle, WA. (206) 718-0773
Gary Wetch Loofburrow Wetch Architects Yakima, WA. (509) 457-5121
Don Kearby Kearby Wetch ConstructionYakima, WA. (509) 424-4283
George FarwellProdigy Construction Pullman, WA. Summer 2013
Mark Mobley F & M Construction Yakima, WA. (509) 949-1824
Morris + Kara Mack Yakima School of Karate Yakima, WA. (509) 457-5462
R E F E R E N C
E C O
N T A C
T S
Rhino + T-Splines + Evolute Tools Grasshopper + Sonic + Wood Pecker + Diva + Elk + Chameleon + Kangaroo + Rabbit + Shortest Walk Auto Desk + Revit + AutoCAD + 3ds Max + Vasari + Maya + 123D Make Rendering + Kerkythea + V-Ray + Flamingo + Korona + E-on Adobe + Photoshop + InDesign +Illustrator Google Sketch-Up Microsoft Office + Word + Power Point + Excel
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M P U
T E R P R O F I C
I E N C
Y S K I L L S
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The Miller Hull Partnership Scholarship Recipient
Central Washington Home Builders Scholarship Recipient
WSU SDC Architecture ACM- Harmon Presidential Scholarship Recipient
WSU SDC Accelerated GraduateProgram Acceptance
Central Washington Home Builders Scholarship Recipient
Central Washington Home Builders Scholarship Recipient
A W A R D
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W H
Y A R C H
I T E C T U
R E
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2015
2015
2014
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2013 2012
A U S T I N M I L E S
C O
N T A C
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2657 Mapleway Rd. Yakima, WA 98908
(509) 833-7765
I have always been a firm believer
that one should not only be
specialized in one thing, but one
should expand their learning and
knowledge into as many areas of
expertise as possible. Architecture
not only deals with just drawing;
it combines history, art, math,
and human interactions that are
all constantly being manipulated
and changed. It is that freedom
that draws one’s attention as
well as the constant excitement
of an ever changing profession.
Architecture is not about
changing the world with design,
but working with great people to
create colloquies, to create great
spaces, for great people.
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SECTION CUT SCALE: 1/16”=1’
1. ENTRANCE LOBBY 2. CIRCULATION 3. REFERENCE 4. ADULT READING5. CHILDREN’S 6. TEEN 7. STAFF8. MECHANICAL ROOM 9. MEETING 10. RESTROOMS
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PROGRAMMATIC SPACES
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SECTION CUT SCALE: 1/16”=1’
1. ENTRANCE LOBBY 2. CIRCULATION 3. REFERENCE 4. ADULT READING5. CHILDREN’S 6. TEEN 7. STAFF8. MECHANICAL ROOM 9. MEETING 10. RESTROOMS
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ABSTRACT
Second year design studio aimed at creating a neighborhood branch library for the Queen Anne district of Seattle, focusing heavily on programmatic relationships within the context of a library. The concept derived addressed a new paradigm in library planning and design. Associated with commercial retail use in an urban neighborhood context, the library’s design incorporates an outdoor reading garden at the front entrance, sunk below ground level. At the back of the library is a grand children’s reading room incorporating a large hearth. Both design features are key to drawing the public into the library from the street perspective as well as the parking levels.
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SECTION CUT SCALE: 1/16”=1’
1. ENTRANCE LOBBY 2. CIRCULATION 3. REFERENCE 4. ADULT READING5. CHILDREN’S 6. TEEN 7. STAFF8. MECHANICAL ROOM 9. MEETING 10. RESTROOMS
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SECTION CUT SCALE: 1/16”=1’
1. ENTRANCE LOBBY 2. CIRCULATION 3. REFERENCE 4. ADULT READING5. CHILDREN’S 6. TEEN 7. STAFF8. MECHANICAL ROOM 9. MEETING 10. RESTROOMS
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ABSTRACT
With the overall aim of creating a K-5 elementary school, the classroom was viewed as a component element that could be populated with creative thought to erect an elementary school. The classroom was thought of as a home where students would feel comfortable and free while still being in a conductive learning environment. A child might not have that same luxury at home, but through design those luxuries could be provided within a school such as this. A school that was both meaningful and lasting.
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EXPLORING REPETITION + VARIATION
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PROGRAMMATIC RELATIONSHIPS
As the classroom became the focus in the first phase of the design, the relationships between break out areas within the classroom shaped the formality of the foundational building block of the classroom. The foundation of the classroom was then used to create the global population of classrooms within the school and was also used in forming the auditorium space as well as other common areas within the school.
