Marcin Kosicki Architecture Portfolio

The geometry of the widespan enclosure is based on inverted catenary chains.

The aim was to develop an interchange train station in Wroclaw, Poland. WroFab would be the most important point in the planned urban rail network and a focal point for a new district located in a redeveloped industrial area. The project transforms an intersection of two main railroads into a modern multilevel train station. The linearity as a nature of railroad is chosen a base design principle. The tension given bay non perpendicular intersection between railroad lines adds the element of dynamic into the

from. The core of the station is situated alongside the underground line one the gallery, focusing people’s flow along it. Above it the rhythm of an ambitious, expressive structure manifest forces and tensions acting in the arched structure. The game of natural light penetrating the building divides it into the sequence of a logically succeeding spaces to whom each one contributes into the quality of public agenda of the place.

THE MULTIMODAL TRANSPORTATION HUB WROCLAW FABRYCZNA

3

1. The projected high-speed railway system in Poland with higlighted locatio of the city of Wroclaw in Lower-Silesia district

2.The Lower-Silesia Distirict Railroad system with local connetions that can run for the projected station mared in red.

3. The Wroclaw City Railroad System with the higlighted localisation of the projected station

4. The existing urban tissue in the area close to the station. Former industral zones can be easly spotted.

5. The Railroad system close to station area is a relict of industy

6. The road system colse to station area is not very well developed and requires major changes.

KalingradGdańsk

Szczecin

Lublin

Rzeszów

Olsztyn

Białystok

Zielona Góra

Gorzów Wlkp.Toruń

Kielce

Kraków

Katowice

Bydgoszcz

Opole

WiedenBratyslawa

Berlin

Drezno

Praga

Kośice

L’viv

MinskMoscow

VilnusRiga

Poznań

Warszawa

Wrocław

Łódz

Fig .1 The projected HSR system in Poland Fig. 2 The Lower-Silesia Railway System

Jelcz

Oleśnica

Trze

bnic

a

Trze

bnica

Leszno

Głogów

Legnica

Wałbrzych

Sobó

tka

Strz

elin

Brzeg

Jelcz

Legendaistniejące linie kolejowe

nieistniejące linie kolejowe

istniejące stacje kolejowe

istniejące stacje kolejowe

Fig. 3 The Wroclaw railway system

Fig 4. The existing urban tissue on the site Fig 5. The existing railway system. Fig. 6 The existing road system.

pl. Strzgomski

pl. Legionów

pl. Postańcó Śląskich

pl. L.Hirszfelda

Rondo Żołnierzy Wyklętych

KruczaStalowa

The station is to be the main transportation hub and the social, cultural and comercial focal point for the proposed disctrict.

Wałbrzych GłównyWałbrzych Miasto

Wałbrzych SzczawienkoŚwiebodzice

Świebodzice CiernieJaworzynaŚl.

ImbramowiceMietków

Kąty Wr.Sadowice

SmolecWr. Zachodni

Klecińska*

Strzelin

Warkocz

Boreczek

Węgry

Żórawina

Smardzów Wr.

Iwiny*

Jagodno*

Świdnica Miasto Bielawa

Żmigrów

Skokowa

Osola

Oborniki Śl.

Pęgów

Zajączków*

Szewce

Świniary

Lipa Piotrowska*

Osobowice

Trzebnica

Brochocin

Siedlec Trzeb.

