draft port lew

Ryan B. LewandowskiB.S. Arch, University of Virginia, 2008

M. ARCH I - Advanced Placement

Ryan B. Lewandowski83 Fort Greene Pl. Apt 2

Brooklyn, NY 11217

[email protected]

ARCH 402

ARCH 544 & 541

ARCH 302

ARCH 301

2x3.5 Lamp

IATH

Photography

urban design

masterplanning

building

school

professional

independent

10

materiality

parametric

fabrication

graphics

humanitarian

experimental

experiential

sectional

object

extent inquiry method environment

bionic

Project Index

1

9

3

4

5

2

DIS Copenhagen6

7

8

Last Supper

Home to the outdoor music area and animated by visualizations from animators and filmmakers, the Aural Garden featured an architectural installation designed and built by Ryan Lewandowski, Daria Supp, and Lili Trenkova. One of the new programs at the 5th annual Last Supper Festival, the canopy installation defines a new and more intimate, yet open space within the canyon-like alley of the outdoor area at the 3rd Ward. The black-lit 3000ft of cotton string weaves a net-like surface that shifts in form and definition as the perspective changes. While basing itself off the hyperbolic surface that is created with the spandex shapes suspended above, this fluctuation creates an energy in the space that plays with the music and dance atmosphere, creating a synthesis of the mediums and demonstrating the transformative effects of architecture.

Last SupperAural GardenNew York, New York Fall 2010

ryan b. lewandowski / personal

Through the process of the project, I held the lead position for


install day 1

install day 2

install day 3

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ryan b. lewandowski / academic

Located in the culturally segregated neighborhood of Crown Heights, this multi-function design problem was aimed at understanding a complex past in order to address its current and future potential. Looking to the surrounding urban context, I found inspiration in the unifying visual rhythm of the neighboring brownstones. By reflecting this rhythm at the scale of the building’s program, the intent of the design is to establish a unifying dialogue between community members through its use.

ARCH 301 ARTS & COMMUNITY DEVELOPMENT CENTER Associate Professor William Williams Fall 2006Brooklyn, NY

A community kitchen and food co-op are the primary programmatic drivers within the design. Through the personal act of cooking and having a meal together, stories and lessons are shared creating a cross-cultural dialogue that brings the different local cultures together. The table for cooking and eating becomes a symbol for this interaction and is carried throughout the rest of the building to facilitate its many other functions.

ryan b. lewandowski / academic / 2006

ground floor plan first floor second floor third floor fourth floor fifth floor

ryan b. lewandowski / academic / 2006urban rhythm site plan


3/16th scale laminated basswood and chip model18” x 18” x 22”

Taking advantage of the sectional nature of the design, a physical model was created using laminated layers of chipboard and basswood. The building was constructed in removeable units of a structural band and its accompanied programmatic ribbon to create an interactive viewing experience that allows one to dissect the internal workings of the building.

Working in collaboration with COPESCO, the World Bank, and the city of Ollantaytambo, our semester studio was the beginning of a multi-year effort towards studying the threats from increased tourism in the Sacred Valley. The ancient town of Ollantaytambo sits at a critical juncture between the bus and rail system for tourists en route to Machu Picchu and faces growing international economic pressures. Our work intended to propose a schematic master plan and new train station that accommodates international interests and local needs while preserving the town’s physical history and cultural ideals.

ARCH 402MASTER PLANTRAIN + BUS STATIONAssociate Professor Dean Abernathy Spring 2008w/ Scott Mitchell & Sebastijan JemecOllantaytambo, Peru


(1:1000)10m 50m 100m

pisac

calca

chinchero

cuzco

urubambaollantaytambo

machu picchu


The devised masterplan proposed relocating the rail line to the opposite side of the river, allowing a new road for the heavy traffic to take it’s place. With the new rail station located down river near the more modern town of Rumira, the traffic can be rerouted around Ollantaytambo instead of through it and encourages future growth to occur away from the historical town center.

