Architecture Portfolio 2015

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ROBERT PIOTROWSKI ARCHITECTURE ?

ROBERT PIOTROWSKI



ROBERT PIOTROWSKI


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TABLE OF CONTENTS 4

6 20 30

RESUME PARAMETRIC TOWER COLUMBUS, IN | ATHENAEUM DESIGN VISUALIZATION

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INTEGRATED TECHNOLOGIES BUS-STOP

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PRAIRIE HOUSE

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INDUSTRIAL DESIGN

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A NAMELESS OBSCENITY

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HALF HOUSE - REVIT CONSTRUCTION

78

EAMES GUEST HOUSE ADDITION

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PROFESSIONAL WORK

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RESUME

Education University of Cincinnati - College of DAAP, 2013 - Present Master of Architecture Merit Scholarship Award The School of the Art Institute of Chicago, 2009-2013 Bachelor of Fine Arts with Emphasis in Interior Architecture Merit Scholarship Award

Professional Experience Architectural Intern VOA | Chicago, IL | August 2015 - December 2015 Lucas Museum of Narrative Art Advanced modeling and digital translation workflows Graduate Assistant University of Cincinnati, DAAP | May 2015 - August 2015 HTC 3: The Classical Tradition in Architecture Lead discussion groups on course readings covering Classicism and design from Renaissance to Modern Architecture Architectural Design Intern Gensler | Los Angeles, CA |January 2015 - May 2015 Hospitality Studio. Worked on numerous hotel and residential high-rise projects in downtown Los Angeles including a three tower multi-use complex across from LA Live and the new Arts Club in West Hollywood Graduate Assistant University of Cincinnati, DAAP | August - December 2014 Co-Instructor for undergraduate Computer Skills 3 class Teach basic design and visualization principles using Rhino, Grasshopper,AutoCAD, Photoshop, Illustrator, as well as hand drafting and rendering

Exhibition Design Assistant Bluestone & Associates | Chicago, IL | August 2012- January 2013 CAD Drafting and 3D computer modeling Model Making Collaboration with clients and consultants (architects, graphic designers, ect) Knoch Knolls- Naperville, IL Red Oak- Aurora, IL

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ROBERT PIOTROWSKI

Architecture Student, Illustrator, Fine Artist 513.502.4766 6001 Ravine Woods Drive, Medina, OH 44256 piotrorw@mail.uc.edu

Awards

Travel

- Marya Lilien Merit Award 2012 - John Kurtich Travel Scholarship 2012 - SAIC Student Leadership Award nominee 2013 - Tannys Langdon Merit Award 2013 - 2013 Schiff Fellowship for Architecture Nominee

Italy (Rome, Milan, Venice)- Study Trip Summer 2011

Exhibitions

Student Group/ Community Involvement

Is the Move Paper Jaw Gallery Chicago, IL | Winter 2011

SAIC - Good ‘Ol Futbol- Group Leader for the SAIC soccer club SAIC - Maker Hacker Club- 3D printing community DAAP - dFORM (Digital Fabrication Of Responsive Materials)

India (Delhi, Jaipur, Banaras) – Study Trip Winter 2013

Visionary Drawing in Beijing Sullivan 12th floor Gallery Chicago, IL | April 2012 Layered Cities: India and the Portable Studio Kriti Gallery Varanasi, India | January 2013 Martha Schwartz Urban Garden Workshop Chicago, IL | February 2013 SAIC BFA Show Sullivan 7th floor Gallery Chicago, IL | March 2013

Skills Rhino, Grasshopper, Adobe Creative Suite (Photoshop, Illustrator, InDesign, Acrobat Pro), Autodesk products (Revit, Maya, 3ds Max, Inventor, Dynamo, BIM 360 Glue, AutoCAD, T-Splines), ZBrush, Microsoft Office (Word, PowerPoint, Excel), Python, Digital Modeling & Fabrication, Surface, Solids, Polygon modeling. Hand drawing and Rendering. Design Research.

