Systemic Approach to Architectural Performance

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Trans-Co-Design in Systemic Approach to Architectural Performance
The Multi-Layered Media and Agency in Creative Design and Its Processes
Marie Davidová

Marie Davidová, MArch, Ph.D.: Systemic Approach to Architectural Performance

> Focusing on Landscape, Social and Cultural Ecology in
Built Environment for Co-Living Performance
> Shift from Anthropocene in Built Environment
> Biodiversity and Climate Change Adaptation

> architectural design and construction
> holistic approach
> real life laboratory

> Fusion of Several Process-Based Fields:
• ‘Systems Oriented Design’
• ‘Performance Oriented Architecture’
• ‘Prototypical Urban Interventions’
• ‘Time-Based Design’
• ‘Service Design’
• ‘Co-Design, Co-Creation and DIY’

• ‘Systems Oriented Design’
Sevaldson 2013

• ‘Performance Oriented Architecture’ > Responsiveness

• Eco-Systemic ‘Prototypical Urban Interventions’
• > Generativness
Photo: Carrithers 2017

Photo: Wágnerová 2013

Collabora�ve Collec�veCollabora�ve Collec�ve
CooLAND
FUA TUL
FLD CZU
FZP CZU
FHS KU
Local Community
professionalstudyforcommunitymee�ng
professionalstudyforcommunitymee�ng
projectprepara�on
professionaldiscussion
changeofconcept
communitymee�ng
nego�a�onwithacademy
Intro,loca�on,MINI&GIGA-Mapping
co-designwithGIGA-Map
presenta�on,designselec�on&rolesdivision
studioworkshopandexcursion
studiocollec�veGIGA-Mapping
Excelsior Pub
Stora Enso
Rothoblaas
NGOAcademy
-------------------------mappingthepoten�als
CoSpons
1.3.2017summer 2016 16.3. 23.3.
studiocollec�veGIGA-Mapping
20.4.
FLDCZUworkshopfabrica�on
4.5.30.3.
6.4.
13.4.
27.4.
buildingonsite&eco-systemicmapping
16.5.
OPENING
26.5.11.-12.3.
> > >
> > > > >>>>>>>> >>>>>>>>>>>>> >>>>>>>> >>>>>
>>>>>>>> >>>>>
> > > > > > > >
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> > > > > > > >> > > > > > > >
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>
--------------------------conceptconclusions----
>
--------------------------designandecology------
>
--------------------------designandecology------
>
------------------design-ecology-prototypes-
>
------------------prototypesandfabdrawings-
>
------------------fabdrawings----------------------
>
------------------fabdrawings----------------------
>
------------------fabrica�on------------------------
>
------------------building----------------------------
>
------------------party--------------------------------
>
-------------------------------EnviroCityFes�val-
>
> > > > > COLridor Project Ac�on Diagram > > > Marie Davidová 2017 >>>>>> > > > > > > > >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> > > > > > >
> > > > > > > > >>>>>> funding submission >>>>>>>> >>>> studio and funds > > > > > > > >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> > > > > > > > >
> > > > funding submission > > > > > > > > studio and funds > > > > > > > > > > >>>> > > > > > > > > > > > > > > > >> >>>>> >
> > > > > > > > >>>>>> >>
> > > > > > > > >>>>>> >>
• ‘Time-Based Design’ > Generativeness

Photo: Horáková 201ý

Photo: Novák 2013

Photo: Vajdová 2013

Photo: Novotná 2014.