Pasikurowice

Pawłowice

Zakrzów

OleśnicaBorowa Oleśnicka

DługołekaMirków

Os. Sobieskiego*

Chrząstwa Wik.Nadolice

Dobrzykowiece*Łany*

Rogowska*

Mińska*

Trawowa*

Krzemien

iecka*

Kołobrzeska*

WojnówStrachocin*

Wilczycka*Swojszyce*

Maydlana*Działdowska*

KowaleMirowiec*

Kołkoczce*Psie Pole

Sołtysowice

Zakrzów KotowiceSiechnice

Jelcz Miłoszyce

Bieńkowiece*

Księże Małe*

Armii Krajowej*

Obo

rnick

a*Po

święt

ne*

Kamieńskiego*Altyrerysjka*

Uniwersytet*

Świebodzki

Huby*

Wr. GłównyArkady*

Św.Katarzyna

Ziębie Wr.Lizawice

Oława

Jelcz Laskowice

MuchobórNw. Dwór

Czajkowskiego*Browar Piast*

Słowiańska*Nadodrze*

Szczepin*

Tarnogaj*Bardzka*

FABRYCZNA*

Oporowska*

Gajowick

a*

Ojca Benz

yma*

Borek*

Krzyki*

Park Po

łudnio

wy*

A. Medycz

na*

Strańs

ka*

WojszyceŚwit*

Agrestowa*Partynice*

Zwycięska*Klecina

Bielany Wr.Domasław

Kobierzyce

Mikołajów

Cmentarz Osob.*

PopowiceNiedzwiedzia*Gądów*

Ostatni Grosz*Gądów Mały*

Kuźniki

StadionMaślice*

Stałowice*

Pracze

Marszowice*

Wilkszyn*

Księgnice*

Czerna Mała

Brzeg DolnyŁosowice

Wołów

Szczec

ińska*Żern

iki

Lotnisko

*

Złotniki

Leśnic

aMrozówMięk

ina

PrzedmościeŚro

da Śl.

Malczyc

eLeg

nica

Legenda

Oława

stacje

stacje istniejące

stacje projektowneŚwit*

The projected metropolitan light rail system in Wrocław with the station Wroclaw Fabryczna marked red as the main interchange node

5

7

LONGITUDINAL SECTION ALONG UNDERGROUND PLATFORMS

UNDERGOUND PLAN LEVEL -1

UNDERGROUND STATION PLAN LEVEL -2

Ground Level, Station Main HallShort Section

Upper Station PlanPerspective View, West Piazza

9

The project’s geometry was designed by the parametric model developed in Rhino+Grasshopper. The model allowed generation of various design options. The curvature of the main hall was based on inverted catenary chains due to its well

known structural properties. After the geometry was design it was imported into BIM software (Revit Architecture) which enables efficient detailing and specialistic drawing generation.

WROCLAW FABRYCZNAFinal project design workflow

The result of boolean operation is an unique node that joins the beams.

boolean difference is executed between node ciliners and beams

beams curves are extruded along beam vectors.

the sum of beam vectors gives a direction of node vector

double curved roofs are tessellated and dynamically relaxed.

for every pair of normals, beam vector is computed

panel’s frame

a glass panel

welded junction

a node

a beam

11

LONGITUDINAL SECTION ALONG UPPER PLATFORMS

Curves are divided into an equal number of parts.

Poins are transformed into mesh vertices

Lines are divided by the number equal to F(n)=n+1.

Adjacent points are connected by lines.

The script takes edge curves.

Net Surfaces is created by NURBS curves that representsthe shape of a roof

The surface is divided on segments and each of them is initialy meshed with topology based one the shape

WROCLAW FABRYCZNAForm finding experiments

Dynamic relaxation is a numerical method which is used form “form-finding”. The aim is to find a geometry where all forces are in equilibrium.

The Script written in Grasshopper inculudes the sum of all the forces between every pair of nodes. It is reached by simulating a pseudo-dynamic process in time, with each iteration based on an update of the geometry. The script follows the alghoritm:

1_Take the pair of nodes. 2_Compute the displacement 3_Update the position of nodes.4_Return to step 1 until the structure is in static equilibrium.

The Mesh of the Roof before dynamic relaxation

The Mesh of the Roof after dynamic relaxation

13

Right. The Graphic shows selected frames that document the process of the form’s growth. Final form is a result of 230.00 iterations of a heuristic process that mimics the natural selection. In every iteration a full loop the algorithm was conducted. Geometry of a final form depends on the philosophy of generation and decision encoded in the script. The process can be fully controlled by the designer in order to find solutions for specific spatial problems.

In modern world where buildings have to reach much more goals that nearly a few years ago the new tools used to design them have to be developed. Rapidly growing amount of data to process that affect the design force architects to experiment with an implementation of an innovative tools into their workflow.

They could be borrowed from other disciplines like biology or computer science. Factors like insolation, aerodynamic, pedestrian flow, or sustainability plays a key role in form finding. In dense urban environment where every single design decision affects surrounding environment the process of developing a new forms that optimally fits the plot could be extremely difficult. In order to help in these process of iteratively generating and examining the countless number of possible solutions a combination of parametric design and genetic algorithms could be used. A system that threats the design form like a living organism that grows and evolves to match given environmental factors helps architects for the sake of developing much smarter buildings.

The aim of the project is to develop a system of a digital growth process which is ruled by the performance oriented factors and implement it into an architectural workflow.

