Architectural Portfolio - Prof
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Transcript of Architectural Portfolio - Prof
ASLI AYDINARCHITECTURAL DESIGN PORTFOLIO
e.mail [email protected] +905325155646
MAA _ institute for advanced architecture of catalunyapolytechnic university of catalunya
BArch _ department of architecturemiddle east technical university
‘09‘08
0.0
CONTENT
1.0 ... professional works
1.1 ... AZERZOO 1.2 ... IZMIR OPERA HOUSE COMPETITION 1.3 ... MOSQUE IDEAS COMPETITION 1.4 ... AJALOV VILLA 1.5 ... BANK SOHAR HEADQUARTERS
2.0 ... MAA - IaaC (‘08- ‘09)
2.1 ... Archi _ On a Roll home made cnc machine 2.2 ... ENERGY PULSE 2.3 ... the SCALAR FRACTAL SHELVING TABLE 2.4 ... THE PIPE - laser cutting 2.5 ... CRAYON CASE - 3d printing 2.6 ... TILE - cnc milling Dissolving the edge 2.7 ... Decomposing & Recomposing CONTAINERS
3.0 ... BArch - METU (‘04 - ‘08)
3.1 ... OUTSIDE BOUNDARIES INSIDE EXPRESSIONS 3.2 ... HURRIYET HEADQUARTERS / FLAnGE - THE BASIN 3.3 ... VOCATIONAL SCHOOL in İZNİK
1.1
azerzoo zoological park project covers an area of 55 ha outside of gobu, a region of baku. the proj-ect fulfills the requirements of zoo design always refering to the 4 goals of the existence of zoos: re-search, education, recreation and conservation.
the project follows the habitat concept in the mas-terplan and scatters them in the sequential order how they exist in nature. animal species are cho-sen critically so that they can live comfortably in baku climate. the main habitat sections are: polar zone, africa zone, australia zone, north america zone, south america biodome (which houses ani-mals that cannot live outside in baku conditions) and eurasia zone. eurasia zone is further divided into wetland, woods and grassland, mountain, wet-montaine, desert habitats. zoological park also consists a biodiversity center for research and education, an aquarium, animal hospital, staff housing and a hotel facility overlook-ing the whole park.
the design is a multidiciplinary process which re-ceives constant feedback from veterinarians, zo-ologists and engineers and put out on paper by simultaneously working architects and landscape architects.
program: zoological park, recreationproject location: baku, azerbaijanproject team: ekodenge ltd.
AZERZOO
1.1
AZERZOO
1.1
AZERZOO
ENTRANCEGIFT SHOPCAFEINFO - BOOKSTORE - CONFERENCE HALLBIODIVERSITYSPLASHBUFFET - KIOSK - FAST FOODBIODOMEAMPHITHEATHREAQUARIUMTRAMAVIARYKID’S ZOOEURASIAN SQUAREAFRICA CAFEHOTEL
12345678910111213141516
MOUNTAIN
WOODLAND AND GRASSLAND
DESERT
WETLAND
SOUTH AMERICAN BIODOME
AFRICAN
WET MONTANE
POLAR
NORTH AMERICAN
AUSTRALIA
MAIN AXIS
ROUTES
TRAM LINE
VEHICLE ROADS
1.1
AZERZOO
africa dry exhibit
africa wet exhibit
lemur island
asiatic lion exhibit
wetland aviary eagle owl exhibit
eagle owl exhibit
stripped hyaena exhibit
wetland aviary
snow leopard exhibit
snow leopard exhibit
1.1
AZERZOO
entrance - giftshop administration biodiversity center
1.1
AZERZOO
animal hospital staff housing hotel
1.1
AZERZOO
eurasia square south africa biodome
Contemporary opera houses require flexible space. Multidiciplinary works, and integration of different art branches renders a static opera house redun-dant. For different experiences and better integra-tion of arts, the scenario of the opera house is cen-tered around open, semi open and closed spaces along with many vista and interaction points that would stimulate new encounters.
The key words of the design are: dynamism, dura-bility, transformability, functionality, sustainability and aesthetics.
The structure is composed of distinct yet fluid masses; ground base, halls, artist units and mana-gerial units.
The project tries to be a part of the city as a meet-ing point. It opens itself generously to outside and lets citizens flow inside through its cracks and openings.
Designed together with the urban park in front of it, the site welcomes visitors from the sea as well as the pedestrians walking by.
