A collection of creative design works by Ruis Dervishi

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research

culture

profile

Ruis Dervishi Via Rizzo 19/8 16035 Rapallo (GE) +39 3489114751 ruisdervishi@gmail.com

Ruis Dervishi is an Italian-Albanian architect and designer, currently based in Genoa. He has received his Master Degree in Architecture at the Faculty of Architecture at the University of Genoa in July 2013 with “summa cum laude”. His ongoing research and design ambitions are focused on emergent technologies in architecture, in the digital methodology relating the profession and its application in performance-orientated and ecological building systems. Previously he has been developing his master thesis in architecture investigating the field of evolutionary computation, developing an algorithm able to generate an organic architectural system responsive to environmental inputs. From October 2011 to October 2012 he has been working at LAVA [Laboratory for Visionary Architecture], a young international architectural practice based in Sydney, Shanghai, Stuttgart, Berlin and Abu Dhabi, which was established as a network of creative minds, exploring frontiers that merge future technologies with the patterns of organisation found in nature. His creations and ideas are greatly influenced by cultural, biological and technological environment with social aspects of 21st century context.

education 2013 Master degree in architecture [110 and honors] | University of Genoa - Facuty of Architecture 2010 Erasmus | Escuela Técnica Superior de Arquitectura y Geodesia de Alcalá de Henares, Madrid 2006 Geometra at Istituto Tecnico Commerciale e per Geometri I.T.C.G.S. - F.Liceti, Rapallo, Genova

experience 2013-2014 Assistant Professor | Fundamentals of computational design | Prof. Andrea Vian 2013-2014 Architect at Manrico Mazzoli Architetto 2011-2012 Intern at LAVA Laboratory for Visionary Architecture 2009 Assistant Professor | Interior architectural design | Prof. Brunetto De Batté 2006 Intern at Geom. Giacomo Bertullo 2004 Intern at Ing. Roberto Casazza

Notes: 1. Please consider this as a collection of samples of projects I have done throughout my educational and professional career. 2. Please keep all the information contained in this document strictly confidential. 3. If you need additional information don’t hesitate to contact me.

personal skills • • • • • • • • • •

Great ability in communication and teamwork. Ability to lead and assist in the production and development of all necessary documents related to the design and building process. Very deep knowledge of ancient construction techniques and sustainable construction materials. Good knowledge of building physics and science of construction. Excellent knowledge of the principles of sustainable design and biomimicry architecture. Very good ability to develop parametric design solutions. Very good skills in digital fabrication and model making. Excellent knowledge of computational design. Great ability in hand drawing and technical hand drawing. Very good skills in audio and video editing and photography.

languages • • • •

Albanian [mother tongue] Italian [mother tongue] English [C1 level] Spanish [C1 level]

hobbies • • • • • • • • • •

Art Sailing Apnea Diving Skiing Technology Photography Chess Ping Pong Basketball

three villas Three Villas is a residential project situated in Sestri Levante. The houses have a partially buried ground floor where the garage and the public part (kitchen and living room) are situated. This part of the buildings perfectly integrates in the landscape simulating the traditional ligurian stone walls. In the upper part of the villas is situated the private part (bedrooms). This part is though as a long - typical house shaped volume that simply leans on the landscape. The bedrooms are situated on the extremities of this volume, connected by an overpass facing the double height kitchen space. Find more at: http://issuu.com/ruis_dervishi

