nd portfolio by dongho nam

E-mail: and0324@hotmail.com phone: +31 06 5059 9612

[

Nam Dongho PORTFOLIO

]

This portfolio shows my works from 2007 to 2011. It folds my experiences, works and memories.

the pleats of matter and the folds in the soul

Folds Fold 1

Professional Works ( De Architekten Cie)

Design Masterpiece Housing (international competition winner _ Construction is going to start from December this year)

Korea, Seoul

Kaohsiung Port Station Urban Planning (international competition winner)

Taiwan, Kaohsuing

Rabobank & Albert Heijn Building (invited competition, winner of first stage)

Netherlands,Emmen

Pushkinshy Theater (international competition, selected in short list)

Russia, Moscow

Fold 2

Professional Works (Zwarts&Jansma)

Haags Startstation Erasmuslijn The Ideal Stadium Gingelom Bridge

Den Haag Netherlands Belgium

44 52 56

Fold 3

Studio Works

B Market Mnemonic Membrane Link to the City

Rotterdam Delft Amsterdam

60 80 86

Fold 4

Competition

Building for Bouwkunde

Delft

Fold 5

Workshops

Fabrication Workshop Interactive Tinkering Workshop

Delft Delft

98 99

Fold 6

Technical Study

Master 1

Germany

100

Fold 7

Bachelorâ&#x20AC;&#x2122;s Portfolio

University of Seoul

Seoul

102

De Architekten Cie

2010~

participation:

Schematic Design Value Engineering Design Approval Design Supervision for construction drawing

Design Masterpiece Housing,Seoul

South Korea, Seoul

The client is Landscape Housing corporation in Korea(LH) which is governmental company and they held a international architecture competition for Seoul Kangnam distict. De Architekten Cie participated this competition and won the competition. In korea there is a tipical korea’s way of apartment housing and this typology is always same.

Mostly this typology is invented and developed by LH. The reason is in korea we have had fast developement in 70s and 80s. that time korea didn’t much care about the quality and appreance of housing but they care about certain amount of housing that support as many people as they can. However, nowadays Korea has achived big development and became well being

country. Now people’s perspective is changing and LH wants to inroduce different typology to Korea. Cie suggested European block type typology and it matchs with Korea’s mountunous landscape and created a special characteristic. I participated this project after competition but engaged in whole process of this project. The construction will start on december this year.

De Architekten Cie

2010~

South Korea, Seoul

1. typical european housing typology 2. adjustment of typical european housing in terms of street, face 3. adjustment of typical european housing in terms of sun light 4.bird eye view

2 4

De Architekten Cie

Foldout generated by grasshopper

Foldout and Section _ Block A

2010~

South Korea, Seoul

Foldout and Section _ Block B

Foldout and Section _ Block C

De Architekten Cie

Foldout and Section _ Block C

Foldout and Section _ Block D

2010~

South Korea, Seoul

Foldout and Section _ Block E

De Architekten Cie

Facade and gate part atmosphere

2010~

South Korea, Seoul

De Architekten Cie

2010~

South Korea, Seoul

De Architekten Cie

2011

participation:

designing iconic building through grasshopper making diagram and images

Kaohsiung Port City Urban Planning

The central aim of this proposal is to transform the derelict site of the Kaohsiung Port Station from an urban barrier to an urban connector while preserving and highlighting the cultural heritage of the siteâ&#x20AC;&#x2122;s previous function as a railyard and industrial zone. The main strategy to achieve this goal is to transform the bulk of the site into an urban park. This park, although open to all and containing many tourist functions, is primarily intended as a piece of urban infrastructure which services the residents of the surrounding area and the city at large. It is our firm belief that by creating a green heart which weaves the Hamasen and Yancheng districts together while preserving their individual identities, we will add value to the entire area of the city. This will draw residents and tourists to the area thus contributing the economic growth and vitality of the city

We also acknowledge the strong need for economic feasibility and flexibility in the design. Although this imagery and programmatic description contained within this proposal point to s specific organization within the site, we strongly believe that the ultimate character of the area can only be determined through lengthy consultation with both the municipal planning department, the Taiwan Railway Administration and local developers and investors. Throughout this proposal we have attempted to embed as much flexibility in the phasing, development and programmatic distribution as possible. With this in mind we have endeavoured to create a usable urban design document which can serve as a plausible and valuable starting point for further development.