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1. OUTDDOOR CLASSROOM2. WORK COUNTER & SINK3. TEACHER’S DESK & STORAGE 4. LECTURE/ LARGE-GROUP INSTRUCTION5. READING / STORY TIME 6. OPENS TO HALLWAY
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CLASSROOM SCALE PROGRAMMATIC RELATIONSHIPS
PROGRAMMATIC RELATIONSHIPS POPULATED SCHOOL
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1. OUTDDOOR CLASSROOM2. WORK COUNTER & SINK3. TEACHER’S DESK & STORAGE 4. LECTURE/ LARGE-GROUP INSTRUCTION5. READING / STORY TIME 6. OPENS TO HALLWAY
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OVERALL PLAN REFERENCE
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WHEAT INTORSION
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ABSTRACT
Simple fabrication techniques of creating contour cuts in the vertical direction create a torsional effect on the vertical members. Further structural analysis showed that the fabrication technique of such a vertical strip orientation rotating in torsion could create a more structural member.
For the full scale fabrication of the column, local materials such as wheat straw were used as a way to tie the project back to the community. Furthermore, “Welcome to the Palouse” was engraved in 75 different languages to tie it into the community.
Wheat Intorsion focuses heavily on finding rigidity of a singular component. The process started with paper modeled form finding. By thinking of rigidity as a folded piece of paper, its rigidity is weaker in the horizontal direction. However, when the piece of paper is stood on edge in the vertical direction, it then becomes rigid and strong.
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WLT CREATIVE
WSU CMEC
INLAND LIGHTING
MODERN MILLWORK
POMEROY FAIRGROUND
NVSD WOODWORKING
AIA SPOKANE
WELLER FELLOWSHIP
SPECIAL THANKS ALSO TO...
SPONSORS
Photography Credit
Wheat Board Fabrication
Lighting Fixture Donation
MDF Donation
Wheat Straw Donation
Donated Shop Time
Spokane Mall Exhibit
Donation of Research Funds
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Jay
Johnny
Kevin
Will
Dane
Gerardo
David
Nathan
Emily
Jannita
Irene
Nandita
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Ashley
Piya
Cody
Alex
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EXPLORING RIGIDITY
Looking at the rigidity of a folded piece of paper, its rigidity is weaker in the horizontal direction. However, when the piece of paper is stood on edge in the vertical direction, it then becomes rigid and strong. Moving forward the first prototype assembly of the component was finalized as it already had strong aspects of vertical rigidity that were increased by adding a 15 degree twist at its edges. With the components strength in the vertical direction, it was derived that a global population of the component would work best by orienting in the vertical direction forming a column type structure.
HORIZONTAL RIGIDITY INTO VERTICAL RIGIDITY
COMPONENT ASSEMBLY FORCES IN THE VERTICAL DIRECTION ARE MUCH
STRONGER THAN THE HORIZONTAL DIRECTION
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FABRICATION TECHNIQUES
By populating the component in the vertical direction, focus moved toward determining a fabrication technique. Through cutting contours through the model, it allows light to refract out from the structure as well as giving it a less dense structure. It was realized that cutting the contours in the vertical direction instead of the traditional horizontal fashion, would also increase the component’s unique element of the vertical rigidity while still accentuating its 15 degree twist.
APPLYING A HORIZONTAL CONTOUR CUT APPLYING A VERTICAL CONTOUR CUT APPLYING A VERTICAL CONTOUR CUT
COLUMN COMPONENT DIVISION
VERTICAL RAIL NO TORSION TWIST VERTICAL RAIL 15 DEGREE TORSION TWIST VERTICAL TORSION TWIST SUPPORTING LARGER ARE IN COMPRESSION
COLUMN GEOMETRY ABSTRACTING CONTOUR CURVATURE
ABSTRACTED COLUMN GEOMETRY
014
STRUCTURAL ANALYSIS
With the global population creating a column structure, there was an intent to then analyze the structural capabilities of the column. Although the range of testing was limited; it still managed to test both the digital model as well as full component scaled models. The end result of the analysis showed that the column structure with its 1/8” vertical members could have the capability of supporting more than a 4”x4” fir column. This demonstrated that the global population did have potential for further structural analysis and testing, but was not explored due to projected time restraints.
COLUMN GEOMETRY LESS STRONG
WITH NO TORSION FORCE
COMPONENT GAINS STRENGTH
WITH A TORSION FORCE
COLUMN GEOMETRY UNDER FREQUENCY
TEST FOR EARTHQUAKE FORCES
PLAN VIEW OF TORSION FORCE FORCE TEST OF GLOBAL POPULATION
LOADING COMPONENT
WITH GREATER FORCE
FINDING COMPONENT POINT OF FAILURE LOADING COMPONENT
WITH GREATER FORCE
LOADING COMPONENT
WITH GREATER FORCE
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As to further tie back to the community, the column was fabricated out of a local material of wheat straw. For this we were able to fabricate the material ourselves making a wheat fiber board. This process went from picking up the wheat straw bales to the final pressing of each board. Each vertical rail on the installation was also laser engraved in 75 different languages with the statement of “Welcome to the Palouse” to make further communal ties.
