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As space ventures have become more numerous, leading scientists and theorists have offered ways of building a living habitat in a hostile environment, taking an ‘ecosystems’ view of space colonization. The contributors to this volume take a radical multi-disciplinary view of the challenge of human space colonization through the ongoing project Persephone. This book fundamentally challenges prevalent ideas about sustainability and proposes a new approach to resource austerity and conservation and providing truly sustainable approaches that are life-promoting. Readers will learn the details of the plans for Persephone – a real project that is part of the company Icarus Interstellar’s plans for the design and engineering of a living interior on a worldship to be constructed in Earth’s orbit within 100 years. Although the timeframe itself is only an estimate, since it is contingent on many significant developments, including funding and technological advances, the industry consensus is that within 100 years we will see manned space exploration beyond our solar system. This notion is shared by organizations such as the Initiative for Interstellar Studies and the DARPA-funded 100-year starship project. This book specifically develops the principles for the construction of a living habitat within a worldship – a multi-generational starship that contains its own world that supports colonists as it travels across great distances between stars at a speed much slower than light. Far from being a sterile industrial setup, such as the ISS, or even being a bucolic suburbia as proposed by Gerard O’Neill in the 1970s, this worldship will provide the pre-conditions for sustaining life beyond Earth’s environment, which may also lead to the evolution of non-terrestrial ecologies. Drawing on the principles of ecopoiesis and insights offered by the Biosphere 2 experiment that demonstrated what we have to learn about ecosystem construction, this book proposes first designing the soils of such a space. It should then be possible to set up the conditions that a first generation of colonists may experience in leaving our solar system to find new worlds to settle - perhaps in spreading life throughout the universe. Although the book takes a unique view of ecology and sustainability within the setting of a traveling starship it is equally concerned with the human experience on artificial worlds. Chapters come from a range of multi disciplinary thinkers who shed light on the brave new future ahead from different angles.
Popular Science. --- Popular Science in Astronomy. --- Design, general. --- Space ships. --- Rocket ships --- Popular works. --- Design. --- Astronomy. --- Aerospace engineering. --- Astronautics. --- Space Sciences (including Extraterrestrial Physics, Space Exploration and Astronautics). --- Aerospace Technology and Astronautics. --- Outer space --- Exploration. --- Spaceships --- Astronautics --- Life support systems (Space environment) --- Manned space flight --- Rocketry --- Rockets (Aeronautics) --- Space vehicles --- Solar system --- Exploration --- Astrophysics. --- Design and construction. --- Space sciences --- Aeronautics --- Astrodynamics --- Space flight --- Astronomical physics --- Astronomy --- Cosmic physics --- Physics --- Space sciences. --- Creation (Literary, artistic, etc.) --- Aeronautical engineering --- Engineering --- Science and space --- Space research --- Cosmology --- Science
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If we lived in a liquid world, the concept of a "machine" would make no sense. Liquid life is metaphor and apparatus that discusses the consequences of thinking, working, and living through liquids. It is an irreducible, paradoxical, parallel, planetary-scale material condition, unevenly distributed spatially, but temporally continuous. It is what remains when logical explanations can no longer account for the experiences that we recognize as part of "being alive."Liquid Life references a third-millennial understanding of matter that seeks to restore the agency of the liquid soul for an ecological era, which has been banished by reductionist, "brute" materialist discourses and mechanical models of life. Offering an alternative worldview of the living realm through a "new materialist" and "liquid" study of matter, Armstrong conjures forth examples of creatures that do not obey mechanistic concepts like predictability, efficiency, and rationality. With the advent of molecular science, an increasingly persuasive ontology of liquid technologies can be identified. Through the lens of lifelike dynamic droplets, the agency for these systems exists at the interfaces between different fields of matter/energy that respond to highly local effects, with no need for a central organizing system.Liquid Life seeks an alternative partnership between humanity and the natural world. It provokes a re-invention of the languages of the living realm to open up alternative spaces for exploration, including contributor Rolf Hughes' "angelology" of language, which explores the transformative invocations of prose poetry, and Simone Ferracina's graphical notations that help shape our concepts of metabolism, upcycling, and designing with fluids. A conceptual and practical toolset for thinking and designing, liquid life reunites us with the irreducible "soul substance" of living things, which will neither be simply "solved," nor go away.