Traditoinal Architecture from Extreme Climates Observations:
• today practice adaptation

Austland
Sørlandet
Vestlandet
Sør Trondelag
Farm House from Lende in Time
Jæren, 1845
91
Viga, 1863
Smithy
Landa, 350 - 600
5
Barn
1
Farm House, Nes, Mundheim
Kvam, 1600 - 1700
81
PERFORMANCEANDOPPORTUNITYOFUSE
LOCATIONSOFORIGIN
PENETRATIONOFENVIRONMENT&SPATIALDIMENSIONS
NUBEROFSIDESDISTRIBUTION
REGIONALCLIMATEOFORIGIN
1°Ci i/e e54% RHi 16% MCi 3°C i/e 54% RH i/e 18% MC 2°C e 53% RH e 18% MC
3°Ci i/e e53% RHi 17% MCi 4°C 54% RH i/e 17% MC 4°C e 55% RH e 20% MCi/e i/e
2°Ci i/e48% RHi 18% MCi 4°C i/e 49% RH i/e 17% MC 4°C 50% RH e 17% MCee
3°Ci i/e48% RHi 17% MCi 3°C i/e46% RHi/e 23% MC 4°C 48% RH 16% MCe ee
3°Ci i/e48% RHi 17% MCi 3°C i/e48% RH 20% MC 4°C 48% RH 23% MCi/e e e e
2°Ci 49% RHi 22% MCi 3°C 48% RH 17% MC 4°C 48% RH 23% MCe e ei/e i/e
i/e
i/e
4°Ci 52% RHi 17% MCi 4°C 52% RH 21% MC 4°C 52% RH 21% MCei/ei/e i/e e e
e
e
3°Ci 52% RHi 18% MCi 3°C 52% RH 17% MC 3°C 51% RH 22% MC February 2016ei/ei/e i/e e e
2°Ci i/e36% RHi 19% MCi 4°C i/ei/e 35% RH 16% MC 4°C 42% RH 17% MCi/e e e e
SPATIALDISTRIBUTIONOFTEMPERATURE
RELATIVEHUMIDITY
ANDWOODMOISTURECONTENTIN
INTERIOR,SEMI-INTERIORANDEXTERIOR
DATACOLLECTIONSEASON
> >
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19°Ci 53% RHi 14% MCi 21°C 54% RH 14% MC 24°C 51% RH 18% MC August 2017
February 2016
August 2017
February 2016
August 2017
February 2016
August 2017
February 2016
August 2017
February 2016
August 2017
February 2016
August 2017
February 2016
August 2017
February 2016
August 2017
August 2017
February 2016
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
ee> > > >
transformableopenness
closed
semi-open-largeopenings
semi-closed-ventilationopenings
semi-open-lacelikesemitransparent
semi-open-openside
leisure
working
communication
loadingofmaterial
storingofmaterial
animaldwelling
shelterforotherspecies
temperatureofinteriorspace
rela�vehumidityofinteriorspace
moisturecontentofwoodininteriorspace
temperatureofsemi-interiorspace
rela�vehumidityofsemi-interiorspace
moisturecontentofwoodinsemi-interiorspace
temperatureofexteriorspace
relavehumidityofexteriorspace
moisturecontentofwoodinexteriorspace
NorthFaceOrienta�on
EastFaceOrienta�on
SouthFaceOrienta�on
WestFaceOrienta�on
North-WestFaceOrienta�on
North-EastFaceOrienta�on
South-EastFaceOrienta�on
South-WestFaceOrienta�on
i/e i/e i/e e
18°Ci 68% RHi 16% MCi 18°C 68% RH 16% MC 22°C 69% RH 16% MCe e
e e
> > > >i/e
21°Ci 50% RHi 15% MCi 20°C 48% RH 16% MC 27°C 49% RH 9% MCee> > > > e
e
18°Ci 55% RHi 14% MCi 19°C 53% RH 14% MC 20°C 56% RH 12% MCee> > > >i/e i/e i/e e
15°Ci 78% RHi 17% MCi 15°C 77% RH 16% MC 13°C 79% RH 16% MCe> > > >