MATERIAL DEVELOPMENT
SPREADING WHEAT FIBERS IN PANEL FORM PRE - PRESSED WHEAT BOARD PANEL FINAL WHEAT BOARD PANEL
SEPARATING WHEAT STRAW BALES CHIPPING WHEAT STRAW IN HAMMER MILL FINAL WHEAT STRAW FIBERS APPLYING RESIN TO WHEAT FIBERS
Reaching the global assembly, there was some refinement to the fabrication of each component. To add strength to the vertical contour rails, the connection to a simple dado connection would CNC into the top and bottom chords of the component. This also eliminated the fabrication time and cost of a face connection using screws. These refinements resulted in our final global population shown in the rendering.
FINAL GLOBAL POPULATION
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Produced in plan view, the column exhibits a phyllotaxis condition which resembles a spiraling arrangement found in some leaves of certain plants. This characteristic obeys a number of subtle mathematical relationships that can inherently be seen in the column.
ENDING DISCOVERIES
(144,97,-0.00)
(136,452,0)
(97,404,304)
(72,343,609)
(73,209,1219)
(248,521,1219)
(187,498,1524)
(136,453,1828)
(94,404,2152)
(437,496,2152)
(378,521,2457)
(555,212,2457)
(529,152,2152)
(440,64,1524)
(313,26,914)
(377,34,1219)
(73,209,1219)
(95,153,1524)
(136,97,1828)
(186,59,2152)
(248,34,2457)
(76,348,2457)
(249,34,609)
(492,99,0)
(492,99,0)
(189,59,304)
04
(144,97,-0.00)
(136,452,0)
(97,404,304)
(72,343,609)
(73,209,1219)
(248,521,1219)
(187,498,1524)
(136,453,1828)
(94,404,2152)
(437,496,2152)
(378,521,2457)
(555,212,2457)
(529,152,2152)
(440,64,1524)
(313,26,914)
(377,34,1219)
(73,209,1219)
(95,153,1524)
(136,97,1828)
(186,59,2152)
(248,34,2457)
(76,348,2457)
(249,34,609)
(492,99,0)
(492,99,0)
(189,59,304)
AXONOMETRIC OF PHYLLOTAXIS CONDITIONPLAN VIEW OF PHYLLOTAXIS CONDITION
TRANSURBAN POROSITYEnriching the Interface Between Cultural
Enclaves and Rapid Urbanization
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ABSTRACT
This project focuses on group urban planning research and recent interest toward urban development. The world is seeing mass migration from rural environments to urban dwellings. By the year 2050, Schenzhen, China is expected to expand into being one of the largest cities in the world. It is therefore our desire to address such expansion issues in the city’s future development to sustain the rich urban fabric that currently exists.
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Ending aims addressed the density and discontinuity of residential neighborhoods while maintaining the organic cultural friction of existing villages and Urban Villages. It is our aim then to be able to salvage the existing culture, while still allowing the city to grow and prosper.
Considering the massive scale, a wide range of data was collected and assessed through intensive mapping. Once an understanding for the existing conditions was obtained, a system was determined to assess antiquate areas for new development.
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PROJECT ROLES
Leonardo Michelangelo Rhaphael John Doe Master Splinter Dontatello
Presentation
Rendering, OrganizationDiagrams, Text Diagrams Diagrams, TextDiagramsDiagrams
Leonardo Michelangelo RhaphaelJohn Doe Master Splinter Dontatello
Physical Model
Lighting + Circuitry Mesh Stringing Cut Files, Process PhotosModel Base, Laser Cut, Wire prepWire prep, Mesh StringingQuality Control
Leonardo Michelangelo RhaphaelJohn Doe Master Splinter Dontatello
Documentation
Diagrams Draft Editing, Diagrams Draft Compilation, Diagrams Final Editing, Diagrams Printing, Binding, DiagramsDiagrams
020
INDEXING + MESHING
Focusing first on the existing conditions of the Guangming District, there was first an intensive series of mapping to allow a system to determine the most antiquate areas for new development.
From the dozens of mapping layers found, it was the idea that a total of five mapping layers when placed together in an index would allow prime spaces for new development. From the open spaces mapping a filtration of those open spaces with proximity to public transportation routes, pollution zones, flood zones, and slopes greater than 15 percent grade.
Any open spaces that overlapped those filtration layers were then removed and left with the zones most adequate for future development.
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URBAN VIL-
NON-RESIDEN-
LIVE-
HU-
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EXISTING TYPOLOGIES INDIVIDUAL BUILDINGS
From existing migration patterns into Guangming, there are two distinctive living conditions within the urban tissue. Pinned between the roots of old traditions and the encroachment of new urban development there is the rich cultural enclaves of the Hu-Tong’s mixed use environment, as well as the urban villages of tightly clustered micro story residency towers. The two conditions are distinctively disconnected within the urban fabric, and it is the aim of the prototype to better that condition.
To grasp this living conditions of the urban spaces, a catalog of the building types currently existing in the Guangming district was developed.
Knowing the typologies of buildings within urban villages and Hu-Tongs, they were then populated into mapped blocks of urban villages and Hu-Tongs for future assessment.