During out time in Ollantaytambo, we were encouraged to explore new methods of recording our experience. Focusing on the sounds of traffic, water, and music, I recorded numerous video clips throughout the town. This audio experience was then translated into a diagramatic timeline of my trip, inspired by the quipu, a traditional Incan method of record keeping with knots.

sacred valley diagram

enlarged

quipu street sound diagram

proposed train route

rumira

proposed station

existing station

ancient city center

proposed pedestrian path

existing rail line

existing bus route

proposed bus route

ollantaytambo master plan


Designed in collaboration with Scott Mitchell and Sebasitjan Jemec, we sited the train station down river from the town to establish a new node for commercial activity, alleviating traffic through the sensitive Incan sites. Reminiscent of Incan terracing and the local market vernacular, the station is spatially organized by a series of rammed earth walls and glu-lam structures to create a low impact design that integrates itself into the surrounding landscape. The addition of a wide cathedral like stair running the length of the station becomes a place of interaction and provides an open connection to the neighboring marketplace.

‘block game’ siting studies

site section sketch

ground tierra

terrace terraza

walls paredes

service space espacio del servicio

structure estructura

broken roof azotea rota


bus terminal

train station

ARCH 544SWISS RE 3D STUDYAssociate Professor Charles Menefee Spring 2007Charlottesville, VA

Through focusing on the geometrical reasoning behind natural and man-made structures, this course taught a conceptual and hands-on approach towards understanding 3D modeling and the spatial organization of the world around us. Each student selected a building as the subject of their assignments for the semester to first better understand its basic geometrical principles with the end goal of recreating an accurate design digitally. I chose the Swiss Re by Norman Foster due to its complexity and parametric rationale behind the design. My studies focused on the facade and structure producing an advanced understanding of the geometrical logic behind the design.


axis-profile floor guidelines column profiles

column extrusion column mirror column array facade panel geometry

The intent of this course was to learn the underlying principles of parametric modeling and various methods to fabricate these ideas quickly and efficiently. In utilizing Microstation’s Generative Components, we studied a myriad of pattern making, fractal designs, and complex surfaces. These studies developed into a personal exploration of wrapping a double sin-curve surface around a cylinder. Once acheived, I created a representation through laminating multiple sections of cardboard to produce its form, which has since become a favorite lamp shade.


ARCH 544PARAMETRICRAPID PROTOTYPINGAssociate Professor Earl Mark Spring 2008

class geometric & surface explorations

physical prototype _ lamp shade

transaction modelBased "draw the polygon"{ feature drawPoly GC.GraphFunction { Definition = function (Point pointList){ //procedure to draw any closed polygon of unspecified number of points Polygon arbitraryPolygon = new Polygon(this); arbitraryPolygon.ByVertices(pointList); }; }}

transaction modelBased "graphic function to find Z value given x and y coordinates"{ feature surfProg GC.GraphFunction { Definition = Point function(Point startPoint, double Cscalar, double degr, double resolution, double degrinc){ // Gets sin wave along x-axis and y-axis for z from x and y of startPoin // Works well for Cscalar set to 1.0 with Resolution set to 0.5 Point returnPoint = new Point(); double height; double distx, disty; height = Cscalar * (Sin(Degrees((degr * .9425) / 6)) + Sin(Degrees((startPoint.Z ) * 3))); distx = Cos(degr) * height; disty = Sin(degr) * height; returnPoint.ByCartesianCoordinates(baseCS, startPoint.X + distx, startPoint.Y + disty, startPoint.Z); return returnPoint; }; }}

transaction modelBased "draw cylinder"{ feature polygon01 GC.Polygon { Function = function(){ // Procedure makecircle to draw a circle as a series of line segments Point originPoint = new Point(); Point pt1 = new Point(); Point pt2 = new Point(); Point pt3 = new Point(); Point pt4 = new Point(); double degr, degrinc; double radius, radians; double distx, disty; double distx2, disty2; double xval, yval, zval; double xval2, yval2, zval2; double resolution; double Cscalar; int index;