THE GROWTH SKYSCRAPER

15

The underlying heuristic process for form finding was divided into stages. Each stage was given a name and a specific task to perform. The process includes a real time connection between several software platforms and performing multiple data operations in them.

THE GENERATORWritten in Java including Processing libraries, this script is a heart of the system. It controls the growth of the form, iteratively adding and testing voxels within predefined project boundaries. Whether the form fits into given environment is decided based on data from EcoTect. The script learns from its mistakes - if bad voxels are generated they are removed permanently from the matrix so they cannot be used any more.

The Generator script:1_generates an initial form based on predefined parameters,2_adds voxels and asks Ecotect for the overshadow and insolation data in each iteration,3_removes bad (causing overshadowing) voxels permanently from the form and growth continues

CITY CONTEXTA 3D model that represents real spatial conditions and the surroundings of a specific plot that is being checked.1_Potentially overshadowed buildings2_Space of possible solutions for a new skyscraper3_Existing buildings that affect the insolation of a new skyscraper

THE SOLUTION MATRIXThe space within the boundaries of the project is divided into a matrix of voxels. It stores the information of current state of each voxel, saves its address (x,y,z coordinates) and state: used- voxels accepted in form potential - not yet tested culled - removed from matrix

1_Coordinates of active voxels that are to be tested are transmitted form Generator through the OSC protocol into Grasshopper script as a single data string.

2_String is exploded into a list of coordinates of individual voxels. They are used to draw rectangles that represent levels of current form.

3_Rectangles are extruded, joined, meshed and merged with the exterior environment. A resulting 3D model is sent through a Geco plugin to Ecotect software.

4_Ecotect environmental data is being computed and sent back into Grasshopper via Geco plugin

5_Envinromental data is merged into a single string and send to Generator via OSC protocol

17

Parametric Pavilion Project The goal of the project was to develop a temporary shelter structure in a public space. The aim was to propose a form that demonstrates the cutting edges technologies in architectural design. The plot is situated on St. Matthias square, focal point of an typical XIX century residential quarter. The piazza is surrounded mainly by old tenement houses as well as blocks build after WWII. The idea was to obtain a tension between old historical buildings and futuristic forms of a new design that introduce new aesthetic into an area where the spirit of XIX century middle-class can still be felt.

project team:Marcin KosickiPiotr Halczuk

St. Matthias Square is located in Nadodrze District which is the part of the city of Wroclaw, Poland. The squarea and sourrounded buidlings are mosty form the XIX century.

Above. The mesh that is a discret representation of the geometry of the roof was designed by generative process that was based on a heuristic alghorthm, written in Processing, which includes dynamic relaxation and self optymalization. of topological connections between nodes.

The goal of the project was to develop a coneptual project for a temporary shelter structure in a public space. The aim was to propose a form that demonstrates the cutting edges technologies in architectural design. The site is situated on St. Matthias square, a focal point of an typical residential quarter established in the XIX century. The piazza is surrounded mainly by old tenement houses as well as blocks build after WWII. The idea was to design the pavilon that produces a tension between old historical buildings and futuristic forms of a new design that introduce new aesthetic quality into the area where the spirit of XIX century middle-class can still be felt.

The St. Matthias’ Summer Pavilon

19

Random location on surface is picked and if there is enough space around point is added.

After a certain treshold nodes and connetions are established while points start to push away as well as attract

Points are added, the mesh is dynamically relaxed and the process continues until the mesh topology reachs the equilibrium.

The Curvature of a surface was formed through influence of a three attractors. Force of any from attractors was described by mathematical function of distance with tow variable.

Bimetalic panles convert a temperature change into mechanical displacement enablig all states form fully closed to fully open due to current envinroment codition

21

The insolation test performed in Autodesk Ecotect. It shows diffrent levels of solar energy intakes due to sourroundig context. Above graphic shows how those differences should be reflected in panels’ state.

STRUCTUREThe Roof structure is based on a mesh that tessellate the initial surface. The Mesh conatins 143 nodes, 221 faces and 364 edges.

The nodes are designed as two rings that holds the beams. Every node is diffrent and joins the unique combination of beams.

The assembly is possible due to the custom made computer algorithm that numerate every element and creates tn assembly scheme.

