M.Arch
Aleksandar Lalović mail : aleksandar_lalovic@yahoo.com tel: + 381 60 46 000 36
2010
selected works
Portfolio
*cover page - RhinoScript writen by Aleksandar Lalović
CONTENTS
ACADEMIC 3 5 7 9 11
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Office space . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Urban coridor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Wooden house . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Sunshade . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cultural center COMPETITION
13
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Eco Pavilion PROFESIONAL
15
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B23 Office park WORKSHOP’S
01
17 19 ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Generative design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Parametric live control of a milling robot
CONTACT : tel: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . + 381 60 46 000 36 e-mail: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . aleksandar_lalovic@yahoo.com web: . . . . . . . http://issuu.com/aleksandar.lalovic/docs/portfolio.aleksandar.lalovic
EDUCATION : Master program at Arctitecure faculty ,Belgrade, Serbia . . . . . . . . . . . . . . . . . . 2007 - 2009 Bachelor program at Arctitecure faculty ,Belgrade, Serbia . . . . . . . . . . . . . . . . 2004 - 2007 “Miloš Savković” Highschool, Arandjelovac, Serbia . . . . . . . . . . . . . . . . . . . . . . . 2000 - 2004 Born in Arandjelovac, Serbia . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17.06.1985.
WORKSHOPS : “Parametric live control of a milling robot”, TU Wien, Austria “Generative design”, Architecture faculty, Belgrade, Serbia
LANGUAGES : Serbian, English, German
GRAPHIC : Adobe - Photoshop, Illustrator, InDesign, Flash, AutoCAAD
MODELING : Rhino + Vray + Grasshopper, 3D Max & Vray, Softimage XSI, ArchiCAD
PROGRAMING : Rhino Script
HARDWARE : Laser cutter, KUKA KR 60-H robot arm ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
02
type year author
: ACADEMIC : 2006 - 2007 : Aleksandar Lalović, Nikola Stevanović, Vladimir Radulović, Stefan Spasojević
| Office space |
construction details vodootporni sper
pecurkasti nosac alukobond ploca 60 10
IPE 200
10
0
R66
+ 3.00 5
3 12
5
60
12 10
2
58
10 2 3
Alukobond Pecurkasti nocac EPDM membrana Sper Termoizolacija Trapezasti limTR40 Celicna resetka
5
70
5
10
3
12 10
3 12
2 5
60
2 10 7 70
5
10 2
distancer alu.bond nosaca
28
5
+ 3.74
nasuta zemlja
135 3
10 13
+ 3.19
PVC folija
12 10
+ 4.02
30 8 R6 20
0.4 4 10
5
R7
zakrivljeni trapezasti lim
podupirac
ivicno rebro
Epoxi smola Ravnajuci sloj Termoizolacija PVC folija AB ploca Sljunjak Nasuta zemlja
5
94
94
R65 0 R7
10 12 10
horizontalni nosac alukobond ploca
polikarbonatna ploca
3 10
tropojasna celicna resetka
70
3
Office space, designed with an idea to be unlike and not to resemble convectional office buildings thus giving much more freedom to experiment with the overall shape, function and construction. Since project emphasis was on construction, as integral part of the assignment detailed construction plan, installation plan and static calculations where made.
Alukobond Podkonstrukcja PVC folija Termoizolacija Gips-karton ploce
63
60
3
R7
Alukobond Podkonstrukcja PVC folija Termoizolacija Gips-karton ploce
+ 3.70 5
gips-karton ploce
horizontalni nosac alukobond ploca
8
70
70
2
R
R7
R68
20
R81
distancer nosaca
+ 4.22
2
55
EPDM membrana
7 10 10
68
68
03
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
section details
30
156
20
section a-a
section c-c
section b-b
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
04
type year author
: ACADEMIC : 2007 : Aleksandar Lalović
| Urban Corridor |
URBAN CORRIDOR, with the main goal to implement new content into the unbuilt area without disturbing present identity of the place (green plots with few pedestrian tracks and lots of greenery), which was done by concealing the built structure underneath the slabs of grass. The plot was subdivided in order to increase the readability of the area and enable diversification of content within the overall space.