1.2
program: cultural, opera houseproject location: izmir, turkeyproject team: ekodenge ltd.
competition entry
IZMIR OPERA HOUSE COMPETITION
1.2
IZMIR OPERA HOUSE COMPETITION
1.2
IZMIR OPERA HOUSE COMPETITION
1.2
IZMIR OPERA HOUSE COMPETITION
Being in nowhere, the proposal tries to define a grammar on mosque design process rather than putting out a final product in an imaginary context.
Baldachin is taken as a primary reference to mosque design. How the constituents of mosque are attached to baldachin form are examined. The elements of a mosque is abstracted from their con-ventional contexts and united with the abstract form of a simple cube.
For its abstract appereance and symbolic meaning, cube is undergone a series of processes to become a mosque again of desired spatial requirements and rules.
The elements which makes the cube a mosque again are: façades of the structure, minaret, min-aret stairs, entrance portal, skydome, roof struc-tures, mihrab wall, minber, muezzin mahfili, ablu-tion fountain, late comers’ porch and position in the site.
The cube, then, is deformed to house the above-mentioned elements again.
1.3
program: rethinking mosque in nowhereproject team: aslı aydın, aslıhan günhan
competition entry
MOSQUE IDEAS COMPETITION
1.3
MOSQUE IDEAS COMPETITION
1.3
MOSQUE IDEAS COMPETITION
ajalov villa is designed for an azerbaijani family of 4 members in baku. located in the suburbs, villa is surrounded by high walls as requested by the cli-ent. within the walls, house opens itself up to the nature and unites with it. the program is divided into two;1) living room, master bedroom, attic living space2) basement hobby room, entrance, kitchen, bed-rooms.these functions are arranged surrounding the courtyard where a single gingko biloba tree grows referencing to the nature.increasing contact surface area with outside pro-vides all rooms of the house good ventilation and illumination.
1.4
program: residentialproject location: baku, azerbaijanproject team: ekodenge ltd.
AJALOV VILLA
section aa section bb section cc
1.4
AJALOV VILLA
1.4
AJALOV VILLA
basement plan
first floor plan
attic plan
ground floor plan
1.5
the project is a combination of a shopping mall and a headquarter for the prestigious sohar bank in muscat, oman. the populated program is first divid-ed into three; private bank functions, public retail functions and functions in between these two (gas-tronomic and conference room). the separation is then put forward by an atrium whose west is retail activities and right is banking activities.
withing themselves, bank functions are given dif-ferent floors surrounding an inner spatious com-munal place where bank personnel can avoid feel-ing contained and confined.
retail and gastronomic functions: 13600 m2bank functions: 16900 m2technical areas: 1100 m2service areas: 2600 m2interior carpark: 6700 m2
program: retail, officeproject location: muscat, omanproject team: aslı aydın, mehmet seyfi göl, okan hafızoğlu, nazlı bayramoğlucompetition entry - 2nd place
BANK SOHAR HEADQUARTERS
1.5
BANK SOHAR HEADQUARTERS
northeast elevation
northwest elevation
southwest elevation
southeast elevationsection aa
1.5
BANK SOHAR HEADQUARTERS
2nd basement plan
1st basement plan
ground floor plan
mezzanine floor plan
1st floor plan
2nd floor plan
3rd floor plan
4th floor plan
5th floor plan
roof terrace plan
2.1
The Archi-Roll cnc machine allows for the ultimate “flat pack” fabrication and delivery of complex frame structures. The roll as the core concept, uti-lizes the maximum available space for packaging of semi-flexible materials. The Archi-Roll design team begins with a “blank” roll of material. This roll is inserted into the ma-chine input roll section, where it awaits coding. The machine utilizes motor number 1 to pull out the material at lengths specified by the G-Code. Motors number 2 and 3 of the cnc machine posi-tion a hot pipe at a specific coordinate in the “x” and “z” directions. The hot pipe allows the machine to puncture holes where members of the structure meet. This system also allows for the machine to engrave the material where each structural mem-ber begins. The engraving will allow the assem-bly team to tear at these specified linear regions. The hot pipe device also allows for unique coding systems to be implemented for different structure types. This flexibility is important, as the assembly of such complex structures can become extremely complicated without a custom made coding sys-tem for identifying the joint connections. Once all of the information has been coded, the roll can be dismounted and prepared for shipment. An IKEA-like manual is utilized for easy assembly.
course: cnc experimental fabproject team: nathaniel velez nieves, aslı aydın, raquel gallego lorenzo, josiah j barnesinstructors: marte malé-alemany with jeroen van ameijde + michael grau
Archi _ On a Roll - home made cnc machine
2.1
Archi _ On a Roll - home made cnc machine
cutting files
for
the machine
assembly
assembly process
2.1
Archi _ On a Roll - home made cnc machine
machine
working
prototype models
2.2
the class aims to show the process of how a simple machine works by building one. the general terms were introduced at the very beginning and the ma-chine is developed with the help of the instructor.
