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The Eco-Systemic Prototypical Urban Intervention", "date" : "2022-01-20 16:43:27", "changeDate" : "2022-11-21 14:37:50", "count" : 1, "pub-type": "inproceedings", "booktitle": "6th eCAADe RIS 2018 Proceedings","publisher":"University of Cyprus", "year": "2018", "url": "http://papers.cumincad.org/cgi-bin/works/paper/ecaaderis2018_103", "author": [ "Marie Davidová","Šimon Prokop" ], "authors": [ {"first" : "Marie", "last" : "Davidová"}, {"first" : "Šimon", "last" : "Prokop"} ], "editor": [ "Odysseas Kontovourkis" ], "editors": [ {"first" : "Odysseas", "last" : "Kontovourkis"} ], "pages": "75-85", "source" : "Odysseas Kontovourkis (ed.), Sustainable Computational Workflows [6th eCAADe Regional International Workshop Proceedings / ISBN 9789491207143], Department of Architecture, University of Cyprus, Nicosia, Cyprus, 24-25 May 2018, pp. 75-84", "id" : "http://papers.cumincad.org/data/works/att/\tecaaderis2018_103.pdf", "bibtexKey": "davidova2018treehugger" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/229f2191b3460ffebf829883571579e48/mariedavidova", "tags" : [ "approach","architectural","codesign","design","diy","myown","performance","post-Anthropocene","service","systemic","to" ], "intraHash" : "29f2191b3460ffebf829883571579e48", "interHash" : "05302b6cd225c2a12b3f2472ae013ba5", "label" : "Trans\u2010Co\u2010Design in Systemic Approach to Architectural Performance: The Multi\u2010Layered Media and Agency in Creative Design and Its Processes", "user" : "mariedavidova", "description" : "", "date" : "2022-01-20 16:34:22", "changeDate" : "2022-11-21 14:38:04", "count" : 1, "pub-type": "inproceedings", "booktitle": "Relating Systems Thinking and Design 2018 Symposium Proceedings: Challenging complexity by Systemic Design towards Sustainability","publisher":"Systemic Design Association", "year": "2018", "url": "https://rsdsymposium.org/trans-co-design-in-systemic-approach-to-architectural-performance-the-multi-layered-media-and-agency-in-creative-design-and-its-processes/", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "editor": [ "Silvia Barbero" ], "editors": [ {"first" : "Silvia", "last" : "Barbero"} ], "pages": "387-407", "ee" : "http://dx.doi.org/10.1109/26.231913", "bibtexKey": "davidova2018transcodesign" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/22311a5e72b47f17151c8bf90dc798f50/mariedavidova", "tags" : [ "approach","architectural","blockchain","codesign","design","myown","performance","systemic","to" ], "intraHash" : "2311a5e72b47f17151c8bf90dc798f50", "interHash" : "760cb012de6f6ceaa291584fa3c5ad4b", "label" : "CoDesigning with Blockchain for Synergetic Landscapes: The CoCreation of Blockchain Circular Economy through Systemic Design", "user" : "mariedavidova", "description" : "", "date" : "2022-01-20 14:46:21", "changeDate" : "2022-11-21 14:39:14", "count" : 1, "pub-type": "inproceedings", "booktitle": "CAADRIA 2020: Re:Anthropocene - Design in the Age of Humans","publisher":"Association for Computer Aided Architectural Design in Asia", "year": "2020", "url": "http://papers.cumincad.org/cgi-bin/works/paper/caadria2020_098", "author": [ "Marie Davidová","Dermott McMeel" ], "authors": [ {"first" : "Marie", "last" : "Davidová"}, {"first" : "Dermott", "last" : "McMeel"} ], "editor": [ "Dominik Holzer","Walaiporn Nakapan","Anastasia Globa","Immanuel Koh" ], "editors": [ {"first" : "Dominik", "last" : "Holzer"}, {"first" : "Walaiporn", "last" : "Nakapan"}, {"first" : "Anastasia", "last" : "Globa"}, {"first" : "Immanuel", "last" : "Koh"} ], "volume": "2","pages": "333-342", "ee" : "http://dx.doi.org/10.1109/26.231913", "bibtexKey": "davidova2020codesigning" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2507bbc5a1109c2659e0e0256f6f5a4d7/mariedavidova", "tags" : [ "approach","architectural","codesign","design","myown","oriented","performance","prototyping","systemic","systems","to" ], "intraHash" : "507bbc5a1109c2659e0e0256f6f5a4d7", "interHash" : "2ec6d0aeccc6cf6f2d1e7c914df026c4", "label" : "Trans-Co-Design: Časově založená eko-systemická performance", "user" : "mariedavidova", "description" : "", "date" : "2022-01-19 17:46:11", "changeDate" : "2022-11-21 14:42:04", "count" : 1, "pub-type": "inbook", "publisher":"Gallery of Architecture Brno", "year": "2018", "url": "http://dblp.uni-trier.de/db/journals/tcom/tcom41.html#GardnerS93", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "editor": [ "Karolína Plášková" ], "editors": [ {"first" : "Karolína", "last" : "Plášková"} ], "pages": "153-161", "ee" : "http://dx.doi.org/10.1109/26.231913", "bibtexKey": "davidova2018transcodesign" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/24e9913d85f8031a4e04633162ee53ff5/mariedavidova", "tags" : [ "architectural","architectures","codesign","design","gigamapping","myown","performance","prototyping","systemic","systems","systemsoriented","systemss" ], "intraHash" : "4e9913d85f8031a4e04633162ee53ff5", "interHash" : "e9f230bcddd5cb93582b2c1379375bf4", "label" : "Roles, Agency and Relations of Gigamaps in Systemic Approach to Architectural Performance", "user" : "mariedavidova", "description" : "", "date" : "2022-01-19 17:32:55", "changeDate" : "2022-11-21 14:42:20", "count" : 1, "pub-type": "inbook", "publisher":"University of Arizona", "year": "2018", "url": "http://architecturemps.com/wp-content/uploads/2018/12/AMPS-Proceedings-12-Critical-Practice-in-an-Age-of-Complexity-1.pdf", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "editor": [ "Jonathan Bean","Susannah Dickinson","Aletheia Ida" ], "editors": [ {"first" : "Jonathan", "last" : "Bean"}, {"first" : "Susannah", "last" : "Dickinson"}, {"first" : "Aletheia", "last" : "Ida"} ], "pages": "104-119","abstract": "GIGA-Maps are extensive systems maps that combine and relate large amounts of different kinds of data and data representations, to be used and related in a design process (Sevaldson 2013; Sevaldson 2011; Sevaldson 2015). This mapping has no recipe. It is project related and developed according to its particular needs and speculations. The GIGA-Map series in this paper are exhibiting, presenting and discussing the whole collection of this process-based, visual complexity diagramming that has been developed in the framework of Systemic Approach to Architectural Performance. SAAP seeks to investigate the relation between Systems Oriented Design (Sevaldson 2013), and performance oriented design approaches (Hensel 2012) together with the other processes in architecture in the means of its active agency within overall ecosystem, the co-performance. The particularity of SAAP is to demonstrate and develop theories and methods through experimental practice. SAAP involves Time-Based Eco\u2010Systemic Co\u2010Design that is performed by both biotic and abiotic agents, including humans within living built environment. GIGA-Mapping is central to SAAP because it is a tool that visually manages, organizes and relates the complexity within the design-research processes and co-performances. SAAP\u2019s particular approach to GIGA-Mapping is focusing on eco-systemic processes and their co-/re-design processes. It maps and generates their relations, meaning environmental, societal and cultural aspects across the habitats of the different species and the biotic and abiotic agency involved, sharing its habitats and playing a part in overall eco-systemic complex food-webs in real time. SAAP\u2019s ambition is to understand and design for these complexities when they are overlapped and integrated with the built environment. A successful co-existence across species and within the human built environment depends on the development of new design approaches. Thus, SAAP is based on full-scale prototyping in combination with analytical and generative GIGA-Mapping, both placed into \u2018real life\u2019 built environment. The direct full-scale prototypical engagement with the life-performing eco-system is interrelated with its diagramming, one updating the other by data and relations in their co-design process. This approach is based on \u2018research by (through) design\u2019 (Morrison and Sevaldson 2010; Sevaldson 2010). Taking the notion seriously, it is using the \u2018real life\u2019 as a design-research \u2018laboratory\u2019. Therefore, SAAP is strongly driven by prototyping in public space, considering GIGA-Maps as well as the full scale prototypes as \u2018prototypical urban interventions\u2019 that can drive extensive generative agencies across the communities (Davidová 2004; Doherty 2005) and while doing that, across much larger systems, introducing the necessary shift to Post-Anthropocene.", "bibtexKey": "noauthororeditor" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/258377687a8e0c39891119950dcc33afe/mariedavidova", "tags" : [ "biodiversity","codesign","ecosystem","gigamapping","learning","life","machine","myown","performance" ], "intraHash" : "58377687a8e0c39891119950dcc33afe", "interHash" : "73ba92c7c47c76043132af8999a2071e", "label" : "Spiralling