OZGE TEKTAS
architect, designer selected works 2018
INFO
ozgetektas [at] gmail.com +905352627982 14.10.1992, Istanbul
EDUCATION [MAA] Master in Advanced Architecture // 2017-2018
Institute of Advanced Architecture of Catalonia(IaaC), Barcelona(ES)
[BA] [HS]
Bachelors of Architecture // 2011-2015 Politecnico di Milano, Milano(IT)
Science-Math Based English Education // 2006-2010
Koรง High School, Istanbul(TR)
WORK EXPERIENCE
SOFTWARE SKILLS
[2017 March-Present] Freelance Architect // developed building survey drawings, design proposals and technical drawings for a private farm house in Gebze, Istanbul (with arch. Onur Karadeniz) // led construction on site of Black Corner Personal Training Studio in Emirgan, Istanbul
Rhinoceros Grasshopper Autocad Processing InDesign Photoshop Illustrator After Effects Sketchup Lumion render
[2016 Feb-2017 March] Mor Mimarlik - Architect // took part in various public school projects from the briefing until the tender stage in 20 different cities around Turkey // took part in Irfan College project which is a campus consisting of 4 school buildings and one common building located in Elazig, Turkey // developed interior drawings of Marriott Hotels and Residences in Trust Complex Buildings Project in Algeria and for Point Hotel in Ankara // designed a private villa for a client in Antep, Turkey [2014 March-July] Studio Daniel Libeskind, Milan Office - Junior Architect // took part in Libeskind's Central Tower C project for Milan City Life // developed laser cut models for City Life Tower and Vanke Pavilion [2013 September] Emre Arolat Architects - Intern // designed and developed interiors and furniture for Eyup Cultural Center in Istanbul [2013 August] Norm Mimarlik - Intern // developed interior technical drawings for Athletes Village in Ashgabat Olympic Complex
EXHIBITIONS
OTHER SKILLS
Laser Cutting 3D Printing CNC Milling Scale model making Arduino/physical computing Photography Video editing Sketching
LANGUAGES
[2018 November] Smart City Expo World Congress - Fira, Barcelona Bio-Mon prject was exhibited as part of the exhibition
Turkish - Native English - Fluent Italian - Intermediate
[2018 July] Experience Future Cities - Union Industrial Space, Barcelona three of the projects I have developed during IaaC were exhibited
INTERESTS
[2014 April, June] Milan Design Week 2014 & Venice Architecture Biennale, Italy Polimi Atmospheres #1000 Human Environments Project, individual work exhibited
fabrication, sustainability, material research, prototyping, photography, classical dance, painting, illustration
TABLE OF CONTENTS
NeuroUrbanism
Organic urban development study
5
Mantova Block
7
Renewable Energy Farm
9
Magic Carpet
13
Antep Villa
17
Malaysian Restaurant
19
Resilient Aqua Lab
21
14 Joules
23
Multi-functional block study
Self Sufficiency
Digital Fabrication
Professional Professional
Competition
Physical Computing//Arduino
Seed Spawn
Self Sufficiency//Material Research
Bio-Mon
Self Sufficiency//1:1 prototyping
25 29
NeuroUrbanism
Team: Ivan Litvinenko, Emma Avremiea, Ozge Tektas Tutor: Michele Moreno Year: 2014
The concept focuses on the idea that a city looks and acts like a neurological system, the city of Sanlucar de Barrameda in Spain was replanned focusing on the connections between the existing areas of the city and introcuding new ones to create a second axis. The interventions are local and vary in size and functions. The focus of this project is the area where the central alley meets the beach, where there is a potential for a future point of interest, a public space with a modern design that takes into consideration the naturally existing pathways and streets. Also introduces a landmark for the city to benefit from. The organic shapes are created using the elements of nature as an inspiration. The place creates dynamic scenery and is working to integrate the riverfront with the inner city.
Plan view
5
Design Process:
Functions:
6
Mantova Block
Team: Hakan Yarman, Ozge Tektas Tutor: Bersani Eleonora, Marco Caprini Year: 2013
Renewing a block in Mantova, Italy in a way that it will compliment the piazza and the church in front of it and have different functions such as family apartments, student dorms and an art gallery. Complicated shape of the gallery, like crashing war planes, is reflecting Mantova's hars history with wars and at the same time creating a new aspect in art. Facade between the block and the art gallery creates a mental filter between the public gallery and private courtyard which represents the peace of today's Italy.
