Co-Corporeality of Humans, Machines, & Microbes / ed. by Barbara Imhof, Daniela Mitterberger, Tiziano Derme.
Material type: TextLanguage: English Series: Edition AngewandtePublisher: Basel : Birkhäuser, [2022]Copyright date: ©2022Description: 1 online resource (200 p.)Content type:- text
- computer
- online resource
- 9783035625882
- Issued also in print.
Item type | Current library | Call number | Status | Date due | Barcode | |
---|---|---|---|---|---|---|
E-Book | De Gruyter | Available |
Frontmatter -- Table of Contents -- Co-Structuring New Corpo-Realities -- Co-Corporeality: Responding, Observing and Sharing Knowledge -- Microbial Communication with Humans -- Co-Corporeality of/with Cyanobacteria -- A [Micro-]Companion to Symbiosis -- Visualising Microbial Activity: Colorimetric Signalling Using E. coli with pH-Indicators and Chromogenic Substrates -- Living Material Systems -- Bacterial Cellulose Experiments -- Intelligence of Living and Artificial Systems -- Facial Expression Recognition -- Eye-Gaze Tracking Technology -- E-Feed/er -- Degrees of Life -- Survival Perspectives on Cohabitation by Design -- GROVE: Open Systems for Living Architecture -- Rethinking the Common from Its Biological Roots -- Quo Vadis? Towards a More-Than-Human World -- Biographies and Acknowledgements
Open Access unrestricted online access star
https://purl.org/coar/access_right/c_abf2
On architecture, AI, and microbiology The theory of Co-Corporeality is based on a conception of the built environment as a biological entity that opens up a space for coexistence and interaction between humans and microbial life. Based on design-led research, this book explores how we can develop environments for a multispecies world. It focuses on the agency of both human and nonhuman actors. New sensor tools enable observation of and interaction between these different actors. Co-Corporeality links microbiology to material science, artificial intelligence, and architecture. The focus is on how microbial activity can create new protoarchitectural materials, how living systems can be integrated into architecture and cooperate along different time scales. How artistic interventions connect human and nonhuman worlds through tracking systems and machine learning algorithms With essays by Rachel Armstrong, Alex Arteaga, Philip Beesley, Jens Hauser, and others Images of experiments and installations
Über Architektur, KI und Mikrobiologie Co-Corporeality beruht auf der Hypothese, die gebaute Umwelt als biologische Einheit zu begreifen, die einen Raum der Koexistenz und Interaktion zwischen Menschen und mikrobiellem Leben eröffnet. Ausgehend von designgeleiteter Forschung wird ergründet, wie wir Umgebungen für eine Multispezies-Welt entwickeln können. Im Fokus steht die Handlungsfähigkeit menschlicher wie nicht menschlicher Akteure: Neue Sensortools ermöglichen die Beobachtung von und Interaktion zwischen diesen verschiedenen Akteuren. Co-Corporeality verbindet Mikrobiologie, Materialwissenschaft, künstliche Intelligenz, Architektur. Im Zentrum steht die Frage, wie mikrobielle Aktivität neue protoarchitektonische Materialien schaffen kann, wie lebende Systeme in Architektur integriert werden und innerhalb verschiedener Zeitskalen kooperieren können. Wie künstlerische Interventionen menschliche und nicht menschliche Welten durch Trackingsysteme und ML-Algorithmen verbinden Essays von Rachel Armstrong, Alex Arteaga, Philip Beesley, Jens Hauser u. a. Bilder von Experimenten und Rauminstallationen
Issued also in print.
funded by FWF - Fonds zur Förderung der wissenschaftlichen Forschung
Mode of access: Internet via World Wide Web.
This eBook is made available Open Access under a CC BY-NC-ND 4.0 license:
https://creativecommons.org/licenses/by-nc-nd/4.0
https://www.degruyter.com/dg/page/open-access-policy
In English.
Description based on online resource; title from PDF title page (publisher's Web site, viewed 01. Dez 2022)
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