P
1 s
e
l
e
k c
u
b t
e
l
u d
s
s
e
i w
A
n o
e r
l
s k
b
s s
u
m
d o
a f
y
s 1
5
-
1
7
Context Preparation Works in city scale Scope of the Works Stepping into it Site’s and Land’s Stepping into Projects The Wall Functioning Living Spaces Building Envelope Roof Static Concrete Applications in Site Shaping the Land Flow Flow of a project in Turnkey Examples Pruchase Tasking, Contracts, Orginizing Value Timeline of a Construction Site
Academic Works Conferences And Case Studies Thesis Work Scripting Efforts
Preparation
This map shown above is from Kadıköy, Istanbul. It has a special place for my business career because right after i graduated, block based urban regeneration projects are bloomed through this map. This booklet is made from various works which i collabrated with various people in range of 2015 to 2017. Journey is keep going for better architecture Like C. Sagan said “Somewhere something incredible is waiting to be known”.
Stepping into Block 6
“The Math Beyond Vertically Moving a v
Riding into Block 6
very flat Car to -270cm in 14 meter distance”
LASER JACK (Local 0,0) LASER RUSSELL (-0,20)
LASER TERRIER (-0,70)
Stepping into Block 9
Maneuvering inside the Blocks
B TS AA 1 LSHIS
BASIS DICHTUNG_AD Z B UID SA_ISMA R AT PZ RH OM FE AL_IN A_ SU ESU ES _N NETNUN
MID EGEULF_ ESSUA_L ETTIM_N
A MLID LFV_U SS GEU SSUA_LE NEBO_NE B ISCAID TSH DG_GNU
T IRID UMHHCASRT_TM SSUA_ZNTE NEBO_NE B ISCAID A_GNUTSNHA DG D B TS AA CS 1 LSHIS IELGALH TS EM ID EGE ULF_ LEAK PPOTSET ETNU_NESSUA_L N
B AG AL SSIS
F UALB LEGSEIS
Z RA_SMUID AT PZ RH OM FE I_IL_IN ENN EN _N NETNUN
LAF V A ZG E L EU A R SIS K G ELLLN O E STIIA D G TZIC E UH M E _SP RN P R G O R FA IO LH F LIM NNI_NE NEBO_NE
EDBA ETSIELKC
D EULF_MI ENNI_LEG NETNU_N
B V L EG AA S SIR ELLSK STIO UTZID M _E EULGFN NNI_LEG NEBO_NE B TS AA 1 LSHIS
DICHTUNG_AD BASIS Z B UID SA_ISMA R AT PZ RH OM FE AL_IN A_ SU ESU ES _N NETNUN
MID EGEULF_ ESSUA_L ETTIM_N
A MLID SFV_U SL EU SUA_LEG B ISCAID TSH DG_GNU S NEBO_NE
T IRID UMHHCASRT_TM SSUA_ZNTE NEBO_NE B ISCAID H A_GNUTSN DG D S S A TB AA 1 LSHIS ELGALHC TS EM IDI EGEULF_ LEAK PPOTSET ETNU_NESSUA_L N