Ground floor volume

First floor volume Garage

Terrain

EXISTING CONDITION

Excavation

HIDE GROUND FLOOR IN THE TERRAIN

Terrain

Bedroom Services

Kitchen

DISTRIBUTE PROGRAM

Push

Bedroom Pull

Living room

Terrain Ground floor

Bedroom Bedroom

Terrain Ground floor

LEAN FIRST FLOOR ON THE GROUND

Ground floor

PULL BEDROOMS OUTWARDS

Garage Services

Pull Kitchen Living room

CREATE DOUBLE HEIGHT SPACE

DIFFERENTIATE SECOND VILLA

DIFFERENTIATE THIRD VILLA

evolutionary automaticity With the rapid increase of urbanization cities are not just growing in size, they are also growing in complexity. Architects have always tried to solve complex problems through rationalization. Bringing order to complexity was wildly accept as the ideal solution. Especially with modernism this concept was elevated to manifesto. In fact, order could be applied (or attempted to be applied) only in small scale. When we start to aggregate ordered elements we will lose control of the system ending up in chaos, and more complex is the system, bigger will be the entropy and faster will be the transition to chaos. In megacities, housing could be divided in two categories. One is self-organized (Slums) and has an unpredictable chaotic organization, the other one is designed by architects (high density modernist buildings) and it has an ordered organization.The proposition of this project is to build a new architectural process that uses computers to create a complex housing organism that mimics natural morphogenesis. The organism must be generated using simple rules and must be able to evolve under certain given conditions. Even in the most complex and apparently chaotic configuration, the organism must keep the initial conditions to ensure high levels of life quality, sustainability and economy. The architect will define only the initial conditions that may change from site to site. The algorithm will generate the organism through evolutionary optimizations to match the given conditions and will provide the needed documentation for construction, from floorplans to building information. Computers can handle huge amount of data and from this information can generate complex solutions. We just need to give to the computer the right instructions, therefore the traditional process will be inverted. Computers will not assist architects anymore in their creations, architects will assist computers to automatically generate the needed solution.

Generative proceSS

Find more at: http://issuu.com/ruis_dervishi

Generation: _35 Starting Cells: _112 Cells: _2112 CA Rules: _24/3

Buildings protection

Wh/m2 1467000+

Cores

Generation: _35 Starting Cells: _112 Cells: _2112 CA Rules: _24/3

1320300 1173600 1026900 880200 733500 586800 440100 293400

Cells

146700

Walkway

25m height

Buildings protection

Grid_7x7 Center_grid_pts

342_generative_pts

232_generative_pts

Roads protection Buildings protection

Buildings protection

Detect the empty lots and setup the grid for Each center grid point is a possible gener- Setup the walkways around the plots and Create a protection volume over the roads Create a protection volume around the ex- Generate the organism with the Game of Life Run evolutionary optimizations to maximize A possible final configuration. the cellular automaton. ative point. delete the generative point situated on the in order to avoid the organism to grow on isting buildings to avoid eventual growth Cellular Automaton rules. The algorithm will the density and the illumination of the organism. walkways. the roads. on them. delete eventual “blinded” or “flying” cells.

kasct campus The KACST Concept master plan sets out a vision for a state of the art research and innovation campus in Saudi Arabia. Cutting edge research has been undertaken to define a modular framework for the campus layout. Following an optimised grid, this system of research laboratories and support buildings allows maximum flexibility.

3.1 Concept Design Drivers

The campus layout and forward thinking design will attract researchers from around the globe through innovative use of pedestrian traffic flow and built form, which, coupled together, create localised microclimates within each building and for finding one’s way in the car park. Daylight, passive cooling and water use have been carefully controlled to make full use of available resources. At the core of the master plan is the KACST Headquarter building. This centrepiece will define KACST within the city skyline. Key elements of the master plan passive design strategy are the primary reduction of heat loads and the appropriate response to issues such as dust control. The master plan shading system plays a significant role in the overall success of the environmental performance by minimising direct heat to the public domain, with the potential benefit of generating energy to offset overall campus consumption.

KACST, with the application of new technology and reasearch, will become the Iconic City element. The Headquarters as the administrative interface will give KACST an identity. The Headquarter is a 23 storey iconic highrise wherein 2000 staff will work in an office based upon deep plan organisational model. The Basement consists of two storey upon which are four floors having office areas dedicated to departments having public intreface. This is followed by two floors set aside for use by Female staff above which is a technical floor. Two storeys build the basement followed by 6 storeys plus one technical floor. Below the technical floor the office areas are arranged around a lower atrium. Above the technical floor the administrative offices of KACST are arranged around an upper atrium, with the upper two floors dedicated to Senior Management. The floors are flexible and adaptable for different office layouts. The headquarter has a structural facade with degree of 30 - 50% openings, a 77,000 m² Gross Floor Area and an approx. 57 m x 57m footprint. The lobby connects the Plaza of Knowledge with the Headquarters and has several drop off areas. The proposed design of the headquarter offer the possibility of vertical connections inside the building via two atria.The atria promotes view relations with the interior environment. The Headquarters is an orientation point for the KACST Campus. The Headquarter is a 23 storey iconic highrise wherein 2000 staff will work in an office based upon deep plan organisational model. The Basement consists of two storey upon which are four floors having office areas dedicated to departments having public intreface. This is followed by two floors set aside for use by Female staff above which is a technical floor. Two storeys build the basement followed by 6 storeys plus one technical floor. Below the technical floor the office areas are arranged around a lower atrium. Above the technical floor the administrative offices of KACST are arranged around an upper atrium, with the upper two floors dedicated to Senior Management. The floors are flexible and adaptable for different office layouts. The headquarter has a structural facade with degree of 30 - 50% openings, a 77,000 m² Gross Floor Area and an approx. 57 m x 57m footprint. The lobby connects the Plaza of Knowledge with the Headquarters and has several drop off areas. The proposed design of the headquarter offer the possibility of vertical connections inside the building via two atria.The atria promotes view relations with the interior environment. The Headquarters is an orientation point for the KACST Campus.