Philosophy: metaphysics & ontology --- Molecular biology --- Angelology. --- Soft architecture. --- Angelology --- Cherubim --- Cherubs (Spirits) --- Divine messengers --- Seraphim --- Spirits --- Philosophy: metaphysics & ontology. --- Molecular biology. --- Molecular biochemistry --- Molecular biophysics --- Biochemistry --- Biophysics --- Biomolecules --- Systems biology --- design theory --- soft architecture --- angelology --- materialis --- ecology --- molecular science --- biology
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"Soft Living Architecture explores the invention of new architectures based on living processes. It crafts a unique intersection between two fast-developing disciplines: biomimicry and biodesign in architecture, and bioinformatics and natural computing in the natural sciences. This is the first book to examine both the theory and methodology of architecture and design working directly with the natural world. It explores a range of approaches from the use of life-like systems in building design to the employment of actual growing and living cell and tissue cultures as architectural materials - creating architecture that can change, learn and grow with us. The use of 'living architecture' is cutting-edge and speculative, yet it is also inspiring a growing number of designers worldwide to adopt alternative perspectives on sustainability and environmental design. The book examines the ethical and theoretical issues arising alongside case-studies of experimental practice, to explore what we mean by 'natural' in the Anthropocene, and raise deep questions about the nature of design and the design of nature. This provocative and at times controversial book shows why it will become ever more necessary to embrace living processes in architecture if we are to thrive in a sustainable future."--Provided by publisher.
Architecture and biology --- Biology and architecture --- Biology --- 72.504 --- 72.504 Architecture and the environment. Sustainable architecture --- Architecture and the environment. Sustainable architecture --- Building materials. Building technology --- Architecture --- biology --- influence --- sustainable architecture --- 72:502 --- 72:574 --- 72.049 --- Organische en dynamische constructies --- Levende architectuur --- Technologie en biologie --- Architectuur en natuur(bescherming) --- Architectuur en ecologie --- Architectuur ; verschillende onderwerpen
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"Soft Living Architecture explores the invention of new architectures based on living processes. It crafts a unique intersection between two fast-developing disciplines: biomimicry and biodesign in architecture, and bioinformatics and natural computing in the natural sciences. This is the first book to examine both the theory and methodology of architecture and design working directly with the natural world. It explores a range of approaches from the use of life-like systems in building design to the employment of actual growing and living cell and tissue cultures as architectural materials - creating architecture that can change, learn and grow with us. The use of 'living architecture' is cutting-edge and speculative, yet it is also inspiring a growing number of designers worldwide to adopt alternative perspectives on sustainability and environmental design. The book examines the ethical and theoretical issues arising alongside case-studies of experimental practice, to explore what we mean by 'natural' in the Anthropocene, and raise deep questions about the nature of design and the design of nature. This provocative and at times controversial book shows why it will become ever more necessary to embrace living processes in architecture if we are to thrive in a sustainable future."--Bloomsbury Publishing.
Architecture and biology. --- Biology and architecture --- Biology
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As space ventures have become more numerous, leading scientists and theorists have offered ways of building a living habitat in a hostile environment, taking an ‘ecosystems’ view of space colonization. The contributors to this volume take a radical multi-disciplinary view of the challenge of human space colonization through the ongoing project Persephone. This book fundamentally challenges prevalent ideas about sustainability and proposes a new approach to resource austerity and conservation and providing truly sustainable approaches that are life-promoting. Readers will learn the details of the plans for Persephone – a real project that is part of the company Icarus Interstellar’s plans for the design and engineering of a living interior on a worldship to be constructed in Earth’s orbit within 100 years. Although the timeframe itself is only an estimate, since it is contingent on many significant developments, including funding and technological advances, the industry consensus is that within 100 years we will see manned space exploration beyond our solar system. This notion is shared by organizations such as the Initiative for Interstellar Studies and the DARPA-funded 100-year starship project. This book specifically develops the principles for the construction of a living habitat within a worldship – a multi-generational starship that contains its own world that supports colonists as it travels across great distances between stars at a speed much slower than light. Far from being a sterile industrial setup, such as the ISS, or even being a bucolic suburbia as proposed by Gerard O’Neill in the 1970s, this worldship will provide the pre-conditions for sustaining life beyond Earth’s environment, which may also lead to the evolution of non-terrestrial ecologies. Drawing on the principles of ecopoiesis and insights offered by the Biosphere 2 experiment that demonstrated what we have to learn about ecosystem construction, this book proposes first designing the soils of such a space. It should then be possible to set up the conditions that a first generation of colonists may experience in leaving our solar system to find new worlds to settle - perhaps in spreading life throughout the universe. Although the book takes a unique view of ecology and sustainability within the setting of a traveling starship it is equally concerned with the human experience on artificial worlds. Chapters come from a range of multi disciplinary thinkers who shed light on the brave new future ahead from different angles.