The aim of the project is to raise social awareness about energy consumption in domestic environ-ment though physical space. The main idea of vi-sualization and monitoring is to put it in such a way that it cannot be ignored to such an extent that is almost disturbing. It should be unavoidable un-less consumption is reduced. Yet, the decision of reducing consumption is left to the habitants of the house. The machine does not take any action in order to reduce it. The main difference between the gadgets in the market and the machine is that it transforms information collected from energy consuming devices into visual medium so that con-sumption is more graspable. What it also does dif-ferent than the others is to use the energy consum-ing devices themselves in this visualisation.
course: internet 0 (zero)project team: aslı aydın, guo liang, qiuxiau jian, mohamed omer, alejandro vega beuvrininstructors: victor viña
ENERGY PULSE
2.2
ENERGY PULSE
import processing.serial.*;PFont Myriad;
int servoA = 90;int servoB = 90;
int[] coordsA = { 90,100,103,112,130,135,111};int[] coordsB = { 88,91,97,91,85,90,66};int[] amounts = { 1,1,2,1,2,2,2};int currentLoc =0;
boolean auto = false;long lastAutoTime;int autoSpeed = 3000;
void setup () { size (200,200); initDriver(); Myriad = loadFont(“MyriadPro-It-48.vlw”); lastAutoTime = millis();}
void draw() { background(0); servoA = constrain(servoA,1,180); servoB = constrain(servoB,1,180); setServos (servoA,servoB); fill(255); textFont(Myriad); textAlign(CENTER);
text(servoA+” “+servoB,width/2,height/2); if (auto && (millis()-lastAutoTime) > autoSpeed) { currentLoc ++; lastAutoTime = millis(); if (currentLoc > 6) currentLoc = 0; servoA = coordsA[currentLoc]; servoB = coordsB[currentLoc]; setServos (servoA,servoB); delay (2000); shake(); }}
void keyPressed() { if (key >= 49 && key <= 55) { servoA = coordsA[key-49]; servoB = coordsB[key-49]; println(“set “+(key-48)+” to “+servoA+”, “+servoB); currentLoc = key-48; }
if (key == 115) { shake(); } if (key == 97) { auto = !auto; } switch (keyCode) { case TAB: currentLoc ++; coordsA[currentLoc] = servoA; coordsB[currentLoc] = servoB; if (currentLoc > 5) { currentLoc = 1; } println(“set “+currentLoc+1+” to “+servoA+”, “+servoB); break; case BACKSPACE: println(“got “+currentLoc+” to “+servoA+”, “+servoB); case ENTER: currentLoc ++; servoA = coordsA[currentLoc]; servoB = coordsB[currentLoc]; if (currentLoc > 5) { currentLoc = 1; } println(“got “+currentLoc+1+” to “+servoA+”, “+servoB); break; case UP: servoB --; break; case DOWN: servoB ++; break; case LEFT: servoA --; break; case RIGHT: servoA ++; break;
}}
void shake() { int amount = amounts[currentLoc] ; int time = 50; for (int i=0;i<20;i++) { int offsetA = int(random(-amount,amount)); int offsetB = int(random(-amount,amount)); setServos (servoA+offsetA,servoB+offsetB); delay(time); } setServos (servoA,servoB); println(currentLoc+” “+amount);}
water gas electricity
on
increase
type of consumption
ition
amount of consumption
machine
device_on
device_on
device_on
Energy consumption in the house is divided into three according to the sources that are used; WATER, GAS, ELECTRICITY. Each constructs its own network of movement of laser in each room. The device can be part of more than one network ac-cording to the type of energy used in that device.A network is composed of one machine and de-vices that consume same type of energy.
