Post on 22-Jul-2016
description
1PHILIP ROBERSON ////// PORTFOLIO
2Proficient: Adobe Creative Suite Sketchup Rhinoceros VrayIntermediate: AutoCAD 3ds Max Revit Maya Grasshopper
Master of Architecture + Certificate in Historic Preservation University of Pennsylvania Philadelphia, PA May 2015 Bachelor of Science in Architecture Cum Laude Portland State University August 2011 GPA: 3.74
Intern: Lazor Design Philadelphia, PA June - August 2013 + June - August 2014Extended Stay Hotel Design: Suite Layout Surveying VisualizationMulti Family Housing - Historic Church / Loft Conversion: CD Redlines High End Single Family Residence: Visualization Custom Stair Design Built-In Design
Intern: THA Architecture Portland, OR March - August 2012Competition Preparation: Physical Model production Board Layouts Site Analysis Construction Document and Pricing Set Production: SD and DD PhasesMaterial Research: Coordinating On-site Material Mock-Ups Anti-GraffitiTestingHigher Education Design: 3D Modeling Facade Development Visualization
Intern: William C. Tripp Architect Portland, OR June - August 2011Urban Design: Visualization Space PlanningIterative Site Model Construction: Infrastructure Planning Multiple Massing Options
- Recipient of the PennDesign Deans Diversity Scholarship 2012 -2015- Student work featured in Pressing Matters 2: Selected works from the Department of Architecture at the University of Pennsylvania School of Design- Student work featured in Pressing Matters 3: Selected works from the Department of Architecture at the University of Pennsylvania School of Design- Fall 2012 Studio Work featured in the Green Urban Glocal Architecture and Design Exhibition at the AIA Philadelphia
Brennan Buck Architect + Professor (347) 263 8476 brennan@freelandbuck.com Peter Lazor Architect + Mentor (215) 646 5546 plazor@lazordesign.com Annette Fierro Architect + Professor (215) 898 5728 fierroal@design.upenn.edu
Skills
Education
Experience
References
roberson.philip@gmail.com (503) 341 - 9858
Recognition
Philip Roberson
outside
air
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AIR & IRRIGATION
IRRIGATION HOSING
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content
Student Housing at Gallaudet University
Stitching Walls
Scrubway
Fissure Theater
Fabric + Figure
Stressed Skin
Grasso Residence
Chestnut Street Hotel
PCC Cascade Campus
ARCH 601 University of Pennsylvania Fall 2013
ARCH 401 Portland State University Spring 2011
ARCH 602 University of Pennsylvania Spring 2014
ARCH 501 University of Pennsylvania Fall 2012
ARCH 701 University of Pennsylvania Fall 2014
Professional Lazor Design August 2014
Professional Lazor Design August 2013
Professional THA Architecture August 2012
ARCH 702 University of Pennsylvania Spring 2015
pages
4 - 9
10 - 13
14 - 17
18 - 21
22 - 27
28 - 35
36 - 37
38 - 39
40 - 41
4Gallaudet Student Housing In order to accommodate Gallaudets deaf student body, this new housing typology deploys a continuous ribbon of shared space in support of sign language communication. Removing communicative impediments (such as manual doors, stairs and unnecessary partitions) allows students to engage one another and interact with the neighboring community at the Union Market Restaurants.
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5Fall 2013 //// Philip Roberson
DINING
LIVING
SLEEPINGRESTROOM
DINING
LIVING
SLEEPINGRESTROOM
DINING
LIVING
SLEEPINGRESTROOM
DINING
LIVING
SLEEPINGRESTROOM
6
Typical Housing Unit: Compartmentalized
Continuous Ribbon: Disbursed + Shared Program
Wrapping Material: Visual / Tactile Way Finding
Rotated Volumes: Support Visual Communication
Massing Model
Communicative Interruptions
7Rotated Volumes: Support Visual Communication
Cross Section: Gallaudets Porous Urban Edge
Fall 2013 //// Philip Roberson
8Dorm Room
Elevational Perspective
9Shared Space (Visual Connection)
Fall 2013 //// Philip Roberson
10
Section A
Stitching Walls/////////////////////////////////////A new material library wall becomes a veil through which material production, education and exhibition are all connected to the urban community. Strategic placement between the new stormwater treatment park and Portland State Universitys architecture building allows the landscape to remain paramount while activating the library as a suture in between the two previsouly disjoined buildings.