. Objectives:Improve connectivity across the site for pedestrians and cyclists. By strengthening the connection between the Hamasen and Yancheng district we can transform two disparate parts of the city into a unified area which has at its heart, a large urban park.A North-South connection will serve the twin functions of enabling citizens and residents to travel seamlessly between the waterfront and the Southern Gushan district to the North while also providing a more direct link between the waterfront and Shou mountain. Control vehicular traffic across the site by restricting it to the Wufu, Gongyuan and Linhai roads (as stipulated in the competition brief). Promote pedestrian and cyclist accessibility across the site through park and landscape paths and connections. Although vehicular access from secondary roads end at the park edge, the pedestrian walkways continue to cross the site.

Taiwan, Kaohsuing

De Architekten Cie

2011

Competition site

Commercial Units

Parkzone and Railway tracks

Extension of the grid

Taiwan, Kaohsuing

1. nursury 2. park and iconic building 3. art distict 4. housing _ urban 5. housing _ park 6. housing _ park

NATIVE EVERGREEN TREES

Abies Kawakamii

Picea morrisonicola

NATIVE SHRUBS AND GRASS

Abies Kawakamii

Tourist train NATIVE DECIDUIOUS TREES

Miscanthus transmorrisonensis

NATIVE FLOWERING SHRUBS

Bicycle path Alnus maritima

Castanopsis hystrix

Rhododendron Rhododendron hyperythrum hayata formosa

EXOTIC AND ENDANGERED SPECIES

Pedestrian path

Cinnabari dracaena

Drypetes littoralis

FLOWERING TREES

Malus formosana

Cyathea spinulosa

Fagus hayatae

COASTAL PERENNIAL SPECIES

Pyrus kawakamii

Malus formosana

Pemphis acidula

De Architekten Cie

2011

Taiwan, Kaohsuing

De Architekten Cie

2011

Taiwan, Kaohsuing

Inside

private, intimate, informal and secure

Outside

public, formal, uncertain, less safe

Commercial plinth

Block

Commercial plinth

View and sun

Block

Ventilation and accessibility

Terrasses, ultimate living comfort

View and sun

De Architekten Cie

2011

Taiwan, Kaohsuing

De Architekten Cie

2011

Taiwan, Kaohsuing

De Architekten Cie

2011

participation:

building design rendering making images

Rabobank & Albert Heijn Building _ Emmen

Emmen

De Architekten Cie

2011

Emmen

De Architekten Cie

2011

Emmen

COMPETITION

2011

participation:

concept development script for facade presentation

Linking Memories _pushkinsky theater

Russia, Moscow

As history fades from our memory through time, time influences our perception on many things every day. The presence of the Pushkinsky theatre at the Pushkin square in Moscow we might call one of them. For this building was the first cinema to open in Russia, and still remains as the ‘palace’ of the Moscow International Film Festivals, it is imaginable how important this 50years old cinema is. But time makes us forget the reputation of this building and replaces its existence with the thought ‘the building that has always been there’. With designing a new façade the goal is to create a new perception on the building, not to replace the old but to re-present it.

The skin is made out of vertical elements of steel covered by (White color Tedlar® films) These elements will create a unifying neutral form. Behind the verticals, the old façade will be covered by (dupont Corian® Panel) .When a person walks by, he or she will experience a collaboration of the two façades, which represents respectively the past and the present. This collaboration will change as the person walks further. The verticals are placed in such a way that the surface behind will be covered or revealed, depending on the point of view. The movement and perspective of the person will change the surface and will make it to take its form to ‘become’ a façade for ‘that’ perspective and time.

Blurring the Past

Time, Movement and Perception

Particular memories about the city, place or architecture,those are always in our minds, but we can not remember or recollect those images all the time. Through the filtering device, it helps us to remember this place, this architecture.

It is neither object nor subject. It is not a signifying object which shows themselves. It’s just like a water. It’s visible but somehow it’s invisible. It’s not at the beginning or end. It’s always in the middle. It’s a continuous, self-vibrating region of intensities whose development avoids any orientation toward a culmination point or external end.

By creating a zone of surfaces and giving it a non-resting state, we aim to create a new perception on the building. The building is nonhierarchical, non-central (neutral) and without a signifying system. It is neither a subject nor object in its natural form. It requires an encounter to ‘become’. This will make the person looking at the building to rethink their perception on the building. The building is no longer ‘the building that has always been there’, but ‘the building that was and is now, here, present’.