2.2
ENERGY PULSE
inputsensors: devices
coordinates
cpucomputer software
outputactuator: laser
micro controller
wirelessnetwork
usb - ethernetcable
B axis
A axis
Axonometry
Elevation
Plan
Elevation
PLAN: sweep angle around A axis
SECTION: sweep angle around B axis
2.3
The Scalar Fractal Shelving Table was inspired by Madelon Vriesendorp’s doll collection as seen at the Venice Biennale as well as several other current exhibitions. The doll collection ranges from large scale to tiny. The SFST project attempts to remodel the case where these multi scalar dolls may sit. The script(s) specifically intend on creating an premedi-tated version of the SFST, while at the same time preserving the flexibility in order to create endless variations depending on user preferences. The logic behind a fractal branching structure was carried through to the construction logic. Bound wires create thick, structural members which begin to split into smaller groups as the fractal rises and scales. This material system reflects how the script itself was constructed as a splitting, copying, and scaling device. The user interface allows users to pick specific ar-eas of the SFST and isolate their shelving condition. Someone with a doll collection that is mostly on the minute scale, might choose many divisions to cre-ate more, smaller shelves, whereas someone with larger dolls would opt for less, larger shelves. The isolated region of the SFST also affects the shelv-ing outcome. Higher regions along the z axis will by nature yield smaller surface areas for shelves, as the fractal has split and scaled down several times.
course: rhino scriptproject team: josiah j. barnes, javier martinez, aslı aydıninstructors: luis fraguada
the SCALAR FRACTAL SHELVING TABLE
2.3
the SCALAR FRACTAL SHELVING TABLE
2.3
the SCALAR FRACTAL SHELVING TABLE
2.4
Aim of the assignment is to get acquintant with la-ser cutting fabrication methods. the class is divided into groups of two and three people each building a certain part of the pipe. the end points of each groups’ pipe was given as a constraint so that they could be attached together as an assembly as seen in the picture.
As a group of three people, our assignment was to build a pipe where we could attach a lamp.
The pipe seeks to use the cross section ribs to both provide different levels of transparency and reflect the light by means of bouncing it when assembled into the composite structure of the class.
The sections start perfectly perpendicular to the x-plane at the bulb part, but rotate radially at the body to accomplish the above mentioned effect.
THE PIPE - laser cutting
course: digital fabricationproject team: aslı aydın, burak kılıç, gökçen demirkırinstructor: marte malé-alemany
2.4
THE PIPE - laser cutting
2.4
THE PIPE - laser cutting
Cutting files for laser cutter Cutting Process
The assignment aims to familiarize students with 3d printing techniques and how to treat models af-ter printing for curing process. Building a cad model that can be printed (sealed on all sides) is another crucial aim of the course.
It is asked to print a case for crayons which would hold 4 crayons inside in total.
The group decided to put two of those crayons in-side the case and the other two protruding from inside to outside.
2.5
course: digital fabricationproject team: jose manuel alvarez, aslı aydıninstructors: marte malé-alemany
CRAYON CASE - 3d printing
2.5
CRAYON CASE - 3d printing
1) Create the outer surface according to the placement of the crayons.2) Decide on the cutting surfaces and extrude them in different heights.3) Do ‘difference’ boolean operation.4) Offset the outer surface to inside and play with it to create different thicknesses. (to decrease the material used and to achieve the cage)5) Do the boolean operation to inner surface.6) Create a cutting curve that is not colinear.7) Cut through the model and separate two parts.8) Create a surface on the lower part for two cray-ons to rest on, also double that surface.9) Offset crayons and do ‘difference’ boolean operation.10) Replace the crayons inside.
2) 7)
4) 8)
5) 10)
STL Format
2.5
CRAYON CASE - 3d printing
Printing Process Cleaning Process
Binding Process
2.6
The assignment aims to model a formwork for a tile in rhino and simulate the milling process in rhino cam. The formwork is then milled and a tile is cast using this formwork.
The exercise was about the creation of a 30 by 30 centimeters foam tile to be casted 4 or 6 times, to elaborate a different combinations of possible de-signs. The tiles needed to be designed with a sur-faces and engravings always taking in account its 30 x 30 cm edges. As for the project, the work started by designing the engravings in a square, divided in each side by six points. By connecting the points in a non regular way, it recreated irregular polygons, that once you rotate the tile, it generates different shapes. This option makes the edge dissolve, focus-ing the attention in the lines. The other procedure done in the design stage was the surface of the tile. Once again it was settled a few points in the edges of the top surface, for continuity reasons, and then, played with the points creating a topography of soft curves. Finally, the previously horizontal lines were projected on the surface.