Perspective view
7
ground floor plan
persperctive view
first floor plan
AA section
second floor plan
roof plan
BB section
8
Renewable Energy Farm Project site is a rural area located in Cremona, Italy where it hosts grain and corn fields. Aim of the project is to integrate existing living models with FEW's technologies which are; farming, energy and waste functioning as a cycle. To achieve this, aquaculture and biodiesel are chosen as technologies. These technologies would be in a cycle with the existing canal located in the site and with the new corn fields surrounding the house. Design strategy is to integrate the corn field, aqua tanks and the house perfectly, which creates a habitable house with an energy renewing, self sustaining field in Cremona. Design of the house itself is inspired from the shapes of the aqua tanks, where you can't easily locate the house from birds' eye view. The farm house blends in the site. Form finding process was inspired also from prebaricated houses in order to obtain practical construction.
9
Individual Project Tutors: Simone Giostra Year: 2014
Perspective view
form finding
Section AA'
Section BB'
10
B
bathrooms office&storage
fish cleaning the water
open space&living room
A'
water back to the canal
A
corn field irrigation
garage open space&living room bathrooms office&storage garage bedrooms terrace
B'
bedrooms terrace
Plan functions
Irrigation cycle
Section AA'
11
Section BB'
12
Magic Carpet Magic Carpet is designed initially for IaaC facilities. Among 5 other designs, it's the chosen one to be further developed and constructed by all the participants. It's composed out of wooden cross sections that create folded surfaces, which can be used as sitting, lounging or working spaces. The idea behind the structural design is that the final 3D surface model should not be able to be unfolded, making it self-lock in place. The Magic Carpet is geometrically/morphologically spans along one axis, where as structurally it spans along the other so some surfaces are acting as beams. All the structural analysis of the Magic Carpet was done via Karamba, which is a Grasshopper plugin. Later on the wooden pieces are manually cut then chamfered with CNC miilling and the holes were made with the ABB robot. It's a fully fabricated and assembled piece that works as a multi functional furniture.
Initial Design Team: Ogulcan Unesi, Yifan Liao, Ipsita Datta, Ozge Tektas Construction Team: group of 25 students Tutors: Manja van de Worp, Raimund Krenmueller Year: 2018
Perspective render click for the video
13
1:10 laser cut cardboard model of the initial design
collage and render views of developed design alternatives
14
How the unfold works:
Karamba structural analysis:
Circulation and seating:
deformation diagram
Surface acting as beams:
Beam analysis: shear diagram
surfaces' shear diagrams
According to the structural analysis done with 'Karamba', deformation decreases by 25% with the parabolic cables intersed in the surfaces acting as beams. Location and the size of the fixative rods are defined according to the shear diagrams.
utilization diagram
Assembly steps:
1. Joining the frame and raising from the ground by adding props 2. Stacking first five rows of both sides on the floor and inserting rods.
15
3. Attaching five rows to the frame and insert the cables through rods. 4. Continue inserting the rest of the rows through the cables.
5. Post tensioning the cables once each row is inserted. 6. lifting up the magic carpet and adding wheels and metal plates.
16
Antep Villa
Mor Mimarlik Team: Okan Utkan, Cengiz Yeter, Ozge Tektas Year: 2016
Antep Villa is a project for a private client, developed following their main requests. It's located in Gaziantep, Turkey. All the technical and 3d drawings were developed by me while working for Mor Mimarlik, with the help of two head partners of the office. The villa has two floors, both with three bedrooms, kitchen and a living room. It also has a big garden where the landscape is also designed with a seating area and parking. Structural and mechanical details of the villa is developed according to the area it's located in.
Perspective view
17
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324
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4
122
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141,5 SERAMİK 40x40
TEZGAH
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112,5
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257
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70
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314
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47 SERAMİK 40x40 DUŞAKABİN
257
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322
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SERAMİK 40x40
h:100 cm
188
235
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42,5 SERAMİK 40x40
217,5
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17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17
3
B-B Section
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ş
Malaysian Restaurant
Client: Les Ambassadeurs Hotel Cyprus Status: On-going project Year: 2019
Located right by the seaside, this new Malaysian Restaurant will be a part of the Les Ambassadeurs Hotel in Girne, Cyprus. The steel construction system is already existing on the site and the client requested to convert this place to a Malaysian/Asian fusion restaurant. The proposal focuses on benefiting from the sea view as much as possible and also giving different experiences to different kinds of customers. There are two private rooms for 10 people, a bar area, customized round tables with cherry blossom trees in the middle and smaller tables at the exterior deck. Since Cyprus has a hot weather most of the year, the outside extension is also used as the part of the restaurant, consisting of 17 tables. For the ceiling, a parametric design is made consisting of wooden rods with different heights. For the floors and bars, wooden parquets and natural stone is used.