Slope as a Real Life Co-Design Laboratory", "user" : "mariedavidova", "description" : "", "date" : "2022-01-19 17:25:49", "changeDate" : "2022-11-21 14:42:46", "count" : 1, "pub-type": "inbook", "publisher":"University of Arizona", "year": "2018", "url": "http://architecturemps.com/wp-content/uploads/2018/12/AMPS-Proceedings-12-Critical-Practice-in-an-Age-of-Complexity-1.pdf", "author": [ "Marie Davidová","Karel Pánek","Michaela Pánková" ], "authors": [ {"first" : "Marie", "last" : "Davidová"}, {"first" : "Karel", "last" : "Pánek"}, {"first" : "Michaela", "last" : "Pánková"} ], "editor": [ "Jonathan Bean","Susannah Dickinson","Aletheia Ida" ], "editors": [ {"first" : "Jonathan", "last" : "Bean"}, {"first" : "Susannah", "last" : "Dickinson"}, {"first" : "Aletheia", "last" : "Ida"} ], "pages": "133-142","abstract": "The paper and its presentation is to discuss a family house Spiraling Slope (sophia) that is co-designed, inhabited, tested and developed prototype by the second and third author of this submission, the clients. The eco-systemically performing house, literally twisted as a helix into the sloping terrain, gaining its thermal energy, is also covered by extensive greenery to gain this property on its top. Algae, grown on the glass roof, is to moderate its atrium clime. Through its sloping disposition, the house employs natural ventilation for its airing. Though the first author is conducting research that this performance is operated by nature of material properties (Davidová 2016c), in the time of the house\u2019s design stage, this research was not developed enough to meet the building practice. Therefore, the house\u2019s eco-systemic performance that could not have been reached by biology is achieved through the technology of autonomous environment control (sysloop). Sysloop is a real-time knowledge processing software cowering physical computing, where the clients are the main developer, co-designing with all the other professions involved in the house design and construction, including its architects and systemic designer. Since the house\u2019s design is based on natural performance, both its environmental, social, cultural and practical performance is operated through a computer based system AI that relates to BIG Data, the paper therefore presents one of the first attempts of fusion of abiotic and biotic agency with artificial intelligence in architectural practice. Testing such prototype by life co-living experience brings true insights into its design in time. This approach has been defined by Sevaldson as Time-Based Design at the start of this millennium (Sevaldson 2004; Sevaldson 2005). However, at that time the crucial leading design team member was not at the same time the subject of testing. This brings the Shön\u2019s discussion on \u2018reflective practitioner\u2019 (Schön 1983) few steps further. It is not the case when her/his designing and lecturing is enriched by tacit knowledge of i.e. building practice experience, but furthermore, the co-designer\u2019s experience is gained through living within the system s/he is co-designing and co-prototyping in real life and for real life. Therefore, through such case studies, as the approach fuses the life performance with its design and eco-systemic design and living processes, the first author defends to ratify a new design field, Systemic Approach to Architectural Performance that fights for the shift from Anthropocene.", "bibtexKey": "noauthororeditor" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/244f62035c93a24f0d6329be720db5d6d/mariedavidova", "tags" : [ "architecture","codesign","intelligent","learning","machine","myown","responsive","systems" ], "intraHash" : "44f62035c93a24f0d6329be720db5d6d", "interHash" : "662f443905d1502dd9ff1e6a844d1474", "label" : "sysloop", "user" : "mariedavidova", "description" : "", "date" : "2022-01-19 17:21:39", "changeDate" : "2022-11-21 14:43:02", "count" : 1, "pub-type": "inbook", "publisher":"University of Arizona", "year": "2018", "url": "http://architecturemps.com/wp-content/uploads/2018/12/AMPS-Proceedings-12-Critical-Practice-in-an-Age-of-Complexity-1.pdf", "author": [ "Karel Pánek","Marie Davidová" ], "authors": [ {"first" : "Karel", "last" : "Pánek"}, {"first" : "Marie", "last" : "Davidová"} ], "editor": [ "Jonathan Bean","Susannah Dickinson","Aletheia Ida" ], "editors": [ {"first" : "Jonathan", "last" : "Bean"}, {"first" : "Susannah", "last" : "Dickinson"}, {"first" : "Aletheia", "last" : "Ida"} ], "pages": "132-141","abstract": "Unlike