TILE - cnc milling - Dissolving the edge
course: digital fabricationproject team: aslı aydın, johanna peña, jose manuel alvarezinstructor: marte malé-alemany
2.6
TILE - cnc milling - Dissolving the edge
Instructions
1. Create a CAD design for the engravings of the square. 2. Create in Rhino a box, with 30 cm x 30 cm and 10 cm high. ( Locate both the Rhino and the Rhi-noCam axis on the superior corner, x=0, y=0, z=0). 3. Create in Rhino a Surface, so that it later could be used as the milled shape for the tile. 4. Expand the edges of the surface 20 mm, so that the milling machine so that it won’t leave any edges without being milled. 5. Import the CAD file, and project the lines, and connect its lines in order that the machine creates a trajectory out of this connections. 6. Project the lines into the surface. Open the Rhino Cam Pluggin, and assign a tool to the milling project. ( In this case, it was used a 12 mm ball mill tool). For the shape, it was used the Parallel Mill-ing, using the created surface. For the engraving, it was used Engraving, selecting tregions.
2.6
TILE - cnc milling - Dissolving the edge
7. Generate the process, recreating what the machine would do, and revise it’s possibilities for thickness, angle of the Parallel Milling and profun-dity.8. Post the processes, in order to be read by the machine. 9. Mill the Tile.
Casting Process
1. After the milling process, spread latex on the surface. 2. Create a cast with the desired height for the tile thickness. 3. Pour the material in to foam mold. (In this case, Rapid Cement) 15 Minutes later, extract the bor-ders of the castfoam from the material.
Finished Tile
2.7
The aim of the project is to reuse shipping containers to propose low-cost and quick solutions for city centers.
Every year, many contianers are left decommissioned in the docks due to the fact that carrying unloaded containers is more expensive than abandoning them. Project uses these containers to provide solutions keeping in mind that Barcelona is a port city where access to these abandoned containers is easier.
Oppose to well-known container projects, the proposal aims not to use the container structure as it is but the dismentle and use what comes out as the structural members to provide more freedom in terms of design.
To achieve this goal, a container is examined for its structural parts and potentially useful parts are extracted. Those parts are arranged in a parametric model prepared in grasshop-per that is the guide for the new construction.
program: education catalyst for neighborhoodsproject location: barcelona, spaincourse: eco-barriosinstructors: miguel mesa
Decomposing and Recomposing CONTAINERS
2.7
Decomposing and Recomposing CONTAINERS
section is manipulated by forces in x - y direction
number of sections increase in z direction
exploded recomposed container
PARAMETERS
left-over parts (because of the inadequate number of elements extracted from a container)_ frame_metal door
parts that are used in the proposal_ lateral c section_ longitudinal c section_ plywood flooring_ corrugated steel
2.7
Decomposing and Recomposing CONTAINERS
Reef Park of Barcelona is a project initiated in 2002 by the municipality of Barcelona to con-serve biodiversity under water.Concrete blocks were sunken to provide a habit-able environment for the species whose environ-ment was altered by human activities.The ecological activity around these concrete vessels were monitored for research and better understanding of colonization process.
These concrete blocks were concentrated in 5 dif-ferent locations, of which only 1 of them is visit-able.
Aim of the my project was to bring the findings of these artificial reef to surface and raise public awareness.
I studied the coastline of Barcelona in detail to map the human activity to find suitable location for catalyst containers and suitable activity that they can carry.
2.7
Decomposing and Recomposing CONTAINERS
EXHIBITION SPACE VIRTUAL DIVING CENTER DIVING CLUB
3.1
the goal of the research studio was to seek answers to the problem of transformable / transportable spaces keeping in mind the issues as flexibility, mobility, lightness, transiency, affordability, reus-ability, mutability, and adaptability within the size constraints of a shipping container that is allowed to travel on land. the function to which the projects would serve was left to desicion of students them-selves.
the proposal, outside boundaries - inside expres-sions, is a result of a search for a platform where clubs and societies under the body of the university can express themselves to the rest of the student society.
the project serves as an interface between the per-menant residents (club or society members) and the temporary users (visitors). it becomes a platform of expression of the primer to the latter. where such expression is the goal, the container can no longer be closed and confined to its perimeters. it should expand beyond its limits and increase the volume of interaction.
program: transformable / transportable spaces breaking the boxproject location: ankara, turkeycourse: advanced architectural studioinstructors: ayşen savaş, arzu gönenç sorguç, can baykan
OUTSIDE BOUNDARIES - INSIDE EXPRESSIONS
3.1
OUTSIDE BOUNDARIES - INSIDE EXPRESSIONS
boundaries vs. breaking the box instead of containing the space in or out of a box, the project tries to define the space around it, blurring the boundaries between in and out.