Find more at: http://l-a-v-a.net

18 І 19 KACST vision

LAVA

Laboratory for Visionary Architecture

338 І 339

Circulation and Access

KACST Lab Buildings

340 І 341

Circulation and Access

KACST Lab Buildings

WOMENS LIFT

WOMENS LIFT WOMENS LIFT WOMENS LIFT ELEVATORS

ELEVATORS

GOODS LIFT

ELEVATORS

GOODS LIFT

INFORMATION DESK

SERVICE ROAD ATRIA

ELEVATORS

ELEVATORS ELEVATORS ELEVATORS PARKING B1

SUNKEN GARDEN

PARKING B2

BOULEVARD

Typical Lab Building / B1 Parking

SUNKEN GARDEN

PARKING B1

PARKING B2 BOULEVARD

Typical Lab Building / Ground Fl.

Typical Lab Building / 2nd Fl.

Typical Lab Building / 1st Fl.

DIRECTORS DIRECTORS

DIRECTORS

EMPLOYEES

VISITORS

WOMEN

DIRECTORS EMPLOYEES VISITORS WOMEN

EMPLOYEES VISITORS WOMEN SERVICE

green climate fund building The vision for international climate protection is realised in the design, with facades that are articulated according to building orientation, surfaces that integrate various means of regenerative energy production, photo-voltaics and bioreactors demonstrate the application of the latest technologies. The building responds to the site to maximise the experience of its natural qualities. With a design inspired by the beautiful setting in the Rhine valley, and with curvilinear forms, natural light wells, roof top gardens and a large sunken terrace for the restaurant, the three level structure will comply with the latest energy and building ecology standards.

LAVA

Laboratory for Visionary Architecture

It features ‘environmentally friendly functional spaces that foster working productivity’, state-of-the-art technology, security controls, a visitor reception, auditorium, conference room, a canteen and underground car parking. tural typologies and new, lightweight structural solutions based on biomimicry.

Find more at: http://l-a-v-a.net

14 36°

36°

13 04 23°

03 02

23° 3.85

3.86

3.85

23°

3.85

11 Risers

Elevator 1.40 1 750 x 1.10 m kg 10 persons 6 m/ sec.

1 m Elevator x 1.10 1.40 kg

3.85

23°

12.60m Roof level

3.85

37 36

23° 3.85

47 3.85

3.85

8.00m Second level

4.00m First level

0.00m Ground level

3.85

23° 23°

3.85

8.00m Second level

3.85

35 34

23°

+56.30 NN / -4.00 m

3.85

45 3.85

40 3.85

-4.00m Underground level

3.85

41 43

52°

+60.30 NN / +0.00 m

52°

11.40m Roof level +56.30 NN / -4.00 m

23°

23° 3.85

750 10 persons sec. 6 m/

+64.30 NN / +4.00 m

3.85

1 m Elevator x 1.10 1.40 kg

70°

x 18/27cm

11 Risers 18/27cm

750 10 persons sec. 6 m/

Elevator 1.40 1 750 x 1.10 m kg 10 persons 6 m/ sec.

+56.30 NN / -4.00 m

54°

x 18/27cm

11 Risers 18/27cm x

3.85

3.85 54°

11 Risers

18 19

23°

3.85

16 22

3.85

3.86

POTENTIELLE ERWEITERUNG KLETTERHALLE

bayreuth youth hostel

III OPTIONALE ERWEITERUNGSFLÄCHE FÜR SPORTFELDER SPORT & FREIZEIT

PARKEN PERSONAL (8)

ANLIEFERUNG PERSONALEINGANG KÜCHE

VORFAHRT

The ‘Y’ shape was chosen because it generates a connective and beautiful central space offering expansive views and multiple openings to the sport fields and gardens. The central atrium is a hub for offline and online entertainment, interaction and communication. Here a skylight provides natural daylight to a central amphitheatre that connects the different levels, whilst horizontal and diagonal sightlines direct guests to different building functions.

