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Joe Miletta : Design Portfolio : BSAS (2011) University of Wisconsin-Milwaukee | School of Architecture & Urban Planning
Joe Miletta : BSAS : University of Wisconsin-Milwaukee E: [email protected] | P: 1(262)914-3530 | A: 3445 N Oakland Ave. #202 Milwaukee, Wi 53211
EducationUniversity of Wisconsin-MilwaukeeSchool of Architecture and Urban Planning (2007-2011), BSAS (2011) • Dean’sListforAcademicAchievement(2007-2011) • SophomoreHonors(2009) • GoldenKeyInternationalHonorSociety(2009-Present) • PhiKappaPhiHonorSociety(2010-Present) • CommencementHonors-Honorsinmajor(2011) • Dean’sHonors-Awardedtotoptwostudentsingraduatingclass(2011) ExperienceIntern/VolunteerSweetwater Organics - Milwaukee Wi (Sept 2011 - present) • Digitaldocumentation(drawingsand3dmodel)ofexistingminiatureaquaponicssystems • Design/Fabricationofnewminiatureaquaponicssystems • Helpingoutwithdailytasksonsite
Design Team MemberLisbon Green Foodvillage Development - Milwaukee Wi (Nov. 2011) • Initialplanning/designformationforLisbonGreenFoodvillage • Digitalmodelingandpreliminarysketches/ideas
Design Awards • Honorable Mention: “Kaukauna,WiRedevelopment” (Spring2011) UniversityofWisconsinMilwaukeSARUPStudentDesignAwardsSkillsHighly Skilled with: • GoogleSketchup,AdobePhotoshop,InDesign,Illustrator,Dreamweaver,AutoCAD,MicrosoftOffice, Oil/Acrylicpainting,Sketching/Drawing
Familiar with: • Revit,Rhino/Rhino-cam,Microstation,EcotectAnalysis,(x)html&css
Knowledgeable in: • Sustainabledesigntechniques,historicpreservation/adaptivereuse,newurbanism,transit-orienteddesign, physicalmodelbuilding,graphicdesign
2007
2011
2009
2008
2010
RePurposeFocusSurge
Symbiosis
LinkReVitalizationAmplitudeErosion
[UWM Dormitories]
[WaveInstallation]
[Multi-Building Environments]
[ElevatedGreenway]
[CommunitySwimmingPool]
[SurfaceManipulation]
[HandArtwork]
[SkateboardsasCanvas]
Erosion : UWM Dormitories : Milwaukee, Wi Studio:410|Fall2009|Prof:CordellSteinmetz
E-W section looking South through interior garden
studygreen-spaceresidencestorage
Dormitories are places of activity and social interaction, and in this project the action is focused towards an interior courtyard. The path through the courtyard steps down the further you venture in, creating smaller gath-ering areas, terminating at a sunken study room. The southwest elevation was also eroded away to provide additional private outdoor gathering space for each floor as well as allow additional sunlight to the interior of the building.
5th
Appoach to dorms
Entry underpass
Interior garden
Ground 2nd 3rd 4th
N-S section looking West through interior garden
Amplitude : Installation : Milwaukee, Wi. Studio:320|Spring2008|Prof:MarkRoehrle
Team:AarronVierck AlexHarm Ben Mather BrianHagstrom Mary Biwer NateLochner Paul Stiedl
Located along Lake Michigan, Amplitude was designed to engage the water and creates a unique experience by taking a common phe-nomenon (waves) and redefines its output. As waves hit the buoy located at the surface of the water, the arm apparatus begins to “flap” like the wings of a bird. The range of motion varies depending on the strength of the waves hitting the buoy.
ReVitalization: Multi-Building Environments : Kaukauna,Wi Studio:Eco-Patterns|Fall2010|Prof:ChristineScott-Thompson
Team:BrianHagstrom
151,100ft2 greenroof
Kaukauna is one of 135 Energy Initiative Communities in Wisconsin. These communities pledged to have 25% of their energy produced by renewable resources by 2025. Problems in achieving this goal will arise if Kaukauna simply develops according to zoning, so strategies must be implemented in order to guide the planning process to a better future.
52% Permiable = 94.5 acres (4,116,420 sq ft.)48% Impermiable = 87.3 acres (3,802,788 sq ft.)N
Sq ft of parking: 940,500sq ft (21.6 acres)2,687 spots (213% increase)
Roads
Sidewalks
N
73% Permiable27% Impermiable
1014
42
10
26
26
26
5
10 15
5 6
6
6
6
6
64
4
4
4
5
7
7
5
4
10
6
64
66
6
77
8 8 10
14 12
15
6
6
12
14 14
16
40
13
23
58
100
115
4
4
213,500 sq. ft. surface parking 610 spaces 147,000 sq ft. is on-street parking (420 spaces)21,000 sq ft. underground parking 60 spaces
270,000 sq ft of parking required 15% reduction from utilization of transit 235,000sq ft. parking needed after transit
60
14
22
11
35
33
24
9
930
32
Bus stop every 10-15 min
dimension bike path in section
65% Permiable (with water) = 118.2 acres (5,148,792 sq. ft.)35% Impermiable = 63.6 acres (2,770,416 sq. ft.