15°Ci 76% RHi 17% MCi 16°C 76% RH 16% MC 15°C 75% RH 18% MCe> > > >i/e i/e
i/e
e
18°Ci 56% RHi 14% MCi 18°C 56% RH 13% MC 19°C 53% RH 13% MCe> > > >i/ei/e e
21°Ci 54% RHi 14% MCi 23°C 50% RH 15% MC 28°C 60% RH 15% MCe e> > > >i/e i/e
i/e
i/e
i/e
i/e i/e
17°Ci 65% RHi 15% MCi 17°C 62% RH 15% MC 24°C 60% RH 15% MCe> > > >i/e
21°Ci 53% RHi 13% MCi 21°C 52% RH 13% MC 22°C 53% RH 13% MCee> > > >i/e
21°Ci 57% RHi 16% MCi 20°C 55% RH 18% MC 23°C 55% RH 16% MCe> > > > ei/e i/e i/e
23°Ci 50% RHi 14% MCi 24°C 47% RH 14% MC 25°C 48% RH 17% MCee> > > >i/ei/e
21°Ci 52% RHi 17% MCi 19°C 52% RH 16% MC 20°C 53% RH 8% MCee> > > > ei/e i/ei/e
21°Ci 52% RHi 17% MCi 19°C 52% RH 16% MC 20°C 53% RH 8% MCee> > > > ei/e i/ei/e
19°Ci 49% RHi 14% MCi 19°C 49% RH 14% MC 21°C 52% RH 0% MCee> > > > ei/ei/e i/e
19°Ci 53% RHi 14% MCi 21°C 53% RH 13% MC 23°C 53% RH 14% MCe e> > > >i/e
i/e
i/e
e
e
e
i/e e
i/e i/e
i/e
i/e i/e
i/e e
e
e
e
e
25°Ci 66% RHi 11% MCi 21°C 67% RH 16% MC 22°C 71% RH 11% MCe e
e
> > > >
e
i/e i/e
e
e
e
e
20°Ci 64% RHi 14% MCi 21°C 67% RH 16% MC 21°C 66% RH 13% MC> > > >i/ei/e i/e
i/e
i/e
Viga, 1863
Barn
2
Viga
Smokehouse
3
Viga, 1840
Sissela House
4
e
19°Ci 64% RHi 14% MCi
17°C 71% RH 18% MC
20°C 64% RH 14% MC> > > >
i/e
e
i/e
i/e
i/e
i/e
i/e
i/e
14°Ci 72% RHi 39% MCi
20°C 63% RH 14% MC
15°C 68% RH 16% MC> > > >
i/e i/e
Litunet, 1700 - 1800
Eldery Hose with Barn
7
e
e
ei/e
15°Ci 80% RHi 16% MCi 16°C 81% RH 14% MC 14°C 78% RH 16% MCe> > > >i/e i/e ee
e
i/e
i/e
i/ei/e e18°Ci 60% RHi 16% MCi 18°C 60% RH 15% MC 17°C 60% RH 17% MCe> > > >i/e
ee17°Ci 65% RHi 16% MCi 16°C 61% RH 20% MC 16°C 61% RH 16% MC> > > >
i/e e
e
e
i/e e16°Ci 65% RHi 16% MCi 17°C 65% RH 15% MC 16°C 65% RH 16% MCe> > > >i/e
i/e
i/e e ei/e16°Ci 67% RHi 11% MCi 17°C 67% RH 15% MC 16°C 66% RH 11% MC> > > >
ei/e16°Ci 71% RHi 22% MCi 17°C 67% RH 18% MC 18°C 71% RH 7% MC> > > >
e ei/e e16°Ci 76% RHi 15% MCi 16°C 72% RH 16% MC 17°C 73% RH 14% MC> > > >
i/ei/e
Litunet, 1700 - 1800
Small Dwelling
2
Litunet, 1700 - 1800
Store House
10
Litunet, 1700 - 1800
Store House
10
Kolbenstveit, 1850
Kolbenstveit 1850
Barn
2
i/e i/e
February 2016
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
August 2017
WORLDAXISORIENTATION
1 2 3
semi-interiorspacefromoneside
semi-interiorspacefromtwosides
semi-interiorspacefromthreesides
semi-interiorspacefromfoursides
1
1
1
1
1
1
1
1
1
1
1
1
1
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3
GIGA-mapping Svalgangs and Skuts
Systemic Approach to Architectural Performance Project with the Kind Support by EEA Grants
GIGA-Map by Marie Davidová
The study was performed by Marie Davidová and Dana Raková who are also the authors of the images. The data were col-