preceding \u201Cautonomous house systems\u201D sysloop is cross-layered and highly scalable concept of \u201Callopoietic system\u201D, a system that is autonomous though dependent on the exchange across its environment (Dekkers 2015). This is performed through three types of co-design: \u2022 co-designing of trans-disciplinary co-authors; \u2022 co-designing of environment from which it is learning, users included; \u2022 co-designing of artificial intelligence and big data. At the scale of local environment, sysloop is focused mainly on interrelations of individual life space qualities, providing contextual autonomous behaviour across many aspects such as climate, light, sound, smell, safety, access control, etc. Due to such scope, the trans-disciplinary team of experts developing sysloop technology is evolving in time in reference to related fields. We specify key aspects of an alternative information system with ability to make decisions based on automated interpretation of meanings, instead of (conventional) symbol processing. We verify such information system in practice of environment automation, introducing technological support of overlapping values such as information hygiene, lifelong learning, aesthetics, overall comfort, etc. Such environments are integrated at \u201Cbuildings\u201D units scale in phenomenological terms and at \u201Cindustrial\u201D units scale focused on adaptive automation and reliability engineering, both processing micro-sensorial data and performing qualified decision making in real-time. These together with other big data available are integrated to support the \u201Ccities\u2019\u201D scale layer. This layer is to serve for informed city planning and emergency situations solutions, including automated, personalised assistance to individual citizens, etc. This multi-scaled system is feedback looping across its layers of scales and types of co-design and thus evolving by data and most importantly, its ever-changing relations. It gives to the term \u201Csmart buildings\u201D its meaning across the scales towards sustainable development, performance and ecosystems. The authors, among all the team, built the first prototypical family and office building for real-world testing and further development. This \u201Creal life co-design laboratory\u201D is elaborated at separate paper for this conference.", "bibtexKey": "noauthororeditor" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/252c2403429fa377afd8f243039ff0489/mariedavidova", "tags" : [ "cobuilt","codesign","ecosystem","exhibition","intervention","myown","structure","urban","wood" ], "intraHash" : "52c2403429fa377afd8f243039ff0489", "interHash" : "72a7ed569b72bf4a83b519f2fcae5818", "label" : "COLridor II pro výstavu Herzan: Stavitelský rod z Třebíče", "user" : "mariedavidova", "description" : "", "date" : "2022-01-19 17:01:17", "changeDate" : "2022-11-21 14:43:37", "count" : 1, "pub-type": "inbook", "publisher":"Czech National Heritage Institute", "year": "2019", "url": "", "author": [ "Marie Davidová","Kateřina Zímová","Kateřina Horák Goryczka" ], "authors": [ {"first" : "Marie", "last" : "Davidová"}, {"first" : "Kateřina", "last" : "Zímová"}, {"first" : "Kateřina", "last" : "Horák Goryczka"} ], "editor": [ "Kateřina Horák Goryczka" ], "editors": [ {"first" : "Kateřina", "last" : "Horák Goryczka"} ], "pages": "i-ii","abstract": "Kapitola pojednává o procesu navrhování a výroby objektů pro výstavu Herzan: Stavitelský rod z Třebíče, kterou pořádá Národní památkový ústavu, Muzeum Vysočiny Ttřebíč a Městské kulturní středisko Třebíč. Architektonické řešení výstavy se nazývá COLridor II a bylo vypracováno Collaborative Collective, z.s. jako pokračování konceptu \u201Ejedlé krajiny\u201C. Hlavní organizátor výstavy, Národní památkový ústav, si kladl za cíl vytvořit táborákovou bránu, která bude ctít tesařské, stavitelské, architektonické a volnočasové úspěchy všech členů rodiny Herzánů. Volnočasové táborákové aktivity mají na Třebíčsku dlouhou a silnou tradici, tendence pracovat s mládeží se nejsilněji projevovala u Jiřího Herzána, jehož táborákové brány jsou v projektu COLridor II významnou inspirací. Součástí zadání bylo vytvořit instalace kolaborativním způsobem tak, že se na jejich výrobě budou podílet místní spolky a uskupení. Symbol brány je stylizován do venkovního objektu, který je zamýšlený jako poutač k výstavě. Cílem projektu COLridor II je navázání na dřevařskou tradici