Architecture Portfolio 2018 | Sung Hyun Lee by Phillip Lee

P O RT F O L I O

SUNG HYUN LEE

ABOUT | CV

U R B A N P L AT F O R M A S T R A I N S TAT I O N | T H E S I S 1 8 ’

M E S S Y S E M I OT I C S, PA RT I A L I C O N O G R A P H Y

SCI-ARC EXTENSION | ACADEMIC 17’

TO R S O ; I N - B E T W E E N S PA C E S

MUSEUM | ACADEMIC 18’

ACTIVE INLAYS WITH BALL JOINT

INFRASTRUCTURE | ACADEMIC 17’

S TA M P E D E L I O N; L I T E R A L I T Y O F C L I C H E S

HIGH SCHOOL | ACADEMIC 14’

EDUCATION ENTWINED

HIGH-RISE, LEASING OFFICE, RESEARCH | PROFESSIONAL 16’

NAVER 1784 ZERO PROJECT

PORTFOLIO | 2018

ABOUT

Sung Hyun “Phillip” is an architectural designer based in Los Angeles, California. He has professional experiences including internships, projectbased working, exhibitions and competitions. He has won design awards and worked for high-rise, office, museum, residentials, and military facilities. His works focus on architectural expressions from geometries, materials, light, and time.

He received B.Arch. from Yonsei University in 2016 and moved to the US to pursue his M.Arch.2 at SCI-Arc. In 2015, Phillip worked at SOA as a project based architectural designer. He participated in 1784 project to research and develop schematic designs for a future Start-up Incubator which was a high-rise building. In 2013, he participated in a design competition for Helsinki’s new Guggenheim Museum as an intern when he worked at Yong ju Lee Architecture. During his service in Republic of Korea Air Force in 2010, he worked as an architectural assistant for two years. In the base, he was in charge of contracting, designing and supervising sites of dormitories and igloos. He has instructed architectural tools in several workshops and led student atelier “Question n”.

Currently, he successfully completed his thesis project at SCI-Arc.

CV EDUCATION

SUNG HYUN LEE mobile

M.Arch II in SCI-Arc | Los Angeles, CA GPA 3.75/4.00, [Aug 2016 - Sep 2018] 2.5year program | advanced design exploration and new modes of communication focusing architectural ideas on contemporary techniques and technologies

B.Arch in Yonsei University | Seoul, South Korea GPA 4.10/4.50, [Mar 2009 - Jun 2016] 5year program | Developing understanding of architecture as form, culture, history, technology and as part of society

+1 213.290.7684 email philliplee088@gmail.com language English | Korean

Exchange program in CSU San Luis Obispo | SLO, CA [Sep 2013 - Aug 2014]

Safety Supervisor Education, KFSA | Daejeon, South Korea Certificate of Fire Fighting Safety Supervisor, [Aug 2015]

EXPERIENCE

Modeling tools Rhino+Grasshopper| Maya|CATIA v6|ZBrush

Yong ju Lee Architecture | Seoul, South Korea Architectural intern, [Jun 2014, Dec 2014 - Feb 2015] working for Helsinki’s Guggenheim Museum competition in 2014 |‘Gentle Monster’ Optical store installation project in 2015

Military Service, Republic of Korea Air Force | Wonju, South Korea Architectural assistant, [Feb 2010 - Mar 2012] working for contracting|drafting|designing military facilities|supervising site

10th Docomomo Korea Design Competition Selective Prize, [Jun 2013]

3D Hubs Student Grant 2018 Shortlisted Category in Architecture, [Jul 2018]

EXHIBITION | LECTURE 2018 SCI-Arc Graduate Thesis Participant, [Sep 2018]

2018 SCI-Arc Spring Show Selected Participant, [Sep 2018]

2015 Yonsei Graduate Thesis Participant, [Jun 2015]

Workshop “Rhino-how” | Yonsei University Instructor, [Apr 2015 - May 2015]

Student atelier “Question n” | Seoul, South Korea Atelier leader, [Mar 2010 - Jun 2016]

Seminar “Talk with seniors” | Yonsei University Host, [Apr 2012] PORTFOLIO | 2018

MESSY SEMIOTICS, PARTIAL ICONOGRAPHY

This project examines how a building might become a framework for producing mental images. Instead

Sung Hyun “Phillip” Lee

of producing a single image in relationship to a building’s form, can a building be designed to be a loose agglomeration of incomplete spatial episodes, never adding up into an icon?