lected from Norsk Folkemuseet in Oslo - The Open Air Museum, Slotsfjellsmuseet in Tønsberg, Landa Muzeum, Viga,
Litunet, Kolbensveit and Hordaland Museum in Bergen.
We would like to thank to Birger Sevaldson from the Oslo School of Architecture and to Jørgen Solstad from Vestfold
Cultural Heritage Buildings Preservation for giving for providing us with information and to Stian Myhren and Terje
Planke from Oslo Open Air Museum, Sondre Skur Roberg, Kristina Litherland and Hakon Livland from Slolotsfjells-
museet in Tønsberg, Nils Viga Hausken from Viga, Stina Ekelund Erlandsen from Nesesjøhuset and Espen
Kutschera from Hordaland Museum in Bergen for providing us with plans and/or accessing us the spaces.
source of climatic diagrams:
yr. (2016). Clima. Retrieved February 15, 2016, from http://www.yr.no/
source of map of Norway:
Central Intelligence Agency. (1998). Central Intelligence Agency. Retrieved February 1, 2016, from https://www.cia.gov/
source of plans:
Enerstvedt, Å. (1995). Huset, Bustad, Arbeidstat. Fana: Hordamuseet.
Høibo, R. (2004). Folk i Ryfylke: Kolbeinstveit. Sand: Ryfylkemuseet.
Høibo, R. (2007). Folk i Ryfylke: Viga. Sand: Ryfylkemuseet.
Oslo Open Air Museum and Ryfylke Museum Archive
Relating Environmental and Social Conditions of Norwegian Traditional Archi-
tectures’ Non-discrete Spaces, so called “Svalgangs” and “Skuts”
clim
materialresponsiveperformance
a�cperformance
The unclimatised spaces between interior and exterior, generating the onion principal of the
building, securing to different extends visual, sound, light and climatic penetration, have its place in
almost all traditional architectures, performing as its energy exchange with the surrounding environ-
ment.
“Svalgangs and Skuts”, the semi-interior spaces in Norwegian traditional architecture, are giving various opportuni-
ties of use and performance. They are serving as public-private and indoor-outdoor interface, developed in high poten-
tials of articulation with different or even gradual degrees of permeability in relation to socio-environmental conditions. The
GIGA-map is relating such spaces in context of their original climatic location, opportunities of use or inhabitation, options of
penetration of overall environment and spatial dimensions, its distribution enveloping the interior spaces, world axis orientation in
today location and climatic Exchange of the onion principle.
The GIGA-map is zooming into various scales and layers, relating data and their development through colour coding gradients, their intensity
through dashed lines and weights, themes through curvature degrees and arrows suggesting the process of the performance.