B AG AL SSIS
Z RA_SMUID AT PZ RH OM FE I_IL_IN ENN EN _N NETNUN
F UALB LEGSEIS
DIM_FLUEGEL_INNEN_UNTEN
ABDECKLEISTE
Motor
EDBA LAF V A ZG ETSIELKC E L EU A R SIS K G ELLN O E STIIA G D TZIC E UH M E _SP PRN R G O R FA IO LH F LIM NNI_NE NEBO_NE
FLUEGEL BASIS
BASIS DIM_FLUEGEL_INNEN_OBEN GLASLEISTE VERKLOTZUNG GLAS
DIM_RAHMEN_INNEN_OBEN GLASLEISTE AUSGLEICHSPROFIL VERKLOTZUNG GLAS FALZEINLAGEPROFIL
GLAS BASIS
KAELTESTOPP
ZUSATZPROFIL_INNEN DIM_RAHMEN_INNEN_UNTEN
B ISCAID SH DA_GNUT D EULF_MI ENNI_LEG NETNU_N
DIM_FLUEGEL_INNEN_UNTEN
ABDECKLEISTE
DIM_RAHMEN_INNEN_UNTEN ZUSATZPROFIL_INNEN
BASIS FLUEGEL
DIM_FLUEGEL_INNEN_OBEN BASIS GLASLEISTE GLAS VERKLOTZUNG
DIM_RAHMEN_INNEN_OBEN AUSGLEICHSPROFIL GLASLEISTE VERKLOTZUNG GLAS FALZEINLAGEPROFIL
BASIS GLAS
KAELTESTOPP
B ISCAID SH DA_GNUT
Motor
STAHL 1 BASIS
BASIS DICHTUNG_GD
VSS DIM_FLUEGEL_AUSSEN_OBEN ALU
DICHTUNG_AD DIM_FLUEGEL_AUSSEN_UNTEN BASIS DICHTUNG_GD ANSCHLAGLEISTE
DIM_RAHMEN_AUSSEN_OBEN TRITTSCHUTZ STAHL 1 BASIS
DIM_FLUEGEL_AUSSEN_MITTE
ZUSATZPROFIL_AUSSEN DIM_RAHMEN_AUSSEN_UNTEN BASIS
BASIS 1 STAHL
V B EG A SL A SIR ELSK STIO UTZID M _E EULGFN NNI_LEG NEBO_NE
DICHTUNG_GD BASIS
VSS DIM_FLUEGEL_AUSSEN_OBEN ALU
BASIS DICHTUNG_AD DICHTUNG_GD DIM_FLUEGEL_AUSSEN_UNTEN ANSCHLAGLEISTE
DIM_RAHMEN_AUSSEN_OBEN TRITTSCHUTZ BASIS 1 STAHL
ZUSATZPROFIL_AUSSEN BASIS DIM_RAHMEN_AUSSEN_UNTEN
DIM_FLUEGEL_AUSSEN_MITTE
05 150
320
250
90
Motor
10
DIM_FLUEGEL_INNEN_OBEN GLASLEISTE VERKLOTZUNG GLAS BASIS
KAELTESTOPP
DICHTUNG_AD DIM_FLUEGEL_AUSSEN_UNTEN BASIS DICHTUNG_GD ANSCHLAGLEISTE
ABDECKLEISTE
DIM_RAHMEN_INNEN_OBEN GLASLEISTE AUSGLEICHSPROFIL VERKLOTZUNG GLAS FALZEINLAGEPROFIL BASIS FLUEGEL
304
Motor
DIM_RAHMEN_AUSSEN_OBEN TRITTSCHUTZ STAHL 1 BASIS
DIM_FLUEGEL_INNEN_UNTEN
BASIS DICHTUNG_AD BASIS 1 STAHL
DIM_RAHMEN_INNEN_UNTEN ZUSATZPROFIL_INNEN
DIM_RAHMEN_AUSSEN_UNTEN BASIS ZUSATZPROFIL_AUSSEN
375
BASIS GLAS
DIM_FLUEGEL_AUSSEN_MITTE
BDK:110cm 1priz + 1 TV
AZ İNİŞ
DICHTUNG_GD BASIS
375
DOĞALG
VSS DIM_FLUEGEL_AUSSEN_OBEN ALU
250 BASIS 1 STAHL
B ISCAID SH DA_GNUT
BASIS FLUEGEL
Şaft
94
DIM_RAHMEN_INNEN_UNTEN ZUSATZPROFIL_INNEN
