2014 portfolio kennethchun by Kwok Tung Chun

2014 Portfolio CHUN KWOK TUNG

Content Curriculum Vitae

.............................................................03

Show Case Professional Works 01. Interior Design

...........................................................07

02. Competition

...........................................................19

03. Architectural Design

...........................................................29

04. A&A works

...........................................................39

05. Others

...........................................................43

Academy Works 06. Graduation Thesis

...........................................................49

07. Master Course Mid-Term Design ...........................................................63

Chun Kwok Tung (Kenneth) obtained his master degree from Delft University of Technology(TU Delft), The Netherlands, in 2010. In TU Delft. Kenneth specialized in Hyper Body Studio, which focus on exploring the field of computer Aided Architectural Design. Attempt to realizing the computational design methods and approaches into real construction with the help of not only the CAAD tool, but also the plenty of physical models. Different scales of prototypes done by leascer cutting, CNC milling, that helps to study the ways of digital manufacture regarding construction. In addition, Kenneth has a few publication experiences. His Msc2 team work in TU Delft was published in AWM magazine issue 29. And his selfpractice interior design project - ProtoWall has been published on several famous Design/Architecture web daily, such as eVolvo.us , SuckerPunchDaily.com and MakeaHybrid.org Kennth recently won a competition, YOU RESHAPE COMPETITION. He has been selected one of 10 winners, and thus the project will be prototyped in cooperation with a board of fab-labs and manufacturers.

[Edcation] 2010

Master of Science for Architecture Delft University of Techonolgy, The Netherlands

2006

Bachelor of Science for Architecture HuaFan University, Taiwan

[Professional Oct 2012 - Present

Architectural Designer at VPANG Architectects Ltd. Hong Kong

P&T Architects and Engineers Ltd. April 2011 Hong Kong - Oct 2012 Project Designer at J. A. Chen Architects & Associates Mar 2007 Taipei, Taiwan - Jan 2008 Architect Assistant at Haigo Shen & Associates, Architects and Engineers Sept 2006 Taipei, Taiwan - Feb 2007 Intern at Arctangent Architecture + dESIGN Jun 2005 Taipei, Taiwan - Sept 2005 Intern at Shu Chang Associates Architects Jun 2004 Taipei, Taiwan - Sept 2004

[Personal Information] Name

Kwok-Tung Chun

Date of Birth

26 - 08 - 1981, Hong Kong

Nationality

Hong Kong, China

Contact

fatchun_hk@msn.com +852 97605232

Language

Native Cantonese, Native Mandarin and English

Specialized

Architecture Design, Computer Aided Architectural Design, Digital Fabrication and Construction and Structure Theory

3D skill

Rhino, Grasshopper, SketchUp, EcoTect, GSA anaylsis,

[Publication and Exhibition] 2011

Architect and Fabrication Engineer of the project ProtoWall Published on wed publication : eVolvo, SuckerPunchDaily and MakeaHybrid

2009

One of the group member and editor of the project Proto Space 4.0 Published in AWM magazine,issue 29,The Netherlands

2006

Head editor of Graduate protfolio of student works Department of Architecture, HuaFan University, Taiwan

2006

Graduate thesis was selected to exhibited in XinYi Public Assembly Hall Taipei, Taiwan

[Award] Qualification

Registered Architect in Netherlands, by Stichting Bureau Architectenregister, 2010 Register Number : 1.100701.011

2014

YOU RESHAPE Competition - Honorable Mention

Professioinal Works

01.1

PotoWall

Interior Remodelling project

Hong Kong winter 2010

Architects : Kwok-Tung Chun Parametric Associative system design : Kwok-Tung Chun Digital Manufacturing Engineering : Kwok-Tung Chun Digital Fabrication : Wang-Sang Laser Co., Ltd. Location : Tsuen Wan, Hong Kong Client : Sei-Wah Chun Published on eVolvo.us

, SuckerPunchDaily.com and MakeaHybrid.org

This is an interior remodeling project recently finished in a flat of an old public rental housing in Hong Kong. Public rental hosing generally is the government founded huge communities composited with several large buildings, of which embedded in thousands flats. In each flat, the area is very small and insufficient to partition off rooms for every dweller, nevertheless, one of three families has got to live in such low quality areas in Hong Kong. This project shows how it is done to partition off two rooms in such small and difficult circumstance, also a temporary room for domestic helper within an inadequate area of 4.4 by 7.2 meters. Hence, the aim of this project is to form the rooms as good as possible within the limited space provided, in terms of spatial quality.