transformableopenness
closed
semi-open-largeopenings
semi-closed-ventilationopenings
semi-open-lacelikesemitransparent
semi-open-openside
leisure
working
communication
loadingofmaterial
storingofmaterial
animaldwelling
shelterforotherspecies
clim
materialresponsiveperformance
a�cperformance

i/e
4°Ci 52% RHi 17% MCi 4°C 52% RH 21% MC 4°C 52% RH 21% MCei/ei/e i/e e e
e
3°Ci 52% RHi 18% MCi 3°C 52% RH 17% MC 3°C 51% RH 22% MCei/ei/e i/e e e> >
> > > >
> >
19°Ci 53% RHi 14% MCi 21°C 54% RH 14% MC 24°C 51% RH 18% MCee> > > >
temperatureofinteriorspace
rela�vehumidityofinteriorspace
moisturecontentofwoodininteriorspace
temperatureofsemi-interiorspace
rela�vehumidityofsemi-interiorspace
moisturecontentofwoodinsemi-interiorspace
temperatureofexteriorspace
relavehumidityofexteriorspace
moisturecontentofwoodinexteriorspace
NorthFaceOrienta�on
EastFaceOrienta�on
SouthFaceOrienta�on
WestFaceOrienta�on
North-WestFaceOrienta�on
North-EastFaceOrienta�on
South-EastFaceOrienta�on
South-WestFaceOrienta�on
i/e i/e i/e e
e e
i/e
21°Ci 54% RHi 14% MCi 23°C 50% RH 15% MC 28°C 60% RH 15% MCe e> > > >i/e i/e
e
i/e
i/e
i/e
i/e
e
i/e
i/ei/e e18°Ci 60% RHi 16% MCi 18°C 60% RH 15% MC 17°C 60% RH 17% MCe> > > >i/e
ee17°Ci 65% RHi 16% MCi 16°C 61% RH 20% MC 16°C 61% RH 16% MC> > > >
i/e e
e
e
i/e e16°Ci 65% RHi 16% MCi 17°C 65% RH 15% MC 16°C 65% RH 16% MCe> > > >i/e
i/e
i/e e ei/e16°Ci 67% RHi 11% MCi 17°C 67% RH 15% MC 16°C 66% RH 11% MC> > > >
ei/e16°Ci 71% RHi 22% MCi 17°C 67% RH 18% MC 18°C 71% RH 7% MC> > > >
e ei/e e16°Ci 76% RHi 15% MCi 16°C 72% RH 16% MC 17°C 73% RH 14% MC> > > >i/e i/e

22°C32°Ce i/e32% RHe i/e 39% RHi/e
20°C25°Ce 31% RHe i/e 35% RHi/e
28°C35°Ce 28% RHe i/e 31% RHi/e
20°C24°Ce 32% RHe i/e 31% RHi/e
22°C i/e 35% RHi/e 20°C i/e 36% RHi/e 25°C i/e 32% RHi/e
17°C i/e 37% RHi/e
18°C21°Ce 47% RHe i/e 61% RHi/e 18°C i/e 58% RHi/e 21°C i/e 59% RHi/e
14°C i/e 57% RHi/e 13°C i/e 59% RHi/e 13°C i/e 57% RHi/e 15°C i/e 58% RHi/e 13°C i/e 61% RHi/e
UndergroundCity
FairyChimneys
Valleys
RockWalls
Valleys
RockHills
author: Maximilian Dörrbecker, source: https://commons.wikimedia.org/wiki/File:Map_of_Cappadocia.jpg, licenced under: Creative Commons Attribution-Share Alike 2.5 Generic license.
https://chronicle.fanack.com/turkey/geography/
http://www.nigde.climatemps.com/
http://www.kayseri.climatemps.com/
Fully Ground
Fully Ground
Fully Ground
Fully Ground
Fully Ground
Fully Ground
Fully Ground
Fully Ground
Masonry Addition - Wall
Masonry Addition - Interior and Semi-Interior Spaces, Terraces
Masonry Addition - Vaults Roofing, Landscaping
FarmAnimalInhabitation
HumanInhabitaton
PigeonInhabitaton
Permanent Use
Permanent Use
Permanent Use
Occasional Use
Permanent Use
Occasional Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Occasional Use
Permanent Use
Permanent Use
Permanent Use
Occasional Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Occasional Use
Occasional Use
Occasional Use
NorthFaceOrientation
EastFaceOrientation
SouthFaceOrientation
WestFaceOrientation
LocalandRelatedClimate
ExteriorTemperature
ExteriorRelativeHumidity
Semi-InteriorTemperature
Semi-InteriorRelativeHumidity
>> >>
RelationshipofCarvingandAdding
Ground and Semi-Ground Inhabittation:
Cappadacia Case Study Thematic GIGA-Map
author: Marie Davidova
project: Traditional Architecture and Its Performance
funded by Student Grant Competition at the Technical University of Liberec, Czech Republic
The thematic GIGA-Map is relating macro and micro climatic relations of exterior and semi-interior spaces with geological posi-
tion and world axis orientation, substrative and additive building within and with tuff stone. The dashed lines express intensity
and periodicity of the occurrence of certain fields, while the marking dot suggest the abundance by their size and intensity by
gradients. The graphics arrows express increases and decreases, while the text arrows suggest the reading directions.
The map clearly expresses, that when designed vise, the semi-interior space without full enclosure, can manipulate the internal
climate up to approximately 10°C through the ground material and natural ventilation; and different climates and word axis ori-
entations were designed for different purposes of use. This also relates to co-habitance with different species with different cli-
matic, excess and spatial needs.
<<<
<<<
<<<
<<<
<<<
<<<