DIM_RAHMEN_AUSSEN_UNTEN BASIS ZUSATZPROFIL_AUSSEN
DIM_FLUEGEL_INNEN_UNTEN
DIM_RAHMEN_INNEN_OBEN GLASLEISTE AUSGLEICHSPROFIL VERKLOTZUNG GLAS FALZEINLAGEPROFIL ABDECKLEISTE
KAELTESTOPP DIM_FLUEGEL_AUSSEN_UNTEN STAHL 1 ANSCHLAGLEISTE BASIS DICHTUNG_AD BASIS DICHTUNG_GD TRITTSCHUTZ DIM_RAHMEN_AUSSEN_OBEN
DIM_FLUEGEL_INNEN_OBEN GLASLEISTE VERKLOTZUNG GLAS BASIS BASIS GLAS DIM_FLUEGEL_AUSSEN_MITTE
DICHTUNG_GD BASIS VSS DIM_FLUEGEL_AUSSEN_OBEN ALU
K:130 cm Diafon BD K:100 cm Anahtar BD 115 cm K: Keypad BD
90
ALARM
135
) K421 (30/60
85
S
KLİMA-A
d.gaz
S
45
VSS DIM_FLUEGEL_AUSSEN_OBEN ALU DICHTUNG_GD BASIS BASIS GLAS
DIM_FLUEGEL_INNEN_OBEN GLASLEISTE VERKLOTZUNG GLAS BASIS
DIM_FLUEGEL_AUSSEN_MITTE
KAELTESTOPP
DICHTUNG_AD DIM_FLUEGEL_AUSSEN_UNTEN BASIS DICHTUNG_GD ANSCHLAGLEISTE
ABDECKLEISTE
DIM_RAHMEN_INNEN_OBEN GLASLEISTE AUSGLEICHSPROFIL VERKLOTZUNG GLAS FALZEINLAGEPROFIL BASIS DICHTUNG_AD BASIS 1 STAHL
Motor
DIM_RAHMEN_AUSSEN_OBEN TRITTSCHUTZ STAHL 1 BASIS
BASIS FLUEGEL
DIM_FLUEGEL_INNEN_UNTEN
DIM_RAHMEN_INNEN_UNTEN ZUSATZPROFIL_INNEN
DIM_RAHMEN_AUSSEN_UNTEN BASIS ZUSATZPROFIL_AUSSEN
YAĞMUR SUYU İNİŞ Motor BASIS FLUEGEL
DIM_FLUEGEL_INNEN_UNTEN
DIM_RAHMEN_INNEN_OBEN GLASLEISTE AUSGLEICHSPROFIL VERKLOTZUNG GLAS FALZEINLAGEPROFIL ABDECKLEISTE
TRITTSCHUTZ DIM_RAHMEN_AUSSEN_OBEN
DIM_FLUEGEL_INNEN_OBEN GLASLEISTE VERKLOTZUNG GLAS BASIS BASIS GLAS
DICHTUNG_GD BASIS VSS DIM_FLUEGEL_AUSSEN_OBEN ALU
S
45
BDK:25cm BDK:95cm
K:130 cm Diafon BD K:100 cm Anahtar BD 115 cm K: Keypad BD
) K421 (30/60
KLİMA-A
ALARM
B ISCAID SH DA_GNUT
S
BASIS 1 STAHL
KAELTESTOPP DIM_FLUEGEL_AUSSEN_UNTEN STAHL 1 ANSCHLAGLEISTE BASIS DICHTUNG_AD BASIS DICHTUNG_GD
DIM_FLUEGEL_AUSSEN_MITTE
YAĞMUR SUYU İNİŞ
Functioning Living Spaces Block 138
DIM_RAHMEN_INNEN_UNTEN ZUSATZPROFIL_INNEN
DIM_RAHMEN_AUSSEN_UNTEN BASIS ZUSATZPROFIL_AUSSEN
n
23 7
94
u/h 18.000 Bt ma Salon kli
BDK h=90
7
94
Stropiyer u/h 18.000 Bt ma Salon kli
2,90
iş kotu kaba bitm
30
BDK h=40
228
30 8 208
85
işten ince bitm +100cm i liğ yüksek
Stropiyer da 7.000 ya u/h 9.000 Bt Oda klima
30 23 7
KLİMA-B
110 30 23 7
7