ADVISOR David Ruy, SCI-Arc

When we see buildings and use them, an individual experience generates a rememberable image(s) spontaneously. A building generally gives a coherent image, and the experience can be captured by

PROJECT NAME / YEAR

a single photograph. This is so normal that we often do not notice that in actual experience, we see

MSPI / SCI-Arc THESIS 2018

something other than a photograph of a famous building. However, wouldn’t it be interesting to try and design a building that resists simple iconography?

LOCATION Hoboken, New Jersey

My strategy however is not to avoid iconography completely. That would be banal. Instead, the goal is to avoid simple iconography. My strategy here is to produce a field of partial icons, and see if a messy

PROGRAM

semiotics might emerge—one that never adds up into a single famous photograph. My enemy is the

train station, museum, library, auditorium,

postcard. My enemy is the famous building behind the Lexus in the car commercial. My friend is the novel

office, retails, outdoor event space, parking

that can be read many times. My friend is the person that constantly surprises you. My strategy is to create images of a passage, not a solidified icon of a building.

SIZE 2,640,000 sq.ft.

The Italian artist Giorgio Morandi said, “There is nothing more surreal and nothing more abstract than reality.” Implicit in this statement is that reality is constructed. I would go further and say that the building blocks of constructed reality are images that can be a part of the image of the city. So why would we be satisfied with one image?

GRADUATE THESIS | 2018

a sequence of spatail episodes

PORTFOLIO | 2018

MESSY SEMIOTICS, PARTIAL ICONOGRAPHY

GRADUATE THESIS | 2018

museum entrance human perspectives

westside human perspectives

In Baroque or Renaissance, it was general to use image making tools in architecture designing. As an example, atmosphere of hall way or courtyard, and even architectural aesthetic value in structures can be delivered through certain kinds of images. However, in modern architecture, architects focus on form or a value of the form or design process itself.

The project is not about a form. So it is not about Formalism. But as you can see many segmented objects, it is about a sequence of the small spatial episodes. I believe segmented sequence of the images constructs our individualâ&#x20AC;&#x2122;s imagination about the space such as dark, bright, wind, site plan

sound of train, architectural profiles.

PORTFOLIO | 2018

MESSY SEMIOTICS, PARTIAL ICONOGRAPHY

The icons are similar with small buildings in a city. We have images of LA, but cannot compress them in a single image. Segmented urban experiences generate an image collection which is so personal. The project is not a Disney concert holl in a post card. I expect it is mixed with other urban images as a platform to connect two splited towns. Icons are positioned on the site in Hoboken NJ, and they are mutated based on architectâ&#x20AC;&#x2122;s imagination of specific atmospheres.

part A

GRADUATE THESIS | 2018

part A interior

PORTFOLIO | 2018

TORSO ; IN-BETWEEN SPACES

TORSO represents a new ICONIC addition to SCI-Arc campus. The goal of this project is blurring

Sung Hyun “Phillip” Lee + Yuheng Huang

the boundary of an architecture for creating multiple fronts and to make ‘In-Between Spaces’ creating another type of educational spaces. The 60,000 sq.ft. figured icon is positioned at the

INSTRUCTOR

center of the site. The lifted masses blur the boundary and generate multiple fronts as well as

Kristy Balliet, SCI-Arc

different shapes of architectural profiles. Minimized masses are touching the site maximizing useable open spaces. Such spaces engage volumetric layering and create shared or exposed

PROJECT NAME / YEAR

spaces. The first level of the ‘In-Between Spaces’ functions as a part of architectural layering.

TORSO / 2017

It creates numerous creases. The second level of the ‘In-Between Spaces’ is generated by interlocking two or three masses. These spaces have no boundary but function as a critic plaza.

LOCATION

Exact boundaries of the surrounding masses define the third level of ‘In-Between Spaces.’ The

Los Angeles, California

different levels of ‘In-Between Spaces’ make the 60,000 sq.ft. look bigger, and create other types of interactive educational spaces.

PROGRAM studio, outdoor plaza, exhibition, auditorium, cafe, office

SIZE Phase1 : 85,000 sq.ft. Phase2 : 45,000 sq.ft.

total : 130,000 sq.ft.