třebíčského rodu Herzánů, která je na zámku Třebíč prezentována veřejnosti prostřednictvím lineární retrospektivní výstavy, a zároveň poskytnutí eko-systemických služeb místu. COLridor II navazuje na environmentální a sociální charakter této tvorby a dále rozvíjí principy našich předchozích environmentálních staveb SpiralTreeHouse (Davidová, 2013, 2014, 2016a, 2017a) a Co-oCo-oNest (Davidová & Neshevets, 2018). Vzhledem k současným trendům se nabízí možnost a potřeba reflektovat tyto tendence a vytvořit tak objekty z responsivního dřeva a tím podpořit městské společenské a eko-systemické služby. Proto geometrická konstrukce z kulatiny nabízí jak místo k odpočinku a socializaci napříč eko-systémem, tak i koncept \u201Ejedlé krajiny\u201C (Creasy, 2004; Davidová, Zatloukal, & Zímová, 2017). Lanové výplety nabízí posezení pro lidi, zatímco geometrická konstrukce se zeminou nabízí místní cibulovité medonosné rostliny a semínka pro ptáky v období zimy. Jak dřevo, tak rostliny budou příznivě moderovat okolní klima.", "bibtexKey": "noauthororeditor" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2f30964c8b07c0ad60c0d209d14eb9a4b/mariedavidova", "tags" : [ "approach","architectural","architectures","codesign","design","gigamapping","myown","oriented","performance","responsive","systemic","systems","to","wood" ], "intraHash" : "f30964c8b07c0ad60c0d209d14eb9a4b", "interHash" : "49c44a599ad4d7c2f7ae88f85fdcfcd6", "label" : "Wood as a Primary Medium to Eco-Systemic Performance", "user" : "mariedavidova", "description" : "", "date" : "2022-01-19 16:37:22", "changeDate" : "2022-11-21 14:44:18", "count" : 1, "pub-type": "phdthesis", "publisher":"Czech Technical University in Prague", "year": "2017", "url": "", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "pages": "187","abstract": "The present research considers wood as a study material for a wider question on architecture\u2019s environmental interaction. It aims to explore its potential for eco-systemic performances and atmospheres as well as to broaden the discussion on this problem area by accessing the public space and professional practice calls. My project researches such interactions through practical experiments as well as theoretical reflections, including examinations of other scientific, design, artistic and crafts disciplines. It honestly discusses the successes as well as the failures and weak points to develop a strong background for eco-systemic collaborative design-research practice. The methodology Research by Design while full scale prototyping is covered by the Systems Oriented Design to interpret and develop complex environmental relations. While doing so, this work also claims develop the methodology itself and to generate theory through experimental practice. The fusion of these process based fields led to the ratification of new design field: Systemic Approach to Architectural Performance . This is an article based thesis , where the texts of the articles have been shortened of the parts mentioned elsewhere in the work and underwent through language check. These serve as an addendum covered with an exegesis. Most of the repeating images were removed from the articles. If there is an exception this is reasoned through its important relation to the present text. All substantial contributions are mentioned within the text and/or summarized in the Thanks chapter. To mention the main institutions and practice/NGO\u2019s respectively, this research has been collaboratively developed at the Faculty of Architecture at the Czech Technical University in Prague, the Faculty of Art and Architecture at the Technical University of Liberec, Faculty of Forestry and Wood Sciences at the Czech University of Life Sciences in Prague, the Academy of Art, Architecture and Design in Prague, the Architectural Institute Prague, the Oslo School of Architecture and Design, the University of Chemistry and Technology in Prague, the Faculty of Civil Engineering the Czech Technical University in Prague, Collaborative Collective, Defio, Oximoron, re.code.nature, CooLAND, Experis SDKM and reSITE. This work is a second, revised edition of the thesis, when the first, work in progress, publication called Wood as a Primary Medium to Architectural Performance: A Case Study in Performance Oriented Architecture Approached through Systems Oriented Design (Davidová, 2016m) served as a tool to receive broader feedback from its readers. The first publication was kindly supported by EEA and Norway Grants