Triple layer wall :

On the original plan, it is not possible to create two rooms which have widows toward outdoor, so I curved the new created wall for setting a window and door at 45 degrees in order to introduce sunlight and air flow into one of the rooms. In the other room, I patterned the wall with specified openings which insulates the sight but light and air-flow are still able to get into the room. Therefore the nature lighting and ventilation can be satisfied in both rooms. In order to properly pattern a vision of opening on the wall, I set up an array of points, based as the centers of each opening. The position of points would be modified by the value of parameters, which came out from the sunlight analysis. The logic is that, the area collects more sunlight would be placed bigger oping, less sunlight the openings would be smaller. On the other worlds, the points were concentrated to low value area, but relatively stable in high value area. Moreover, by utilizing a new invented opening logic, the space behind the wall can gets light and ventilation with intrusion of sight

Solar Indication :

Triple layersâ&#x20AC;&#x2122; wall allows light leak through it

Direct sunlight analysis :

Reflective sunlight analysis :

Total amount of sunlight :

Sunlight leak into room in morning

Air Flow :

8hr

4hr

0hr

Photo shot form window side

B'Bsection

A'A section 7400

2000

80 2

67 6

4400

755 1985

1200

REF. 2000

1050

1820

535

1995

Plan

The entire creation consists of customized furniture, reflective wall penals and a hollow partition wall. All of them were fabricated in factory and then assembled on site, especially the partition wall which was assembled with wooden boards and manufactured by CNC machine as an outcome of contouring process. All the pieces of boards would be assembled into several large components, and finished with polishing and painting before shipment to the site. In a nutshell, this is somewhat a low budget and experimental project which tests the capacity of pre-fabrication in an interior design by utilizing CAD and CAM tools

Light leak from the bedroom

Reflective panels reflecting sunlight into living room, then leak into rooms

01.2

WanChai Hotel

Hong Kong spring 2014

01.3 Hotel Lobby and Rooms Design

Lux Theatre

Hong Kong spring 2014

Cinema Renovation

簡單及窗明几淨的地方，遠離繁囂，以

M+ Services

Ventilation

Victoria Harbour

SITE PLAN

1:500

02.1

Arts Pavilion

Competition, 1st prize

West Kowloon Art and Cultural District, Hong Kong winter 2013

Project director : Vincent Pang, Lisa Cheung, Tynnon Chow Principle Architectural Designer :Vincent Pang, Lisa Cheung, Tynnon Chow, Kenneth Chun VPANG Architects Ltd.

。

Space felt bigger when we were young. Perhaps from a child?s perspective, everything seemed bigger and taller. However the blatant reality remains that our living space has indeed shrunk. Simple happiness has been taken away by stressful and hectic lifestyles ?we yearn for a release outlet; we yearn to regain a sense of balance.

SOUTH ELEVATION

1:200

The original Park City goal is to balance and regulate - Culture brings us ediﬁcation, leading us away from the chaos of the commercial world. The park, besides serving an important role to uplift and cleanse the city, also provides visitors a platform for observing and appreciating Hong Kong through fresh eyes. As such, we felt that the pavilion should be simple, pure and clean space. A space situated away from city noise and pollution, a space that gives us a chance to open our hearts, relax our minds, and appreciate artwork amidst the backdrop of Hong Kong. An open platform where art could be displayed, promoted, shared and embraced. It would belong to the city, near and dear to the heart of Hong Kong.