Perspective plan
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Resilient Aqua Lab
Competition Status: Participant Year: 2019
When redesigning this old tourist kiosk, the user's needs were the most considered point. It should've been used both by locals and tourists in a way which they would benefit from it. The new adaptive reuse is thought as a multifunctional socializing and learning area. Inside, there is a new steel structure which will support the swing chairs, the hanging flower pots and the fish tanks. Since this a fishing town, it's important for the locals and tourist to experience how the fish tanks and plants will be working colabrotavely as an aquaponic system. Plants are hung with ropes and a pulley system for visitors to pull the pots down and harvest the plants when they're ready to be used as food. This will also be teaching kids how it's possible and important to grow your own food. One side of the building will be used as a little cafe where the visitors can enjoy a cup of coffe while enjoying the view of plants and fish tanks. The other side by the window has swing seats for people to hang out and read. The book shelves create a little library where locals and tourists can exchange books.
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Perspective view
Garage Extension White stainless steel
Garage Extension White stainless steel
Structural System
Outdoor Cafe
WhiteStructural stainless steel System White stainless steel
Garage Extension
Brick Wall
Off-grid White Brick WallPaint Off-grid White Paint
Wooden Planks
OakWooden Planks Oak
Garage Extension
Pavement
Enterance
White stainless steel
Outdoor Cafe
Garage Extension White stainless steel
Resilient Aqua Lab
Outdoor Cafe
Plan
Structural System
Garage Extension
White stainless steel
Structural System
Pavement
White stainless steel
Enterance
Brick Wall
Pavement
1. Steel structural system
Off-grid White Paint
timber flooring
Brick Wall
Off-grid White Paint Wooden
Enterance
Oak
Wooden Planks Oak
Planks
timber flooring
exposed concrete
Library
Library Oak wood
timber flooring
Oak wood
exposed concrete
Swing Seating
Outdoor Cafe Counter Oak wood
Bar Stool
Oak wood Counter
Oak wood
Oak wood
Bar Stool
off-white painting
Oak wood
Hanging Flower Pots
Library
Oak wood
Library
Oak wood
Swing Seating Oak wood + rope
off-white painting
Swing Seating
Oak wood + rope Counter Oak wood
Outdoor Cafe Counter
Fish Tanks
Exterior Wall
Hanging Flower Pots
Oak wood
Outdoor Cafe Counter Oak wood
Fish Tanks
Exterior Wall
Oak wood
exposed concrete
Hanging Flower Pots
Counter
Outdoor Cafe Counter
Interior Wall
Interior Wall
Interior Wall
Swing OakSeating wood + rope Oak wood + rope
2. Cafe, seating and library for book sharing off-white brick
Swing chairs
Book Exchange
Counter
Bar Stool
Oak wood
Oak wood
Bar Stool Oak wood
Moving Ropes Rolley System
off-white painting
Exterior Wall
Moving Ropes Plant Basket + Edible Plants Rolley System Woven rope
off-white brick
Plant Basket + Edible Plants
Swing chairs Fish Tanks
Woven rope
Aqua Tanks Plexiglass
AquaFolding Tanks Window
Clear glass + oak timber Plexiglass
Folding Window
Clear glass + oak timber
Book Exchange off-white brick
Moving Ropes
3. Fish tanks and pots with edible plants for aquaponics
Rolley System
Moving Ropes Rolley System
Swing chairs
Plant Basket + Edible Plants Woven rope
Plant Basket + Edible Plants Woven rope
Aqua Tanks Plexiglass
Aqua Tanks Folding Window Plexiglass
Garage Extension Roof Solar Panels
Book Exchange
Clear glass + oak timber
Folding Window
Clear glass + oak timber
Garage Extension Roof Solar Panels
Existing Roof
Off-grid white painting
Existing Roof
Off-grid white painting Existing Roof Detail Off-grid white painting
Existing Roof Detail
Garage Extension Roof
Off-grid white painting
Solar Panels
4. Existing brickworks walls, existing roof and new solar panels for the garage extension
Garage Extension Roof Solar Panels
Existing Roof
Off-grid white painting
Existing Roof
Off-grid white painting
Existing Roof Detail Off-grid white painting
Existing Roof Detail Off-grid white painting
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14 Joules Initially, the project starts with mapping the site, which is Barceloneta in Barcelona, with emerging technologies. For this purpose, a wearble belt was designed with five ultrasonic sensors located at equal distances with each other so as the owner walks around the site, it is capturing data in terms of distances which is later on converted to a density map. The data collected is used to initiate the futuristic intervention, with a people-centric approach. In the local territory, with the removal of cars, we speculate that the roads and sidewalks would merge and new pathways would emerge from human intuition. An average person can generate 14 joules of energy in one second while walking. The movement of the sand on the game board represents this capacity to generate energy. Eight speakers below the board orchestrated the vertical movement of the sand-emanating frequencies based on the mapped data which represents the energy that will be provided by people's movements.