85 da 7.000 ya u/h 9.000 Bt Oda klima
2,90
28
Stropiyer
8
en işt ince bitm +100cm i liğ ek yüks
priz orta aksı
anahtar orta aksı
10
iş kotu kaba bitm
208
elk
yangin
228
Aspiratör
) K403 (60/30 90
BDK h=90
mek
30 23 7
BDK h=90 0
70
gömme rezerv. pissu aksı
taharet musluğu aksı
işten ince bitm +100cm i yüksekliğ
2,90
30
luğu taharet mus u piss ile klozet afe arası mes
Aspiratör
elk BDK h=18
30 23 7
30 23 7 soğuk ve sıcak su aksı
işten ince bitm +100cm i yüksekliğ
KLİMA-B
220
) K415 (25/50 Aplik
78
lavabo pissu aksı
çam.mak. pissu aksı
60
28
BDK h=40
çam.mak. pissu aksı Aplik
78 68
BDK h=90
çam.mak. temiz su
38
e Hansgroh duşu aksı
te
0
e Banyo Hansgroh grup ı iç bataryas orta aksı e gaga Hansgroh orta aksı
A SÜZGEÇ DUŞLARD VARSA !! pe
2,90
0
255
Aplik
çam.mak. temiz su
e Hansgroh duşu aksı
tepe
A DUŞ DUŞLARD VARSA !! TEKNESİ
13
2,90
işten ince bitm +100cm i liğ ek yüks
panelli Artemis h:14 cm duşteknesi
e Banyo Hansgroh grup ı iç bataryas orta aksı e gaga Hansgroh orta aksı
128
BDK h=18
lavabo aksı
270 30 23 7
pis su aksı
30 23 7
taharet aksı
41
duş bataryası aksı
115
105
17
klima dış ünite
30
175
30 23 7
60 t
UR İNİŞ
100
BDK h=18 0
Functioning Living Spaces of Various Blocks Renderworks associated with Resad Coban
evye
bulaşık mak.
70
Aplik
lavabo aksı
BDK h=180
Aplik
taharet aksı
pis su aksı
duş aksı
mek
ÇATIYA ÇIKIŞ
d.gaz
K415 (25/50)
BDK h=180
lavabo aksı
taharet aksı
pis su aksı
duş aksı
duş aksı
duş aksı
taharet aksı
pis su aksı
Aplik BDK h=180
lavabo aksı
+41.80
taharet aksı
pis su aksı
yangin
185
depo
evye
bulaşık mak.
er walkable bord
Roofing of Block 138
buzdolabı
ocak
depo
Şaft
KAPAĞI buzdolabı
ocak
Envelope of Block 14 776
+1,25
DIM_ZUSATZ_INNEN_OBEN
335
DIM_ZUSATZ_AUSSEN_OBEN
285 50 195 150
35 30*50*2mm GALVANİZE DIM_ZUSATZ_AUSSEN_OBEN
ALÇIPAN BİTMİŞ KOTU
PREKAST
65*160 PERVAZ PR.
0.7993
KÖRKASA
G-U TEKSTİL BANT-20'LİK 195'LİK REHAU PANJUR KUTUSU
BASIS
DIM_ZUSATZ_INNEN_UNTEN 1 LSHIS AA TB S
215
30*50 Sineklik Öteleme Pr. Panjur Dİkmesi/ Ray
SIVA
DUVAR İZİ
65*160 PERVAZ PR. STAHL 1 BASIS
30*50*2mm GALVANİZE KÖRKASA G-U TEKSTİL BANT
RHS80.4
PREKAST
65*160 PERVAZ PR.