ACADEMIC | 2017

unique architectural profiles

three levels of In-between spaces PORTFOLIO | 2018

TORSO

ACADEMIC | 2017

Torso ; In-between spaces

In-between spaces for SCI-Arc extension

TORSO has multiple fronts. The primary volume is lifted from the ground and split into two. In some direction, it could be seen as two buildings. Furthermore, the main entrance is not defined. There are several creases and gaps. They create unique architectural expressions which symbolize a new identity of the extension of SCI-Arc. open boundary | event space

PORTFOLIO | 2018

TORSO

ground floor plan

section

ACADEMIC | 2017

fire separation diagram

PORTFOLIO | 2018

TORSO

SD phase axon diagram

DD phase axon diagram

ACADEMIC | 2017

As the extension of SCI-Arc, the design seeks to maximize open spaces on the ground

GFRC support frame metal fixing bracket

floor for adapting various activities in the

thermal insulation GFRC panels

community. The primary structures reinforce

vapor barrier interior finish main steel structure for envelope

concrete cores, mega space trusses and structural frame. The concrete cores contain circulation

facilities

and

lift

mega-truss

spaces from the ground. Meanwhile, the skin systems are optimized based on the results of pavement

analyzing daylighting and energy with DIVA

aluminum support frame

precast concrete

for Rhino. GFRC panels are set for creating a concrete 2â&#x20AC;? thk

significant amount of shading for the South-

sound proofing sheet steel/truss structure

West area; while, the East-North facade has stainless mesh screens to diffuse direct sunlight. wall section details

environmental analysis

building envelope details

exploded diagram

solar radiation analysis PORTFOLIO | 2018

ACTIVE INLAYS WITH BALL JOINT

Active Inlays with Ball Joint reconsiders a role of the architectural detail. They also propose a

Sung Hyun â&#x20AC;&#x153;Phillipâ&#x20AC;? Lee

potential for a more significant and more deliberate exchange of ideas across a wide range of

+ Egil De Lange Kooberstad

scales. The project investigates a set of complicated relationships involving interconnecting or interlocking parts, a ball joint, and it becomes the basic idea that has particular potentials such as

INSTRUCTOR Dwayne Oyler, SCI-Arc

the tight interconnection, a central node, and a latent rotational characteristic as part of the design process. The idea was developed into an object within a host volume by using a set of the principles extracted from the detail relationships such as characteristics of rotation and twist based on nodes

PROJECT NAME / YEAR Active Inlays with Ball Joint / 2018

of the ball joint. The original object questions the relationship which might again apply to a new scenario. The site is again reconsidered as a new host for the building. The object could be defined differently based on its scale. The object is translated into an architectural object as it sits on the

LOCATION Taoyuan, Taiwan

site. We deal with the ground as another host for the object. As the same mechanical relationship, the object is interlocked with the ground.

PROGRAM exhibition, auditorium, cafe, office

SIZE 40,000 sq.ft.

TAIWAN MUSEUM physical model of the original object

ACTIVE INLAYS WITH BALLJOINT

ACADEMIC | 2018

tio

ta ro

tio

a. embedding

b. interlocking

c. main host

d. implied rotation

The copper masses are embedded in the host. They are not pieces to make the negative spaces but have an important role in articulating the host and making a vertical relationship with the ground.

The interlocked copper masses create the negative space. The host hides most parts, and they are self-supported by twisting while keeping their continuity.

The copper masses articulate a simple box. The box functions as a part of ball joints. The interlocked masses create the negative space.

The mass is embedded in the host, and it is rotated based on the limited rotation axis. The result from the rotation is implied on the other host of positive space, which exists as subtracted surfaces on the host.

e. negative ball joint

f. implied rotation

g. limited rotation

h. positive ball joint

The void is created by the several copper masses, holding the positive ball joint that is attached to the copper host.

The piece is created by a rotation based on the limited ball joint axis, and these two masses mainly function to hold the ball itself.

Generally, a ball joint has no specific axis for a rotation, but a deformed ball has only one rotational axis to limit the rotation of the masses.

A literal ball is attached to the copper host that is positive space. The ball is twisted with the masses, acting as the main joint to connect two hosts.

PORTFOLIO | 2018

ACTIVE INLAYS WITH BALL JOINT section B

section A

Positioning on site

As the same mechanical relationship of the original object, the object is interlocked with the ground. The lifted main volume creates architectural tension between the ground and the building. The second volume that is a transformation of the original object is positioned while wrapping the front mass and following the site contexts. The architecturalized two volumes and the ground are tightly interconnected.

ec t

io n

jie r

lao-

iver

S.h ig h

ee d

ra il s

io n

ec t

section C

ACADEMIC | 2018 23

cr os ss ec tio gong

n yuan

PORTFOLIO | 2018 bridg e

ACTIVE INLAYS WITH BALL JOINT

details

As an architectural membrane, it has two different skins;

a louvers to control natural sun-lighting. Twisted structures

copper panels and glazing. The gaps between the two

to support a stair tread are interlocked by sliding insertions.

membranes vary from 24”-40” which generate outdoor

At the same time, they are integrated with the pre-

paths. The window frame is integrated with interior stairs

tensioned bars making them stable structurally. The top of

structurally and aesthetically. A set of twisted metal window

the structure is covered by tempered glasses for feasibility

frames creates ‘in-between gap vision’ while functioning as

as well as exposing the structures.