Science --- Space research --- Astrophysics --- Astronomy --- Production management --- Applied arts. Arts and crafts --- astrofysica --- popularisering wetenschap --- astronauten --- duurzaamheid --- vormgeving --- ontwerpen --- duurzame ontwikkeling --- ruimte (astronomie) --- ruimtevaart --- astronomie
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This book sets out the conditions under which the need for a new approach to the production of architecture in the twenty-first century is established, where our homes and cities are facing increasing pressures from environmental challenges that are compromising our lives and well being. Vibrant architecture embodies a new kind of architectural design practice that explores how lively materials, or 'vibrant matter', may be incorporated into our buildings to confer on them some of the properties of living things, such as movement, growth, sensitivity and self-repair. The theoretical and practical implications of how this may occur are explored through the application of a new group of materials. Characteristically, these substances possess some of the properties of living systems but may not have the full status of being truly alive. They include forms of chemical artificial life such as 'dynamic droplets' or synthetically produced soils. As complex systems, they are able to communicate directly with the natural world using a shared language of chemistry and so, negotiate their continued survival in a restless world. Vibrant architecture may create new opportunities for architectural design practice that venture beyond top-down form-finding programs, by enabling architects to co-design in partnership with human and nonhuman collectives, which result from the production of post natural landscapes. Ultimately, vibrant architecture may operate as an ecological platform for human development that augments the liveliness of our planet, rather than diminishes it.
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This book sets out the conditions under which the need for a new approach to the production of architecture in the twenty-first century is established, where our homes and cities are facing increasing pressures from environmental challenges that are compromising our lives and well being. Vibrant architecture embodies a new kind of architectural design practice that explores how lively materials, or 'vibrant matter', may be incorporated into our buildings to confer on them some of the properties of living things, such as movement, growth, sensitivity and self-repair. The theoretical and practical implications of how this may occur are explored through the application of a new group of materials. Characteristically, these substances possess some of the properties of living systems but may not have the full status of being truly alive. They include forms of chemical artificial life such as 'dynamic droplets' or synthetically produced soils. As complex systems, they are able to communicate directly with the natural world using a shared language of chemistry and so, negotiate their continued survival in a restless world. Vibrant architecture may create new opportunities for architectural design practice that venture beyond top-down form-finding programs, by enabling architects to co-design in partnership with human and nonhuman collectives, which result from the production of post natural landscapes. Ultimately, vibrant architecture may operate as an ecological platform for human development that augments the liveliness of our planet, rather than diminishes it.
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Our relationship with our homes changed in 2020 when the pandemic known as Covid-19 led to enforced periods of self-isolation, called 'lockdown'. We got to know our living spaces intimately and learned the greatest risk of infection was indoors through the breath we shared in poorly ventilated spaces, where microbial atmospheres could work their way inside, through every door, window and with every visitor.Our fear of such invisible threats will persist long after the pandemic ends and reflects a growing divide between the human and the microbial realm. This book examines the notion of the home in the context of the pandemic and lockdown, as they relate to environmental concerns and how we live with viruses and bacteria. It argues that, in order to decrease our vulnerability to infective agents, we need to acknowledge the link between people, space, daily routines and microbes and explore how the predominantly benign microbial world might be harnessed to combat and boost out immunity to future pathogens.Suggesting more than environmental home improvements, it explores new innovations and new materials which incorporate microbes for more ecological designs, such as ceramic tiles, concrete bio-receptive surfaces, building skins, fabrics, waste management and alternative energy supplies. A series of drawings which reveal the evolution of microbial technologies, infrastructures, spaces, dwellings, and architectures sets out a prototype for an ecological home for post pandemic times. Identifying the lessons that COVID-19 has brought us, the book highlights the need for humans to consider and take microbes into account in future built environments.
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In this ground-breaking book, the first to provide an overview of the theory and practice of experimental architecture, Rachel Armstrong explores how interdisciplinary, design-led research practices are beginning to redefine the possibilities of architecture as a profession. Drawing on experts from disciplines as varied as information technology, mathematics, poetry, graphic design, scenography, bacteriology, marine applied science and robotics, Professor Armstrong delineates original, cutting-edge architectural experiments through essays, quotes, poetry, equations and stories. Written by an acknowledged pioneer of architectural experiment, this visionary book is ideal for students and researchers wishing to engage in experimental, practice-based architectural and artistic research. It introduces radical new ideas about architecture and provides ideas and inspiration which students and researchers can apply in their own work and proposals, while practitioners can draw on it to transform their creative assumptions and develop thereby a distinctive "edge" to stand out in a highly competitive profession.
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