DIGITAL FABRICATIONIt is a process that joins design with the construction /production through the use of 3D modeling software based on the files used by 3 axis CNC milling machine. Struructure elements are designed in Rhino+Grasshopper.

ASSEMBLY SCHEMEThe graphic shows the correct assebmly scheme for nodes, wings, beams and panels.

23

25

The aim was to design a sculpture in public park that belongs to the politics of the city of Wroclaw elected European Culture Capital in 2016. The idea was to take the logo of Wroclaw ECC designed by Jerzy Osiennika and transform it into tree dimensional object. The letter W was multiplied rotated and scaled to obtain dynamic and fascinating 3dimentional Form. In original logo the top of the W letter holds a small, horizontal bar that symbolise Polish flag that refers to historic logo of Solidarity Movement . Due to its symbolic meaning the right position of the flag was maintained on the each side of the sculpture To achieve that the bar athropy towards the cenetr of the sculpture and arise on the second side toward the end. The W panels rotate toward the axis which is structural core of the whole object. In order to join plywood W panels to steel pipe series of parmetric joints were created.

Name:ECC ScultpureProject: 2014Relistaion: 2015Location:Wrocław, PolandOffice:Pracowania Projektowa Myczkowscy; Wroclaw, PolandArchitecture: Tomasz Myczkowski Structure: Romuald Tarczewski Concept design: Marcin Kosicki, Piotr Halczuk, Karolina Cykowska Computational Design Marcin Kosicki, Piotr Halczuk

Axonometric view: 1_Plywood panel 2_Steel pipe 117x6,5x3500 mm3_Node, A-part, steel4_Node, Ring, steel5_ Node, Rib, steel

THE ECC SCULPTURE

North & East Facade1_Pipe, steel 2_W-Panel, plywood3_Bed plates, steel 4_Joints , steel pipe5_Core, steel pipe

The custom made parametric model was deveoped by Marcin Kosicki and Piotr Halczuk in Rhino+Grasshopper.

All geoemtrical elemets were generated based on the model. Files sent to manufacturer were also generate by the parametric model.

Plywood panels were cut out by the use of CNC laser cutter and assembled due to the specyfication devloped by the authors

W18

W19

W24

W25

W26

W27

W28

W29

W30

W17

W15W16

W9 W8W7

W12

W11 W10W6

W5

W4

W3W2

W23

W20

W21W22

W14

W13

W1

W0

27

Section B detail:1_Plywood W panel 2_Steel pipe 117x6,5x3500 mm3_Central steel node4_Ribs, steel5_ Fillet welding

section B, detail

Projects conduted by LabDigiFab:Digital Fabrication 3D Printing, Processing & generative algorithms, Advanced Parametric Design CourseSummer Parametric PavilionBEST Summer School Wroclaw: Modern Architecture - parametric design tutorEpiphany or Evil - Parametric and Generative Architecture Exhibition 2012 Parametric Design Wrokshop, Code of Space CourseAdvances in Architectural Geometry, London - cluster leaderShapes of Logic - International Additive computational architecture conference

29

LabDigiFab Is an organization cofounded by Marcin Kosicki in 2011. Our mentor is Przemek Jaworski, who worked for Foster+Parners in Specialist Modelig Group for several years. The organistion is focused on emergent technologies in contemporary architecture. It was created as a student research facility that groups people with keen interests in computer science, architecture, civil engineering and sustainability design. Its pimary goal is to help with a transfer of a knowledge between members and to popularize the computational design in Poland. Its portfolio contains several team projects, exibitions, and workshops.

LABORATORY OF DIGITAL FABRICATION

The project was developed by university students in Wroclaw, Poland clousterd around LabDigiFab grop. A Parametric Pavilion was designed as a prototype that could be actually built. The goal was to create a structure that could be used for sun and rain protection, and that could be built with available technology for CNC cutting and woodworking. The students worked under the guidance of Jawor Design Studio and LabDigiFab, and used MicroStation to generate three B-spline surfaces to form the

geometry of the pavilion. GenerativeComponents was used to further refine the geometry. Because of the shape of the B-spline surface, the generated beams were all unique. Identification tags were placed on all items to aid in the efficient and proper construction of the pavilion. This reduced material consumption and resulted in cost and time saving. The generative design approach was used as an academic exercise to find the optimal geometry for a functional pavilion.