Section B
11
Section B
Ground Level Plan
Fall 2011 //// Philip Roberson
12
Figure 1
Each stitching wall takes on
a unique appearance par-
ticular to its contents. the
material library wall demon-
strates a rigorous organi-
zational scheme to contain
rectilinear material samples
while the growing walls form
responds to its organic con-
tents by becoming a fluid, vertical, landscape feature.
a cut sheet and assembly
diagram were devised to
explore potential methods of
fabricating the growing wall.
Figure 1
Figure 2
Drop Into Place Pin Connection (2x) Fold Arm Fold Second Arm Place Second Sheet Pin Connection Repeat
Figure 2
13
Burlap Backing
Plant Material
Irrigation Pipe
Upper Level Seating / Lateral Support
Section B
Drop Into Place Pin Connection (2x) Fold Arm Fold Second Arm Place Second Sheet Pin Connection Repeat
Fall 2011 //// Philip Roberson
14
S c r u b w a yThe urban ecological condition is in need of assistance through a recalibration of architectures potential. Rather than just acting as a programmed container, it can become infrastructure. Utilizing the subway tunnels and the piston effect generated by passing trains, Scrubway directs polluted air through three planted treatment terraces and four large biological treatment chambers before returning the cleaned air to the subway platform and city beyond.
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14
Project in Collaboration with Brian McVeigh
1515
16
Interior of Treatment Bar Flexible Program Space
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1 SUBWAY AIR INTAKE
AIR MOVEMENT
INTIAL AIR CLEANING
TRANSFER TO LARGE CHAMBERS
LARGE TREATMENT CHAMBERS
DROP CHAMBER TO SUBWAY
PURIFIED AIR DELIVERED TO PLATFORM
7 SOILED AIR RETURN LINE
SU
BW
AY
PL
AT
FO
RM
SU
BW
AY
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RM
outside
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AIR & IRRIGATION
IRRIGATION HOSING
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2
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34 5 6
150-0
+5
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SA
TU
RA
TIO
N
LOW
HIGH
01DRIP IRRIGATION ZONES
WATERSATURATION
BIOLOGOCALTREATMENTWALL
PERFORATEDSKIN SEGMENTS
SUNLIGHTEXPOSURE
02 03 04 05 06
LOW
HIGH
INT
EN
SIT
Y
{
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LIGHTWELLSLIGHTING FORPLANT GROWTH
SPLITCREATES NEGATIVE SLOPEFOR WATER COLLECETIONAND POSITIVE SLOPE FOR STACKEFFECT. CLERESTORY ALLOWSNATURAL LIGHT
UNDERBELLYUNDERGROUND LIGHTING WATER COLLECTION
UNDERSIDEDRAINAGE ANDSKYLIGHT TRAY
NOSTRILSAIR INTAKE ANDFILTRATION
APERTURESWATER INTAKE ANDAIR COLLECTION
NEUTRALAIR COLLECTION SOLAR:INCREASED SURFACE AREAFOR PHOTOCATALYTIC PANELS
SOLAR:INTERIOR LIVING WALL
WATER COLLECTION
H20 FROM PHOTOCATALYTIC SUR-
WATER COLLECTION SOLAR ACCESS + SURFACE AREA
AIR INTAKE WARM AIR FROM
A B C
WATER COLLECTIONPHOTOCATALYTIC SURFACES:
H20 BI-PRODUCTINCREASED APERTURE SCALE FOR DAYLIGHTING
AIR
A
B
C
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45
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A C D E F G H
30 3330 30 30 36 36
B
B
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B
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N
13
45
67
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A C D F G HB30
30 30 33 36
E30 36A
B
160
N
1 3 4 5 6 7 8 9 102
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PLATFORM LEVEL-30
SUBURBAN LEVEL-12
STREET LEVEL0
STAGE LEVEL+9
RESEARCH LEVEL+32