195x215 PANJUR KUTUSU İZİ
SIVA
ALÇI/ SERT STRAFOR 30*50*2mm GALVANİZE KÖRKASA 1 LSHIS AA TB S
Envelope of Block 138
215
G-U 15'LİK TEKSTİL BANT
30*50 Sineklik Öteleme Pr. Panjur Dikmesi/ Ray
Concrete Work of Block 168
Tasks ordered in Gantt chart to schedule the whole work
CPM Work of Block 168
Different layer of columns used to calculate subtask budgets of the project
The data taken from workflow paths are ordered to visualize different sub-contractors payment values
ANALYSIS OF HIGH QUALITYBUILDINGSLIFE CYCLE PROCESSES IN THE CASE OF REGENERATION OF BUILDING STOCK: BAGDAT STREET EXAMPLE SUMMARY The time period between the beginnings of the 20th century to today, can be taught as revolutionary years in history from now. During that years, humanity made a lot of attempt to jump about how can humans live in better conditions and how can the existing energy can be used better, and dreamed about how can we perform better attempts. The invention of industrial concrete, politics about the population, the thinking methods about the production and many other progress like it lead the philosophy of housing projects a lot further. However if there is an idea called “building gathering” exist, it had to be tried repeatedly for a long time. The core of the problem was about the subjects of human, city, industry, transportation etc. and modern architects of 20th century looking forward to answer of these questions. But the World has limited sources and the reaching part of the target must be analysed as a mathematical problem and used methods to reach that target must be classified as common patterns. These patterns can be exampled like; the building systems, building sub-systems, the performance approach to understand the building etc. And the main point of these patterns was to understand the building itself. Among this, the approach used in the process of making buildings is also methodized. Today we know the possible performances of a specified power, contractor or a momentum canpossibly do in a specified time, and we can also simulate it beforehand.
Phd Thesis Summary
Inside this tremendous motion, Istanbul has a special place in architecture. The historical administrational buildings from middle ages, historical financial and transportation buildings, the industrial attempts, and single housing examples affect the tissue of the Istanbul from different time segments. Until the begging of the global thoughts and rapid financial movements around the world, Istanbul has its own rhythm. Unlike Turkey and other countries which missed the industrial revolution, the European countries tried to solve the problems of rapid population grow and changing the rhythm of the people lives in modern ways. This problem should not be taken as just accommodating a specified population. The core of the problem was about what should happen to people’s life when humanity mechanized and the performance of a single human is multiplied. The answer of the question for Istanbul leads us smaller and complex solution particles rather than a solid solution. The lives that linked with Istanbul in time, their demands and the politics that presented as solutions; lead us the core of the today’s Istanbul. The people live in that time surely find a solution about their basic needs of live. But in that time segment, the core of the solution was not about to build quality housing projects, it was about to design the hidden lines like land borders, transportation lines, social
borders etc. The idea of attempt the regeneration of building stock in the main neighbourhoods like; Beşiktaş, Bakırköy, Beylikdüzü, Kadıköy, Ümraniye, Esenler etc. which scaled as singular cities in Istanbul, must about to prepare these neighbourhoods to upcoming era, rather than just demolish and making new building for avoid the harms of earthquake. And thus can be only done with a good management of all processes. In the beginning of the 21th century, from the scope of the regeneration of building stock, Istanbul has changed rapidly and the city become a big construction site. The main reason of it was to rebuild the old and risky building to avoid harms of the earthquakes. But renovation the stock must be thought as an opportunity to achieve higher purposes and developing ideas about the process must be thought. The new environment that set today will bring new results in terms of social conditions, the growth of population in centre of the city, the raise of building density in the city, raising the unit per square meter prices etc. In such terms, the reactions of local authorities and major political decision mechanisms is really important. In the thesis project, the moves taken for the regeneration of the building stock in exampled neighbourhoods are analysed. The buildings made today are seen as not changed for a long period of time. The regeneration inside the central nodes of Istanbul must be done with a strong future planning. This planning should answer the questions about the waste management, the heating energy management, parking management etc. and also come up with high quality buildings. In the scope of thesis project, the processes while gathering a building is classified under different titles. Inside these titles, the question of how can a quality building can be gathered are tried to answer. The knowledge and the approved protocols across