Visionary Drawing to Plzen Biennial John David Mooney Foundation Chicago, IL | May 2015

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PARAMETRIC TOWER

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ADAPTIVE COLLABORATION

9 The 426 ft multi-complex high-rise forms part of a progressive new plan for an education hub in downtown Cincinnati. The building presents opportunities for learning and exploration in new design and material technologies that are virtually and physically manifest in both the building form and construction. Integration with the existing context is achieved by means of producing a visual anchor point that connects two diverse neighborhoods. The nature of the adaptable program allows for an ever evolving series of explorations on faรงade and systems integration reflecting cultural and societal values. All this is achieved through the integration of the manufacturing process within the building itself. Acting as both the structure and key organizational element, this matrix of robotic assembly line-esque apparatuses provide a system for full integration prototyping and implementation in adaptive design.

SOUTH ELEVATION


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C O RE

N TIO SEC

ID ES R -

L IA T EN

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MANUFACTURING STRATEGIES Additive manufacturing processes have recently started playing major roles in informing design decisions through the use of rapid protoyping and the manufacturing of custom parts and assemblages. Processes such as 3D printing, CNC milling, direct metal disposition, and laser sintering have started scaling up to allow for applications on larger projects. Contour grafting and D-shape processes have allowed additive manufacturing applications to directly contribute to building scale projects. The framework for these systems can further be integrated into the design and process of construction, embedding a tool to directly contribute to additive design decisions as they come up. Basic construction materials such as concrete, steel, masonry, and even more advance materials such as high performance composites and plastics can all be utilized and included in such a system to provide flexible and dynamic feedback for any design solution.

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CONSTRUCTION CONCRETE

STEEL

ASSEMBLY

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16 PARALLEL MANIPULATOR ARRAY WITH KUKA ROBOTIC ARM ATTACHMENTS


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The design designs represented reflect one of many possible outcomes and investigations into these types of methods and processes. They also represent careful consideration placed into the scripting or code used to generate the building form and geometries. The additive manufacturing processes represented are based around extruding and subtracting material, with only limited area for precision control detailing. The script generated therefore made use of providing geometries which were feasible for

these construction methods. The basic principle of the script allowed for the designer to draw out designs and material assemblages in section, that could be swept and arrayed along and line or curve and sectioned off at precise intervals for greater control and flexibility. This process could be repeated with any profile, resulting in an extremely fast system of generating form. Different design solutions could be implemented at any point and divided, based on location and orientation.

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ATHENAEUM Columbus, Indiana

Integration of systems in both aviation and automotive design far surpass those found in traditional architectural construction. Buildings today are primarily made up of hundreds or thousands of dumb parts, half of which don’t do much of anything other than the one sole purpose they were designed for. Components engineered for transportation industries have much greater factors and are designed accordingly to accommodate multiple parameters and instances of use. Things are designed not only to carry out a function, but often multiple functions simultaneously, and in many cases have integrated safety measures designed right into the form of the component itself. Even the aesthetics are considered. This brings me to an interest in understanding a ‘construction ethic’ regarding integrated systems and how they can be applied in large scale construction. Taking inspiration from warships, spaceships, and healthy doses of science fiction, I began to explore mega ‘block’ modular construction assemblies, which are plug and play chunks of program, systems, and structure that can be added, subtracted, and reconfigured as needs and technology evolve. This mentality of design/construction is transferred between scales. The facade, composed of a module that consists of multiple designed/engineered instances can be assembled and retrofitted depending on program, solar orientation, interior space, views, or safety.

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Inspiration for the facade came from analyzing contemporary construction methods found in museums that explored intense gestures of form using series of changing profiles. Using a singular set dimension/ shape panel as a module, a series of different finishing assemblies could be generated based on need. An evolution for this idea would be to have components of structure/systems that are pre-engineered based on exact position in space and use rather than traditional layered assemblies.