ROOF LEVEL+55
80
12.DRAINAGE AND SKYLIGHT TRAY
6.LARGE BIOLOGY TREATMENT WALLS7.TERRACED TREATMENT WEDGES8.PUBLIC STEPS TO ROOF TOP LOUNGE9.PLANT RESEARCH LABS10.RESTROOMS11.THEATRE
1.PERFORATED SKIN WRAP2.CLERESTORY WINDOWS3.EAST WINDOW WALL4.DROP CHAMBERS5.TERRACED ROOF WEDGES
13.SUBTERRANEAN LEVEL14.SUBWAY ENTRANCE AT WEST15.MAIN FLEXIBLE EVENT SPACE16.NE ENTRY TO THEATRE LEVEL17.OBSERVATION DECK TO TREATMENT CHAMBER
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SCRUBWAY
SECTION A THROUGH WEST TREATMENT CHAMBER1/16 = 1-0
OPERATIONS AND CIRCULATION LEVEL 2 PLAN1/8 = 1-0
SUBTERRANEAN PLAN1/8 = 1-0
PROGRAM CAPACITY
AIR TREATMENT AND DELIVERY SCHEDULE
PRELIMINARY WALL ASSEMBLY
SURFACE FOLD STUDIES STUDY MODEL
SKIN ARTICULATION STUDY + SECTIONS
TREATMENT CAVITY
PERSPECTIVE SECTION B THROUGH TREATMENT CHAMBERS AND EAST FLEX BAR
The urban ecological condition today is in need of assistance thorough a re-calibration of architectures potential as more than a programmat-ic container, but a piece of infrastructure. Our health and that of our planet are in severe disrepair. Architecture, which is a leading cause of environmental degradation, must shift its focus away from the current preoccupation with mere architectural form and programmatic poten-tials and begin to engage with site in a more dynamic and potentially.way.SubScrub attempts to answer this question of architectures future po-tential by reimaging the ubiquitous nature of the living wall. The pri-oritization of air treatment over typical program allowed us to create a large scale and ecologically rich response to the specific nature of the site. Subway air has been found to contain harmful amounts of heavy metals, CO2, CO, and particulate matter. Utilizing the subway tunnels and the piston effect created by incoming trains, SubScrub directs pol-luted air through three biological treatment terraces and four large biological treatment chambers before returning the cleaned air to the subway platform. This clean air is forced through the subway platform providing clean air for subway riders. After mixing with dirty subway air it is then recirculated at the end of the platform through the systemThis system has the capability of handling large volumes of air and during off peak and night hours can be coupled with neighboring buildings HVAC systems, enabling a clean air economy.With the potential deployment of this system and its variants across ur-ban fabric, SubScrub has the capability of replacing obsolete mechan-ical systems while addressing public health at an urban scale; some-thing often consider as out of the realm of architecture.
MORNING PEAK HOURSDELIVERY TO SUBWAYSALL CHAMBERS ACTIVE
NONPEAK HOURSDELIVERY TO SURROUNDINGBUILDINGS
EVENING PEAK HOURSDELIVERY TO SUBWAYS
LATE NIGHTSYSTEM FLUSHED WITH SURFACEAIR TO RELIEVE PLANTS
140424_Final602Boards.indd All Pages 2/18/15 3:16 PM
1 2 3 A C E
3
3
4
5
6
4
5
6
7
2
2
1
1 SUBWAY AIR INTAKE
AIR MOVEMENT
INTIAL AIR CLEANING
TRANSFER TO LARGE CHAMBERS
LARGE TREATMENT CHAMBERS
DROP CHAMBER TO SUBWAY
PURIFIED AIR DELIVERED TO PLATFORM
7 SOILED AIR RETURN LINE
SU
BW
AY
PL
AT
FO
RM
SU
BW
AY
PL
AT
FO
RM
outside
air
inside
AIR & IRRIGATION
IRRIGATION HOSING
1
2
3
45
6
1
2
34 5 6
150-0
+5
5
SA
TU
RA
TIO
N
LOW
HIGH
01DRIP IRRIGATION ZONES
WATERSATURATION
BIOLOGOCALTREATMENTWALL
PERFORATEDSKIN SEGMENTS
SUNLIGHTEXPOSURE
02 03 04 05 06
LOW
HIGH
INT
EN
SIT
Y
{
1
2
3
4
5
6
LIGHTWELLSLIGHTING FORPLANT GROWTH