Generation of the pavilion’s mesh. Custom made code in Processing (Java)

Final form sketch. Generative Components

Final form with elements prepared for digital fabrication. Generative Components

31

Parametric Pavilion -Wroclaw, PolandJawor Design Studio and LabDigiFab2013 Be Inspired Award Finalist - Innovation in Generative Design

TOKYO

Akihabara

ImperialPalace

TOKYO, JAPAN

TRC

Akihabara Station

Chuo

Dor

i

Chuo

Dor

i

AKIHABARA STATION

TOKYO REPLY CENTERThe aim of the project is to develop a new leisure center placed in Tokyo’s downtown. The place has to fit with the lifestyle of “otaku” -people who have a keen interest in manga, anime, and video games. The Tokyo Reply Center (TRC) brings a new concept of the leisure activity, a building with numerous private media rooms, where groups of friends can go and use whole gamma of a digital entertainment in a private, comfortable environment. The localization in Akihabara district, well known meeting point for otaku people around the world and near one of and most important transport nodes in Tokyo gives an excellent opportunity for erecting ambitious and outstanding project.

Otaku culture is very complex and has numerous subtypes. Despite the inner division the whole phenomena could be easy distinguished in modern culture. This fact was a base for an initial design. Each

karaoke room could be interpreted as an reflection of a different subtype of manga. They are connected by the circulation system and covered by the semitransparent skin that bounds them together as well as single them out from outside world.

STUDENT COMPETITONDESIGN TEAM:Marcin KosickiYan Li Dorota Waszak Katarzyna Nowak

33

Student competiton.project team:2011Marta PakowskaIga PerugaMarcin KosickiMateusz Olczyk

RETHINKING MAJORCA SEAFRONT

The Coast of Mallorca used to be clearly divided into two zones: beach and the boulevard. These isolation caused difficulties in the use od land, and a distance between beach and the zone of restaurants and pubs resulted reducing of the attractiveness and the extinction area after dark. We had decided obliterate the visible boundary by creating mebrane pavilions whic include catering facilities, pubs and stalls. In to poins of the beach piers with boats dock were designed and in the center the main pier was jointed with amphitheatre. The amphitheatre with the pier will attract by untypical form during the day and lighting at night

Project:The poject of rebuilding and renovation of a buildng of Wroclaw Movie Company (WFF) for Center of Audio-Visual Technologies (CeTA).Employer: 5D Design OffcePosition: Assistant of Senior ArchitectResponsibilites: property condition survey concept design, preparation of specialistic drawings, contact with subcontractors.

Idea: Transformation of a hundred-year-old buidling into a modern movie school. The work involeved intervention into exisitng historical buidling layout as well as designing specialistic work envinroment with high quality sound propeties.

THE CENTRE OF AUDIO-VISUAL TECHNOLOGIES

As a part of project team I prepared detailed design whith included working drawing as well as detailed drawing.

Prestented sections are part of the documentation that design all the changes that are to be made in historica building including a deployment of soundproof panels in the main move studio hall.

ist. œciana murowanagr. 64cm do wyburzeniawraz ze stolarka nazaznaczonym fragmencie rzutu

ist. œciana murowanagr. 12cm do wyburzeniaw zaznaczonej czêœciHali "B"

Obudowa sufitu z p³yt gk wg odrêbnegoopracowania ( Projekt budowalny dachu)

Projektowany s³up stalowywg projektu wykonawczego

1 x Typowy profil [

2 x Typowy profil [

Zamkniêcie przest. nad sufitempodwieszanym z p³yt na stela¿ugk wg projektu wykonawczego

Profil UA mocowany min co 50cm do isnitej¹ cego [ 200 na 2ko³kach wstrzeliwanych HILLTIlub innych o tych smamych lublepszych parametrach

Wyburzenie pod drzwi patrz rzuti przekrój zgdnie z proj.wykonawczym

Pomost stalowyzgodnie z proj.wykonawczym

Zamkniêcie przestrzeni nadotworem dzwiowym z p³yt gk nastela¿u zgodnie z proj.wykonawczym

SP6




1 x Typowy profil [

1 x Typowy profil [

ist. konstr. antresolido renowacji( czyszczenie imalowanie )w ca³ej Hali "B"

-3,10

0,00

+3,94

+8,04

3434

820

2640

220

2631

0

1217

534

820

1610

402

2016

1031

0

348

4129

1

263

107

3028

0

64

60

212

1027

088

2627

014

731

270

35

220

uzupe³nienie posadzki hali(w m-scu wyburzeñ)wyk³adzina PCV (projektowana)0,5 cm

podsypka zagêszczona (projektowana)