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Example of two axis kinetic facade panel generated in grasshopper to pivot according to various parameters. These could include solar orientation, views, interior lighting, and exterior media facade.

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Mega block modules with all structure and systems can be pre-constructed at a facility and shipped out to the site in chunks that can be assembled in far less time than total on-site construction.

SECTION OF TYPICAL BAY

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DESIGN VISUALIZATION


FORM EXPLORATIONS WITH GRASSHOPPER AND ZBRUSH 32


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URBAN FORM EXPLORATIONS WITH GRASSHOPPER WITH REGARDS TO DENSITY AND FAR OF PROGRAM 36


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INTEGRATED TECHNOLOGIES BUS-STOP

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Architectural design has been slow to adopt experimental research and methods into the practice. There has always existed this discussion of architecture and its relation to other design related fields, whether good or bad. Taking cues from industrial and transportation design is nothing new to architecture, although the implementation of design related and manufacturing processes is often considered as an after-thought, especial with regard to code compliances and budgets. If systems could further be integrated into pre-fabricated and engineered components, perhaps a new understanding or design philosophy will begin to emerge. Each component will begin to address multiple design issues such as the integration of heating and cooling with shading or even structural systems. Design of these components could further be engineered to address relationships to the body as a governing factor of form, breaking from the molds of the box. Standard architectural tools and software do little to address these influences, so architects and designers are looking for more innovative and specialized tools to analyze, simulate, and visualize rapid and responsive design iterations. Programs such as ZBrush and Maya, used heavily in the entertainment industry aid in the design and implementation of exceedingly complex geometries and systems.

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KAMAMA PRAIRIE 60 NIXON RD. PEEBLES, OH 45660 ARC OF APPALACHIA 7660 CAVE RD, BAINBRIDGE, OH 45612 UCRI (UNIVERSITY OF CINCINNATI RESEARCH INSTITUTE) STETSON BUILDING, SUITE 5305 260 STETSON SQUARE CINCINNATI, OH 45219 SCHOOL OF ARCHITECTURE AND INTERIOR DESIGN DAAP, UNIVERSITY OF CINCINNATI 2624 CLIFTON AVE. CINCINNATI, OH 45221

STUDIO: ARCH7005 PROFESSOR: MICHAEL MCINTURF DATE: 07 AUGUST 2015

KAMAMA PRAIRIE METROLAB STUDIO

RENDER

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PRAIRIE HOUSE STUDIO PROJECT TEAM - GRADUATE STUDIO + FACULTY

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THE OBJECTIVE OF THE STUDIO WAS TO DO A DESIGN BUILD PROJECT FOR THE CARETAKER OF KAMAMA PRAIRIE LOCATED IN PEEBLES, OHIO. THE CARETAKER WANTED A PLACE TO STAY OVERNIGHT ON THE PRAIRIE, SINCE THE SITE WAS FAR REMOVED FROM HER CURRENT HOME. ALTHOUGH THE “BUILD” PORTION OF THE STUDIO NEVER HAPPENED THERE WAS AN OPPORTUNITY TO “RECLAIM” MATERIAL FROM THE ABANDONED AND DILAPIDATED BARN STRUCTURES SCATTERED AROUND THE SITE. WE WANTED TO PRESERVE THE BEAUTY OF THE PRAIRIE AESTHETIC, AND THERE WERE CONCERNS WITH HOW THE SIZE AND SCOPE OF THE PROPOSED PROJECT INTRUDED ON THIS DESIRE. THE RECLAIMED MATERIALS WERE INTENDED TO BE APPLIED AS A “PRAIRIE” VENEER, BLENDING THE TINY HOUSE WITH THE ROLLING HILLS OF THE SURROUNDING LANDSCAPE.