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ASSESSING DENSITY EXISTING CONDITIONS: EDI
With density being a large issue within the urban tissue of Guangming, assessing the density of our cellular developable spaces was necessary. The first step was to quantitatively analyze the ratio of density by expansion (the total zone area), densification (building footprint area), and intensification (building height). With this ratio of EDI, we were able to determine the most densely populated region. This zone became our focus area as the most densely populated zone would be the zone needing the most help with future expansion and development.
From populating out the block pattern zones of urban villages, developable open space, and Hu-Tongs an identity was made of a distinct edge condition between the urban villages and Hu-Tongs. Maintaining the aim of assessing the density, this became the new focus area for Implementing a prototype.
EDI | 1.534EDI | 1.548
EDI | 2.115
EDI | 0.882
EDI | 1.836
EDI | 1.680
EDI | 2.378
EDI | 0.803
EDGE CONDITION NEW FOCUS AREA
EDI RATIO REFINING FOCUS AREA
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EDGE CONDITION FLOW PATTERN OH - UV CLOSEST U.V. PrototyPe Boundary PrototyPe FootPrint
Flow of O.H. to U.V. Flow of U.V. to O.H. Built Land Forms From Flows
Rotate Building For Solar Gain
Final Prototype Footprint
PROTOTYPESFOCUS AREA BOUNDARIES
After an assessment of existing flows to the edge condition, it was established where in the urban villages issues would arise in future expansion.
Step one then became to eliminate the closest urban villages to the edge condition to decrease density and make room for implementation.
Next, a boundary with a 1:4 ratio of the old urban village building footprints to determine prototype adjacencies and building footprint. The footprint would be the same size as the existing urban village footprint so as to not increase expansion as density decreased.
From taking the flow paths between the urban villages to Hu-Tongs in between new building footprints; a built land form was created showing opportunity to house an array of communal programs. Finally a rotation of the footprint to maximize solar gain was designed.
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EXISTING FOOTPRINT
GREEN SPACE FOOTPRINT
STACKING FOOTPRINT
ROTATE FOR SOLAR GAIN
STEEL EXOSKELETON
FINAL PROTOTYPE
PROTOTYPE DEVELOPMENT
After developing the mediation scheme at the neighborhood level, the focus then shifted to development of the buildings and its programs. Keeping constant with the initial aim, the focus was to improve and maintain the organic cultural friction existing in the Hu-Tongs and urban villages.
From the existing footprint, the first step was dividing the footprint (half being residence, half green space) , back into the Hu-Tongs traditional open farming roots. Each floor would then house two dwellings, as well as having two open garden spaces.
The footprint was then populated out into several floors, and rotated for solar gain of the open spaces. For structural support, an exoskeleton steel frame was then placed with a staircase structure to produce the final prototype.
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FINAL PROTOTYPE INTEGRATED SPACES
A final rendering demonstrating the potential integration the prototype could provide.
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B R I D G I N G A D I V I D E D P O P U L A C E IDEX _ MASS TIMBERABSTRACT
As an Integrated Design Experience -IDEX- studio, students from both architecture and civil engineering worked in teams to create design and engineering solutions.
06With increased interest and code adoption of CLT panels in the 2015 International Building Code, mass timber manufacturing and construction represents an opportunity to develop new timber product supply chains from forests to urban building sites. Washington State, with its growing economy and its plentiful natural resources, is positioned to become a leader in the development of mass timber market in the United States.
With this growing interest in the field of mass timber, the studio constructed itself around the constraint of the vertical abilities of mass timber. With engineer and architecture teams, structural and aesthetic capabilities of creating a parametric 12 story mass timber structure were pursued.
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SITE ANALYSIS DIVIDED COMMUNICATES
Given a site of an empty lot adjacent to the Jensen Byrd building on the edge of WSU Spokane’s campus there was an apparent disconnect between the existing WSU campus environment and the thriving downtown Spokane environment.
The concept derived was to bridge these two environments. To create the bridge the location was planned to be developed with the intention of fostering further growth within the established bond of urban life within communities creating a cultural conflux.
GIVEN SITE
JENSEN BYRD
DOWNTOWN SPOKANE
WSU SPOKANE
DIVISION IN COMMUNITY
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FLOW ANALYSIS DERIVING BUILDING FOOTPRINTS
To understand how people move through the site, a flow analysis was generated through the existing street network. However, the humans natural habit is to take shortcuts, so the site was divided into a grid to analyze how people would move through the site. This process generated a new flow analysis that derived rough building footprints that could then be translated into a phasing diagram for future development. Due to the restraints of time within the studio, phase one of the site was the only phase developed.
GIVEN SITE
GIVEN FLOW
GRIDDED SITE
FLOWS THROUGH SITE
BUILDING FOOTPRINTSPHASE I
PHASE II
PHASE III
PHASE IV
PHASE 1
PHASE 2
PHASE 3
PHASE 4
BUILDING FOOTPRINTS + PHASING PLAN
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CIRCULATION POSSIBLE ENTRY POINTS
To further expand the thought of how one moves through the site, a further analysis of flow was used at the ground floor level. This analysis derived possible points of entrance into the structure. Entry points were then used to establish a range of connectivity resulting in possible vertical circulation core locations. The final process regimented these results to balance programmatic efficiency throughout the space.