16”

20”

24”

40”

80”

85”

55”

ACADEMIC | 2018

h i j k l m

substructure pre-tensioned bar 2” thk white conc’ tread aluminum frame 1/3”thk tempered glass reinforcing bar

4”

in-

ee betw

p n ga

visi

louver+window frame

exterior copper panel catwalk double glazing system interior stairs stair seats main structure assembly

extruded mullion

a b c d e f g

3.4” each

12”

67.5”

6” 20”

the structure for the stair tread two treads are interconnected by the other structural component,

is twisted 90 degrees, and it

i j

tempered glass tread

section A

section B

sliding insertion

l m

holds a tempered glass as well

and it functions as a bridge

as a tread itself. the tread and

between two main structure for

structure are both reinforced by

the stairs. additionally, it prevents

bars. especially, the bars inside

the tread from the rotation.

of the tread is pre-tensioned.

PORTFOLIO | 2018

section B

section A

ACTIVE INLAYS WITH BALL JOINT

72”

106”

RF 212ft 10

8F 195ft 8

7F 173ft

6F 126ft

5F 106ft 5

4F 86ft 4

3F 66ft 2

LF 38ft

1 2 3 4 5 6

entrance lifted lobby gallery circulatory atrium main auditorium gallery

7 8 9 10 11 12 13

small conference hall large conference hall gallery office outdoor garden parking event plaza

2â&#x20AC;?

ACADEMIC | 2018

72â&#x20AC;?

physical model

72â&#x20AC;?

strategy2 strategy1

strategy3

strategy4

strategy1_crease

strategy2_gap

strategy3_interlocking

strategy4_penetrating

The gaps create seams on the surfaces. They could be used as a crease for natural sun-light for office space.

Within the building boundary, there are different scales of empty spaces. Those unprogrammed gaps provide in-depth architectural experiences.

Three masses are surrounding the ball joint by interlocking with different joint conditions such as facing, penetrating, or maintaining gaps.

The main circulation is penetrating the entire mass while connecting separated pieces. Its glazing articulated facade is tightly integrated with neighboring geometries.

PORTFOLIO | 2018

S TA M P E D E L I O N; L I T E R A L I T Y O F C L I C H É S

INSTRUCTOR Hernan Diaz Alonso, SCI-Arc

PROJECT NAME / YEAR Stampede Lion / 2017

LOCATION Rosario, Argentina

PROGRAM Powerstation, Flower fields

literality of clichés; Lion

The project explores a dark back alley of literality. A neglected principle of interpretation and production, literality is considered as the guiding principle of the project ‘Stamped Lion’. In contrast to a typology, a species constantly mutates. Where others use words like ‘typology’, we practice words like ‘species’. While others study for catergories, we investigate for metamorphosis. For the project, we architecturalize the natural and naturalize the architectural. But we are going to stay literal. We are eager to see if staying literal could present a new way to radicalize the idea of autonomous form. Mutating design is an advanced strategy for articulating the form; however, it does not escape from the tradition. If the traditional architecture is a coded response to achieve the beauty, the metamorphosis and mutation of tradition cultivate new aesthetics. The site is located at the edge of the city of Rosario, Argentina, which is known for the boundary between urban and rural contexts. Stampede Lion is new power station supporting the city infrastructure and contributes to the community as a flower field. Literal cliches are copied and rearranged with encrypted sequences to create chances for generating new architectural species.

ACADEMIC | 2017

mutated clichĂŠ

architecturalized the natural

MODELING

ZBrush zmodeler nanomesh/micromesh texture painting/mapping decimation noisymaker grouping/layering