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KAMAMA PRAIRIE 60 NIXON RD. PEEBLES, OH 45660 ARC OF APPALACHIA 7660 CAVE RD, BAINBRIDGE, OH 45612

THE PROJECT WAS DIVIDED WITH GROUPS OVERSEEING VARIOUS ASPECTS OF THE PROJECT. I WAS IN CHARGE OF COORDINATING AND MAINTAINING DESIGN INTENT WITH REGARDS TO THE TRANSITION FROM LANDSCAPE TO STRUCTURE.

UCRI (UNIVERSITY OF CINCINNATI RESEARCH INSTITUTE) STETSON BUILDING, SUITE 5305 260 STETSON SQUARE CINCINNATI, OH 45219

BARN GARAGE

SCHOOL OF ARCHITECTURE AND INTERIOR DESIGN DAAP, UNIVERSITY OF CINCINNATI 2624 CLIFTON AVE. CINCINNATI, OH 45221

TO ADDRESS THIS, AND TO PROVIDE INFRASTRUCTURE FOR A PROPOSED “WET” SHIPPING CONTAINER BATHROOM, WE SETTLED UPON A RAISED CONCRETE PLINTH, DESIGNED WITH INSTALLATION IN MIND. THE SLOPED FORMS AND POROUS NATURE OF THE DESIGN WOULD PROVIDE CONTINUITY OF THE LANDSCAPE INTO THE SITE WHILE ALSO PROVIDING A BARRIER FROM THE NUMEROUS INSECTS (TICKS) AND ANIMALS THAT INHABIT THE PRAIRIE.

PARKING AREA

28’8”

EXISTING OUTHOUSE (DEMO)

10° SOUTH ROTATION

TO WEST NIXON ROAD

20’0”

POWER LINE MOWED PATH STUDIO: ARCH7005 PROFESSOR: MICHAEL MCINTURF KAMAMA PRAIRIE DATE: 07 AUGUST 2015 60 NIXON RD. PEEBLES, OH 45660

GREYWATER SWALE CUT LOGS AS INSTALLATION / ENTRY SEQUENCE PREVIOUS HOUSE LOCATION

ARC OF APPALACHIA 7660 CAVE RD, BAINBRIDGE, OHKAMAMA 45612

PRAIRIE METROLAB STUDIO

UCRI (UNIVERSITY OF CINCINNATI RESEARCH INSTITUTE) STETSON BUILDING, SUITE 5305 260 STETSON SQUARE CINCINNATI, OH 45219

SITE PLAN

N

1/32” = 1’ - 0”

0.0

43' - 10"

KAMAMA PRAIRIE 60 NIXON RD. KAMAMAPEEBLES, PRAIRIE OH 45660 60 NIXON RD. ARC APPALACHIA PEEBLES, OHOF 45660 7660 CAVE RD, ARC OF BAINBRIDGE, APPALACHIA OH 45612

43' - 10"

SITE AND PLAN SCHOOL OF ARCHITECTURE INTERIOR DESIGN DAAP, UNIVERSITY OF CINCINNATI 2624 CLIFTON AVE. CINCINNATI, OH 45221

7660 CAVE RD, UCRI (UNIVERSITY OF CINCINNATI BAINBRIDGE, OH 45612 RESEARCH INSTITUTE) STETSON BUILDING, SUITE 5305 UCRI (UNIVERSITY OF CINCINNATI 260 STETSON SQUARE RESEARCH INSTITUTE) CINCINNATI, 45219 STETSON BUILDING,OH SUITE 5305

9' - 7"

A 0.0

PATH TO PRAIRIE

9' - 7"

260 STETSON SQUARE SCHOOL OF ARCHITECTURE AND CINCINNATI, OH 45219 INTERIOR DESIGN UNIVERSITY OFAND CINCINNATI SCHOOLDAAP, OF ARCHITECTURE 2624 CLIFTON AVE. INTERIOR DESIGN CINCINNATI,OF OHCINCINNATI 45221 DAAP, UNIVERSITY

2' - 0" 7'-7 1/4"

6'-11 1/2"

2' - 0"

2' - 0"

2' - 0"