PROJECT SITE CENTROID
ENTRANCE FLOWS
ENTRY POINTS
CIRCULATION MESH
VERTICAL CIRCULATION POINTS
POSSIBLE GROUND FLOOR CIRCULATION
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VERTICAL CIRCULATION WALKING UP TWELVE STORIES
When considering the interior condition, the vertical circulation or “core” acts as the leading flow. This creates a branching network between floors as well as programmatic spaces. Just as walking at the street level is an experience, the process of walking up a stair case has a similar effect. The first step in establishing this “experiential stair” was to gain an understanding of which stair typologies make sense in relationship to their adjacent programs. Walking up twelve stories can become tiresome, so an understanding that the half landing could be a zone of refuge or “experience”. The half landings could then be expanded to house program or create observation points as one travels vertically.
STAIR TYPOLOGIES + CIRCULATION 01
STAIR LANDINGS | POINTS OF REFUGE02
EXPANDED LANDINGS FOR OBSERVATION03
EXTERIOR HANDICAP RAMP 04
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GLOBAL CIRCULATIONVERTICAL + HORIZONTAL
Balancing programmatic efficiency and the experience of vertical circulation, only one staircase was established using the stair typologies generated. This stair was placed on the northern face of the building edge allowing it to expand and grow outside of the building mass. Key points of refuge where also established to allow travelers a breath as they traveled up the twelve stories. The final step incorporated main arterial horizontal paths by floor connecting the experiential stair to other points of egress.
BUILDING CIRCULATION
FLOOR 12 OBSERVATION STAIRCASE
FLOOR 6 OBSERVATION STAIRCASE
FLOOR 3 OBSERVATION STAIRCASE
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CIRCULATION POSSIBLE ENTRY POINTS
The final steps included placing a massing volume around the circulation which gave programmatic spaces a restraint to populate to. A matrix of several programs were documented and placed throughout the building’s designated floors. Parametric analysis was used to establish the most efficient population of the programs with in the mass and around the core circulation paths.
MACRO MASSING PACKED MASSING
RESIDENTIAL
ASSEMBLY
MERCANTILE
BUSINESS
PROGRAM VOLUMES
033
Austin MilesArchitecture
IDX MASS TIMBERFINAL PROTOTYPE INTEGRATED SPACES
A final rendering demonstrating the potential integration the prototype could provide.
039%
015%
046%EXPERIENCE
EXPERIENCE
YAKIMA
SEATTLE
035
I N T E R N S H I P S S U M M E R
2 0 1 4
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Loofburrow Wetch Architects of Yakima is a fifth generation firm with a solid reputation in school district clientele since the early 1980’s. Loof-burrow Wetch has planned and designed over 750 school projects since 1984 including new construction, replacements, modernizations, reno-vations, refurbishments, additions, and studies of school buildings. Lo-cated out of Yakima, WA; the practice is targeted on working with clients in central Washingtion and eastern Oregon.
Adjunct to Loofburrow Wetch Architects is Kearby Wetch Construction (KWC). Launched in 2014, KWC provides a wide range of construction management services from design build projects with Loofburrow Wetch Architects, construction management consulting, as well as be-ing an overall project contractor company. KWC specializes in the man-agement and oversight of construction projects, ensuring to carry out all functions and processes for creation of a commercial structure.
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The Miller Hull Partnership’s in Seattle design reputation is based on simple, innovative and authentic designs. Since its inception in 1977 the firm has pursued a rigorous logic in its design approach in the belief that architectural programs are best solved directly and efficiently. Through-out the firm’s history Miller Hull has received over 200 design awards and has been published in numerous national and foreign design jour-nals.
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2 0 15
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1033HOURS
MARKETING DESIGN HOURS
313++ + ++ +
EAST VALLEY HIGH SCHOOL MODERNIZATION + ADDITIONS GRANGER HIGH SCHOOL DISTRICT EXPANSIONS NEW YMCA WEST VALLEY TOPPENISH SCHOOL DISTRICT EXPANSIONS VALLEY VIEW ELEMENTARY CLASSROOM EXPANSION CENTRAL WASHINGTON FAMILY MEDICINE MEDICAL CLINIC
157HOURS
MISCELLANEOUS
CONSTRUCTION DOCUMENTS HOURS
93++ + ++
DISTRICT OFFICE SECURITY UPGRADES MOXEE ELEMENTARY SECURITY UPGRADESEAST VALLEY CENTRAL SECURITY UPGRADES EAST VALLEY ELEMENTARY SECURITY UPGRADES
+ VALE ELEMENTARY SCHOOL INFILL EAST VALLEY ELEMENTARY ALTERNATE BID
470HOURS
CONSTRUCTION ADMINISTRATION + BOTHELL CITY HALL
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MARKETING DESIGN WORK ENTAILED MOSTLY SCHOOL DISTRICT AND SMALL COMMERCIAL DESIGN RENDERINGS AND PROGRAMMATIC FLOOR PLANS. THIS WORK WAS CREATED TO SHOW CLIENTELE VISUAL GRAPHICS OF PLANS FOR EXPANSION, MODERNIZATION, AND NEW CONSTRUCTION THOUGHTS AND IDEAS. THIS ALSO ENTAILED IMPUTING EXISTING PLANS DIGITALLY FOR EXPANSION AND MODERNIZATION WORK.