HAUPTEINGANG II

KONTUR BESTANDSGEBÄUDE

TRIBÜNE

I MULTIFUNKTIONALES SPORTFELD N

There are flexible room walls with contemporary modular ‘built-in furniture’ elements; and rooms, grounds and sports fields are all wheelchair accessible. The designer age means Gen Y travellers want funky design, access to online and community, unique experiences, not just a clean bed and shower Find more at: http://l-a-v-a.net

INNENRAUM INNENRAUM ATRIUM ATRIUM

OKFF DA OKFF CH+9.60m DA CH+9.60m OKFF DA OKFF CH +9.25 DA CHm+9.25 m

OKFFF DACH+9.60m OKFFF DACH+9.60m

OKFF DA OKFF CH +7,50m DA CH +7,50m

ZIMMER ZIMMER

OKFF DA OKFF CH +6.40 DA CHm+6.40 m

ATRIUATRIU M M

VARIABILITÄT ZIMMER / MÖBEL DREHBARE, VERSCHIEBBARE EINZELBETTEN FREI VERSETZBARE HOCKER

SEMINAR SEMINAR

STAURÄUME ABLAGEN UNTER BETT SCHRÄNKE

ZONIERUNG VORZONE MIT BADKERN WOHNEN / SCHLAFEN NISCHEN

ATRI ATRI UM UM

2 BETT ZIMMER / ROLLSTUHLGERECHT

OKFFF 2.OG+6.40m OKFFF 2.OG+6.40m

STAURÄUME

ABLAGEN UNTER BETT ABLAGEN ÜBER STOCKBETTEN SCHRÄNKE

ZONIERUNG VORZONE MIT BADKERN WOHNEN / SCHLAFEN NISCHEN

OKFF DA OKFF CH +6.40m DA CH +6.40m

VARIABILITÄT ZIMMER / MÖBEL KLAPPBARE STOCKBETTEN AUSKLAPPBARE TISCHE KLETTERTURM KLETTERTURM FREI VERSETZBARE HOCKER

STAURÄUME ABLAGEN UNTER BETT ABLAGEN ÜBER STOCKBETTEN SCHRÄNKE

ZONIERUNG VORZONE MIT BADKERN WOHNEN / SCHLAFEN NISCHEN

ZIMMER ZIMMER

SEMINAR SEMINAR

OKFF SOKFF PEI S ES S PEI AAL S ES - 0.40m AAL - 0.40m

VARIABILITÄT ZIMMER / MÖBEL KLAPPBARE STOCKBETTEN AUSKLAPPBARE TISCHE FREI VERSETZBARE HOCKER

OKFF 1.OKFF OG +3.20 1. OGm+3.20 m

S PEI SSPEI ES AAL S ES AAL

ZIMMER ZIMMER

4 BETT ZIMMER / ROLLSTUHLGERECHT

FOYER FOYER / ATRIU / ATRIU M M

HAUPTEIN HAUPTEIN GANGGANG

OKFF 1.OKFF OG +3.20 1. OGm+3.20 m

OKFF OK KFF 1.OG OKFF OK KFF+3.20m 1.OG +3.20m

ANLIEFER ANLIEFER UNG UNG

6 BETT ZIMMER / ROLLSTUHLGERECHT

KLETTERHALLE KLETTERHALLE

VERWALTUN VERWALTUN G G

VORFAHR VORFAHR T T OKFF EG OKFF + /-0.00m EG + /-0.00m

LIGHTSCAPE

CONNECTED PATH

transistion space

philips lighting headquarters

transistion space

OASIS

GRANDSTAND

ATRIUM

The relocation of the Philips lighting headquarters was a perfect occasion to rethink the office building and create a contemporary working space.