N
(10.1 acres) 440,700 sq ft. of parking1,259 spots
N
255 Existing Units [1600sf avg] + 208 Units above CCD [Phase I] (added unaccounted RTF housing) + 152 Units RTF added downtown [Phase II] Total Units: Phase I: 463 units 2.9 DU/Acre [1204 people] Phase II: 615 units 3.8 DU/Acre [1600 people]
Institutional: 42000 gsfCommercial: 320000gsfResidential: 984000gsf 71% RSF 19% RTF 10% RMF (34% added as mixed use)
Existing
Max-Build
Optimized
Roads
Sidewalks
N
Impermiable sfc. Parking Transportation Figure-Ground
OptimizedMax-Build: by zoning Max-Build: realisticExisting
TOP: Existing conditions BOTTOM: future master plan
Structural Support
Roofing membraneMembrane protection and root barrierInsulationDrainage, Aeration, Water Storage, and Root barrier
Vegetation
Topsoil
Flashing
Total grade change: 90’Site area: 3000 sq. ft. x 2640 sq. ft. = 7,920,000 sq ft. = 181.8 acres131,114,730 gal/year falls on site49 acres = water (20%)
N
6 in.
4 in.
2 in.
5 in.
3 in.
1 in.1.19 1.04
2.05
2.843.10
3.563.31
3.90
3.23
2.29 2.27
1.38
Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep. Nov.Oct. Dec.
Kaukauna Average Annual Rainfall
Type Runo� Permiability Native Plants Species Acres in Area Percent of Area
Bellevue silt loam (Bc) low to medium moderate mixed deciduous North Red Oak, Sugar Maple 4.1 1.7%
Briggsville silt loam (BtB) low to high moderately low mixed hardwood forest White Ash, Red Maple, Yellow Birch 31.3 13.3%
Kewaunee soils (KkE3) low to very high slow to moderate deciduous forest American Basswood, North Red Oak, 29.7 12.1%
Udorthents (Uo) low to very high slow to moderate grass grass, gardens, landscaping, prairie land 97.0 40.7%
Winneconne silty clay loam (WnC2) neglible to very high very slow deciduous forest Sugar Maple, Red Maple, Silver Maple, 30.0 12.3% (depends on depth) North Red Oak, White Ash
Water (W) 48.5 19.9%
(depends on depth) Sugar Maple
Bc
BtB
KkE3
WnC2
Uo
Uo
KkE3Uo
KkE3
BtB
Best
Worst
Permiability
Bc
BtB
KkE3
Uo
WnC2
Drainpipe
Kaukauna, Wirainfall: 30.16 inches/year
4,575 2,819
gallons used/month
+potential collectable
gallons/month
1,756
REDUCED gallons used/month
=
Total grade change: 90’Site area: 3000 sq. ft. x 2640 sq. ft. = 7,920,000 sq ft. = 181.8 acres49 acres = water (20%)
N
700 ft.
740 ft.
650 ft.
Topsoil
Sand
Absorbant Material
VegetationTopsoilDrainage, aeration,water storage, & root barrierInsulationMembrane protection & root barrierRoofing membraneStrutural support
Section through water run-off system Section through water retention courtyard
Mulden-Rigolen system Green-roof detail
Area soil type Area topography Water run-off system Water retention system
Residential
Residential
ResidentialResidential
Residential
Commercial Commercial
Residential
Commercial
Residential
Commercial
Water management was a key focus in Kaukauna’s revitalization. Mul-den-Rigolen drainage systems and green roofs were implemented to help control water run-off and prevent further contamination of the Fox River.
Riparian Bu�erFox River
Active Solar: row houses
Bio-SwaleIn�ltration
Bio-SwaleIn�ltration
Water to Swale: NO green roof
Path
Active Solar (PV’s)
Summer sun angle 69.5˚
Core thermal
mass
Passive solarWinter sun angle 23˚
Ventilation and heat recovery
Active Solar (PV’s)
Summer sun angle 69.5˚
Ventilation and heat recovery
ventilationventilation
Core thermal
mass
Broad Southern Facade Parallel to Street Structure
Broad Southern Facade Perpendicular to Street Structure (Possible Blockage)
(Ideal Situation)
N
S
EW
10°
20°
30°
40°
50°
60°
70°
80°
N
S
EW
10°
20°
30°
40°
50°
60°
70°
80°
N
S
EW
10°
20°
30°
40°
50°
60°
70°
80°
44 N Lattitude
Although this block is not oriented in the optimal direction for solar collection, the upper units are shifted away from the street grid in order to achieve the proper angle. These upper units while being small, pro-vide a unique living space with added energy efficient beneffits. (Energy produced is 165.6% of demand)
440 N
Upper Unit
Lower UnitAerial perspective of solar-block looking North N
Area zoning Masterplan Phase I Existing building re-use Masterplan Phase II
Link : ElevatedGreenway : Boston, Mass. Studio:Competition|Spring2011|Prof:MatthewJarosz
Team:BrianGriebl BrianHagstrom DannyConroy
By altering existing infrastructure, a bulky highway system was transformed into an elevated greenway acting as a central spine linking together a once disjointed community. This greenway helps promote further development and growth within the area. To accommodate this growing community, two existing struc-tures were re-fitted with pod-units allowing them to adapt to accommodate multiple program requirements.