NORTHWEST ELEVATION

1 2 3 4 5 6 7 8 9 10

1:200

Indoor Exhibition & Events Outdoor Exhibition & Events Ofﬁce Store Disable Lavatory Female Lavatory Male Lavatory Potential TX Room, Switch Room, FS & Sprinkler Tank & Pump Room Landscape Berm Rolling Lawn B

3 6

4 5

4 7

1 2

N B

GROUND FLOOR PLAN

FIRST FLOOR PLAN

1:200

Ventilation

Victoria Harbour

Outdoor Exhibition & Event Space

Indoor Exhibition & Event Space

Potential TX Room, Switch Room, FS & Sprinkler Tank & Pump Room

SECTION A-A

1:200

Services

02.2

Exihibition Centre of Lighting Products

Zhongshan, China ng 2012

Through an innovative and unique facade design conceptualising the Chinese

Competition

lantern adorned with carousel of paper horses, the two halls are seamlessly i n t e g r a t e d i n t o o n e , u n i t i n g t r a d i t i o n a n d m o d e r n i t y. T h e h a l l s r o t a t e a t alternate angles to draw people towards the entrance, while the semic i r c u l a r m a i n e n t r a n c e a p p e a r s t o e x t e n d e n d l e s s l y. T h e g r e e n p o d i u m / sky garden in Hall A, juxtaposed with the glass ceiling of Hall B, brings harmony between the townâ&#x20AC;&#x2122;s culture and the environment, thus creating an extraordinary exhibition space.

Project director : Vincent Pang Principle Architectural Designer :Vincent Pang, Chun Kwok-Tung VPANG Architects Ltd.

02.3

ChangChun Museum for Culture, Fine Art and Science

Competition, 2nd prize

ChangChun, China winter 2007

Project director : Nan-Jie Wu Principle Architectural Designer : Kwok-Tung Chun, Mon-Lin Chaing Haigo Shen & Partners

South-West view

Mass of Science Museum

03.1

Commercial Complex

Office Tower and Shopping Mall Tai Lien, China winter 2011

Project director : Ling Li Principle Architectural Designer : William Chi, Kwok-Tung Chun P&T Architects and Engineers Ltd.

32 03

03.2

Tai Lien Xintiandi

Shopping Mall

Tai Lien, China winter 2011

Project director : Ling Li Principle Architectural Designer : William Chi, Kwok-Tung Chun P&T Architects and Engineers Ltd.

03.3

Devonia House

Sai Kung, Hong Kong 2013

Single house design and build

The architecture intends to blend into the natural environment of the site. The building uses a series of wooden louvers to mimic the rhythm of the surrounding forest, while private programmes appear as ﬂoating “tree tops” above the louvers.

Project director : Vincent Pang Principle Architectural Designer :Kenneth Chun VPANG Architects Ltd.

03.4

Lux Manor Hotel

Tsim Sha Tsui, Hong Kong 2013

Hotel design and BD submission

T h e l i n k a g e o f K i m b e r l e y R o a d a n d K u n t s f o r d Te r r a c e t h r o u g h t h e r e d e v e l o p e d Luxe Manor Hotel, is the looping concept generated by the advantage of the unique site context. Spiral passages are designed to draw visitors up, through spaces of retail,F&B and green decks. Pocket spaces are allocated on different ďŹ&#x201A;oors to link up various functions together with greeneries stretched throughout the linkage space. New impressions are brought to the site, encouraging interaction between levels, inside and outside the building.

Project director : Vincent Pang Principle Architectural Designer :Kenneth Chun VPANG Architects Ltd.

04.1

Wilshire Towers

External Renovation

Hong Kong 2012

Project director : Vincent Pang Principle Architectural Designer :Kenneth Chun VPANG Architects Ltd.

04.2

Beverley Hill

Hong Kong Winter 2013

External Renovation

Rodson Heights

Kuala Lumpur, Malaysia 2013

Elevation design

05.1

Beverley Hill

Hong Kong Winter 2013

The proposed packaging design for the Leica camera performs both as a storage box as well as a display stand.

External Renovation The gentle curves and protruding points of the design are inspired by the shape of the Chinese dumpling, while the red seam that wraps around the body mimics the red string traditionally used to tie the dumplings.

The form of the traditional Chinese dumpling has been reinterpreted through advanced digital design software, blending the qualities of East and West. Stainless steel is the proposed material for the main body, enhancing the sleek quality of the design while also cool and smooth to the touch.