radius = 4; degr = 0; degrinc = 2; index = 0; Cscalar = 0.3; zval = 0; resolution = 0.0; // Initiate Drawing of Circle while number of degrees less than or equal to 360 while (zval <= radius * 2) //(resolution * (degrinc*5)) { while (degr < 360.0) { // Determine x value and y value of Point distx = Cos(degr) * radius; disty = Sin(degr) * radius; distx2 = Cos(degr + degrinc) * radius; disty2 = Sin(degr + degrinc) * radius; // determine a point for the current value of distx and disty. xval = distx; yval = disty; xval2 = distx2; yval2 = disty2; resolution = Sqrt((Pow((xval - xval2),2) + Pow((yval - yval2),2))); zval2 = zval + resolution; pt1.ByCartesianCoordinates(baseCS, xval, yval, zval); pt1 = surfProg(pt1, Cscalar, degr, resolution, degrinc); pt2.ByCartesianCoordinates(baseCS, xval, yval, zval2); pt2 = surfProg(pt2, Cscalar, degr, resolution, degrinc); pt3.ByCartesianCoordinates(baseCS, xval2, yval2, zval); pt3 = surfProg(pt3, Cscalar, degr + degrinc, resolution, degrinc); pt4.ByCartesianCoordinates(baseCS, xval2, yval2, zval2); pt4 = surfProg(pt4, Cscalar, degr + degrinc, resolution, degrinc); drawPoly({pt1, pt3, pt4, pt2}); // Increment the number of degrees of revolution of the point degr = degr + degrinc; } zval = zval + resolution; degr = 0.0; } }; FunctionArguments = {}; } }

+ =

The cardboard lampshade’s visual effect due to it’s corrugated rotation inspired my final project, a study of visual focal points of transparency within a wall structure. By creating a point of influence, the wall structure can shift its directionality to accomodate a specific focal view point while maintaining a set form. While an early study, this conceptual idea began a personal inquiry of the human interface with a traditionally static element and the possible active building systems to create such an ability.

ryan b. lewandowski / academicstep 4 _ perspective lines

step 3 _ array points on surface

step 2 _ parameterized guide lines

step 1 _ construct smart b-spline surface

project inspiration _ corrugated prototype step 5 _ louver guides based on perspective

step 6 _ construct louver

ARCH 302STUDENT STUDY CENTERAssociate Professor Charles Menefee Spring 2007Charlottesville, VA

The semester long project was an investigation of public and private spaces through the experience of the student at the University of Virginia. The building becomes an active interface between the student at study and the student in transit through a dynamic facade created by individualized study spaces.


concept site plan


Through a mixed process of intense writing and sketching, the project’s concept, program, and site emerged and developed. Anchoring itself on the backside of the psychology building along a popular student shortcut, the building extends through a wooded site that is the backyard for multiple existing university buildings. Viewed as a unique remnant of the natural terrain, the overall site strategy was to connect the student with their surroundings through a series of new paths and visual connections from the elevated study spaces.

Considering the individual study carrel as the most basic unit of the design, I investigated the materials, light qualities, and spatial relationships with the goal of designing a space that can be personalized by manually changing its spatial and light qualities. The carrel serves as a module of space that is expanded to accommodate small group spaces and larger public lounges throughout the building.


single study carrel

small group work space

public lounge


wetland

bouldered

wooded lawn

Due to the varied terrain across the site, the three main exterior spaces have unique landscape strategies. A wooded lawn on the high ground, boulders on the hillside, and a wetland that maintains an existing daylighted drainage field.

physical model 12” x 18”

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D.I.S. SEMESTER ABROADLight_Video Art Kunstal Professor Eva Frederikson Fall 2007Copenhagen, Denmark


rådhuspladsen light study

The driving concept was to create a connection between the general public and the art itself. The traditional nature of viewing most video and light art is very secluded and



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Section A

Section ASection BSection CSection DSection E

Section ESection DSection CSection B

individual

group

In a summer long design/build project with former classmate Sebastijan Jemec, the concept of transparency is used to display both the structure of the design and the international technology used to create the exhibited Rome Reborn project.

Given two weeks for construction, the booth was fabricated offsite and brought in for installation, requiring that it be modular, light weight, and of efficient construction methods.

design

IATH . SIGGRAPH ROME REBORN BOOTHAssociate Director Dean Abernathy Summer 2008w/ Sebastijan JemecLos Angeles, CA

ryan b. lewandowski / professional

prototypes

fabrication

transport

assembly

“finished”

A rigid “projection wing” displayed images of Rome through its structure, serving as a way to attract attendees to the booth. With the exhibits set up along the perimeter, those interested were immediately engaged through interacting with the technology and designers of the project.

ryan b. lewandowski / professional / 2008

In an office wide challenge to re-use/re-purpose/recycle the now obsolete Polshek Partnership business cards in a creative way, this lamp is made of 75 business cards with a small plexi bracket. The folded design utilizes the single orange side of the cards to produce an warm glow over the white exterior. A modular system of folding was used and by modifying the angle or direction of the folds, each of the three rows become unique.