030%
T O T A L
MISCELLANEOUS WORK INCLUDED ON SITE STUDY AND SURVEY MEASUREMENT WORK. COST ESTIMATING WAS PERFORMED FOR SOME OF THE PROMOTIONAL DESIGN WORK. ALSO ADJUNCT TO LOOFBURROW WETCH ARCHITECTS IS KEARBY WETCH CONSTRUCTION, WHICH HELPING ON BID DAYS WAS EXPERIENCED, AS WELL AS SMALL DEMO CONSTRUCTION WORK ON.
015%
I NTERNS HI P EXPERIENCE
100%
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CONSTRUCTION DOCUMENT WORK EXPERIENCE. DRAWING REVISIONS AND CHECKS (I.E. RED LINES) WERE PERFORMED BY GARY WETCH, A PARTNER OF THE FIRM. THIS IS REAL WORK EXPERIENCE, THAT DID GO OUT TO BID FOR CONSTRUCTION.
009%
WORKING CLOSELY WITH THE PROJECT LEAD ARCHITECT RECEIVING AND RESPONDING TO DAILY RFI’S AND SUBMITTALS. THIS INCLUDED MAKING ASK’S DRAWINGS WITHIN THE EXISTING REVIT MODEL, COORDINATION WITH CONTRACTORS AND MANUFACTURES, AS WELL AS WEEKLY SITE VISITS WITH THE OWNER (VULCAN DEVELOPMENT), TENANT (CITY OF BOTHELL) AND CONTRACTOR (GLY CONSTRUCTION).
046%
038
OPTION 003
OPTION 001
WEIGHTS
CA
RDIO
ABO
VE
LOBBY / LOUNGE
CHILD WATCH
GROUP EXERCISE
GYMNASIUM
WOMENSLOCKER
MEN’SLOCKER
FAMILY LOCKER
CHECK-IN
AD
MIN
AD
MIN
MUL
TIPUR
POSE
MUL
TIPUR
POSE MECH/
STORAGE
AQUATICS
PROGRAMMATIC SPACES CIRCULATION
PROPOSED SIX ACRE LOT
OPTION 002
ROUGH SQUARE FOOTAGE | 36,680 SF
PROPOSED NEW WEST VALLEY MCA
MARKETING SATELLITE YMCA
OPTION 003
OPTION 001
WEIGHTS
CA
RDIO
ABO
VE
LOBBY / LOUNGE
CHILD WATCH
GROUP EXERCISE
GYMNASIUM
WOMENSLOCKER
MEN’SLOCKER
FAMILY LOCKER
CHECK-IN
AD
MIN
AD
MIN
MUL
TIPUR
POSE
MUL
TIPUR
POSE MECH/
STORAGE
AQUATICS
PROGRAMMATIC SPACES CIRCULATION
PROPOSED SIX ACRE LOT
OPTION 002
ROUGH SQUARE FOOTAGE | 36,680 SF
PROPOSED NEW WEST VALLEY MCA
OPTION 003
OPTION 001
WEIGHTS
CA
RDIO
ABO
VE
LOBBY / LOUNGE
CHILD WATCH
GROUP EXERCISE
GYMNASIUM
WOMENSLOCKER
MEN’SLOCKER
FAMILY LOCKER
CHECK-IN
AD
MIN
AD
MIN
MUL
TIPUR
POSE
MUL
TIPUR
POSE MECH/
STORAGE
AQUATICS
PROGRAMMATIC SPACES CIRCULATION
PROPOSED SIX ACRE LOT
OPTION 002
ROUGH SQUARE FOOTAGE | 36,680 SF
PROPOSED NEW WEST VALLEY MCA
This portrays a fast paced three day marketing design scheme of a new YMCA facility. The design encompasses a new aquatics center with a full sized Olympic pool, weight room with a mezzanine for cardio, gymnasium, and jogging track that is open to above. The design’s open plan focuses on joining as many programmatic spaces as possible as an attempt to bring togetherness throughout the facilities as well as various activities.
However a large portion of the three day task was creating three optional facade rendering for the client to raise awareness for the possible future project.