INTERVENTION

CONNECTED PATH

COMMON OFFICE ROUTE

The entire design concept is driven by a series of attractors placed with a specific hierarchy. The main entrance to the building leads to the central atrium which is the fist and bigger attractor. This space, covered by an organic roof that allows iconic natural lighting, includes a space for exhibitions, a grandstand and the light oasis, becoming for the visitors an introduction to the company.

guiding path concept INTERVENTION

O SI OA SIS

COMM CO MMON ON MEET ME E IIN NG AREA REA EA

transistion space

COMMON OFFICE ROUTE

Advancing to private areas as laboratories and AUDI AUD ITO TOR RIIUM UM offices the attractors becomeAU aDseries of spaces, organized by custom designed furniture. This attractors allow to break the common office route and create breakout areas, think tanks, meeting rooms, collaborative areas, project rooms, caves of inspiration, all designed to enhance communications, creativity and working conditions.

transistion space

guiding path concept

SPH SP HERE HE E

CONNECTED PATH

STAG STA ST AGE GE

M M M M

M M M

MMMM M

M M M M

M M M

TRANSITION SPACE INTERVENTION

L L

XL XL

M M

M M M

M M

TRANSITION SPACE

L Connector

COMMON OFFICE ROUTE

SPACE CONNECTION seating

discussing

dividing

sequencing

seperating

enclosing

semi-enclosing

enclosing

connecting

furniture

connecting

guiding path concept furniture

furniture

Connector

furniture

SPACE CONNECTION

S OFFICE SPACE

L OFFICE SPACE

M OFFICE SPACE

OFFICE SPACE

M OFFICE SPACE

L OFFICE SPACE

S XL

XL OFFICE SPACE

OFFICE SPACE

transition space - connecting elements transition space - connecting elements

programmatic sections - furniture

programmatic sections - furniture MODULE CATALOGUE

L COMBINATION

CONGLOMERATION

furniture concept

psatri The Prince Sultan Advanced Technology Research Centre Laboratory includes specialised research laboratories in a four level building as part of the King Saud University. The design and arrangement of the laboratory modules was developed with the Fraunhofer Institute. The key design drivers were circulation; communication; functionality; flexibility and sustainability. A serpentine design includes a double courtyard scheme and two separate and autarkic cycles for male and female staff that share common facilities at their boundary point. It also gives a reduced facade area, reduced solar load, optimised circulation and functionality and extra void space. The labs include microwave research, intelligent vehicles and systems and electromagnetic imaging.As a place of innovation laboratory buildings have to be flexible and adaptable to changes in the research and development process. Higher automation for example lowers the density of working spaces, promoting communication between the scientists. A range of formal and informal meeting spaces is provided and an atria supports communication via views both horizontally and vertically. The different functions and procedures of scientific work are synchronised with a differentiated space layout, with various zones for the specific steps in research.