2624 CLIFTON AVE. CINCINNATI, OH 45221

B 4.3

B 4.3

SOUTH ELEVATION WITH SCRIM SCALE: 1/4” = 1’ - 0”

SOUTH ELEVATION WITH SCRIM SCALE: 1/4” = 1’ - 0”

19' - 8"

16' - 0"

19' - 8"

16' - 0"

7'-9 3/4"

6'-10 1/4"

5'-0 1/2"

7'-9 1/2"

7' - 9"

4'-0 3/4"

7' - 4"

7' - 9"

7' - 4"

B 5.1

8'-0"

39'-5"

3'-0 1/2"

7'-1"

CLOSET

BATHROOM SINK UNIT

COMPOSTABLE TOILET

3"

INTERIOR PARTITION SIPS PANEL

1/4” = 1’ - 0”

1.0

2'-3 1/4"

UCRI (UNIVERSITY OF CINCINNATI RESEARCH INSTITUTE) STETSON BUILDING, SUITE 5305 260 STETSON SQUARE CINCINNATI, OH 45219

C 5.1

19'-10"

3'-0"

PLAN

2'-5"

9'-7"

1'-5"

.. .

3'-0"

3'-1" .. .

SHIPPING CONTAINER

PUNCHED SLOT WINDOW

EXPOSED PIPING

BATHROOM DOOR

1'-9"

9"

.. .

2'-1"

SHIPPING CONTAINER OPERABLE DOORS

SCHOOL OF ARCHITECTURE AND INTERIOR DESIGN DAAP, UNIVERSITY OF CINCINNATI 2624 CLIFTON AVE. CINCINNATI, OH 45221

16'-0"

6'-6"

A 1.0

PLAN

ELEVATIONS

ELEVATIONS

ARC OF APPALACHIA 7660 CAVE RD, BAINBRIDGE, OH 45612

KAMAMA PRAIRIE METROLAB STUDIO

SCHOOL OF ARCHITECTURE AND INTERIOR DESIGN DAAP, UNIVERSITY OF CINCINNATI 2624 CLIFTON AVE. CINCINNATI, OH 45221

4'-8"

SHOWER

8"

KAMAMA PRAIRIE 60 NIXON RD. PEEBLES, OH 45660

SCALE: 1/4” = 1’ - 0”

.. .

.. .

10'-1"

9'-7"

4.3 4.3

SOUTH ELEVATION WITHOUT SCRIM

SOUTH ELEVATION WITHOUT SCRIM SCALE: 1/4” = 1’ - 0”

6'-10"

4"

A 4.3

A 4.3

UCRI (UNIVERSITY OF CINCINNATI RESEARCH INSTITUTE) STETSON BUILDING, SUITE 5305 260 STETSON SQUARE CINCINNATI, OH 45219

2'-9"

ARC OF APPALACHIA 7660 CAVE RD, BAINBRIDGE, OH 45612

6'-10"

KAMAMA PRAIRIE METROLAB STUDIO KAMAMA PRAIRIE METROLAB STUDIO

STUDIO: ARCH7005 PROFESSOR: MICHAEL MCINTURF DATE: 07 AUGUST 2015

KAMAMA PRAIRIE 60 NIXON RD. PEEBLES, OH 45660

STUDIO: ARCH7005 PROFESSOR: MICHAEL MCINTURF

07 AUGUST 2015 STUDIO:DATE: ARCH7005 PROFESSOR: MICHAEL MCINTURF DATE: 07 AUGUST 2015

6'-3"

STUDIO: ARCH7005 PROFESSOR: MICHAEL MCINTURF DATE: 07 AUGUST 2015

43'-10"

KAMAMA PRAIRIE METROLAB STUDIO

A 1.1

ENLARGED PLAN - SHIPPING CONTAINER 1/2” = 1’ - 0”