Highway connectivity
Primary structure
Roof/floor truss
Phase I Phase II
Section through pod-building Farmers market beneath highway
Living container
Complete pod-unit
N-S Section-perspective looking East
Symbiosis: CommunityPool:Milwaukee, Wi Studio:420|Spring2010|Prof:ChristineScott-Thompson
A community swimming pool must facilitate both swimmers and on-lookers. These two different users require vastly different accommoda-tions, yet both are there for the enjoyment of the same activity. This situ-ation doesn’t apply only to the buildings patrons, but also to the building itself. Elements for both the dry and wet user must be separated yet work together to create an enjoyable experience for everyone.
Jun
Dec
Wet
Dry
E-W Section through circulation spine N-S Section-diagram looking West
solar water-heater
air-supply
air-return
Park pl
Dow
ner A
ve
N
N
Public
Semi-Public
Service
Pool
Circulation
Program
bearing wall
frame
N
Lower Level
Ground Level
Sundeck
structure & mechanical systems
Surge : WallPanelProtoype:SurfaceModification FabricationMethodologies|Fall2011|Prof:GilSnyder/FrankieFlood
arched pattern of holes placed on panel at 45 degree rotation to original 2”x2” grid
16”x16” panel broken up into 2”x2” grid
16”
16”
2”
2”
1.25” bump placed in the centeer of each grid section
Some bumps removed along “wave” arch to simulate movement across the wall’s surface
Final panel layout with bumps and holes
Design Concept:
The single wall panel will be a part of a larger facade system which creates an undulat-ing wave pattern across the surface of a building. A series of perferations will be used to create this pattern on the building surface and within cast shadows.
Right: Section of the larger “wave” pattern chosen to be represented by the single panel.
Below: Design process used in realizing the �nal panel.
Space is bounded by surface. By manipulating the this surface, the illusion of depth can be created within a relatvely thin plane. The pattern of bumps creates a literal depth across the panel, but with the implimentation of additional surface treatments (“wave” of drilled holes, hammered texture, and surface patina), the illusion of even greater depth can be achieved within a one inch surface.
real-lifeapplication
Panel split into 2”x2” grid Bumps set in grid Wave pattern of holes placed over bump grid
Bumps removed along part of “wave” pattern
Final panel layout with both bumps and holes
Start!
Input
Process
Output
End!
Initial 16.5”x16.5” Copper Sheet
Stensil used to transfer hole pattern on panel
“Ripple” pattern drilled into panel
Anneal panel
Pickle bath after annealing process
Texture applied with ball-peen hammer
Panel after hammering is complete
Pickle bath after annealing process
Wood guides and rounded dowels used as a dye to press bumps into the panel
Copper panel placed inbetween two guides, wooden dowels then inserted to be pressed
Dowels being pressed into copper panel in the hydraulic press
Panel with bumps after hydraulic press
Edges bent in bending-break
1/2” return created to �nish the panel’s shape
Liver-of-sulphur applied as surface patina
Panel removed from liver-of-sulphur bath after 30-45 seconds
Petina removed from the top of the bumps with steel wool
Surface after patina is removed from bumps
Clear coat applied to seal in surface treatment
Use drill press to create the holes.
Anneal panel
End!
Focus : HandArtwork:Drawings/Paintings/Prings Spring2007-Fall2011
Besides architecture, traditional art practices such as drawing, painting, and printmaking have also been a great interest of mine. Creating artwork gives me the opportunity to ex-plore form and visual communication skills through different forms of media. Over the last few years my artwork has focused in on studying the characteristics of hands. As a designer, your hands are an extremely important tool which often gets taken for granted.
RePurpose : SkateboardsasCanvas:Marker/WoodStain Fall2011
The life of a skate deck is often relatively short due to snapping, cracking and/or wearing out. Over time, stacks of worn out skateboards have built up throughout my house, but as skateboarders, we can’t throw them away because they hold sen-timental value. I looked at these unusable decks every day and thought there must be something I can do with these. Blend-ing my passion for art and skateboarding, these once worn out skateboards become a unique canvas for new artwork.