It just works when it connect to something. In this case it connect to people’s memory and just when those two different opponent meets each other at certain deployment, It creates something else like our own memory, recollection which is related to this place and architecture .

COMPETITION

2011

Russia, Moscow

PROFESSIONAL WORKS

HSE(HAAGS STARTSTATION ERASMUSLIJN)

what I did was

Parametric Modeling of whole building and structure

Haags Startstation Erasmuslijn RandstadRail Erasmus Line, the rapid light rail connection between Rotterdam and Den Haag Centraal. Currently Erasmus Line in track 11 and 12 of NS Station Den Haag Central stoped running. Due to increased demand for capacity-NS trains at Den Haag Central is the need for a new station starts to realize the Erasmus Line, so the tracks 11 and 12 can be returned to the spoorwegen. In the past several variants for the new start station investigated including a tunnel and a variant surface variation. These variants sticking several drawbacks, mainly logistical and technical costs aard.The most realistic option is a landing at plus two level, above the bus platform from Den Haag Centraal. The Hague Start Erasmus Line Station is situated in a complex urban context. It is located on the north side of the bus platform and over 7 meter above. It has the great height above ground level a strong influence on the perception of the space at the Square and the Anne van Bueren Bueren of Anna Street. It is also an extension to an existing station with a complex data structure and character. The strong urban axis of the Multi-level Bernhard viaduct is crossed, what a strong image-effect. The bridge construction on 14 meter above ground level versus the high rise and low rise medium in the adjacent area, crossing the train tracks 11 and 12 making a total to a very complex and sensitive situation and a challenging design task. The HSE and the bus station with transport terminal connected through a dry run canopy structure. The dry run extends to the Bernhard Viaduct. This creates an accented and comfortable passage for pedestrians Bezuidenhout-West direction and Beatrixkwartier. On the other side cuts through the awning the facade of the terminal in the lobby and connects inside with outside. The canopy in the OV-terminal ends on the same line as the edge of the balcony bus platform.

DEN HAAG

PROFESSIONAL WORKS

HSE(HAAGS STARTSTATION ERASMUSLIJN)

All script is made by

Nam, Dongho

“if the digitality of architecture can last a few years, it might be regarded as a new tool; if more than 10 years, it might be considered as a new theory; if more than 30 years, it might be seen as a new age; if more than even hundred years, it might be defined as revolution.”

“grasshopper made this project possible”

DEN HAAG

The station is characterized as very broad, clear and bright. The fact that the column placement are dictated from the base of the existing station, are the two tracks of the Erasmus Line here 16 meter apart. This looks the width of 14 meter platform as luxurious and comfortable. The white polished pigmented concrete floor platform are made that both voids accommodate two flight stairs and a spatial relationship to explain the underlying bus stop trip. At the head of the platform is a sculptural shaped opening in the canopy with the climb point. Here lay a cluster of ascending and descending stairs and escalators and a lift connection to the bus platform. The access gates located on the platform so as to keep the bus platform protected from obstacles and risk of congestion. A third of the high-floor platform is enclosed by a transparent and airy space kapstructuur of steel and glass. The structure is called a ‘grid structure’, the ‘two similar diamond-shaped structure, characterized by the absence of any form of hierarchy. There is no main beams and secondary beams but rather a constant, regular structure by its sophisticated curved form is very slim proportion. This will improve the transparency, and so light and views, as well. From the station is up view of the surrounding high rise buildings around the station. The structure is completely or partially filled with safety. At the high end of the platform floor, outside the roof, is a small building with toilets and staff room with pantry, a telecom closet space and a work / storage space provided. The high-floor platform is via a ramp smoothly into the lowfloor platform for disaster that is used by the Hague low floor equipment.

1. grasshopper definition for hsc station 2. parametric model made by grasshopper 3. rendering image of the building’s structure which is generated by parametric method.

PROFESSIONAL WORKS

HSE(HAAGS STARTSTATION ERASMUSLIJN)

DEN HAAG

1. plan 1 2. plan 2 3. longitude section 1 4. longitude section 2 5. section

PROFESSIONAL WORKS

HSE(HAAGS STARTSTATION ERASMUSLIJN)

3 1 4

DEN HAAG

PROFESSIONAL WORKS

THE IDEAL STADIUM

This project is for

devising an initial design tool for the ideal stadium.