1.1

A 5.1 STUDIO: ARCH7005 PROFESSOR: MICHAEL MCINTURF DATE: 07 AUGUST 2015

ENLARGED PLAN SHIPPING CONTAINER

KAMAMA PRAIRIE METROLAB STUDIO

A 2.1

W-E SECTION 1/4” = 1’ - 0”

2.1

BUILDING SECTION

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INDUSTRIAL DESIGN

INDUSTRIAL DESIGN WORK. EXPLORATIONS IN DIGITAL MODELING AND WORK FLOWS ACROSS DISCIPLINES AND SCALE


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MECHANICAL COMPONENT DESIGN

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CONCEPT MODELING

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CONCEPT SKETCHES

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PRODANIMAL / VULTURE

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N A

E L E AM

S B SS O

Y T I N E C E

ACTIV

INTER

M

USEU

M MUSIC

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A NAMELESS OBSCENITY SEEKS TO PROVIDE A SOCIAL PLATFORM WHERE BOTH MAN AND BUILDING WORK TO PROVIDE A DISCOURSE IN HOW SOUND INFLUENCES SPACE. THE BUILDING ACTS AND RE-ACTS TO SOUND, SHAPING NEW UNDERSTANDINGS IN AURAL AND PHYSICAL RELATIONSHIPS

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FLOOR 1 ENTRANCE HALL

1

MAIN LOBBY

2

GIFTSHOP

3

SERVICE CORE

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AUDITORIUM

5

FLOOR 2

FLOOR 3

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PERFORMATIVE ROBOTICS

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12

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CAFE

UNSAFE

EXHIBITION SPACE

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EXHIBITION SPACE

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PERFORMATIVE SPACE

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MORE EXHIBITION SPACE

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IN SP M EX


NTERACTIVE PATIAL MUSIC XPERIENCE

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EXPLORATIONS IN INTERACTIVE SYSTEMS WERE MODELED OUT AND TESTED USING ARDUINO AND LASER CUT COMPONENTS. AT THE MODEL SCALE, THESE COMPONENTS WORKED AS A PHYSICALLY ADAPTIVE KINETIC FACADE, RESPONDING TO DISTANCE AND SOUND PARAMETERS. EXPLORATIONS ON HOW THIS SYSTEM COULD BE ADAPTED TO THE BUILDING OR ROOM SCALE WERE ALSO TAKEN INTO CONSIDERATION. HOW COULD THE SOUND OF THESE LARGE MECHANICAL SYSTEMS BE RE-WORKED INTO THE SYSTEM AS EITHER DRIVERS OR MAPPED TO PHYSICAL EXPERIENCES? PERHAPS SPATIAL PROGRAMING COULD EVEN BE REALIZED COMPLETELY BY NOISE, ELIMINATING THE PHYSICAL AND MATERIAL AS MEANS OF CREATING AND INFORMING BOUNDARIES.

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REVIT CONSTRUCTION

HALF HOUSE

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REVIT CONSTRUCTION


SECTION - TRIANGLE, HALL

SECTION - RECTANGLE, CIRCLE, HALL

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Pinus Echinata

Air Steel, mill finish

1' - 5 15/32"

REVIT CONSTRUCTION

www.autodesk.com/revit

www.autodesk.com/revit

Plywood, sheathing grade

Acoustic Ceiling Tile 24 x 48

4' - 0"

Soda Lime Glass

Second Floor4' - 7"

Second SecondFloorFloor 4' 3/4" - 7" 4' - 6 5' - 2 21/32"

Pinus Echinata

Gypsum Wall Board

15' - 8 1/2"

Rigid foam insulation board

Robert Piotrowski

Soda Lime Glass

Mail box number 652

Robert Piotrowski

Mail box number 652

11' - 1 29/32"

Plywood, sheathing grade

Common brick Gypsum Wall Board Concrete masonry units

Date

Date

First Floor-7' - 3"

Quercus Rubra

Project Number Issue Date Author Checker

Section 3 3/8" = 1'-0"

S

S

1

Masonry Wall Section

Project number Date Drawn by Checked by

Project Number Issue Date Author Checker

Wood Wall Section

Project number Date Drawn by Checked by

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Precast concrete panels

Precast concrete panels

10' - 1 1/4"

Ledge 2 (Tri) -1' - 0"

4' - 4 11/16"

Description

Description

10' - 9"

No.