The design was awarded First Place by the partners.

House of Cards2x3.5 LampNew York, New York Summer 2010


top row

middle row

bottom row

fold

ove

rfo

ld in

fold

ove

r

fold

in

fold

ove

r

fold

in

The NYU Langone Medical Center exists on a superblock located between First Ave and the East River in Manhattan. Originally planned and designed by SOM in the 40’s and 50’s, it has been continually added upon throughout it’s existence. Ennead Architects for the past three years has been working to map out a thirty year development plan to add a fully integrated center for acute clinical care and to the design of the Kimmel Pavilion hopsital, which will act as it’s centerpiece.

My role in this project for the past two years has been very multi-faceted, although mostly focusing on design. My duties have ranged from completing the masterplan study, concept design for an elevator tower, and currently schematic design of the Kimmel Pavilion.

Ennead ArchitectsNYU Langone Medical CenterNew York, New York Fall 2008 - present


NYU Langone Medical Center concept riverfront

Ennead Architects NYULMC Master PlanThis masterplan became a nine month study to analyze and map out a thirty year multi-phase development plan for the medical center to become a fully integrated acute care and medical research facility. Through many programmatic and conceptual studies, our understanding of this relationship between a patient and doctor grew.


While development would ideally fall along a single line, this type of institutions growth is ultimately driven funds given by a donor and the vision that they may hold. Working in conjunction with CASE Design, we utilized Revit’s BIM capabilities to construct a 3D spatial/programming model that in real time can accurately calculate the program of the current conditions, as well as play through various building options for the 30-year master plan. Existing buildings and conceptual growth made up a kit of parts that could be plugged into the potential sites of development, creating a flexible tool to be used by the architect and the client to fully understand the medical center’s growth potential.

For this masterplan, I was one of two employees working full time on this and among many other aspects was in charge of working with CASE Design to create and manage the Revit Model.


the ‘kit’ of parts

J:\0806\1_BIM\N

YU M

edical Center M

aster 2010.rvt7/30/2009 10:56:33 PM

EXISTING CONDITIONS TISCH ELEVATOR & ED KIMMEL HOSPITAL -Demo & Displacement Req'd

UTILITY BUILDING RESEARCH BUILDING -Demo & Displacement Req'd

STRETCHER BUILDING -Demo & Displacement Req'd

PEDS BUILDING RESEARCH BUILDING -Demo & Displacement Req'd

ACUTE CARE BUILDING RESEARCH BUILDING -Demo & Displacement Req'd

ACUTE CARE BUILDING -Demo & Displacement Req'd

FILLER BUILDING -Demo & Displacement Req'd

A2

F1

E

G

EXISTING PHASE 1 PHASE 2 PHASE 3 PHASE 4 PHASE 5

NYULMC SUPERBLOCK DEVELOPMENT

ZONING DATALot Area : 408,551 SFLot Coverage : 65 %Allowable : 265,532 SFFAR : 6.5 (group 4)Allowable : 2,655,322 SF

*Indenture Constraints : 65% Lot Coverage, 25 Story Limit, Parking Space Requirement**Does not include OCME site

AH 40,452COL 33,398HCC 294,290KIMMEL 786,827KIMMEL-WEST 309,115MSB 276,779SE_RESEARCH 333,010SK 541,428SRC 253,940UH 655,279UH - ED 3,851UTILITY 84,768Grand total 3,613,137

AH 40,452COL 33,398HCC 294,290KIMMEL 786,827KIMMEL-WEST 205,659MSB 276,779SE_RESEARCH 233,840SK 541,428SRC 253,940UH 655,279UH - ED 3,851UTILITY 84,768Grand total 3,410,511

AH 40,452HCC 294,290KIMMEL 786,827MSB 276,779SE_ACUTECARE 333,010SK 541,428SRC 253,940UH 655,279UH - ED 3,851UTILITY 151,540Grand total 3,337,396

AH 40,452HCC 294,290KIMMEL 786,827SE_RESEARCH 333,010SK 541,428SRC 253,940STRETCHER_FULL 289,455UH 655,279UH - ED 3,851UTILITY 84,768Grand total 3,283,301