05
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
program
section
program analysis site plan
concept diagram
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
06
type year author
: ACADEMIC : 2007-2008 : Aleksandar Lalović
| Wooden house |
east elevation
d2
WOODEN HOUSE planed as a part of a holiday resort upon hillside. The main chalange was to position a house upon a very steep slope and to develop complete architectural project with an emphasis on construction and the choice and application of materials. Detail computer model of construction and materialization of house was built as part of a special workshop included into semester project.
07
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
d5
26 14 2 23 4
.95
2
1
3
5 6
7
+ 3.05
9
4 4 1.2
4
8
44
1 10
10
18
+ 2.84 12
11
14 15
13 15
22
south elevation
1
4 5
+ 2.77
6
7
5
.95 5
+ 2.66
29 45
5 2 35 1 6 4 6 11
+ 3.05
4 4
3
2.2
2
+ 3.01
+ 2.60
8
22
232
d1
22
14
1
± 0.00
6
5 2
7 2
38
14
- 0.17
2
1
20
10
3
8
- 0.39
29
5 4
- 0.78 25
5
d3
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
08
: ACADEMIC : 2008 : Aleksandar Lalović
| Sunshade |
type year author
angle analysis section
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
09
BEACH SUNSHADE planed using the basic tools and logic of generative design.The structure is made by multiplication of basic cells. Height and tilt angle of cells are dimensioned according to incidence angle of suns rays in order to make perforated structure that produces constant shade. Some of the cells are extended all the way to the ground level in order to provide structural support and lift the sunshade of the ground. As part of a research in feasibility and structural stability physical model in 1:50 scale was produced.
N
W
N
E 80 70 60 50 40 30 20 10
S
N
W
E 80 70 60 50 40 30 20 10
S
W
E 80 70 60 50 40 30 20 10
S
yearley shadow path analysis
concept diagram
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
10
type year author
: ACADEMIC : 2009 : Aleksandar Lalović
| Cultural Center |
400 cm 300 cm 200 cm 100 cm 0 cm
400 cm 30
300 cm 200 cm 100 cm 0 cm
400 cm 300 cm
60
200 cm 100 cm 0 cm
400 cm 300 cm 200 cm 100 cm 0 cm
400 cm 300 cm 200 cm 100 cm 0 cm
400 cm 300 cm 200 cm 100 cm 0 cm
CULTURAL CENTER, implemented in partially reconstructed ship cargo center located in port of Belgrade. The goal was to dissolve vertical barriers and get rid of dead ends thus creating dynamic and constant space. Tilted and transformed vertical partitions have multiple uses ranging from vertical communications, siting areas to exhibition panels and more.
400 cm 300 cm 200 cm 100 cm 0 cm
11
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
ambiental variations
60
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
12
type year outcome author
: : : :
COMPETITION 2009 - 2010 4th out of 96, honorable mention Aleksandar Lalović, Nikola Stevanović, Vladimir Radulović
| Eco Pavilion |
site plan section
The concept is based on an idea of ephemeral architecture and seeks to challenge the assumption that architecture is always imposed on nature (ephemeral – short lived, transformable, inconstant, temporary …). The goal was not to try to fit into the surroundings with pure physical characteristics, but to highlight immediate environment and its qualities – vegetation, light, air, rain This was accomplished by transformation, transparency and use of natural materials which have all resulted in pavilion becoming an ephemeral envelope, which was materialized using the knitting system that allowed variation in transparency, visual variation and very easy assembling and disassembling with no tools or additional elements necessary. Such a use of materials allowed them to be exploited with no modification, thus making them 100% reusable. The transformation allowed program flexibility – auditorium/ exhibition space, and was made possible by making the panels of a flexible material such as rope.
13
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
SETUP 1
2.1 1.2
1.0 0 100 %
66 %
0%
33 %
Since one of the main goals was to promote education, in base configuration panels are arranged to form a membrane with a single path threw and a compact space inside, suitable for formal gatherings and lectures.