039
OPTION 003
OPTION 001
WEIGHTS
CA
RDIO
ABO
VE
LOBBY / LOUNGE
CHILD WATCH
GROUP EXERCISE
GYMNASIUM
WOMENSLOCKER
MEN’SLOCKER
FAMILY LOCKER
CHECK-IN
AD
MIN
AD
MIN
MUL
TIPUR
POSE
MUL
TIPUR
POSE MECH/
STORAGE
AQUATICS
PROGRAMMATIC SPACES CIRCULATION
PROPOSED SIX ACRE LOT
OPTION 002
ROUGH SQUARE FOOTAGE | 36,680 SF
PROPOSED NEW WEST VALLEY MCA
OPTION 003
OPTION 001
WEIGHTS
CA
RDIO
ABO
VE
LOBBY / LOUNGE
CHILD WATCH
GROUP EXERCISE
GYMNASIUM
WOMENSLOCKER
MEN’SLOCKER
FAMILY LOCKER
CHECK-IN
AD
MIN
AD
MIN
MUL
TIPUR
POSE
MUL
TIPUR
POSE MECH/
STORAGE
AQUATICS
PROGRAMMATIC SPACES CIRCULATION
PROPOSED SIX ACRE LOT
OPTION 002
ROUGH SQUARE FOOTAGE | 36,680 SF
PROPOSED NEW WEST VALLEY MCA
E. V. INTERMEDIATE ALTERNATE BID
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
EXISTING WATER DAMAGE
While creating construction documents there were a few instances where I received full responsibility for an aspect of the design. This often would occur with alternate drawing sets such as the following.
Given full responsibility for an alternate proposal to repair East Valley’s intermediate schools existing water damage of the exterior canopy structure. However, a large aspect was also to design a solution to prevent future water damage of the canopy structure.
The water damage prevention solution created construction documents, inclining that sistering in framing members to the existing truss system. This solution extend the roofs slope allowing water to run of a drip edge and not down the face of the CMU block.
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
07
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
DOOR/WINDOW
A10.2
SCHEDULE &DETAILS
EAST VALLEY SD No. 90
Added frAming solution
Added frAming solution Existing canopy
040
POLSON BUILDING 71 COLUMBIA - SIXTH FLOOR SEATTLE, WA 98104The Miller|Hull Partnership, LLP
BOTHELL CITY HALLBOTHELL, WA 98011
CONFORMED SETISSUED FOR CONVENIENCE ONLY-DOES
NOT REPLACE CONSTRUCTIONCHANGES/RFIs
JANUARY 16, 2015
SHELL & CORE
CONSTRUCTION ADMINISTRATION
This work encompassed close interaction with the project lead architect on the Bothell City Hall Project during the construction administration phase. Daily tasks included receiving and responding to RFI’s and Submittals. This included making ASK drawings within the existing revit model, creating ASI’s, logging field reports, creating meeting minutes, coordinating with contractors and manufactures, as well as weekly site visits with the owner (Vulcan Development), the tenant (City of Bothell), and the contractor (GLY Construction) on a daily basis.
LEVEL 169' - 0"
11' - 0" 10' - 6"ALIGN
OPENAREA
141
TOP OF DOOR 141
DOOR 132 BEYOND
TRANSOM
HARD CEILING PER RCP.
ACP-TO- WALL CONDITIONPER DETAIL 15/a-521
WD FRAME
Polson Building71 Columbia, Sixth Floor
Seattle, WA 98104Phone 206.682.6837Fax 206.682.5692
The Miller Hull Partnership, LLPArchitecture and Planning Title:
Project:Date:Notes:
Scale:
Drawing Reference:
As indicated
ASK- 133
BOTHELL CITY HALL06/23/15
CLG HT @ N. VEST AND OPEN AREA 141
RFI 216A-521 / CEILING DETAILS
10'-6
3/8" Ply, Ptd. Black (Sim todetail per RFI 163)
DOOR 141: RELITE LEGDOOR 141: JAMB, HINGE SIDE
4"
DOOR 141: AT HEAD
GLY Produced
Acceptable. MHP7/1/15
Acceptable. MHP7/1/15
Acceptable. MHP7/1/15
10'-6
3/8" Ply, Ptd. Black (Sim todetail per RFI 163)
DOOR 141: RELITE LEGDOOR 141: JAMB, HINGE SIDE
4"
DOOR 141: AT HEAD
GLY Produced
Acceptable. MHP7/1/15
Acceptable. MHP7/1/15
Acceptable. MHP7/1/15
10'-6
3/8" Ply, Ptd. Black (Sim todetail per RFI 163)
DOOR 141: RELITE LEGDOOR 141: JAMB, HINGE SIDE
4"
DOOR 141: AT HEAD
GLY Produced
Acceptable. MHP7/1/15
Acceptable. MHP7/1/15
Acceptable. MHP7/1/15
RFI ASK RESPONSE EXAMPLE
HAND SKETCH RFI RESPONSE EXAMPLE HAND SKETCH RFI RESPONSE EXAMPLE HAND SKETCH RFI RESPONSE EXAMPLE
041
POLSON BUILDING 71 COLUMBIA - SIXTH FLOOR SEATTLE, WA 98104The Miller|Hull Partnership, LLP
BOTHELL CITY HALLBOTHELL, WA 98011
CONFORMED SETISSUED FOR CONVENIENCE ONLY-DOES
NOT REPLACE CONSTRUCTIONCHANGES/RFIs
JANUARY 16, 2015
SHELL & CORE
07
042
RECOMMENDATIONL E T T E R S O F
“ITS NOT ALWAYS WHAT YOU KNOW, BUT WHO YOU KNOW”08
043
H I L L ET H O M A S
08
Architect, educator and researcher based in Seattle, Washington. Hille has a special interest in environments for learning. As a practicing architect Hille has designed a number of award-winning schools, libraries and related educational projects. As an educator, Hille has taught at MIT, the University of Michigan, the Royal Danish Academy of Fine Arts, and the Catholic University of Chile. HIlle has recently published Modern Schools: A Century of Design for Education with John Wiley & Sons, and is currently working on a study and survey of contemporary American library design.