05.2

YOU RESHAPE COMPETITION

Hong Kong Spring 2014

Selected project to be prototyped

Academy Works

Temple Extension

A Hybrid Stage for the activities beyond religion

ShiLin district, Taipei City, Taiwan Spring - Summer 2010

Individual Work: Kwok-Tung Chun Design Tutors : Dr. Nimish Biloria, Henriette Bier Structure Tutor : Martin Sobota Graduation Project, HyperBody Studio, TU Delft

Circumstance of the site :

The site is surrounded by residential building but busy for commercial activities due to the famous night market that attracting thousands people every single night. Thus, visitors, venchles and vendors are much influencing the site. Four features were therefore pointed out with respect to factors relating to the quality of the activities.

There is a main Temple in central areas each community in itâ&#x20AC;&#x2122;s initial composition in Taiwan. It implies the importance to inhabitants while residents not only taking religious activities in temple but also placing their social life around the it. That is why a night market always nearby the temple supplying foods and commodities as subsequent activity of temple events, and daily social life. Moreover, they doing other activities like tea drinking and opera performing as part of social life communicating with neighbors The site is located in ShiLin district where is super famous because of the night market. As one of early expansion area of Taipei city, there is a old local temple set in the central of the community and nearby the night market. However the night market was getting famous and became a tourist point, the temple no longer function like before as all the open space was fully occupied by transitory vendors. So the residents lost their social life between their community and the attentions of religious events also dropping . Fortunately, the government has preserved a place in front of the temple for re-building the community activities.

Flow of people

Flow of cars

Flow of motorcycles

Temple activities ans Social activities around temples :

Resources points of noise

Religious Performance 65% residents

Private Concert 100% residents

35% tourists

85 ppl

620 ppl

people

3 hrs

duration

people duration 76%

10%

30/year

cycle necessity factor

280/year

cycle

70%

90%

necessity factor

proportion of activities : people x duration x cycle x necessity x 100%

Accessibility

Data Mapping : The data collection were divided to four conditions with respect to the requirements of the activities. The data were collected respectively to three time period, due to the activities are taking different times, then mapped on the site regard as 2-D spatial parameters for the simulation later. Morning

Tea Drinking

Parade 65% residents

80% residents

35% tourists

180 ppl

620 ppl

people

11.5%

2.5 hrs

1 hrs

duration

13.5%

cycle 10%

necessity factor

90%

duration 75%

10%

30/year

20% tourists

people

24%

295/year

4.5% 5% 41.5%

cycle

80%

necessity factor

100% 87.5%

Afternoon

75% 62.5%

Vendoring

Opera 85% residents

15% tourists

people duration

350 ppl

residents

necessity factor

65% tourists

people

6 hrs

2.5 hrs

duration 100%

10%

cycle

35% residents

430 ppl

365/year

30/year

20%

70%

50% 37.5% 25% 12.5% 0% -12.5%

cycle

necessity factor

-25% -37.5% -50% -62.5% -75%

tourist

-87.5% -100%

*necessity factory is a comparison between the activities in terms of social life on of community

Night

Capacity of capture

Visibility

Acoustic insulation

The data from the four factors were converted to different symbols with different size. Different shape of symbol represents different factors while the bigger symbols indicating higher values. Then the four factors of symbolic mappings were combined into one by three times division. The data are extracted form each combined mapping which meets the requirements of different activities, as well as distinguishes the ideal region for each activities.

Program Requirements :

Data Combination :

Religious Performance and Parade

Morning

Data Merge respecting program requirements :

Data Extraction : Morning

Afternoon

Night

Opera

Afternoon

Finally, the extracted data merge together with its specified regions into one entire mapping. The shape of symbols, the size of symbols and the positions of symbols on the mapping work as parameters and attractive zone of the swarm simulation later.

Vendoring

Night

Tea drinking 100% 87.5% 75% 62.5% 50% 37.5% 25% 12.5%

100% 87.5% 75% 62.5% 50% 37.5% 25% 12.5%

0% -12.5% -25% -37.5% -50% -62.5% -75% -87.5% -100%

Access.

Swar m Simulation : Step 1 : Randomly fill into site

Step 2 : Particles were attracted into their belonging zones

Step 3 : Higher value of parameter were attracted more particles

Step 4 : Particles were going up or down depend on the requirements of their belonging program,and the distance depends on the value of parameters

Vissibility

Capture

Acoustic

Point-Cloud :

Mesh :

Groups of point :

Four groups of 3D pointcloud were generated from the simulation, the shape of them of generally reflecting the geometries which satisfy the requirements of the activities. But nevertheless, the points should be respectively convert to geometries with respect to specific needs.