the world is been scanned and gathered information is compiled to get refined answers. However, the existing process to gather the buildings in the scope of regeneration, has so many local properties and can be thought as unique process for Istanbul. In the part field work, some of the different neighbourhoods from Istanbul has been chosen and investigated. The part comes after the field work includes singular building projects and covers all the processes of the making building from demolish to reuse. The process been kept in making buildings is as important as the outcome itself. In this work; the participants of processes like local authorities, land owners, contractors, the project makers and all the responsibilities of each participant is also observed. The outcome of the thesis is been thought as a guide to participants to concerned ones and an ideal building process tried to find in today’s time segment for Istanbul. The life cycle of these buildings are organized in three topics; planning phase, design phase and making phase. The usage phase of the projects are thought as an huge topic and left out in the scope of the thesis. The planning phase of a building is about the core thoughts in that projects which affected by the regulations and the actors of the market. But the main subject of the market is interest. The main subject of the regulations must be about to develop the peoples life in a better way while also making profit for the market. The steps taken for changing an environment cannot be succeed by making the building than put a waste organizer trash bin in front of it. The change must be start with human minds. Another point is, if there is people available in some environment and if there is an attempt exists to change that environment, people must be thought of the tools for
that change and must be organized around a thought to make actions. When we look the building laws in 2010's Turkey we can consider them they were similar to each other and organized in a main subject; interest. The city may be seem full of good opportunities but without a future planning and scenarios of life, it will suddenly become a concrete jungle. The regulations must be prepare for the answers of the long term questions and a couple of reference project which made by these regulation can start an effect of change. The design phase of the projects is a big subject of discussion in construction industry. The design phases are bordered by the steps taken in planning phases. Despite that planning phase and design phase of the projects are developed in harmony together. We cannot strictly separate the one from another because there is a huge combination of decisions taken through planning and design phases. Whether the decision can be effect the outcomes else the dedicated outcome can shape the decisions. Design and planning is such complex mechanisms that hard to track them, so in this work the possible outcomes of this tracks are focused more. Since the laws and regulations are adapted to this process, we must understand the dynamics of the urban laws and thinking ways of local authorities. There is several algorithms are dedicated for different class of lands but applying the same solution to the relevant or not relevant buildings from different streets of different city parts and wishing the same outcomes is not very logical. The regulations made by laws must be part of the solutions of subjects like; disable accesses, waste management, organizing the silhouette in the city and etc. Since the society, needs and the wishes of the house projects and urban lives are changing so rapidly, it is impossible for laws to catch the movement. Urban regulations about buildings must have the flexibility to encourage the creativity of the people. And also freedom of the architects must not be strictly regulated by regulations because it creates a common mistake loops in long term. Because of the profitability in construction industry in Turkey, many not corporate stakeholders which never been in construction industry is involving in market as contractors. It is not a bad thing in terms of economics. But construction industry is all about to make buildings which will serve directly to the people and the know-how about buildings and building making methods must be realized by these stakeholders before they enter the industry. Otherwise the outcomes of these attempts will have bad effects for public, because construction industry is a huge subject which involves pouring a calculated concrete to make risk manageable contracts. Construction industry needs professionals because timing is a crucial fact in this business. The advantages of some subject can turn a total disadvantage suddenly. In order to understand the scope we have to understand the international aspects of the project delivery methods. Project delivery methods are derived with various examples throughout the world and really interesting subjects to deliver the projects. As long as the common behaviours of the subject are understood better, the decisions will become more accurate. With all these considered, making a common mind to build qualified buildings in Turkey in its own market will take long term time periods. The mission of the architects must be about to observe the current situation and make better offers for the sake of public health.