Find more at: http://l-a-v-a.net

10.35

SITE BOUNDARY

10.85m/5.17%

10.35

-5.76 665.54

AXIS POINT M1

TOILET

44 sqm L3 024

103 sqm L3 014

149 sqm 015 L3

SEMINAR ROOM

10.50

30 X 18

28 RISERS

195 sqm L0 019

EMC TESTING LAB

ANTENNA LAB

161 sqm L0 018

CIRCULATION & COMMON AREAS

-5.76 665.54

MALE AREA 1129 sqm L0 -

VOID 524 sqm L0 017

KITCHEN LIFT 31

020 4

X 18

69 sqm 025 L2

11.70/683.00

54 sqm L1 027

FOYER

FEMALE AREA 363 sqm L0 036

AUDITORIUM

467 sqm L0 023

96 sqm L0 039

467 sqm L0 023

FEMALE ADMINISTRATION

FRONT DESK RECEPTION

106 sqm L0 043

FEMALE AREA 16 sqm L0 035

10.35

1.3 0

10.35

29.65m

FEMALE ADMINISTRATION 119 sqm L0 044

17 sqm L0 029

PS ATR

ENTRANCE WOMEN

10.00

1.62 672.92

5 10.3

MEP

=0 .00

x 14%

X 18 RS

10.35

AIR TRAP

FEMALE AREA 10 sqm L0 034

E' DROP OFF ZONE

0 10.5

10.35

20 sqm L0 027

0 7.5

MEETING ROOM

I pla

12 sqm L0 042

5 10.3

1 6

TEA ROOM

5 10.3

ABLUTION

MOSQUE

246 PRAY PLACES - 215 sqm L0 028

10.35

FOYER

FEMALE AREA 368 L0 039

5 10.3

13 sqm L0 026

-5.76/665.54

119 PARKING LOTS B2 030

10.35

0.00 671.30

TOILETS

RISE

PARKING

LEVEL 0

10.35

96 sqm L0 041

1.62 672.92

122 sqm L0 037

-1.62/669.68 LEVEL 1

-5.76 665.54

FEMALE ADMINISTRATION

FEMALE AREA 244 sqm L0 -

FEMALE CAFETERIA

MEP: AHU FOR SPECIAL PROGRAM

LEVEL 0

10.35

CIRCULATION & COMMON AREAS

5 10.3

9.00

-5.76/665.54

260 sqm L0 024

5 10.3

193 sqm B2 026

9.26

MALE CAFETERIA

467 sqm L0 025

62 sqm L0 036

PARKING

80 PARKING LOTS B1 001

MEP

136 sqm B2 016

WORKSHOP

NFA

57 sqm B2 022

1.62 672.92

AUDITORIUM

LEVEL 2

MEP

EXHIBITION AREA

MALE AREA 180 sqm L0 033

DROP OFF ZONE

1.62/672.92

0.00/671.30

VEL

735 smq B2 001

FEMALE AREA 44 sqm L0 038

MALE ENTRANCE 34 sqm L0 030

MALE ENTRANCE

30 sqm L0 040

FOYER

MALE AREA 300 sqm L0 029

6.66/677.96 LEVEL 3

FEMALE ADMINISTRATION

44 sqm L0 036

195 sqm L0 017

LEVEL 2 HEIGHT 0.00 / 671.30

0.00 671.30

EXHIBITION AREA

KITCHEN

AIR TRAP

MALE ENTRANCE 34 sqm L0 028

260 sqm L0 022

TOILETS

210Â°

MALE CAFETERIA

EXHIBITION AREA

9.00

26 sqm L1 026

93 sqm L1 035

229 sqm L1 015

LEVEL 3

11.95

MALE AREA 300 sqm L0 031

AIR TRAP

9.00

154 sqm L1 036

ASSISTANT DIRECTOR

28 RISER

102 sqm L1 019

6.66/677.96

SECRETARY

ACCESS AUDITORIUM WOMEN

LIBRARY

18 RISERS

AUDITORIUM GALLERY WOMEN

9.00

FOYER

LEVEL 4

INTERACTIVE LOUNGE

30 X 18

LEVEL 4

670.60

30 X 18

MALE AREA 15 sqm L0 032

KITCHEN

EXHIBITION AREA

MALE AREA 106 sqm L0 023

FRONT DESK RECEPTION

0.00 671.30

139 sqm L0 001

105 sqm L2 026

MALE AREA 70 sqm L0 022

TEACHING LAB

44 sqm L2 032

ACCSESS AND SURVEILLANCE 141 sqm L0 016

19 sqm L0 021

LOUNGE CAFETERIA

RISE

TEACHING

56 sqm L2 037

UNDERWATER ACCOUSTICS LAB

TOILETS 1.62 672.92

210°

9.00 RENTABLE PFFICE

56 sqm L2 040

45 sqm L0 015

--L0 008

BOARD ROOM

RENTABLE LAB

CLEAN LAB B

27 sqm L0 014

WAITING AREA

139 sqm L0 002

LEVEL 5

11.70/683.00

GOODS LIFT

181 sqm L0 013

45 smq L0 012

S & IMG LAB

AI LAB

CLEAN LAB A

ASSISTANT DIRECTOR

7.50 29 sqm L3 034

45 sqm L0 010

1.62 672.92

185 sqm L4 014

OFFICE

52 sqm L0 011

ASSISTANT DIRECTOR

-5.76 665.54

IR LASER LAB

175 sqm L4 016

MEETING ROOM

16.74/688.04

13 sqm L0 007

7.50

S & M LAB

73 sqm L4 017

21 sqm L0 009

TEA ROOM

27 sqm L0 006

9.00

OFFICE

62 sqm L4 030

SECRETARY

2.00

SECRETARY TOILETS

115 sqm 003 L0

MEETING ROOM

29 sqm 025 L4

LEVEL 6

R&D

19 sqm L0 005

DIRECTOR

MEP: AHU SYSTEMS

10.50 R&D

21.78/693.08

3.00

FILES ROOM

10 sqm L0 004

MEP: GENERATORS

LEVEL 7 ROOF

36 RISERS

26.82/698.12

5 10.3 B'

ing

1.62 672.92

0.00 671.30

FOYER

porsche museum

ADMINISTRATION Zugang

Straßenbahndepot

AUDITORIUM Mögliche Anbindung Straßenbahndepot

Veielbrunnenweg

Planetarium

Mobilitätszentrum

LABORATORY & WORKSHOP Veielbrunnen

KNOWLEDGE AREA

Eventbereich

TECHNICAL ROOMS

tra ss de ce er M

EXHIBITION

ße

STORAGE

IV V

ß tra ns pe

Fußläufige Durchwegung

1 - 500

PLANETARIUM

LAGEPL AN M.