Urban Impact : Stage for performance

Vendoring area

Tea House and food core Terrace

Religious Performance and Parade

Pavement

Terrace

Pavement for Parade

Bridge

auditorium Opera

Tea Pavilion

Stage

Tea Pavilion

Path connecting second floor of the Pavilion

Vendoring Place

Canopy

Vendoring

Supporter

For m finding : Extract Profile lines

Tea Drinking

Roof Slaps

Structure inspiration

Casion Ceiling

Parametric Roof refer to Point-Cloud 1.Original points

2.Project to surface with closest distance

3.Divide to certain layers

4.Evaluating Tendency

5.Creating plane and generating planar curves

This is series processes that parametrically generate the panel curves from the basis shapes with parametric interval between the curves refer to the point-cloud, and even refer to the parameters that gathered from the mappings in early. These curves are sequently used to generate the structures which inspired from casion ceiling in traditional Chinese building

Smoothing Curves

Creasing Edges

Basis shape of geometry

A’

01. Vendoring area 02. Terrace 03. Performance area and Path 04. Administrant tea house 05. Theater 06. Stage 07. Rehearsal room 08. Toilet 09. Food court 10. Open tea house

+1350

10 9 1

+700

+350

G’

-290

F’

Ground Floor Plan

First Floor Plan

B’B Section scale: 1:100

Second Floor Plan

Materials : D’

C’ B’ 5

10 6

Wooden Panel:

8 7

Wooden Strip:

Bamboo Pipe:

Concrete Beams:

Prefabricated panel spay with concrete:

Concrete foundation:

View of first floor

C’C Detail G’G Detail

F’F Detail prefabricated panel

concrete spray

Continuous slaps with organic form :

Tea drinking area in ground floor

Pre-fabricate panel paste with concrete

D’D Detail scale: 1:20

View from entrance

A’A Section

PoroSCity

Beijing BaiTaSi district regeneration

Beijing, China winter 2009 - spring 2010

Team work : Kwok-Tung Chun, Aurelie Hsiao, Junjie Yan, Yang Shi Tutors : Nimish Biloria, Marco Verde Hyperbody Msc 3 project, TU Delft

The selected site is located in Baita Temple District, where preserve a large group of traditional residential typologies called SiHeYuan. Alleys were formed by arrays of SiHeYuan called HuTong, which is narrow and organic. Over the last decades, China has been facing major problems resulting from rapid urban growth. Great efforts were made to solve the dramatic housing shortage and to improve the appalling living conditions in overcrowded area by the central government. The old SiHeYuan Unite can not afford such a high dense living condition. Therefore, there are many spontaneous activities inside the courtyard, along the HuTong, even going to the second floor. That is why many original residents have moved out there, but migrant people, floating workers, fresh graduated people and others lowincome people moved in instead.

Current condition :

Parameter Mappings :

population density

sunlight demand

acoustic condition

accessibility

Overlapped mappings

SiHeYuan :

Family A extended bedroom

Family A extended storage room Family B extended kitchen Family B extended toilet Family D extended kitchen Family C extended kitchen

Family C extended toilet Family C extented storage room

5.85 people / unite in 1500

17.5 people / unite in 2009 Family D illegal parking

According to the overlapped of the mappings, a intervention boundary can be defined, where indicating the worst conditions through a superimposition process. The parameters of selected site are used as the basis for a series of simulation experiments in Virtools later.

Beijing Baita District : parameter selection

The site is inhabited by 5 types of people: floating workers, white collars, small business owners, students and retired people. Each of them has different life habits and needs / acceptance

Site requirements

Users demand

Floating Worker

White Collar

Small Business Owner

Student

Retired People

33% Acoustic condition 60% Accessibility Density Public Space

93% 86% 63%

Sunlight Acoustic condition Accessibility Density Public Space

58% 45% 52% 33% 23%

Sunlight Acoustic condition Accessibility Density Public Space

41% 68% 98% 88% 23%

Sunlight Acoustic condition Accessibility Density Public Space

80% 42% 53% 41% 83%

Sunlight Acoustic condition Accessibility Density Public Space

33% 12% 23% 34% 87%

307 h

3550 db

325 steps

4000 sqm

Base on parameter configuration setting, we are drawing different spheres representing amount of sunlight, acoustic, density, etc. These can be seen as the attractor or repellent points within a force field for the partiles.