No.

Top of Rectangle Foundation-2' - 10 5/16"

First Floor (Tri) 0' - 2 1/2"

Ledge 3 (Tri) -0' - 5"

Crawlspace-11' - 2"


www.autodesk.com/revit

1' - 0 7/32"

SECTION - WOOD CONSTRUCTION

Lightweight concrete Structural steel 50ksi Acoustic Ceiling Tile 24 x 48

Carbon steel

SECTION - MASONRY CONSTRUCTION

Aluminum 6061

Second Floor Circle4' - 9 9/32"

7' - 3 9/32"

1' - 3 9/32"

22' - 8 3/4"

Robert Piotrowski

Mail box number 652

Rigid foam insulation board

10' - 8 1/2"

Soda Lime Glass

First Floor Circle-3' - 7 25/32"

Description

1' - 9 31/32" 0' - 7 1/2"

No. Precast concrete panels

Date

11' - 6 23/32"

SECTION - STEEL CONSTRUCTION

Level 17 16' - 9"

top of foundation_circle -4' - 4 25/32" basement window ledge -6' - 2 3/4" First Floor-7' - 3"

Project Number Issue Date Author Checker

Steel Wall Section

Project number Date Drawn by Checked by

Crawlspace-11' - 2"

Foundation Plan -14' - 3 3/8" Precast concrete

Basement-15' - 8"

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THE ADDITION

PART A: SUPPLE FORM PART B: EAMES HOUSE CASE STUDY

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EAMES GUEST HOUSE ADDITION


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PART A:

SUPPLE FORM

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GOALTo develop an irregular supple form; and anthropomorphic extension sited to the hand, The object should simultaneously entice the tactile and visual senses of anyone holding it.

PROCESS1 Develop preliminary monolithic mass out of clay 2 Refine all curves and edges over the typography of the form 3 Determine an axis to slice the form into 1/4� sections 4 Trace sections on planed maple wood 5 Cut sections out 6 Glue sections together 7 Rasp and sand the form down to a smooth surface quality 8 Apply sealer

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85 PART B:

EAMES HOUSE CASE STUDY Negotiating the extrinsic forces that inform an architectural work requires first evaluating its context. Using a historic landmark of modern architecture as the base foundation in an exploration into tectonic synthesis, design an addition using no less than 1/2 the supple form from the previous assignment because our professor wanted to make us suffer...

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EAMES GUEST HOUSE ADDITION


INTERIOR

VIEW TOWARDS BEDROOM

4 3

5

2 6

1

FIRST FLOOR

1/8 scale

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1

FIRST FLOOR

1/8 scale

9 8

7

SECOND FLOOR / LOFT 7 - LOFT 8 - BEDROOM 9 - OUTDOOR PATIO

1/8 scale

N

1 - LIVING ROOM 2 - DINING ROOM 3 - LOUNGE 4 - BATHROOM 5 - KITCHEN 6 - STUDY

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Utilizing the space between home/play and studio/work, the addition seeks to seamlessly bridge the gap between the two and provide an agent of discovery in where one could implement design ideas from the studio into the framework of living. Modular panels provide multi-use surfaces that encourage customization and decoration utilizing prefab components, all of which could be fabricated in shop on site. The paneled skin provides a continuous surface embedded with multiple functions. Areas where the body interacts with the surface have smaller apertures and increased material thickness, while areas tuned to daylight analysis have larger apertures to allow the suns rays to shine through to the interior


PROFESSIONAL WORK

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LUCAS MUSEUM OF NARRATIVE ART CHICAGO, IL