32°Ce 32% RHe
25°Ce 31% RHe
35°Ce 28% RHe
24°Ce 32% RHe
UndergroundCity
FairyChimneys
Valleys
RockWalls
Valleys
RockHills
NorthFaceOrientation
EastFaceOrientation
SouthFaceOrientation
WestFaceOrientation
ExteriorTemperature
ExteriorRelativeHumidity
<<<
<<<

22°C i/e 35% RHi/e 20°C i/e 36% RHi/e 25°C i/e 32% RHi/e
Fully Ground
Fully Ground
Fully Ground
Fully Ground
Masonry Addition - Interior and
FarmAnimalInhabitation
HumanInhabitaton
PigeonInhabitaton
Permanent Use
Permanent Use
Permanent Use
Occasional Use
Permanent Use
Occasional Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Permanent Use
Occasional Use
RelationshipofCarvingandAdding<<<

7.4 Formidling/motesal
7.6 Lager
7.5 Multimedia
7.3 Utstill ingsareal
7.3 Utstillingsareal5.1 MiSF - sjef
7.3 Utstillingsareal
skriver
6.1 Recepsjon
7.1 Butik
7.2 Garderobe
±0,000
+3,100
+4,200
+6,350+6,200
+7,000
+7,000
-4,360
2.0 Magasin
6.7 Reinholdsrom
2.0 Magasin
6.5 Garderobe 1.2 Lager ureint6.1 Recepsjon
7.1 Butik
7.2 Garderobe
±0,000
+1,150
+1,150+1,150
+1,15
+1,15
0 2 5 10
snitter
1:200
del snitt
1:100
BB’
AA’
axometri
PÅ VEI
På Vei:
• speculation

Responsive Transformer:
• application

Spiralling Slope:
• practice application

Birke 2018

• ‘Service Design’ > non-anthropocentric eco-systemic services
Photo: Carrithers 2017

Photo: Škuta 2014

• ‘Co-Design, Co-Creation and DIY’