Candidate :

EXP 01 CLUSTER AGENT 400

The particles behavior is defined by the input parameters location and value. Each particles searches in all directions for the closest influential spheres. The size of spheres represents the demand for either density, sunlight, noise condition or accessibility. The distance of each particle within different Force Fields define the relationship between each of the particles and their closest neighbour.

Selected Point-Cloud :

CLUSTER AGENT 1000 L01

2.5

-30.3695, 3.8544, 36.9237

L02 6.6 7.8526, 5.2817, 7.6187

L02

2.8

-7.7607, -0.9664, 37.4378

L03 4

L03

2.4

-7.3548, 2.5010, 20.9109

L04

10.3

13.2679, 9.5149, 4.3525

L05

2.6

9.7597, 20.5166, -1.4242

L06 5.2 -15.1283,1.7531, 39.8937

L06

6.6

2.7903, 32.7897, -4.6468

N01 6

L07

10.7210, 4.3236, -21.0267

N02 6.5 -16.6764, -4.854, -10.0307

N01

5.1

-16.3059, 1.7678, 56.7448

N03 6.9 18.7312, 3.4985,-46.0756

N02

6.9

20.4854, 3.4985, 36.7229

A01 3.9 -17.1930, 2.7988, 49.1192

N03

6.4

-2.8109, 3.9650, 7.0345

A02 4

22.8970, 2.7988, 21.1544

N04

6.1

15.3488, 3.9650, -6.9433

A03 3.7 17.5147, 2.7988,14.7019

N05

6.8026, 3.4985, -34.4977

A04 4.2 -18.3058,1.3994,7.3836

A01

3.8

-17.1930, 2.7988, 49.1192

A05 7.4 13.9335, 4.1983, -6.3543

A02

2.9

5.1508, 2.7988, 34.8967

A03

6.8983, 2.7988, 21.4210

A04

3.1

-18.3058, 3.9650, 7.3836

A05

7.4

-18.5968, 4.1983, -11.1674

A06

6.8

7.0122, 4.1983, -14.4119

10.0793, 4.3236, -26.1609

L04 4.3 -3.8754, 2.5010,13.9522 21.9057, 3.8544, 29.9069

L05 7

Force fields configuration:

EXP 02

L01 10 -0.8510, 13.4017, -9.3394

-5.7945,1.7186, 35.2693

EXP 03 CLUSTER AGENT 800

EXP 04 CLUSTER AGENT 800

L01

2.6

-8.1115, -0.9664, 35.3327

L01

2.6

-2.7340,-0.9664,44.9250

L02

2.4

-0.7810, 3.8544, 30.8439

L02

2.4

-0.7810, 3.8544, 30.8439

L03

2.5

2.6509, 2.5010, 15.6841

L03

2.5

12.2662, 2.5010, 21.5774

L04

6.6

11.5627, 28.8853, 5.2095

L04

6.6

14.8676, 32.5294, 8.4252

L05

3.2

9.7597, 20.8763, -1.4242

L05

10.3

0.0445, 7.8230, 0.6010

L06

10.3

-16.5997, 9.5149, -11.6266

L06

2.6

-0.5734, 4.3236, -8.9889

L07

3.5

4.9048, 9.8068, -13.3793

L07

6.3

10.2007, 9.8068, -29.4594

L08

5.1

10.5717, 4.3236, -19.3840

N01

5.1

-29.6766, 1.7678, 52.0509

N01

5.1

-38.5141, 1.7678, 53.3744

N02

6.5

21.8628, 3.4985, 31.6580

N02

6.5

22.0690, 3.9650, 31.5859

N03

6.9

-9.9586, 23.7470, 19.5089

N03

6.9

1.9675, 3.4985, 22.9839

N04

6.1

-18.8434, 3.9650, -5.1456

N04

6.1

-14.5442, 11.3833, 4.9239

N05

20.0799, 3.4985, -46.6259

N05

14.5682, 3.4985, -48.5355

A01

3.9

-12.8742, 2.7988, 33.3333

A01

3.9

-13.3102, 2.7988, 51.2099

A02

2.9

5.1508, 2.7988, 34.8967

A02

2.9

5.1508, 2.7988, 34.8967

A03

18.3283, 2.7988, 27.1763

A03

24.2215, 2.7988, 25.0052

A04

7.4

17.2443, 4.1983, 16.1615

A04

7.4

17.2443, 4.1983, 16.1615

A05

4.3

-12.6376, 1.3994, 4.1888

A05

4.3

-6.8067, 1.3994, -1.8753

A06

6.8

9.8497, 4.1983, -3.6596

EXP 05

13.5717, 4.1983, -9.2427

EXP 06

CLUSTER AGENT 400

CLUSTER AGENT 500

L01

2.6

-2.7340,-0.9664,44.9250

L01

2.6

-2.7340,-0.9664,44.9250

L02

2.4

-0.7810, 3.8544, 30.8439

L02

2.4

-0.7810, 3.8544, 30.8439

L03

2.5

12.2662, 2.5010, 21.5774

L03

2.5

12.2662, 2.5010, 21.5774

L04

6.6

1.5018, 2.5010, 13.9290

L04

6.6

1.5018, 2.5010, 13.9290

L05

2.6

2.6349, 2.5010, 4.2977

L05

2.6

2.6349, 2.5010, 4.2977

L06

2.2

-9.8291, 2.5010, 0.3319

L06

2.2

-9.8291, 2.5010, 0.3319

L07

3.6

14.8676, 17.5659, -1.5298

L07

3.6

14.8676, 17.5659, -1.5298

L08

6.6

-0.5734, 4.3236, -8.9889

L08

6.6

-0.5734, 4.3236, -8.9889

L09

7.4

-14.0263, 32.5294, -13.3869

L09

7.4

-14.0263, 32.5294, -13.3869

L10

2.6

10.8116, 20.7769, -22.4637

L10

2.6

10.8116, 20.7769, -22.4637

L11

2.1

10.2007, 9.8068, -29.4594

L11

2.1

10.2007, 9.8068, -29.4594

N01

5.1

-29.6766, 1.7678, 52.0509

N01

5.1

-29.6766, 1.7678, 52.0509

N02

6.5

2.0543, 3.4985, 21.9953

N02

6.5

2.0543, 3.4985, 21.9953

N03

6.9

-17.9936, 3.9650, -0.0467

N03

6.9

-17.9936, 3.9650, -0.0467

N04

6.1

5.5017, 9.8317, -16.9089

N04

6.1

5.5017, 9.8317, -16.9089

N05

20.0799, 3.4985, -46.6259

N05

20.0799, 3.4985, -46.6259

A01

3.9

-12.8742, 2.7988, 33.3333

A01

3.9

-12.8742, 2.7988, 33.3333

A02

2.9

5.1508, 2.7988, 34.8967

A02

2.9

5.1508, 2.7988, 34.8967

A03

18.3283, 2.7988, 27.1763

A03

18.3283, 2.7988, 27.1763

A04

7.4

17.2443, 4.1983, 16.1615

A04

7.4

17.2443, 4.1983, 16.1615

A05

4.3

-15.1871, 1.3994, 8.9442

A05

4.3

-15.1871, 1.3994, 8.9442

2.9428, 4.1983, -4.4114

A06

6.8

2.9428, 4.1983, -4.4114

A06

Architectural program :

Architectural Component :

- 12

Public Space

Point cloud density

90% 90% 100% 10% 100%

70% 40% 80% 50% 20%

33% 50% 95% 90% 63% 60% 40% 60% 30% 40%

95% 10% 30% 30% 90% Outward porosity L

L. 3

L. 1

The generated point-cloud been used ad the based structure system of the components. The size of component and the level of opening influence the quality of the architectural space. In the final building, the components with certain porosity reflected a list of parameter values, which can meet the requirements of different user groups.

L. 1

80% 40% 50% 40% 70%

Urban Impact :

Variety of the opening fits different group of users

Public space on ground floor

The topography green landscape creates different plateaux, which connects the proposed design to the existing urban fabric by integrating the circulation network and by providing large outdoor / indoor public spaces with different qualities to allow various activities occur there.

Open space integrated with neighbor

Section

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