Maya mental ray

aftereffect

premier pro

keyshot

photoshop

illustrator

retouching

ZBrush

Rhino

Substance Painter detail texture mapping

repairing

basic modeling edit geometry grasshopper

FINAL PRODUCTION

bridge

Maya basic modeling xgen converting UV mapping decimation (points control)

sub-modeling

DESIGNING

RENDERING

Cura 3D PRINTING

Geomagic Studio

KISSlicer64

repair mesh points control

simplify3D

PORTFOLIO | 2018

STAMPEDE LION; Literality of ClichĂŠs

site plan; top view

day and night perspective view

Rosario is located in the Province of Santa Fe, Argentina, and the project is sited at a boundary between Rosario and Granadero Baigorria, between urban and rural context. It is a vast open field and surrounded by residential areas and the Parana river. As an infrastructure, the project builds power station for the city of Rosario. However, at the same time, it provides a flower field as a public facility to adjacent communities. The field needs cavities for plants and spaces for the maintenance. On the site, the field creates a vibrant, distinctive, and iconic landscape with remarkable shapes and unique materials. The infrastructure is integrated with the public attractions, and it makes the machine-centric architecture, or infrastructure, no more a parted from human life.

prototype of interior

ACADEMIC | 2017

panoramic elevation

literality of new species

A species continually mutates which needs a defined lineage since it comes from other things. The project mutates architectural element ‘arch’ and natural element ‘lion’ which shamelessly exploits its clichés. Clichés are tiresome, but people have been constantly using them. In Stampede Lion, the clichés are going to stay literal, but mutated into new clichés.

PORTFOLIO | 2018

EDUCATION ENTWINED

21st century school

Sung Hyun “Phillip” Lee

Learning is far more straightforward than commonly presumed. Students begin to learn by playing with each other. They learn on the streets and in classrooms. They learn from peers and teachers. They learn from

INSTRUCTOR

the television, the internet and books. Unfortunately, they often learn wrongful things. The best learning

Mark Cabrinha, Calpoly San Luis

occurs when students spend time outside investigating, experimenting, exploring, and playing. In a future

Obispo

educational environment, classrooms are technology cave where students in South Korea are virtually in a room with students in California. They can connect with each other every day, they converse and interact, even

PROJECT NAME / YEAR

though they are thousands of miles apart. A school is more than a physical place. It is a relationship between

Education Entwined / 2014

cultures. The project, ‘Education Entwined’ proposes an ecological idea with a concept of ‘bring everyone’ to understand how environmental characteristics support a collaborative approach to 21st century schooling. It

LOCATION

is a movement of changing education system from class oriented to flex-oriented system. Students can learn

San Luis Obispo, California

many things without being taught in traditional ways. The learning environment in a future San Luis Obispo high school can bring students and teachers together into a relaxed and positive atmosphere for learning,

PROGRAM highschool

SIZE 60,093 sq.ft.

researching, exploring, and discussing.

ACADEMIC | 2014

L Edge old

gym

extended shop area entrance

planned parking lot

L Road2

L Road1

key principle diagram

active learning hub

c d quad

extended shop

welcoming

reseach hub

geometry logic a b c d

L_Edge clear view mountain view L_Road1 PORTFOLIO | 2018

hands-on hub

EDUCATION ENTWINED

quad area; perspective view design process

based on geometry

entwined

guiding users (structure base)

variation

interconnecting

embodying

programs

administration feedback room laboratory shop & studio

gym gym support library

auditorium flexible space dining area kitchen

ACADEMIC | 2014

35 Strategy 2 Be a good neighbor; participation aisle

Strategy 1

gallery wall

Bring the outside in outside view

courtyard

research lounge

laboratory

feedback room

flexible zone

feedback room

Strategy 3 Make feedback room agile; inter-communication

3rd floor Flex space; south view

PORTFOLIO | 2018

3rd floor Flex space; north view

NAVER 1784 ZERO PROJECT

178-4 : The Sough Korean company, NAVER, decided to design a new

SOA [Society of Architecture]

building next to their headquarter, Greenfactory. The vacant plot has been

+ Architects | Principles

Yerin Kang

Chihoon Lee

Jaewon Lee

+ Project based Architectural designer

Sung Hyun “Phillip” Lee

+ Draft

used as a parking space for NAVER employees. However, in 2020 the place will be crowded with visitors, community members, and exceptionally talented young people working in IT industries. Thus, 1784 project is a long-term preparation to invite them. As new working space of IT Hub,

Seungjung Heo

Seohee Joo

PROJECT NAME / YEAR NAVER 1784 Zero Project / 2016

1784 should be a platform to support and foster creative activities.

When Greenfactory is the headquarter for NAVER, 1784 is a leasing office designed by NAVER. The new building is a place for developing synergy between genius IT start-ups as well as a place for becoming the new stimulus

CLIENT

to workers in Greenfactory. By reflecting future types of working behavior in

NAVER Corp.

IT industries, 1784 should provide easy access to any creative minds.