SERVICES

This competition for the Porsche museum in Stuttgart stands up the concept of movement through the dynamic lines of the building. This concept is also brought inside of the building where the program is distributed around a central atria. All the spaces are interconnected physically and visually to enhance communication and perceive the dynamics of the visitors movement. Everything is visible, everything is connected, creating a cultural network between the different thematic areas where information and education moves instantly.

RESTAURANT

Anlieferung

Zugang

The planetarium gives to the building an iconic design. At the same time provides a 360° projection room where films about the history, the myths and the future of mobility can be displayed. This environment engages the visitor in a unique multimedia viewing experience.

Künftige Bebauung

+27.00m

+23.00m GASTRONOMIE / DACHTERRASSE

DACH +23.00m

ZUGANG WISSENSSPEICHER

FOYER

DACHTERRASSE

GASTRONOMIE

AUDITORIUM

FOYER / AUDITORIUM+18..00m

+18.00m HELIXATOR ÜBERGANG PLANETARIUM

KÜCHE

+12.00m

TERRASSSE

+14.25m

RUTSCHE

LABOR

AUFZÜGE

ÜBERGANG PLANETARIUM

KUPPELSAAL

TERRASSSE

LAGER / WC

PROJEKTOR

+10.50m

LABOR

WERKSTATT

LABOR PROLOG

+8.00m

FACHBIBLIOTHEK

KEPPLERSAAL

ANLIEFERUNG ZUGANG PERSONAL GELÄNDE +/-0.00m = 221m ü. NN

WISSENSSPEICHER

WERKSTATT

+4.00m

+6.75m

LAGER

WISSENSSPEICHER

WISSENSSPEICHER -2.00m

TECHNIK

PROGRAMMIERUNG / LAGER

TECHNIK

MERCEDESSTRASSE

WECHSELAUSSTELLUNG / TECHNIK -7.00m

+ 3.00m

PROLOG

WECHSELAUSSTELLUNG

WISSENSSPEICHER

PÄDAGOGIK

GELÄNDE +/-0.00m = 221m ü. NN -1.00m STARK- / SCHWACHSTROM

WECHSELAUSSTELLUNG

LAGER

-6.00m

WERKSTATT

minimal living

Green roof 25,0 mq

First project at the faculty of architecture, this modernist house is the turning point in my personal career. Under the guide and the lessons of Professor Brunetto De BattĂŠ, this exercise has opened my mind in into the architectural world. The goal was to design a small tower house with a footprint of 5m x 5m. It was supposed to be only an interior intervention but it soon became a challenge involving every aspect of architecture.

21,8 mq

3 Stories

19,4 mq

Terrace Kitchen_Dinning

48,0 mq

Bedroom

25,0 mq

Terrace

25,0 mq 25,0 mq

22,4 mq

5x5m Base

Living room

TOTAL 123,0 mq

TOTAL 88,6 mq

STARTING CONDITIONS

VERTICAL CONNECTION

ENHANCE USABLE AREA

MAXIMUM USABLE AREA

COMPOSE FACADE

FINAL COMPOSITION

REVERSE ANGLE

The primary intention was to obtain the maximum usable area by sliding the first floor by 1m and placing the stairs in the resulting space. Due to this rational approach it involved the study of all the architectural movements of the first half of 20th century. Itâ&#x20AC;&#x2122;s possible to recognize in this composition elements from the rationalism of Le Corbusier and Terragni, the De Stijl movement or the Raumplan theory. All this elements are blended together resulting in a very complex three dimensional space. Every element is placed to serve at the same time both, rational and aesthetic purposes. The building constantly changes depending on the observation point, making it a dynamic composition to be contemplated through space and time.

LEVEL 0

LEVEL 1

LEVEL 2 1

Section 1

Section 2