3.1 1.3
1.1 1.1 50 %
75 %
50 %
25 %
TRANSFORMATION Simple and quick transformation is used to switch easily back and forth between the two states in order to facilitate different kind of events and content in a verry small and limited area.
4.1 1.4
1.3 1.1 25 %
80 %
50 %
20 %
4.2 2.4
1.5 1.1 16 %
66 %
50 %
33 %
SETUP 2 By sliding the panels to a new position, pavilion opens it self up to connect to the surroundings threw a series of smaller semi open spaces. Multiple paths threw the structure emerge thus creating the configuration suitable for informal gatherings and exhibitions.
weaving paterns
construction details
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
14
type year author
: PROFESSIONAL : ongoing : Projmetal AD
| B23 - Office park |
garage facade made out of perforated steel sheets enclosed in triangular steel frames. parametric model (using Grasshopper) was made in order to eneible quick design changes (number of parts, gap size, frame dimensions, triangulation, structure depth etc.), and optimise production proces and material use. at the moment it is in production phase.
B23 complex covers the area of around 57,000 m2 and it consists of four towers buildings inter-connected through atrium spaces with panoramic elevators and a spacious square - park in front of the building. It is designed with a goal to provide world class office space for demanding commercial residents by fulfilling the highest standards of efficiency and luxury at the same time. Building features the first functional heliodrom in Belgrade. main duties and responsibilities – interior organization and design, construction details, 3d modeling and rendering.
15
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
physical model
260 100 100
100
100
260
260
260
260
260
260
260
261
261
260 100
100
100
260
260
260 100 261
260
263
101
260
263
263
263
260
263
260
260
B 2.6 B 2.6p
111
89
49
B 2.5p
100
B 2.4p
101
101
100
100
100
B 2.3p
262
260
260
260
260 100
261
261 100
100
B 2.2p
B 2.5
B 2.4 400
101
B 2.1p
108
B 2.3
43
263
100
263
B 2.2
B 2.1
B 3.5p
100
B 3.4p
100
B 3.3p
140
100
100
100
100
260 100
25
B 3.5
B 3.4 100
100
B 4.6p
100
260
B 3.2p
B 3.3
36
100
B 3.1p
261
260
100
B 4.5p
100
B 3.2
B 3.1
100
100
B 2.0p
8
B 4.6 100
B 4.4p
135
B 2.0
261
B 4.3p
139
100
100
66
261
261
B 3.0p
29
B 4.5
B 4.4
152
24
B 5.6p
100
261
B 4.3
B 0.0 B 3.0
37
100
61
100
B 4.2p
260
260
B 4.1p
B 4.2
B 5.5p
B 5.6 100
100
B 5.4p 105
B 4.1
261
261
260
260
260
260
100
B 5.3p
92
100
100
B 5.5
B 5.4 100
48
100
B 5.2p
100
B 5.1p
100
B 5.3
43
58
261
B 5.2
B 5.1
261
B 0.3
100
58
260
B 0.2
260
B 0.1
400
30
100
201
B 0.6 B 0.5 B 0.4
100
parametric model
118
B 1.4
atrium fasaad
B 0.1
panelisation
B 0.2
B 1.4p
101
B 1.3p 200
B 0.0
B 1.5
B 1.6
47
33
B 0.3
B 1.5p
100
121
B 0.4
B 1.6p
100
B 1.3
92
101
B 1.2
101
204
100
B 1.1b
101
201
100
B 1.1a
B 0.5 ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
B 0.6
16
type year presenter participant
: : : :
ACADEMIC 2008-2009 Đorđe Stojanović (Architecture Faculty Belgrade) Aleksandar Lalović
| Workshop |
assembly diagram cutting pattern
WORKSHOPS with a goal to practice basic principles of generative design such as fractal mathematics, various CAAD software (AutoCAD, Rhinoceros, Rhino script ... ), and to test the design at 2:1 scale through actual model building. The final phase should be simulation of complete building process and testing of the relationship between architectural drawing, 3D model and prototype.