Part of Thesis Work “Flow”
to f s o m t i par nd it a aking nt s i rk ta o c g m ey eve w e n j i s o d i r buil o turnk * Th hesis p f o t s t my se step g parts n ly ana investi from
Confrences and Case Studies
sition); o P e s u ut.mo
p oint (In P d l r o ToW .Screen
()
g raggin
ain mera.m a C = t n; oin .positio har); WorldP e m r s o u f o s oC 0; ran 3M Vector orldPoint.z = oint - t ition, MouseT e); P d l r o W eW tud os Mouse Char = Mous (transform.p oChar.magni y eT To Mouse Pos = new Ra tPoint (Mous trecthSqr) recth); t r S S e a x x h a .G a s C M M o rP >= Ray int ( t = Cha rMagnitude .GetPo n i s o o P P r d l a q Ho Ch ar.s Point = seToCh d u l o o H M ( if
void D {
0; int.z = ue; HoldPo .enabled = tr nd LineRe
}
Scripting Efforts Codes i worked for various subjects commonly with C# and Unity
)); OUNT ; i++) { C T _ T N { N U ) E j++ _CO e () GM Count; i < SEGMENT wGuid + j * SE e a i r ( v r D / u t d C i n vo 0; j < i = 0; ldPoi sition); o t = o j n H i .p ( ( t n r = m i ( r o f fo for { 3 temp (i, trans ity) { t r e Vector { s temp); , n T .I c t a N s i p L U a 0) st.C T_CO Points if (i == ointsLi GMEN P E S < t * j n ou (i + t); tsList.C tsList.Insert n i o st.Coun P i ( L f s i n t i e n o i s P l }e , Po ange (0 R e [i + j * S v t s o i L m s e t n oi ist.R ..... " + P PointsL .= .. .. } else { " + NT) break; T_COU N E M SEG + (i + j * ." .. .. f o e he Valu } T " ( g o g.L //Debu } );
e( } rUpdat e r e d n LineRe }
date()
n void Li {
rerUp eRende
); ); t (/* */ n u osition 2); o C .p x e m t r r o e f s n* nd.SetV (0,tran .positio m r o LineRe .SetPosition f s tran
UNT]);
NT_CO SEGME
; Engine ions; y t i n U t using .Collec m e t s y ur { using S ehavio B o n o :M ; Magic s s OCube a l G c t c c i l e j b b pu GameO tity; n public t xQua ity; n i c i l b pu Quant ; y t n i c tity publi zQuan t n i c i l pub ; r3 Vect o t c e V private art ()
void St {
; tity = 5 n a u Q x ; tity = 5 yQuan y = 5; tit zQuan
); dentity ){ ; k++) { .i + { y n + t ) j i o + t ; i + ; n i y n ) t r a ; i ate ,k*5 tity ant zQu (i*5,j*5 ect, Qu yQuan j < xQu int k = 0; k < t ; V e < , 0 i .S e ; t = b c 0 j u Ve i= OC for ( for (int for (int iate (G t n a t s In } }
E. Berk Kurtel Hometown: Çanakkale, Turkey Living: İstanbul, Turkey Born: April 1991 Language: Turkish [Mother] , English [Fluent] Master of Architecture:
İstanbul Technical University Environment Control and Building Technologies
Bachelor of Architecture: İstanbul Technical University Architecture Faculty High Scool: Çanakkale High School of Science berkkurtel@gmail.com
“Thanks for your time”
Raul Capablanca Dune Pink Floyd Garry Hustwit Quaternion A Space Time Odyssey Why Nations Fail? Gimble Lock David A
ns Fernando Pessoa The Tool Apollo 13 Ship Design Carl Sagan Attenbrough Alex Grey Herman Hesse Harvard Business Review