LOCATION

The project offers three tracks; 1784 research book, 1784 template book,

178-4 Bundang, South Korea

and 1784 strategy book.

PROGRAM office, cultural factilities, mixed use

“1784 is a place for IT industry” SIZE

“The new building is a place for Phase1 : 11,500 sqm Phase2 : 20,000 sqm

total : 31,500 sqm

developing synergy between genius IT start-ups as well as a place for becoming the new stimulus to workers in Greenfactory”

1784 research book | 107 pages 1784 template book | 129 pages 1784 strategy book | 58 pages

PROFESSIONAL | 2016

PORTFOLIO | 2018

1784 Zero Project

아케이드, 중정, 필로티와 같이 열린형태의 저층부는 내부외 외부의 보행공간을 연결하고 건물의 프로그램을 외부로 노출시켜 사람들의 동선을 자연스럽게 안쪽으로 끌어들입니다. 외부와 시각적으로 연속된 공간은 사용자로 하여금 마치 외부 공간에 있는 듯한 편안함을 느끼게합니다.

연결하고 open lower-level share space & idea 저층부에 활기를share with Greenfactory emotional publicity social work place share with city 줍니다

CONNECT

DIVIDE

a type of activity

divide circulation & volume

transition space

gap between divided parts

platform architecture

an interior arcade creates visual openness, and brings natural lighting in

segmented type

그린팩토리측의 타워를 들어올려 건물사이에 보행동선을 확보하고 진입을 자유롭게 합니다.

lifting tower facing Greenfactory which makes giant piloti

Study 중정형 ;

courtyard type

정면을 들어올린 형태의 필로티는 내부의 중정까지 동선을 연결하여 건물전체가 열려있는 듯한 편안함을 느끼도록 합니다.

pilotis integrate inside and outside spaces which provides visual openness

컨셉과 전략 Strategy

; Inner terrace type

내부의 아케이드는 건물전체를 시각적으로 열어주고 내부에 채광을 들여 공간에 활기를 줍니다.

Study 분동형 ;

FLEXIBLE

divide vertically & horizontally

CONNECT for 1784

Study 내부 테라스 형

아케이드, 중정, 필로티 등을 두어 보행 공간을 Four keywords for 1784

PROFESSIONAL | 2016

1784 RESEARCH BOOK

“업무 일과 중 대부분을 협업하며 보내는데, 협업의 대다수는 작은 미팅들이었습니다. 이때문에 개인

열린 코워킹 스페이스를

rental)영역과, 멤버십 가입자들이 자기 사무공간으로 사용할 수 있는 공유

제공하여

이를 통해 1784를 방문하는 사람들이 가장먼저 마주하는 풍경은 일하는 모습이

벤처나 스타트 업, 창업을 준비하는

형성해나갈 수 있도록 합니다.

작업시간을 갖기가 어려웠습니다.”

저층부에

1784의 저층부는 관습적인 로비공간을 지양하고, 새로운 형태의 일하는 공간으로 조성합니다. 누구라도 편안하게 방문하여 일을 할 수 있는 데스크 렌탈(desk 52

오피스(shared office)영역을 복합 배치함으로써, 벤처나 스타트 업, 창업을 준비하는 사람들 모두가 필요에 따라 이용할 수 있게 합니다.

되며, IT 업계의 ‘사회적 업무공간(Social Work Place)’로서의 정체성을

서비스의 제작과

제작공간(making space)을 마련합니다.

창작공간을 내부에 두어

Producing and Testing) 공간을 구비합니다. 이 제작 공간은 소음, 진동, 환기와

서비스를

이용하게 합니다

같은 문제 때문에, 고층부의 집중 업무공간 보다는 저층부나 지하층에 배치하는 것이 적절합니다. 제작 지원의 공간을 저층부의 상업공간과 자연스럽게 연계되도록 하여 1784에 거주하는 사람들은 물론 1784의 방문자들도 이용할 수 있게 합니다. 콘텐츠 스튜디오 (contents studio) 를 마련합니다.

테스트하고

1784에 웹툰, 영상, 사진, 음악 등의 콘텐츠 제작자를 위한 1인 창작 공간과

만들어 판매로 이어지게 합니다

콘텐츠 제작 지원을 위해 대여해왔던 외부 스튜디오 공간의 역할을 수용할

컨셉과 전략 Strategy

사람들이

1784에서의 생산과 창작을 돕기 위해, 만들고 제작하고 테스트하는(Making,

스튜디오 공간을 마련합니다. 이 콘텐츠 스튜디오는 네이버가 중소상공인들의 수 있습니다. 네이버는 기존에 여러 공간에서 이미 이와 같은 서비스를 지원해왔습니다. 1784에서 고려되는 ‘만들고 제작하고 테스트하는 공간’은 단순히 컨텐츠를 제작하는 데에 그치지 않고, 오프라인 판매로도 이루어질 수 있도록 지원하고자 합니다.