The Ideal Stadium

Few things are more annoying than somebody’s hair blocking sight during your favorite football game. To avoid this one has to calculate optimal visibility lines and the maximum viewing distance on which the stadium design can be based. The ideal visibility line of a spectator is expressed in the so-called ‘c-value ‘: the higher the seat, the steeper the slope of the stands. If the section of a stadium would be a parabolic shape, all spectators would have the same maximum C-value (120 millimetres).

However, stands in stadiums usually have only one or two different angles which means spectators don’t have maximum visibility. Another parameter in stadium-design is the maximum viewing distance which is 150 metres. The ideal stadium therefore has an oval shape with higher stands alongside the field and lower stands in the corners. This coincides with the preferences of the public. Another advantage of the circular shape is the possibility of an ongoing wave through the stadium.

The stands have been raised of the ground as a result of which the stadium is accessible on all sides. Under the stands there is space for shops, toilets and other functions. Above image shows gradient color that is result of calculation of C-value and this model shows the calculation graphically. It is a powerful feature of grasshopper that is different from another parametric tool. The input parameters are mainly pitch’s size, number of rings, shape of the stadium, and number of seats.

THE NETHERLANDS

1. parametric stadium model _ checking c-value 2. grasshopper definition 3. grasshopper definition_ parameters

Through the changing input parameter, you can see directly changes of color which shows calulation of C-value. Instead of all number data, grasshoppr shows graphical images and which is more indicatable. Because of the big size of stadium, complicated calculation and a lot of input parameters, it is needed to be very efficient script. To realize this grasshopper definition, a lot of vb script is made and there is no unefficient procedure in this definition. You can check whole stadiumâ&#x20AC;&#x2122;s initial calculation before acutual design through very fast way.

PROFESSIONAL WORKS

THE IDEAL STADIUM

Parametric model input: pitch size(pitch lenth, pitch width, corner radius, ext) , rings(number of rings, overhang distants, ets) seats(first row height, step depth, eyeheight,ext)

Parametric model output: number of seats, C-value, stadium shape through input parameter

Objective: To get the ideal visibility line for spectators on every seat of the stadium

THE NETHERLANDS

PROFESSIONAL WORKS

G BRIDGE

Gingelom Bridge

BELGIUM

what I did was

Parametric Modeling of the bridge

To experience the landscape from the road to enhance the landscape is extended over the bridge. By continuing landscape is the spatial quality of the bridge. The bridge in the Low Street has a very specific design. The design offers the possibility of smooth transition between landscape and the bridge. The bridge is mainly composed of precast concrete beams with a deposited coating. In terms of abutments is a large degree of freedom possible. For example, a standard bridge to the usual upland abutments are used. The bins in tree design can be omitted or replaced elsewhere by standard beams, allowing a greater lateral width is reached. The stainless steel balustrades with filling forms and making a constant relationship between the new bridge felt.

The core of the bridge consists of 6 standard precast reinforced concrete U-beams. These are associated with long arms and a paid work in the deck. Above this central girders are the roadway, gutters and sidewalks. On the outer sides of the two pavements are wider and deeper precast U-beams which trees are planted. The bins are being paid to a concrete edge beam and form a basis for the torsional stiffness parapet to confirm. The bridge is supported by the abutments and a V-shaped disc in the central work of the poured concrete.

PROFESSIONAL WORKS

G BRIDGE

“all elements of the bridge shape are linked together, if one thing changes, the other things also change, then what’s the intelligent way of modeling this bridge?” This bridge is a very simple project, but through the conventional way of 3dmodeling method, it would be really difficult to get the right form and shpe of the bridge. Firstly the one thing that should be sure is that the side surfaces of the bridge sould be single curved surface. Actually there are curved shape on the side parts of the bridge and to achieve this part as single curved surface the only way is using boolean tool through the cone surface, and this is also related to the arc shape of the beneath part of the bridge, and the inbetween inclination of the bridge. Therefore in this simple bridge, all parts of the bridge shapes are linked togeather. If one thing change, the other things also change. Grasshopper is kind of “really intellegent way of modeling method” I would say, otherwise you have to do all modeling again and again to achieve the right shape.