Photo: Zapletal 2014

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transformablyopen
veryopensemi-interiorspace
-theparasitegeneratespublic-privatespace
semi-interiorspace-thepeelgenerates
The Tsunami Disaster Dec 26th 2004
(Marie Davidová, Erik Stenman and Pavel Žikovský 2006)
with the place of the disaster through horizon.
(workshop tutors: Marie Davidová and Krištof Hanzlík (Coll Coll) with
Petra Fišerová, Marta Mezerová, Zuzana Pavlová, Pavel Mahdal, Libor
Mládek, Adam de Pina and Eduard Seibert 2012)
Mannsåker & Marie Davidová 2009)
-
Mood for Wood: Comunity Origami Furniture
(workhop tutors: Marie Davidová, Šimon Prokop; students: Pulina
Hajdú, Wojtek Kozłowski, Lencsés Albert, Martyna Rajewska, Simona
Tóthová, Agnieszka Turczyńska 2015)
The project covers transformable furniture for perifery comunity gar-
den in the city of Poznań. It enables a mixture of preset and opportu-
Roubalová 2012)
-
the pavilion was dancing in wind, responding by its height to
humidity level.
-
dents: Alena Novotná, Anna Hrušová, Antonín Hůla, Barbora Slavíčková,
Jakub Kopecký, Jiří Fáber, Jiří Pokorný, Petr Tůma, Tereza Jílková, Rad-
im Sýkora, Eliška Antonyová, Tereza Lišková, Filip Janata, Tomáš Kytka,
Petr Havelka 2014)
LOOP is a research and public pavilion in one. While being weather re-
“waterfall sound from motorway”. It’s main topic is variosity of sound
proposed to generate pleasant urban environment.
with graphic studio Skuta Design: Jan Škuta 2011)
-
-
-
Nilssen-Love 2011)
+ Ray 3 Prototype (Marie Davidová 2016)
The museum complex project with onion princile for its climate,
supported by environment responsive envelope Ray 3. The
semi-interior space of such system generate both, pleasant cli-
BARCODE B10.1 - Fasade Concept Development
Fagernes 2007)
On the BARCODE B10.1 fasade concept development we
-
-
eral visual diversity of both interior as well as exterior.
SpiralTreeHouse (Marie Davidová & Prokop Závada 2010-2013)
SpiralTreeHouse is built from the rest trees in the forest as a
-
dynamics of the tree and its environmental input that will evolve
social boundary conditions
environment - design responsive
temperature responsive
light responsive
sound responsive
radio waves responsive
human - design responsive
leisure
work
meeting point
material loading
material storing
sleeping
furniture
shelter
screen
parasite
environment - material responsive
movable
public
private
public-private
design - environment responsive
material - environment responsive
temperature effect
light effect
sound effect
radio waves effect
<<<<<<< fully open - boundary conditions - closed >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
The courtyard space was occupied by balloons for people to chill out, play
and interact.
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Design’s Boundary Conditions
in Relation to Environmental
Interactions GIGA-map
Systemic Approach to Architectural
Performance and Wood as a Primary
Medium to Architectural Performance
project
Marie Davidová
This GIGA-map developed as a ZIP-analysis of GIGA-map-
ping Workshop lead by Birger Sevaldson that was mapping
pavilions from the project Wood as a Primary Medium to
Architectural Performance. It is mapping a problem of dif-
ferent types of environmental, biological as well as physical,
interactions through a range of boundary conditions of dif-
ferent designs. The case designs were either authored or
co-authored by the GIAGA-map’s author and were selected
due to their suitability to the not fully strict ‘gradient’.
The map lays out a matrix of parameters and relating their
interactions that often generate more or less complex feed-
back loops, some of them cycling even in hierarchical con-
stellations. The stroke thickness doesn’t fully reflect the hi-
erarchy in the system but the importance of related interac-
tions. The gradient of the splines represents the boundary
crossings, while the colour gradient of lines and texts for
each project represent a range from design’s openness to
closeness of the boundary.

<
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<<
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<
leisure
work
meeting point
material loading
material storing
sleeping
furniture
shelter
screen
parasite
public
private
public-private
temperature effect
light effect
sound effect
radio waves effect
< <