마이크로 소프트 사의 26명의 직원들의 하루 (출처: 2013. 05. “클라우드 협업 환경과 스마트 오피스“ 정우진 대표 컨설턴트)

대면협업(Face to to Face Collaboration) 대면협업 (Face Face Collaboration) 간접협업(Virtual Collaboration) 간접 협업 (Virtual Collaboration) 개인작업(Individual Work) 개인작업 (Individual Work)

이동 (Travel) 이동(Travel)

저층부에

1784에 거주하는 기업들이 생산하는 서비스와 기술을 시연할 수 있는 IT서비스

IT서비스 쇼케이스를

생산하는 서비스와 기술을 시연할 수 있는 고정적인 장소를 마련하여 자연스럽게

쇼케이스 공간을 저층부에 마련합니다. 1784에 입주한 다수의 기업과 사람들이 서로의 기술을 배우고 IT업계의 동향을 빠르게 파악하여 자극이 일어나도록 합니다. 궁극적으로는 해당 공간을 통해 소규모 회사부터 큰 회사까지 자체 브랜딩이 가능한 장소로도 활용할 수 있게 합니다.

53 54

SHARE for 1784

일과 관련된

1784는 주변에 마땅한 문화공간이 존재하지 않는 정자동에 위치하기 때문에,

문화공간을 마련하여

문화공간은 외부에서 기획된 공연이나 강연, 박람회 등 업무에 자극을 주는

마련하여

업무에 필요한

기업의 서비스와 기술을 공유할 수 있게 합니다

자극을 받을 수 있도록 합니다

coordinating event like show case 에어비앤비(Airbnb)의 앱 런칭 박람회, 샌프란시스코

요소들로 채워 개발자, 디자이너, 기획자들의 다양한 기대와 요구를 문화적 이벤트를 기획함으로써 치열한 업무의 일상 속에서 멀리 찾아가지 않아도 문화적인 경험을 누릴 수 있는 공간을 제공합니다. 일하는 사람들에게 문화적 자극을 제공합니다. 대형 스튜디오 등에서 공연과 같은 이벤트가 일어날 수 있도록 합니다. 공연뿐 아니라, 동종업계의 사람들이 모여 IT서비스의 동향과 기술 등을 나누며 서로 자극을 주고 받는 행사도 다양하게 수용합니다. 문화공간의 일부에서 IT 서비스의 콘텐츠를 생산합니다. 소규모 스튜디오의 경우 문화적 이벤트와 함께 콘텐츠를 생산하는 공간으로

컨셉과 전략 Strategy

허스트타워(HearstTower)의 로비, 뉴욕

co-working space in lower-level

1784 내부의 문화 공간은 매우 중요한 역할을 수행할 수 있습니다. 1784의

활용합니다. 작가들의 작업이나 콘텐츠 생산 과정이 일상적으로 노출되면서 문화와 일이 결합된 풍경이 되도록 합니다.

connecting ‘making-testing-selling’

에어비앤비(Airbnb)의 저층부 소규모 창작공간, 샌프란시스코

exposing to socializing space

픽사(Pixar)의 토토로 포레스트 프로젝트(Totoro Forest Project), 세계 일러스트레이터, 만화가 초청 문화 이벤트

PORTFOLIO | 2018

볼륨사이로 길을

만들어냅니다. 사용자 입장에서는 건물을 하나의 덩어리로 인식하지 않고, 길과

만들어 출입을 원활하게

경사로로 이루어진 산책로처럼 느끼면서 도시적인 공간 경험을 할 수 있게 됩니다.

합니다

Study 분동형

이를 통해서 큰 건물에 들어간다는 부담을 줄이고, 출입이 원활해지는 효과를 기대해볼 수 있습니다.

1784 Zero Project

저층부의 볼륨을 분절하여 다방면에서 출입이 가능하도록 합니다. 각 동의 사이

걸어서 이동

큰 건물의 오피스에서 가장 느끼는 점 중 하나는 업무협의를 공간은 외부와 건물 내부를 연결하는사용자가 골목과 같은 길의불편함을 역할을 할 수 있습니다. 그린팩토리와 쪽의 저층부를 고층건물의 필로티로 들어올려 좀더 개방감 있는 위한 가까운 층간 이동입니다. 수직이동은 엘리베이터와 특별피난계단을 보행공간을 확보할 수 있으며,가까운 이 중 일부는 경사로로 조성하여 필로티 하부의 통해 일어나는데, 층간넓은 이동을 위해 엘리베이터를 기다리거나, 폐쇄된

가능한 단위로

컨셉과 전략 Strategy

진입을 다양하게 합니다.