SP6

wylewka ¿elbetowa zbrojona siatk¹(wg. projektu wykonawczego) (projektowana)15cm

THE CENTRE OF AUDIO-VISUAL TECHNOLOGIESDETAIL DRAWINGS

THE NEW DIDACTIC BUILDING FOR THE REGIONAL SPECIALIST HOSPITAL IN WALBRZYCHArchutecture: MCW STUDIO - Jędzrej JankowiakStructure: Biuro Doradztwa Usługowego Budownictwa - Jacek KramnikAssistant Structural Engineer: Marcin KosickiProject: 2010-2011Realisation: Firtst Phase 2012-Phase: Building permit designResponsibities: structural design, structural drawings,

WALBRZYCH

POLAND

The aim was created detailed design project that would allow the building permit for the New Didactic Building for The Regional Specialist Hospital in Walbrzych.

Marcin Kosicki worked as a assistant of structural engineer and qa responsible for detailing the concept project and filling it with structural details under the supervision of qualified structural engineer.

The technology used for the project included prefabricated concrete columns and slab elements.

Section BB. Section through the theater hall.

41

First flor plann, Distribution of prefabricated building slabs

Section AA. Buildit permit stage

Foundation plan. Buildit permit stage

PROJECT DETAILStype: residential- tenment houselocalisation: Klodzko, Polanddesign year: 2012

SOFTWARE:Revit Architecture AutoCad

SUMMARYThe aim o of project was to design a multi-family house in the historical town center. The plot is located in Klodzko, a small medival city in Silesia-Poland. The history of the plot goes back to XIII century. The project was an aswer to the question of how to build modern archtiecture in extreamly traditional and conservative envinroment.

Plan was organised aroud a staircase which was a core of the strucutre. At the ground level there was comercial area that could be used by a pub or a restaurant. The main archtitectural element was a bay sitauted at the corner of the buidling which could be spotted from both ends of the main street.

TENMENT HOUSE BACHELOR IN ARCHITECTURE GRADUATION PROJECT

THE ENTRANCE IN ART PAVILION

Krasnoyarsk, Russia

45

The aim of the project was to grab the attention of people passing by and direct them to the place of the festival. The budget for the installation was relatively low, so that we decided to build the pavilion from thin wood laths. Distributing all laths on 3000x1500mm, 6,5 mm thin birch plywood sheets, we had almost no losses of material.

The final project was on L-shape plan with two separate series of laths. The gemetry of the first ws based on a grid that was projected on a surface created on the basis of catenary chains. The second layer was additional and not necessary

for the stability of the whole construction, but it nicely complemented structure with systems of laths based on the Bezier curve gradient .

CompetitionThe completion was held in two stages. At the first stage, the jury (Begyshev A. Zykov E. Kovalevsky C. Kozak A.) on 18th of June 2014 chose from all proposals five, which were built during the Festival “ARCHITECTURE OF EASTERN SIBERIA 2014” around Krasnoyarsk Museum Center. The second stage of competition took place after construction of all five installations.

Idea

47

Why in Siberia?The competition for the best outdoor architectural installation was aimed to young architects. Judyta Cichocka realizing her study exchange in Irkutsk was appointed to muster design team. In this way international design team from Wrocław University of Technology and Irkutsk State Technical University was build up. The design phase started in April 2014 in Irkutsk and ended in June 2014 in Wrocław.

THE ENTRANCE IN ART PAVILION

lathes prepared for digital fabrication on a CNC laser cutter

49

Project details:2nd place in the competion for outdoor

architectural installations at Festival “Architecture of Eastern Siberia 2014″

design team: Judyta Cichocka, ЕвгенийМоскаленко,

ЕкатеринаМатель, АннаМартынова, Piotr Halczuk, Marcin Kosicki

construction team: ДенисоваЕлизавета, ЛовчагинаЕкатерина,

ЛипкинаАнастасия, МательЕкатерина, МоскаленкоЕвгений

Construction: 25-29 June 2014

location: square near to the Krasnoyarsk Museum Center – of Modern Art; Красноярскиймузейныйцентр. Площадь Мира, 1, Красноярск, Россия 660097

Marcin Kosicki Architecture Portfolio

Documents

Transcript of Marcin Kosicki Architecture Portfolio