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transformablyopen
veryopensemi-interiorspace
-theparasitegeneratespublic-privatespace
semi-interiorspace-thepeelgenerates
The Tsunami Disaster Dec 26th 2004
(Marie Davidová, Erik Stenman and Pavel Žikovský 2006)
with the place of the disaster through horizon.
(workshop tutors: Marie Davidová and Krištof Hanzlík (Coll Coll) with
Petra Fišerová, Marta Mezerová, Zuzana Pavlová, Pavel Mahdal, Libor
Mládek, Adam de Pina and Eduard Seibert 2012)
Mannsåker & Marie Davidová 2009)
-
Mood for Wood: Comunity Origami Furniture
(workhop tutors: Marie Davidová, Šimon Prokop; students: Pulina
Hajdú, Wojtek Kozłowski, Lencsés Albert, Martyna Rajewska, Simona
Tóthová, Agnieszka Turczyńska 2015)
The project covers transformable furniture for perifery comunity gar-
den in the city of Poznań. It enables a mixture of preset and opportu-
Roubalová 2012)
-
the pavilion was dancing in wind, responding by its height to
humidity level.
-
dents: Alena Novotná, Anna Hrušová, Antonín Hůla, Barbora Slavíčková,
Jakub Kopecký, Jiří Fáber, Jiří Pokorný, Petr Tůma, Tereza Jílková, Rad-
im Sýkora, Eliška Antonyová, Tereza Lišková, Filip Janata, Tomáš Kytka,
Petr Havelka 2014)
LOOP is a research and public pavilion in one. While being weather re-
“waterfall sound from motorway”. It’s main topic is variosity of sound
proposed to generate pleasant urban environment.
with graphic studio Skuta Design: Jan Škuta 2011)
-
-
-
Nilssen-Love 2011)
+ Ray 3 Prototype (Marie Davidová 2016)
The museum complex project with onion princile for its climate,
supported by environment responsive envelope Ray 3. The
semi-interior space of such system generate both, pleasant cli-
BARCODE B10.1 - Fasade Concept Development
Fagernes 2007)
On the BARCODE B10.1 fasade concept development we
-
-
eral visual diversity of both interior as well as exterior.
SpiralTreeHouse (Marie Davidová & Prokop Závada 2010-2013)
SpiralTreeHouse is built from the rest trees in the forest as a
-
dynamics of the tree and its environmental input that will evolve
environment - design responsive
temperature responsive
light responsive
sound responsive
radio waves responsive
human - design responsive
leisure
work
meeting point
material loading
material storing
sleeping
furniture
shelter
screen
parasite
environment - material responsive
movable
public
private
public-private
design - environment responsive
temperature effect
light effect
sound effect
radio waves effect
<<<<<<< fully open - boundary conditions - closed >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
The courtyard space was occupied by balloons for people to chill out, play
and interact.
<
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< <
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<<
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<
<
<
Design’s Boundary Conditions
in Relation to Environmental
Interactions GIGA-map
Performance and Wood as a Primary
Medium to Architectural Performance
project
Marie Davidová
This GIGA-map developed as a ZIP-analysis of GIGA-map-
ping Workshop lead by Birger Sevaldson that was mapping
pavilions from the project Wood as a Primary Medium to
Architectural Performance. It is mapping a problem of dif-
ferent types of environmental, biological as well as physical,
interactions through a range of boundary conditions of dif-
ferent designs. The case designs were either authored or
co-authored by the GIAGA-map’s author and were selected
due to their suitability to the not fully strict ‘gradient’.
The map lays out a matrix of parameters and relating their
interactions that often generate more or less complex feed-
back loops, some of them cycling even in hierarchical con-
stellations. The stroke thickness doesn’t fully reflect the hi-
erarchy in the system but the importance of related interac-
tions. The gradient of the splines represents the boundary
crossings, while the colour gradient of lines and texts for
each project represent a range from design’s openness to
closeness of the boundary.
• Shift from Anthropocene
• > Biodiversity and Climate Change Adaptation

Research by Design through:
• > Eco-Systemic Prototypical Urban Interventions
• > Related Historical Prototypes Studies

Leading to the Shift from Anthropocene in Built Environment >
• cross-species co-living > dwelling and edible landscape
• co-design process > the process of its performance
• public and transdisciplinary communication and co-design
• analogue and digital co-design for adaptation
• Creative Commons Attribution-NonCommercial 4.0

Shift from ‘Cities for People’ (Gehl, 2010)
> Participation of Both, Biotic and Abiotic Agency
> One Co-Performative Ecosystem, the ‘Real Life Laboratory’

Twofold ‘Ecological Urbanism’ (Mostafavi & Doherty, 2016):
• physically prototyping and testing our work through overall
ecosystemic engagement
• tool to communities to spread the work through DIY

These multi-layered and multi-scaled local specific
eco-systemic trans-co-design real time processes are
therefore building the ground of the very open newly
emerging design field of
Performance

Thank you!
Marie Davidová, MArch, Ph.D.
Founding Member and Chair of Collaborative Collective
md@collcoll.cc
Lecturer at the Welsh School of Architecture
Founding Member of Systemic Design Association
Read my publications at:

Systemic Approach to Architectural Performance

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