BELGIUM

1. generated model by grasshopper 2. the grasshopper definition is made to control curvature and shape of arc, height, width and length of bridge, and etc 3. rendering image 4. grasshopper definition 5. handrail curvature control

2 4

STUDIO WORKS

GRADUATION WORK

B Market _GRADUATION PROJECt _ROTTERDAM

3 1. scenery of market day 2. one image in the ongoing project 3. concept model

ROTTERDAM

This new urban square is derived from traces of existing urban codes. Those codes are kind of immanence memory of this site. This memory is related to our present situation, because when we perceive something, actually our memory influence us how to perceive it. Perceiving is the present operation, but our memory that is the duration of our past influences, so the past memory is related to the present situation. In the procedure of concept development the ‘memory’ code is re-writed and re-adjusted, and additionally ‘wish’ code is added.. The ‘memory’ code is a kind of the existing code which comes from this site’s context but the ‘wish’ code is the thing that is suggested for future situation. Through the combination of those two codes the new urban square is suggested.

This square will be a totally different square but it will correspond with our memory so it will give a new effect of perception to the people. My aim is to make this site more dynamic and to integrate all the parts of architecture into a whole concept being developed together. The codes that are derived from existing context and from the future expectation give new architectural language for generating form. From this new kind of language, code, new geometry would comes out. This new geometry will combine all aspect of architectural quality (space, structure, aesthetic value and etc).

STUDIO WORKS

GRADUATION WORK

â&#x20AC;&#x153;Curvilinearity is a more sophisticated and complex form of organization than linearity in two regards: (1) it integrates multiple rather than single entities, and (2) it is capable of expressing vectorial attributes, and therefore time and motionâ&#x20AC;?

ROTTERDAM

1. rendering image showing blaak station 2. diagram, from the daily life, image, the memory code is generated 3. diagram, to define the logic wish code 4. relationship between memory code and wish code 5. site view 6. concept diagram, existing system 7. concept diagram, new system

1 5 6

2 3

STUDIO WORKS

GRADUATION WORK

ROTTERDAM

1. urban pattern through the surrounding attractors 2. urban pattern diagram through the different time

STUDIO WORKS

1 2

3 4 5

1. urban pattern diagram through the different time 2. program configuration 3. activity and density diagram > assume people’s path and movement 4. activity and density diagram> assume people’s path and movement 5. activity and density diagram> assume people’s path and movement

GRADUATION WORK

ROTTERDAM

STUDIO WORKS

GRADUATION WORK

3 1

2 5

1. rendering view, market day 2. rendering view, non market day 3. market stands, detail view 4. parametric logic of market stands 5. multiple usage of market stands

ROTTERDAM

STUDIO WORKS

GRADUATION WORK

ROTTERDAM

STUDIO WORKS

GRADUATION WORK

ROTTERDAM

STUDIO WORKS

GRADUATION WORK

â&#x20AC;&#x153;Fold_ This logic sought to displace the fragmentary collage of opposition and contradiction characteristic of the angular forms of architecture, through the integration of difference caused by continuous variation inherent in curved and flexible formsâ&#x20AC;?

2 1

8 3

ROTTERDAM

1. partial physical model 2. partial physical model 3. building surface study, to develope realistic way of surface system 4. surface study, double curved surface 5. surface study, double curved surface but window frame is planar 6. surface study, trangulation, always planar 7. single curved rectangular surface, planar 8. grasshopper definition, to generate single curved skin system

STUDIO WORKS

GRADUATION WORK

4 1

1. physical model 2. rendering image 3. interior view 4. rendering image, entrance

ROTTERDAM

STUDIO WORKS

GRADUATION WORK

ROTTERDAM

2 3

1. detail drawing 2. physical model picture 3. physical model picture

STUDIO WORKS

GRADUATION WORK

ROTTERDAM

STUDIO WORKS

MASTER 3

Mnemonic Membrane _HYPERBODY STUDIO,MASTER 3

This generated surface is the result of a ‘parametrical logic’ development, to produce not only the upper-exterior plane of the surface but also the structure of it. Therefore, the geometry surface emerges through the parametrical logic by dividing, setting points, adding curves, adding vectors, and adding surfaces to the basic component; process which is programmed with the use of Rhino Scripting. The final result of this parametrical progression, after testing and analyzing each step, is the population of the skin component and the space frame of the surface into a curvature. As it is specified before, the three components are also populated in the emerged curvature according with sustainable concept. For that reason, each one of these modules are positioned as follows: LCC is located in the upper level of the curvature looking for the optimization of sun light inside the building; WCC on the lower level of the skin to catch gray water from the top and store it in tanks for later use, and EGC on the medium level to take advantage from the water flow and wind, then to transmit it as energy to the membrane. Each one of all these components is going to get its particular and general purposes