SPLITCREATES NEGATIVE SLOPEFOR WATER COLLECETIONAND POSITIVE SLOPE FOR STACKEFFECT. CLERESTORY ALLOWSNATURAL LIGHT
UNDERBELLYUNDERGROUND LIGHTING WATER COLLECTION
UNDERSIDEDRAINAGE ANDSKYLIGHT TRAY
NOSTRILSAIR INTAKE ANDFILTRATION
APERTURESWATER INTAKE ANDAIR COLLECTION
NEUTRALAIR COLLECTION SOLAR:INCREASED SURFACE AREAFOR PHOTOCATALYTIC PANELS
SOLAR:INTERIOR LIVING WALL
WATER COLLECTION
H20 FROM PHOTOCATALYTIC SUR-
WATER COLLECTION SOLAR ACCESS + SURFACE AREA
AIR INTAKE WARM AIR FROM
A B C
WATER COLLECTIONPHOTOCATALYTIC SURFACES:
H20 BI-PRODUCTINCREASED APERTURE SCALE FOR DAYLIGHTING
AIR
A
B
C
13
45
67
89
102
24
A C D E F G H
30 3330 30 30 36 36
B
B
A
B
160
N
13
45
67
89
102
24
A C D F G HB30
30 30 33 36
E30 36A
B
160
N
1 3 4 5 6 7 8 9 102
24
PLATFORM LEVEL-30
SUBURBAN LEVEL-12
STREET LEVEL0
STAGE LEVEL+9
RESEARCH LEVEL+32
ROOF LEVEL+55
80
12.DRAINAGE AND SKYLIGHT TRAY
6.LARGE BIOLOGY TREATMENT WALLS7.TERRACED TREATMENT WEDGES8.PUBLIC STEPS TO ROOF TOP LOUNGE9.PLANT RESEARCH LABS10.RESTROOMS11.THEATRE
1.PERFORATED SKIN WRAP2.CLERESTORY WINDOWS3.EAST WINDOW WALL4.DROP CHAMBERS5.TERRACED ROOF WEDGES
13.SUBTERRANEAN LEVEL14.SUBWAY ENTRANCE AT WEST15.MAIN FLEXIBLE EVENT SPACE16.NE ENTRY TO THEATRE LEVEL17.OBSERVATION DECK TO TREATMENT CHAMBER
1 2
3
4
5
6
7
8
9
9
10
11
12
13
14
15
16
17
SCRUBWAY
SECTION A THROUGH WEST TREATMENT CHAMBER1/16 = 1-0
OPERATIONS AND CIRCULATION LEVEL 2 PLAN1/8 = 1-0
SUBTERRANEAN PLAN1/8 = 1-0
PROGRAM CAPACITY
AIR TREATMENT AND DELIVERY SCHEDULE
PRELIMINARY WALL ASSEMBLY
SURFACE FOLD STUDIES STUDY MODEL
SKIN ARTICULATION STUDY + SECTIONS
TREATMENT CAVITY
PERSPECTIVE SECTION B THROUGH TREATMENT CHAMBERS AND EAST FLEX BAR
The urban ecological condition today is in need of assistance thorough a re-calibration of architectures potential as more than a programmat-ic container, but a piece of infrastructure. Our health and that of our planet are in severe disrepair. Architecture, which is a leading cause of environmental degradation, must shift its focus away from the current preoccupation with mere architectural form and programmatic poten-tials and begin to engage with site in a more dynamic and potentially.way.SubScrub attempts to answer this question of architectures future po-tential by reimaging the ubiquitous nature of the living wall. The pri-oritization of air treatment over typical program allowed us to create a large scale and ecologically rich response to the specific nature of the site. Subway air has been found to contain harmful amounts of heavy metals, CO2, CO, and particulate matter. Utilizing the subway tunnels and the piston effect created by incoming trains, SubScrub directs pol-luted air through three biological treatment terraces and four large biological treatment chambers before returning the cleaned air to the subway platform. This clean air is forced through the subway platform providing clean air for subway riders. After mixing with dirty subway air it is then recirculated at the end of the platform through the systemThis system has the capability of handling large volumes of air and during off peak and night hours can be coupled with neighboring buildings HVAC systems, enabling a clean air economy.With the potential deployment of this system and its variants across ur-ban fabric, SubScrub has the capability of replacing obsolete mechan-ical systems while addressing public health at an urban scale; some-thing often consider as out of the realm of architecture.