through the project Systemic Approach to Architectural Performance, was printed on paper with 100% of recycled fibre. This edition was reviewed by a gender equal team and is to be defended in front of a gender equal selection of opponents. The work itself is dedicated to our Biosphere.", "ee" : "http://doi.ieeecomputersociety.org/10.1109/IAT.2006.58", "doi" : "10.13140/RG.2.2.17123.45607", "bibtexKey": "davidova2017primary" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/20d201f01d6a66ae1e3352b797a0be514/mariedavidova", "tags" : [ "abiotic","agency","biotic","codesign","design","full-scale","gigamapping","media","myown","prototyping","systems","time-based" ], "intraHash" : "0d201f01d6a66ae1e3352b797a0be514", "interHash" : "24cfdbc0bcfde6109ecab25b2ccb530f", "label" : "Systemic Approach to Architectural Performance", "user" : "mariedavidova", "description" : "Systemic Approach to Architectural Performance | FormAkademisk - forskningstidsskrift for design og designdidaktikk", "date" : "2022-01-19 15:34:58", "changeDate" : "2022-11-21 14:45:41", "count" : 1, "pub-type": "article", "journal": "FormAkademisk - forskningstidsskrift for design og designdidaktikk","publisher":"OsloMet - Oslo Metropolitan University", "year": "2017", "url": "https://doi.org/10.7577%2Fformakademisk.1713", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "volume": "10","number": "1","pages": "1-25","abstract": "First-hand experiences in several design projects that were based on media richness and collaboration are described in this article. Although complex design processes are merely considered as socio-technical systems, they are deeply involved with natural systems. My collaborative research in the field of performance-oriented design combines digital and physical conceptual sketches, simulations and prototyping. GIGA-mapping - is applied to organise the data. The design process uses the most suitable tools, for the subtasks at hand, and the use of media is mixed according to particular requirements. These tools include digital and physical GIGA-mapping, parametric computer aided design (CAD), digital simulation of analyses, as well as sampling and 1:1 prototyping. Also discussed in this article are the methodologies used in several design projects to strategize these tools and the developments and trends in the tools employed. The paper argues that the digital tools tend to produce similar results through given pre-sets that often do not correspond to real needs. Thus, there is a significant need for mixed methods including prototyping in the creative design process. Media mixing and cooperation across disciplines is unavoidable in the holistic approach to contemporary design. This includes the consideration of diverse biotic and abiotic agents. I argue that physical and digital GIGA-mapping is a crucial tool to use in coping with this complexity. Furthermore, I propose the integration of physical and digital outputs in one GIGA-map and the participation and co-design of biotic and abiotic agents into one rich design research space, which is resulting in an ever-evolving research-design process-result time-based design.", "doi" : "10.7577/formakademisk.1713", "bibtexKey": "Davidova_2017" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2f3e551b930dd459fbde2054c8a4576d0/mariedavidova", "tags" : [ "agency","approach","architectural","codesign","design","eco-systemic","myown","performance","post-anthropocene","systemic","systemsoriented","to" ], "intraHash" : "f3e551b930dd459fbde2054c8a4576d0", "interHash" : "9c3e92fe6b4fdde25344847b7dc2a537", "label" : "Synergy in the systemic approach to architectural performance", "user" : "mariedavidova", "description" : "Synergy in the systemic approach to architectural performance | FormAkademisk - forskningstidsskrift for design og designdidaktikk", "date" : "2022-01-19 15:01:28", "changeDate" : "2022-11-21 14:49:56", "count" : 1, "pub-type": "article", "journal": "FormAkademisk - forskningstidsskrift for design og designdidaktikk","publisher":"OsloMet - Oslo Metropolitan University", "year": "2020", "url": "https://doi.org/10.7577%2Fformakademisk.3387", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "volume": "13","number": "2","abstract": "This article integrates a series of diverse projects that together exemplify and interpret the Systemic Approach to Architectural Performance (SAAP) that has been developed by the author. SAAP is a fusion of several process-based fields and their media and