Team: Bhakti Loonawat, Kedar Undale, Wei Wang, Daniil Koshelyuk, Gabriele Jureviciute, Ozge Tektas Tutors: Edouard Cabay, Rodrigo Aguirre Year: 2017
1:800 kinetic physical model click for the video
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Ultra Sonic sensor 1
SD card module
Closed Eye screw ultra sonic sensor 2
Clock sensor
Arduino Uno
2.5 mm thick MDF
ultrasonic sensors attached around the belt they sense the distance up to 2 meters with a 45° wide angle afterwards this date is used to map the density of people in the site
Male to famele cable
Ultra sonic sensor x 5 Closed Eye screw sonic ultra r 3 senso
density belt made to fit the user by using the kerfing technique on mdf material with the modular boxes attached on it, sensors are put with 45° since it's modular and can be put on and off, it's easy to use everytime a person passes by, the ultrasonic sensors sense them by means of distance
2.5 mm thick MDF
ultra sonic sensor 5
ultra sonic senso r4
45° 45°
Machinic Protocols
45°
Active Public Space Pau Vila, Barcelona, 2017
14 Joules Scale: 1:400 Kedar Undale Gabriele Jureviciute Daniil Koshelyuk Wei-Hong Wang Ozge Tektas Bhakti Loonawat
density belt fabricated by kerfing bending, has 5 ultrasonic sensors inside that makes us find out the instant population 35 cm
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Machinic Protocols
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Project made by:
Ozge Tektas, Kedar Undale
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Device: Density Belt
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axonometry and exploded axonometry drawings of the site, showing the speakers connected to Arduino, coordinate system, existing site and future interventions
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Machinic Protocols
Active Public Space Pau Vila, Barcelona, 2017 Mapping Instruments Scale: 1:10 Kedar Undale Gabriele Jureviciute Daniil Koshelyuk Wei-Hong Wang Ozge Tektas Bhakti Loonawat
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Seed Spawn Seed Spawn is an abstract interpretation on how to integrate farming, self sufficiency and new technologies to architecture. Project site is located at the 22@ district of Barcelona, where there is a lack of greenery and nature so the first thing to bring to the site was farming. First, few tests were made using possible waste materials from farming which are, peanut shells, coffee grains, lentils, salt. These materials could be further examined and used as building materials. Conceptually, mushroom like structures would be made from these materials and as they grow plants inside, the material would dissolve. These mushroom like structures take their shape from their purpose, which is to collect water for the farm's irrigation. As the water is collected, 'farming drones' take them to the fields, water and harvest the crops as the cycle carries on like this. This project is a conceptual utopia, however it could be further developed.
Individual Project Tutors: Enric Ruiz Geli, Mireia Luzรกrraga Year: 2018
1:100 3d printed model click for the video
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Form finding through artificial evolutionary design where the computer gives the best optimum results for: maximum rainwater collection maximum structural performance minimum shadow area minimum mass of the structure
Mediterranean plant study according to pollination
Material tests using waste product from the farm
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Biomon
Team: Nusrat Tabassum, Maya Mohan, Ozge Tektas Tutor: Chiara Farinea Biophotovoltaic technology experts: Pau Bosh, Clara Corbella (Leitat) Year: 2018
Climate change is the fundamental reality that needs to be brought into our design consideration. To adress this reality, Biomon works with interdisciplinary approach combining topics like biology, computation, design and technology to map the potential for new urban systems with an aim to develop solutions that can significantly enhance the climate and water resilience of cities. The project intent was to design a modular system for both indoors and outdoors of living spaces that combines these concepts. Biomon is a modular, lightweight facade system or wall seperator that generates energy by creating an electrical circuit with materials like carbonfibers. It also filters the water as it flows down from the top to the bottom of the system. Thanks to the pothos plant thats used in the module, air quality also improves. -Leitat Research Center is funding this project. -This project is exhibited in Expo Smart Cities 2018.
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1:1 final working prototype
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Other Works Recursive Topologies
Baloon Pavilion
[please click on the images to visit related websites]
Evolutionary Design
Dynamic Tower
Open UV
Syn-Veilar
Ozge Tektas, 2019