MORNING PEAK HOURSDELIVERY TO SUBWAYSALL CHAMBERS ACTIVE
NONPEAK HOURSDELIVERY TO SURROUNDINGBUILDINGS
EVENING PEAK HOURSDELIVERY TO SUBWAYS
LATE NIGHTSYSTEM FLUSHED WITH SURFACEAIR TO RELIEVE PLANTS
140424_Final602Boards.indd All Pages 2/18/15 3:16 PM
outside
air
inside
AIR & IRRIGATION
IRRIGATION HOSING
17
Level 2 PlanSubterranean Plan
Air Treatment Wall Assembly
The prioritization of air treatment over typical program allowed us to create a large scale and ecologically rich response to the public transit oriented site. Subway air has been found to contain harmful amounts of heavy metals, CO2, CO, and particulate matter. Using the piston effect generated by passing subway cars, polluted air is forced through a series of layered growing walls. The air cleaning vegetation removes pollutants passively on the interior of the structure while photo-catalytic surfaces clean air on the exterior. Innocuous salts and water are generated as by products from the photo-catalytic process, providing a crucial water source for the vast plantings.
Spring 2014 //// Philip Roberson in Collaboration with Brian McVeigh
18
Fissure TheaterThe performance halls design principles are rooted in the study of two furniture pieces: the Noguchi and Reis tables. Each of these crafted pieces of furniture provided operative terms based on rotation, secondary rotation and folding which were carried through the design. The resultant space offers a range of intense exposure and extreme privacy through a modulated envelope.
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19Fall 2012 //// Philip Roberson
primary rotation
reactive rotation
primary rotation
reactive rotation
primary rotation
reactive rotation
20
Reis and Noguchi Tables: Folding / Rotation Patterns
Surface Plan 1
Light Study 1
Fenestration Study 1
Surface Plan 2
Light Study 2
Fenestration Study 2
21
Designed as an aggregation of inflated wall panels, the Fissure Theater rotates and flexes to create public space internally and externally. A primary study of chorus line dancers provided the guiding relationships and kinetic patterns for spatial development.
Fall 2012 //// Philip Roberson
22
Fabric + FigureAtmospheric testing is a growing field of research which simulates air quality on behalf of the urban population. As a public amenity relating to Mexico Citys Bosque Del Chapultepec Park, the research facility and grand simulation labs are flanked by a lush plaza, punctuacted with vegetated atria and dissolved at ground level with program aimed to generate public interest.
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Site Section: Rendered Linework
23Fall 2014 //// Philip Roberson
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Precedent Study in Plan
The projects architectural language was discovered in an analysis of Charles Vs Palace in Grenada; one of Robert Venturis Complexity and Contradiction precedents. A succession of independent layers gives way to an interrupting circular void, establishing hierarchy and spatial distinction. The process was abstracted and intensified to create an extruded grid juxtaposed against a fluid, geometric solid from which the grid is subtracted. The continuous fabric provided a spatial type suitable for open plan research while the figural counterpoint was deployed as simulation and adjacent mechanical space.