agency, namely: a) Systems oriented design; b) Performance oriented architecture; 3) Prototypical urban interventions; d) Time-based design; e) Service design; and f) Co-design, co-creation and DIY. The article presents SAAP\u2019s relations to these fields and concludes with their integration and synergy in a \u2018Real Life Co-Design Laboratory\u2019, where collaborative and collective processes are seen as the resulting design objects or rather, objectives.", "doi" : "10.7577/formakademisk.3387", "bibtexKey": "Davidova_2020" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2766ae7dbc777d6bbe2ff992f1e6a1329/mariedavidova", "tags" : [ "CoDesign","Cross-Species","Gigamapping","Post-Anthropocene","Prototyping","SAAP","myown" ], "intraHash" : "766ae7dbc777d6bbe2ff992f1e6a1329", "interHash" : "d50b1702f8e50579c9d615d3a5b90485", "label" : "CoCreative Roles, Agencies and Relations in Post-Anthropocene: The Real Life Gigamaps and Full-Scale Prototypes of SAAP", "user" : "mariedavidova", "description" : "CoCreative Roles, Agencies and Relations in Post-Anthropocene: The Real Life Gigamaps and Full-Scale Prototypes of SAAP | Strategic Design Research Journal", "date" : "2022-01-19 14:51:43", "changeDate" : "2022-11-21 14:50:34", "count" : 1, "pub-type": "article", "journal": "Strategic Design Research Journal", "year": "2020, 2019", "url": "http://revistas.unisinos.br/index.php/sdrj/article/view/sdrj.2020.132.06", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "volume": "13","number": "2","pages": "185-212","abstract": "The gigamaps relating full-scale prototypes series in this article are synthesising a work developed within the framework of Systemic Approach to Architectural Performance (SAAP) research by design field. Gigamapping serves as a tool for complexity co-designing through relations mapping and has no strict recipe (Sevaldson, 2018b). It is project and participation specific. The particularity of SAAP is that it develops theories and methods through experimental practice. SAAP involves Time-Based Eco-Systemic Co-Design that is performed by both living and non-living agents. Gigamapping is central to SAAP because it is a tool that relates the complexity within collaborative design-research processes and its co-performances. It maps and generates their relations, meaning environmental, societal and cultural aspects and processes across past, current and future habitats and edible landscapes of and across different species and other agencies involved. SAAP\u2019s ambition is to co- and re- design these complexities. Thus, SAAP is based in full-scale prototyping related with gigamapping, both placed into \u2018real life\u2019 environments, the \u201Creal life co-design laboratories\u201D (Author, Pánek, & Pánková, 2018). SAAP is therefore considering gigamaps as well as the full-scale prototypes as \u201Dprototypical urban interventions\u201D that can drive extensive generative agencies across various communities (Doherty, 2005) and agents; and while doing that, across much larger systems, introducing the necessary shift towards Post-Anthropocene of bio-climatic layers of cultural landscapes, their territories and life-cycles.", "source" : "Strategic Design Research Journal", "uri" : "http://revistas.unisinos.br/index.php/sdrj", "issn" : "1984-2988", "id" : "sdrj.2020.132.06", "doi" : "10.4013/sdrj.2020.132.06", "bibtexKey": "davidova20202019cocreative" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/220ec95de26c2bbee7e57887f7e0a12b1/mariedavidova", "tags" : [ "codesign","design","education","empathy","methodology","myown","post-Anthropocene","systemic" ], "intraHash" : "20ec95de26c2bbee7e57887f7e0a12b1", "interHash" : "47fe258be36267e04f5bdfc83b7c37be", "label" : "Multicentred Systemic Design Pedagogy Through Real-Life Empathy", "user" : "mariedavidova", "description" : "Multicentred Systemic Design Pedagogy Through Real-Life Empathy | FormAkademisk - forskningstidsskrift for design og designdidaktikk", "date" : "2022-01-19 14:31:37", "changeDate" : "2022-11-21 14:52:27", "count" : 1, "pub-type": "article", "journal": "FormAkademisk - forskningstidsskrift for design og designdidaktikk","publisher":"OsloMet - Oslo Metropolitan University", "year": "2020", "url": "https://doi.org/10.7577%2Fformakademisk.3755", "author": [ "Marie Davidová" ], "authors": [ {"first" : "Marie", "last" : "Davidová"} ], "volume": "13","number": "5","pages": "1-26", "doi" : "10.7577/formakademisk.3755", "bibtexKey": "Davidova_2020" } ] }