17
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
20
type year presenter participant
: : : :
WORKSHOP 2010 Sigrid Brell - Cokcan, Johannes Braumann (TU Wien) Aleksandar Lalović
| Parametric Control of a Milling Robot | DESCRIPTION This workshop demonstrated optimization of the robot milling data workflow from a digital design to a physical geometry. In Grasshopper toolpath calculations were performed in real time providing instant design feedback. The process of Flank Milling, which utilizes the full cutting length of the tool instead of just the tooltip, lends itself particularly well to the proposed workshop, as the geometric input – opposed to the usual rough and fine cut milling – consists of comparatively few control points of the tool paths. Therefore, these calculations can be done in real time, with the user seeing an immediate change to the object’s geometry and the resulting tool paths while performing changes to the underlying parametric model. Furthermore, the user can access each point individually and basically simulate the entire milling process within the CAD (Computer Aided Design) environment without relying on additional CAM (Computer Aided Manufacturing) or kinematic post processing tools (e.g. Kuka Camrob). As a result of the parametric design process a robot control data file (G-Code) will be automatically generated. A Kuka KR60H Robot will be used for producing the developed flank milling designs. GOAL Adoptation of production immanent design concept, manufacturing parametric designs, writing G-Code for CNC machining and controlling a milling robot with existing parametric design software (Grasshopper). ROBOT CARACTERISTICS
19
ALEKSANDAR LALOVIĆ PORTFOLIO - 2010
TYPE
: KR 60 - H
CONTROLLER
: KR C2 ed05
NUMBER OF AXES
:6
PAYLOAD [kg]
: 60
REACH [mm]
: 2,033
POSITIONING REPEATABILITY [mm]
: < ± 0.05
G - code N0P9999 N1G40 N2G90G94 N3T1M6 N4G90 N5S4500M3 N6G0X32.458Y215.705Z-70.278I0.708J-0.705K0.037F1000. N7X32.458Y215.705Z-70.278I0.708J-0.705K0.037 N8X21.483Y203.621Z-62.667I0.776J-0.619K0.119 N9X12.356Y189.976Z-55.272I0.817J-0.547K0.184 N10X5.672Y174.731Z-48.426I0.839J-0.489K0.239 1 N11X1.759Y158.128Z-42.691I0.846J-0.447K0.292 tool path definition N12X0.446Y140.607Z-38.795I0.838J-0.420K0.349 miling paths are defined using two N13X1.344Y122.685Z-37.493I0.813J-0.406K0.418 curves, one of which represents N14X4.368Y105.037Z-39.226I0.762J-0.409K0.502 actual path of a tool tip and the N15X9.685Y88.447Z-43.720I0.675J-0.430K0.600 other defines tool orientation vector N16X17.108Y73.361Z-50.159I0.532J-0.469K0.705 N17X25.873Y59.752Z-58.059I0.312J-0.509K0.802 N18X34.666Y47.643Z-67.984I0.016J-0.519K0.855 N19X37.860Y33.286Z-75.217I-0.209J-0.476K0.854 N20X35.748Y17.732Z-66.668I-0.516J-0.586K0.625 N21X36.234Y11.831Z-78.299I-0.680J-0.516K0.521 N22X42.994Y16.502Z-91.658I-0.402J-0.700K0.590 N23X55.546Y24.714Z-82.169I-0.361J-0.833K0.419 N24X60.864Y39.013Z-73.340I-0.332J-0.836K0.438
4
5
3 2
continious movement predefined tool paths are combined to form a single job (if possible) in order to optimise and simplify milling proces. tool start and end point are also defined.
colision control simulation of a miling proces. if necessery, tool path or tool lenght are adjusted in order to avoid tool colision with a stock model
ALEKSANDAR LALOVIÄ&#x2020; PORTFOLIO - 2010
20
plese note that this portfolio is just a previw of selected works, if any aditional information or more detailed presentation is needed use the following information to contact me:
M.Arch
ALEKSANDAR LALOVIÄ&#x2020; e-mail : tel : adress :
aleksandar_lalovic@yahoo.com + 381 60 4600036 trnska 29/8 11 000 Belgrade Serbia