expansion
the volume of the container not also trifolds when expanded but also allows for differentiated and fragmented spaces that flow into each other where the unity of the whole is still the issue. this fragmentation yields to increase of volume of ex-perience and expression, changing the distance to surfaces.
wall & volume
dual existence of wall and volume are experienced simultaneously. Walls standing out as “objects” appear at the same time as the unified volume around them is perceieved or vice versa. therefore figure and ground becomes dissoluble in the single structure and the perception of depth oscillates continuously.
constant distancevolume x1
differential distancevolume x3
3.1
OUTSIDE BOUNDARIES - INSIDE EXPRESSIONS
fracture
“breaking the box” is achieved by using fractal methodology.
rule
in the generator, replace each copy of the initiator with a scaled copy of the generator.the rule of the project is based on the division of the total length of the container from points “x” and “y” to create 3 partitions. then the middle portion is rotated around an axis “a” with an angle “b”.
initiator:the starting shape
x y
ab
generator:the collection of scaled copies of the initiator
y
1. number of divisions
4. rotation axis
5. angle of rotation
2. first breaking point3. second breaking point
side panel
6. number of iterations
a
b
x
number of divisions
first cutting point
second cutting point
angle of rotation
place of the rotation axis
3.1
OUTSIDE BOUNDARIES - INSIDE EXPRESSIONS
3.1
OUTSIDE BOUNDARIES - INSIDE EXPRESSIONS
prototype model
water-jet cutter is experimented for the produc-tion of the prototype.ultrahigh molecular weight /high density poly-ethylene sheet is preferred for its performance to run through rails.
3.1
OUTSIDE BOUNDARIES - INSIDE EXPRESSIONS
3.2
Topographic tension along Kagıthane river is evalu-ated as an advantage since it is now abandoned by former industy activity and awaits its new business entrepreneurs. This topographic tension creates basins along river with intervals. These basins, are proposed as recreation and business zones. The basin: Recreation finds itself a place along the river bed and business activity is carried in the in-ner parts of basins. The project proposes a wall be-tween recreation and business. The wall acts both as a barrier between and a connector of two func-tions. Hurriyet Headquarters, which propose both pub-lic and business activities, then should be at the junction of the two zones. Its very unique location is selected because of its proximity to road junc-tion which connects Kagithane’s main road and the road that comes from 4. Levent.A newspaper building is a negotiation of many ele-ments that are the constituents of newspaper. But there is one dichatomy under newspaper that nei-ther negotiates nor serves efficiently when exist together. Yet it is the co-existence of them which makes the newspaper. They are the public that is the subject of the newspaper and the private sys-tem that is the object (creator) of the newspaper.
program: educational center, newspaper headquarterproject location: istanbul, turkeycourse: architectural design VIinstructors: lale özgenel, abdi güzer, yeşim hatırlı
HURRIYET HEADQUARTERS / FLAnGE - THE BASIN
3.2
HURRIYET HEADQUARTERS / FLAnGE - THE BASIN
site silhouette with surrounding background
site plan
3.2
HURRIYET HEADQUARTERS / FLAnGE - THE BASIN
section d-d
section a-a
section b-b
level 0 north elevation
level +3
level +2
level +1
3.2
HURRIYET HEADQUARTERS / FLAnGE - THE BASIN
The project group sees Iznik as a patterned organi-zation of layers, with the ground level partitioned by a grid, originating from the layers beneath. The patterns of “perimeter block”, “leftover space” and “gaps” have been points which were studied on. The proposal supports and emphasizes recur-ring relations of these elements. The layered orga-nization of the city is inspirational in forming the proposal and main ideas, taking this organization and treating it as a continuum. The gridiron, which constitutes the regulating lines of the city also is of importance and is considered for the organization of the site.
The proposal views the program and the site as a themed urban open space, relating to the other such spaces in the city with different characters.
The group aims to produce proposals that do not stand or lie on the site as over-powered elements in the vicinity of the historical building stock and also not obstruct solar exposure of the neighbor-ing blocks. While historical buildings in the site are transformed to house program elements, recently built generic verancular building stock is replaced by the proposal. However, their proportions are still traced in the final outcome.
3.3
program: education, accomodation, cultural centerproject location: iznik, turkeycourse: architectural design IVinstructors: aydan balamir, kadri atabaş
VOCATIONAL SCHOOL in İZNİK
3.3
VOCATIONAL SCHOOL in İZNİK
site plan level +1
level 0
level -1