Precedent Plan Figural + Scalar Interruptions:Circle vs Square
Figure Re-inserted with Inverted Grid Pattern
Implied Secondary Figure
Solid vs Void Inversely Patterned FigureOriginal Image; Charles Vs Palace in Granada, Pedro Machuca
25Fall 2014 //// Philip Roberson
Solid vs Void
26
Ground Level Plan: Porous and Public Second Level Plan: Continuous Research Level
Site Section
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Second Level Plan: Continuous Research Level
Fall 2014 //// Philip Roberson
Open Plan Office with Planted Atrium
28
Stressed SkinThis project is a study in two opposing forces; active solids and a containing envelope. Objects within the tensile fabric translate and rotate, providing variable spatial formations and fluctuating glimpses into the culture park within. As a new type of kinetic architecture, the volumes in motion create high levels of visual interference through layered fabric and a striated paneling system.
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Contraction and Expansion Study Model
29Spring 2015 //// Philip Roberson
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A
A
In order to heighten the sense of transformation, unique conditions are developed for the open and closed positions. The prototype begins as a monolithic cube but pivots open to reveal a striated series of triangular solids and voids. Reflective surfaces, transparency and moire patterning emerge as material characteristics in the generative model. An index was used to catalog volumetric formations of the subdivided cube within a non-colliding range of motion. The plan demonstrates the kinetic architecture which expands and contracts to accommodate performance oriented program in the culture
Spring 2015 //// Philip Roberson
Index of Volume and Skin Formations (Left)Plan at Upper Entry Level (Below)
Concept Model (Position A) Concept Model (Position B)
32
Material Studies: Detail
33Spring 2015 //// Philip Roberson
Tectonic Section Model
33
34
Aerial Exterior View
35Spring 2015 //// Philip Roberson
Flexible Performance Space
Promenade Facing Downtown Montreal
View From the Saint Lawrence River
36
Grasso Residence3D modeling was used to test material, interior massing and furniture options for a high-end single family residence in Northern Liberties. Significant interior features, such as a blackened steel hearth and a custom staircase, were iteratively rendered and presented to the client to carry the design into the CD phase. My role in the project was to aid the principal in the design of interior spaces, present material options and manage furniture layouts while preparing the 3D file for client presentations and animation.
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Work Produced at Lazor Design August 2014
Iterative Staircase Renderings
37Summer 2014 //// Philip Roberson
Master Bedroom
Master Bath
38
An office tower constructed in 1922 served as the site for an extended stay hotel in the heart of center city Philadelphia. The renovation project would introduce updated retail space and a new lobby at the ground level with 36 rooms above. Primary tasks for this project included surveying, orthographic drafting, interior layouts and rendering production for approval with the Philadelphia Historical Commission.
Work Produced at Lazor Design August 2013
South and East Elevations
Chestnut Street Hotel //////////////////////////
DN
UP
One Bedroom #2787 Gross sq ft663 Net sq ft
HVAC
One Bedroom #1787 Gross sq ft663 Net sq ft
HVAC
W/D W/D
Studio #1442 Gross sq ft355 Net sq ft
Studio #1500 Gross sq ft408 Net sq ft
Studio #1442 Gross sq ft355 Net sq ft
Studio #1500 Gross sq ft408 Net sq ft
Studio #3556 Gross sq ft448 Net sq ft
Penthouse #11882 Gross sq ft1348 Net sq ft
Studio #1442 Gross sq ft355 Net sq ft
Studio #1500 Gross sq ft408 Net sq ft
Studio #3556 Gross sq ft448 Net sq ft
Penthouse #11882 Gross sq ft1348 Net sq ft
39Summer 2013 //// Philip Roberson
Plan Options for Client Meeting
40
The new Student Center and Academic Building at Portland Community College continue the Cascade Campuss progression to the west with a new outdoor plaza along the existing mall. The buildings have an east-west orientation to maximize solar control and encourage natural ventilation strategies. 3D modeling was used to test material, daylighting strategies and facade composition. My specific role in the project was managing the Sketchup model of the new academic building to reflect design changes made during the Schematic and design development phases. The images produced were then released for community engagement and served as discussion points for client meetings. Additional tasks included the management of on site material mockups, coordination with material vendors and pricing set production.
Work Produced with THA Architecture August 2012
Site Plan Diagram
PCC Cascade Campus////////////////////////
Masonry Color Studies
41Summer 2012 //// Philip Roberson
Masonry Color Studies North Facade StudyRenderings produced with Shawn Glad at THA
South Facade and Plaza
42