187,078 SF2,007,287 ZSF

Lot CoverageZSF

Lot Coverage192,217 SF2,031,244 ZSF

Lot Coverage2,529,464

226,231 SF 242,122 SFZSF

Lot Coverage2,557,092 ZSF

Lot Coverage253,215 SF2,662,435 ZSF

Lot Coverage260,268 SF2,605,469

ZSFLot Coverage

ZSFLot Coverage

ZSFLot Coverage

ZSFLot Coverage

ZSFLot Coverage

ZSFLot Coverage

256,256 SF

253,215 SF

256,256 SF

2,662,435 2,677,756258,386 SF

264,476 SF2,735,0202,719,151

2,822,607 2,927,950267,348 SF

On SuperblockOff Superblock

POLSHEK PARTNERSHIP ARCHITECTS LLP320 West 13th Street, New York, NY 10014

ENABLING PREREQUISITES :

Previous Lot Coverage

Previous Zoning SF

NYULMC GREATER URBAN CAMPUS (DGSF):

New Lot Coverage

New Zoning SF

Allowable Lot Coverage on Superblock (65% of 408,511)

Allowable Zoning SF on Superblock (6.5 FAR) 2,655,322 ZSF

265,532 SF

Previous Total

GSF DGSF

NEW SUPERBLOCK TOTAL NYULMC GREATER URBAN CAMPUS TOTAL

GSFDGSF

ZSF

SF

GSF DGSF

ZSF

SF Phase 2*1.45 DGSF to GSF multiplier

10/5/2009 3:08:02 PM

J:\0806\1_BIM\NYU Medical Center Master 2010.rvt

KIMMEL HOSPITAL

2,276,0002,516,000

2,041,500

193,000

21,500115,00065,50012,000

214,500

7,000 765,000844,000

776,500

62,500

3,139,5002,846,000

2,625,000

234,000

4,273,5004,567,000

973,500

218,000

551,500

127,500

276,500

25,000

111,500

234,000

205,000

5,500

101,000

DEMOLITION -

GSF ZSF

363,500

PROGRAM DISPLACMENT (DGSF) -

28,500

DGSFGSF

ACUTE CARE 102,000AMBULATORY CARE 19,500CENTRAL ADMINISTRATION 3,500COMMON 14,000EDUCATION 19,000LOGISTICAL SUPPORT 10,500RESEARCH 26,500

195,000

COL 26,000IRM 135,500RR 72,500UH 12,000

246,500

KIMMEL HOSPITAL

ZSF

SF Lot Coverage

SF Lot Coverage

single phase graphic output

future build-out phasing tree

alt solid _ 1 frit glass _ 1 frit glass _ 2 frit glass _ 3

This project will add four new elevators to the outdated Tisch Hospital to improve the flow and quality of experience for patients and visitors. Sited in the central courtyard of the complex, the elevator cabs will include windows that provide a view of the city and river during the ride.My role involved doing a series of facade studies during the concept design phase. Working one on one with a design associate, we discussed the idea of a pixilated pattern of glass that responded to a need for increased shading at the top. From here I investigated panel sizes/ratios and surface patterns through creating elevation drawings, 3D renderings, and elevator cab animations so that each aspect of overall identity and user experience was fully considered.

Ennead Architects

NYULMC ELEVATOR TOWER


solar shadow study completed by Atelier 10

facade concept sketchby thomas wong

alt solid _ 2 alt solid _ 3

design option study completed by myself

exterior view from above courtyard

final facade pixelation design

I have come to value photography for its simple, yet unique, ability to frame the world as I see it. My eyes as an architect are constantly exploring my surroundings to better understand the chaos of the modern city and find moments of beauty or clarity that are often overlooked by others.

In this first series, I have looked to the monolithic glass towers of New York City as a canvas and frame. By focusing on what lies beyond this minimal surface, I have found what I view as a reinterpretation of its own surroundings.

It is my hope that in creating these compositions of subtle yet dramatic beauty, which represent an experience of our reality, might serve as an inspiration for others to look forward with a new perspective.


PersonalPhotography


interior lobby view series 2: in formation. a sample comparison of nature and man


series 3: the individual artist

draft port lew

Documents