044
September 9, 2014
To Whom It May Concern,
I'm writing on behalf of Austin Miles who was a student in my architecture studio and seminar last year, 2014, at Washington State University. My position at WSU was for a research fellowship in the architecture program for a one year appointment.
During this time I held a yearlong seminar focused on a research of material systems of which Austin took part in from the beginning. At the end of the year, his project, among two others, was selected to be constructed and tested for the seminars research. He led his team efficiently and at a professional level. If it were not for his contacts in the architecture field, and his initiative to get the design built, the project would have proved to be too much to execute on an undergraduate. I would recommend him to any institution that he is interested in as he will prove an incredible designer and colleague to any team.
Austin also took part in my spring studio which focused on urban conditions of rapid urbanization. This course pushed the agenda of the architecture program and was run more as a micro-graduate studio once the students proved to keep up the pace of the tools. Austin led the class and his team by example in showing what effective and well-designed systems could be, as well as providing help for the definitions we were using in Rhino (a 3D modeling software). The studio was complex enough on its own but during this time he was also constructing the final design of his column project for the seminar, so he had to manage two courses. He excelled at this, remained organized, and could re-adjust to fit complications along the way.
To conclude, beyond Austin’s abilities as a designer, his personality and self-invitation clearly make him a leader and wonderful person to work with as a student and team member. He is incredibly talented and will make an indispensable member of any project.
Sincerely,
Mary Polites [email protected]
POLITESM A R Y
Mary Polites, part of the Weller fellowship, taught a year of design studios and seminars related to digital fabrication, logic of materials and the geometries of complex systems. Polites completed her postgraduate Master of Architecture at the Architectural Association in London in emergent technologies and design program. Polites’ focus and interests are on emergent cities and urbanism in developing populations. For five years she has worked in New York and Philadelphia on a range of projects and at a variety of firms which include Foster + Partners NY and Venturi Scott Brown and Associates.
045
WETCHG A R Y
Gary Wetch is a licensed ar-chitect in Washington and Oregon. He is Responsible for and involved in educa-tional specifications, archi-tectural design, construction / material specifications, project administration, and overall quality control. Wetch has designed and managed over 300 educa-tional projects in the past 24 years.
To Whom It May Concern:
On behalf of Loofburrow Wetch Architects we would like to provide a letter of recommendation.
Austin Miles worked at Loofburrow Wetch Architects for only one summer as an Intern Architect. We were so impressed with his abilities, efforts, dedication, and exceptional work. We expanded his talents to include promotional items, as well as production drawings for a few of our summer projects. As Austin’s mentor, calling Austin an Intern Architect does not provide an accurate description of the responsibilities entrusted to him over the summer. Intern Architect is the description required by Architectural licensing language but misrepresents the tasks that Austin was able to assist with based on his knowledge of programs, teamwork, and creative abilities. Austin displayed Project-Architect /Project-Manager abilities; working in conjunction with the Principal-In-Charge. Austin Personally assisted in projects for Pre-Bond Assistance, Study & Surveys, Marketing, and Construction Documents. These tasks require attention to detail, critical to an employer and the clients in which we serve. We were able to rely on Austin’s timely and efficient responses to deadlines as well as his accurate work product. Loofburrow Wetch Architects has been very fortunate to have the opportunity to work with a professional who understands the priorities of our owners and the community I which we serve.
We cannot express enough how much we appreciated Austin’s commitment and dedication to projects in which he assisted. Making it even more impressive was that several of these projects were accomplished while staying within a very tight budget and constricted timeline.
Our staff enjoyed working with Austin not only because we could rely on his work product, but because of his good humor and willingness to communicate regarding any issue that would affect our professional services. Austin learned several of the aspects of running projects and the importance of budgeting and managing expectations over the summer months. Austin is well-positioned to become a productive architect and potential future shareholder wherever he elects to pursue has architectural interests upon graduation.
We miss Austin even though we only knew him for a short duration. We would hire Austin upon graduation should we receive the opportunity. We can provide additional documentation on projects Austin worked on and shall always be a source of personal reference and/or recommendation.
08
2657 Mapleway Rd Yakima WA, 98908
[email protected](509) 833-7765
A U S T I N D . M I L E S
T h a n k Y o u
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