by the opening and close of their internal pieces, again they are actuating like stomata. Light, Energy and Water are the elements producing movement into the three components; which are going to open and close according with the values-parameters of these factors. An optical moisture detector determines a value corresponding to ambient light conditions and compares that value with a predetermined value. The detector includes an optical moisture sensor and a processor. The optical moisture sensor can be a photo array, a CCD or a CMOS. The processor can be a microprocessor, which can emit a control signal to control the opening degree of the flap and closing or opening the water collector component. All of these components are powered by the battery supplied by the energy generator component. The materiality of this membrane is defined according with all the previous exposed requirements: Neoprene polychloroprene (synthetic rubber) for the skin, telescopic arms for the movement of the structure, laminated double glass, hollow steel ‘bone’ structure, hollow steel ‘bone’ space frame fitted with utilities.

1. overal shap, when this skin system is adopted to building surface 2. partial modeling image 3. interior view

SKIN AND BONE

3 1

MASTER 3

STUDIO WORKS

1. mnemonic membrane section view, interactive feature of skin component. adaptation of evironment 2. diagram of different skin components, logic of differentiation 3. rendering view 4. three differents components

SKIN AND BONE

STUDIO WORKS

MASTER 3

2 5

1. partial model 2.initial diagram do make the generative logic of skin component 3. study of adoptation through surface curvature 4. diagram of parametric logic for skin component 5. initial model, to define parameter for one component

SKIN AND BONE

STUDIO WORKS

MASTER 1

Link To The City _HYBRID BUILDING STUDIO,MASTER 1

This area is a complex urban site at the southern corner of the ancient city, there where the river Amstel turns into the Rokin street. This is a historically layered location with specific qualities between Kloveniersburgwal, Nieuwe Doelenstraat, Oude Turfmarkt, and Grimburgwal. The most buildings in the area of the Binnengasthuis complex are actually used by the University of Amsterdam. Up till 1980 this was the location of the Amsterdam Academic Hospital to which the area owns its name of Binnengasthuis. In the Middle Ages this was the location of two cloisters with the related religious complexes. After the ‘alteration’ in 1578, when protestants took the power in the city, all religious properties were turned into civic goals like orphanages, habitations for elderly people and hospitals. The former religious complexes of this area were therefore given to civic institutions and developed into hospitals. This was the first step towards the Binnengasthuis hospital complex and the reason of the actual University occupancy. In its first period after the alteration the area kept on developing according to the cloister model, as a series of courtyards connected by a network of alleys. It is from the XIX century that major changes occurred. A large part of the building were then demolished making room for ‘modern’ hospital buildings conceived as architectural objects in an ‘open’ public space setting.

AMSTERDAM

Characteristic of the binnengasthuis area There are many public spaces in this University, but actually this is not public space, because this areaâ&#x20AC;&#x2122;s urban structure is very closed, so if people come into here, it could be very inconvenient place for them. There are three facts that make this area very close. These are the canal,massive building block, and inner building &courtyard structure. Because of these facts, this University has its own chracteristic and it havenâ&#x20AC;&#x2122;t communicated with the other parts of city as well.

STUDIO WORKS

MASTER 1

AMSTERDAM

STUDIO WORKS

MASTER 1

AMSTERDAM

STUDIO WORKS

MASTER 1

AMSTERDAM

STUDIO WORKS

MASTER 1

AMSTERDAM

COMPETITION

2008(BUILDING FOR BOUWKUNDE)

DELFT

Building For Bouwkunde _COMPETITION

2 4

1. before staring group work, individual people had to suggest their own idea, and this one is designed by only ND 2. 3d model image showing surounding 3. close view 4. group work result 5. submition model of competition

De Architekten Cie

2010~

South Korea, Seoul

Workshop _HYPERBODY STUDIO

2 3

1. bus station _ fabrication workshop 2. bus station _ rendering image 3. bus station _ physical mode made by laser cutting 4. interactive tinkering workshop _ made interactive skin system with programer 5. rendering image 6. physical model _detail view 7. test of the sensor responding human body 8. physical model_joint detail

Technical Study

_MASTER 1

Nam Dongho

e-mail: and0324@hotmail.com phone: (+31) 06 5059 9612