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I WAS PART OF THE ADVANCED MODELING TEAM WORKING WITH GEOMETRY AND DATA TRANSLATION WORK-FLOWS BETWEEN DESIGN SOFTWARE. RESPONSIBILITIES INCLUDED TAKING BASE PRESENTATION MODELS PROVIDED BY MAD AND TRANSLATING THEM INTO USABLE FORMATS FOR REBUILDING AS NATIVE REVIT GEOMETRY. I ALSO AIDED IN DESIGN RESEARCH REGARDING EFFICIENT MODELING AND DATA MANAGEMENT WORK-FLOWS WITH COMPLEX GEOMETRY. I HAD THE OPPORTUNITY TO MODEL AND WORK ON THE 2D DOCUMENTATION / CONSTRUCTION DETAILS OF NEARLY ALL THE MOST COMPLEX AREAS OF THE PROJECT, WITH AN EMPHASIS ON THE FACADE AND EXTERIOR PODIUM, AS WELL AS THE INTERIOR/EXTERIOR STAIRS AND RAMPS. EXPERIENCE INCLUDED COLLABORATION WITH MAD AS WELL AS AN INTERNATIONAL TEAM OF ENGINEERS AND CONSULTANTS. I ALSO PARTICIPATED IN VOA UNIVERSITY, AN AIA LEAD SEMINAR SERIES THAT DEALT WITH PROJECT MANAGEMENT AND LEADERSHIP WITHIN THE PROFESSION.

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CITY CENTER

PARTI DIAGRAM

LOS ANGELES, CA

BASELINE FAR MASSING

DOWNTOWN LOS ANGELES

CITY BLOCKS

9:1

CITY GRID

APPLIED TO FACADE

BASELINE FAR MASSING

STREET INTERSECTION

CORNER ENGAGEMENT

9:1

LA LIVE

EXTENSION OF STREET ACTIVITY

BASELINE FAR MASSING

POETRY IN MOTION

DIRECTIONALITY

9:1

DYNAMIC CHOREOGRAPHY

DUALITY

A - CITY IN THE SKY

B - URBAN INTERSECTIONS

DESIGN PROPOSAL FOR A 250 ROOM W HOTEL, RESIDENTIAL TOWERS, AND SHOPPING COMPLEX ACROSS FROM L.A. LIVE. I WORKED ON SITE ANALYSIS, TYPICAL FLOOR PLAN LAYOUTS, DIAGRAMS, PRESENTATION DOCUMENTS, PHYSICAL MODELS, AND PODIUM DESIGN.

C - MOVEMENT

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THE ARTS CLUB WEST HOLLYWOOD, CA

DESIGN PROPOSAL FOR LONDON BASED ARTS CLUB SET TO REPLACE THE WEST HOLLYWOOD HUSTLER STORE ON SUNSET BLVD. I HELPED DESIGN AND MODEL MULTIPLE SCHEMES (SOME OF THEM MY OWN) THAT WERE PRESENTED TO THE CLIENT. I ALSO WORKED ON PRELIMINARY IN-HOUSE RENDERINGS AND GENERATED FACADE STUDIES WITH GRASSHOPPER THAT WERE LASER CUT FOR PHYSICAL MODEL PROTOTYPES.

98


JW MARRIOTT EXPANSION LOS ANGELES, CA

DESIGN PROPOSAL FOR THE JW MARRIOTT EXPANSION OF THE RITZ CARLTON HOTEL AT L.A. LIVE IN DOWNTOWN LOS ANGELES. AIDED IN DESIGN AND DIGITAL MODELING.

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HIGHGATE HOTEL + RESIDENCES MANHATTAN, NY

DESIGN PROPOSAL FOR A 970 FT HOTEL AND RESIDENTIAL HIGH-RISE. I WAS RESPONSIBLE FOR ALL DIAGRAMS, RENDERINGS, SITE ANALYSIS, AND PRESENTATION DOCUMENTS. ALSO AIDED IN MASSING DESIGN, ZONING, AND FAR ANALYSIS.

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