특별피난계단을 오르내리는 행위가 업무의 연속성을 저해하고 쾌적하지 않은 공간

경험을 유발한다는 것입니다. 수직동선을 F o u r k e y w o r d s f o r사람들이 1 7 부담 8 4없이 오르내릴 수 있는 층을 3개 층 정도라고 하면 내가 위치한 층을 분절하여 기준으로 아래위 5개 층 정도는 걸어서 다닐 수 있는 수직동선의 단위로 설정할 수 CONNECT 사용자들의

S H A 있을 R E 것입니다. 그리고 이 단위마다 D I외부 V I D 테라스가 E FLEXIBLE 있거나, 업무 협의를 위한 공간이

위치한다면 내에서 보행활동은divide 조금 더 vertically 빈번해질 것이고, 이를 통해 업무에 a type of activity share space타워 & idea & horizontally

open lower-level

층간 이동을 emotional publicity

share with Greenfactory

divide circulation & volume

transition space

social work place 원활하게 합니다

share with city

gap between divided parts

platform architecture

필요한 소통이 원활해질 수 있습니다.

DIVIDE for 1784

수직동선이 특별 피난 계단실로만

5-6개 층을 단위로 이동 가능한

이루어진 오피스의 단면

계단이 설치된 오피스의 단면

Study 분동형

segmented volumes creates gaps that generate multiple entrances

segmented volumes are useful for the phased construction plan as well as for reducing massiveness

segmented volumes provide different levels of securities and make spatial independence Study 분동형

PROFESSIONAL | 2016

않습니다

FLEXIBLE for 1784

고층부 higher-levels 집중업무공간 working space

업무시설 office

(24,800PY / 78%)

이벤트공간 event space

사고파는공간

(27,000PY / 85%)

근린생활시설 mixed use 문화시설 culture

selling & buying space

(1,000PY / 3%)

중층부 mid-levels

(600PY / 2%)

전기공간 transition space (3,000PY / 10%) (1,500PY / 5%)

저층부 lower-levels

(3,600PY / 12%)

지하부 U.G.-levels

CW공간 co-working space (1,500PY / 5%)

용도 구분에 의한 면적 배분

행위 유형 별 면적 배분

1784 행위유형 별 공간의 조직

area distribution based on use

area distribution based on user’s activities

1784 area distribution based on user’s activities

PORTFOLIO | 2018

1784를 공간의 용도로 구분한다면, 업무, 근린, 문화 세가지로 단순화할 수 행위유형별로 있습니다. 하지만 일을 중심으로 1784에서 일어날 수 있는 다양한 행위와 이들 사이의 관계를 중심으로 생각한다면 건물 전체의 이용방식은 아래와 같은 개념으로 공간을 분류하여 1 7 8 4 R E S E A R C H 전환될 B O O수K있습니다. 공간의 프로그램을 규정짓지

1784 Zero Project

PROFESSIONAL | 2016

1784 TEMPLATE BOOK Phase 1

Phase 2

(office 8,800 / retail 1,200 / culture 1,500)

(office 18,200 / mixed use 1,800)

Rhino view.4

(고/권)

76.1

Total Volume (office 27,000 / mixed use 4,500)

Rhino view.4

(고/권)

��

phase1 south elevation

phase2 south elevation

area and offset

(고/권)

(14m 이격)

(GF 입면

(GF 입면 (고/가)

��

phase1 east elevation

phase2 east elevation

Rhino view.1

Rhino view.2

Rhino view.5 - 1차

Rhino view.5 - 2차

site plan

Rhino view.3

Rhino view.6

PORTFOLIO | 2018

1784 Zero Project

perspective view volume study

PROFESSIONAL | 2016

1784 STRATEGY BOOK

phase1 segment type; lower-levels strategy

phase1 segment type; higher-levels strategy

phase2 segment type; lower-levels strategy

PORTFOLIO | 2018

phase2 segment type; higher-levels strategy

Sung Hyun “Phillip” Lee M.Arch ll, Southern California Institute of Architecture B.Arch, Yonsei University

1 + 213.290.7684 philliplee088@gmail.com

SUNG HYUN LEE