Using robots that operate in the real world as opposed to computer simulations of animal behavior is a form of modeling that may provide some biological insights. However, since engineering principles and materials differ significantly from those used in biology, one should be extremely cautious in interpreting robot biomimicry as providing an explanation of biological mechanisms.

While the contemporary biomimicry movement is associated primarily with the idea of taking Nature as model for technological innovation, it also contains a normative or ethical principle—Nature as measure—that may be treated in relative isolation from the better known principle of Nature as model. Drawing on discussions of the principle of Nature as measure put forward by Benyus and Jackson, while at the same time situating these discussions in relation to contemporary debates in the philosophy of biomimicry : 364–387, 2011; (...) Dicks in Philos Technol, doi: 10.1007/s13347-015-0210-2, 2015; Blok and Gremmen in J Agric Environ Ethics 29:203–217, 2016), the aim of this paper is to explore the relation between the principle of Nature as measure and environmental ethics. This leads to the argument that mainstream formulations of environmental ethics share the common trait of seeing our ethical relation to Nature as primarily involving duties to protect, preserve, or conserve various values in Nature, and that, in doing so, they problematically either overlook or dismiss as anthropocentric the possibility that Nature may provide measures, understood in terms of ecological standards, against which our own practices, or at least some of them, may be judged—a way of thinking I call “biomimetic ethics”. The practical consequences of this argument are significant. Whereas mainstream environmental ethics has been applied above all to such issues as wilderness preservation, natural resource management, and animal rights and welfare, biomimetic ethics is applicable rather to the question of how we produce, use, and consume things, and, as such, may potentially provide the basic ethical framework required to underpin the transition to a circular, bio-based, solar economy. (shrink)

Crossing the boundaries - between nature and artifact and between inanimate and living matter - is a major feature of the convergence between nanotechnology and biotechnology. This paper points to two symmetric ways of crossing the boundaries: chemists mimicking nature's structures and processes, and synthetic biologists mimicking synthetic chemists with biological materials. However to what extent are they symmetrical and do they converge toward a common view of life and machines? The question is addressed in a historical perspective. Both biomimetic (...) chemistry and synthetic biology can be described as descendants of an ambitious program developed by Stéphane Leduc who coined the phrase 'synthetic biology' in the early twentieth century. The main intention of this genealogy is to emphasize that although making life in a test tube is a recurrent project there are subtle nuances in the underlying metaphysical assumptions. This comparison is meant to contribute to a better understanding of the cultural issues at stake in the convergence between nano and biotechnologies. It suggests that the demarcation line between life and inanimate matter remains a hot issue, and that all traffics across the borders do not proceed from the same metaphysical assumptions. (shrink)

Form follows function, but it does not follow from function. Form is not derivable from the latter. To realize a desired technical function, a form must first be found that is able to realize it at all. Secondly, the question arises as to whether an envisaged form realizes the function in an appropriate way. Functions are multiply realizable—various different forms can bear the very same function. One needs to find a form of a technical artifact that realizes an envisaged function (...) sufficiently efficient, robust, or whatever criteria might be imposed. This paper scrutinizes biomimetics as one way to find a good solution to the realization problem. Drawing on an approach from the philosophy of simulations, it reconstructs the biomimetic relation as being mediated by a theoretical model. It is shown that the robustness of the functioning system is usually reached in different ways in biological and in technological systems, which explains differences in morphogenetic mechanisms or principles found in these fields. This reconstruction helps to understand problems with robustness in synthetic biology that occur when technical design principles are implemented in a biological system. The mimetic relation between the biological and the technical realm is found to be asymmetric. (shrink)

In recent years biomimicry has emerged as a powerful response to the problem of sustainability and today exerts an important influence on both architecture and urbanism. The implications of this trend for the humanities have, however, been largely overlooked. Taking a historical approach, the first key argument of this article is that throughout Western history the dominant model for the polis, qua both city and State, has been the human being and that it was also this basic model that underlay (...) traditional understandings of the place of humans in cities and States. With the transition to biomimetic cities and States, the key model of which is the forest ecosystem, the question of the place of humans arises once again. In response to this question, the article proposes a speculative philosophical anthropology based on a combination of Heidegger’s thinking of the clearing and recent insights from the study of human evolution and pre-history with a view to grounding a new model of the polis not simply on the forest, but rather on the forest and the clearing. (shrink)

In an effort to produce new and more sustainable technologies, designers have turned to nature in search of inspiration and innovation. Biomimetic design (from the Greek bios, life, mimesis, imitation) is the conscious imitation of biological models to solve today's technical and ecological challenges. Nowadays numerous different approaches exist that take inspiration from nature as a model for design, such as biomimicry, biomimetics, bionics, permaculture, ecological engineering, etc. This variety of practices comes in turn with a wide range of (...) different promises, including sustainability, increased resilience, multi-functionality, and a lower degree of risk. How are we to make sense of this heterogeneous amalgam of existing practices and technologies, and of the numerous promises attached to them? We suggest that a typology of biomimetic approaches would provide a useful hermeneutic framework to understand the different tensions that pull this variegated landscape in different directions. This is achieved through a critical analysis of the literature in different fields of biomimetic design and the philosophy of biomimicry, in order to derive conceptual and normative assumptions concerning the meaning and value of the imitation of nature. These two dimensions are then intersected to derive an analytical grid composed of six different biomimetic types, which enable the classification of existing and possible biomimetic approaches, practices, and technologies according to their specific conceptual assumptions and guiding norms. (shrink)

This commentary considers the typology and conceptual and normative heuristic framework as proposed by the authors as a valuable contribution to the new field of philosophy of biomimetics and to the growing demand for critical evaluation of technology and design (decisions) in terms of ecological sustainability. However, further steps are needed to develop a more comprehensive normative analysis and evaluation. To inspire these efforts, I outline some additional normative dimensions of what I propose to call the ‘eco-normative profiling’ of (...) technologies and design. (shrink)

Defining biomimetics as the imitation of models, systems and elements of nature for the purpose to solve human complex problems, the essay considers some examples of that activity, like display technologies, and nanoscientific innovations. According to the literature on the subject, the further section of the article examines the possibility of giving a conceptual framework for biomimetic processes, starting from the observation of its current insufficient development both on the logical level and on a wider philosophical one. The fourth (...) section discusses the way through which an approach oriented to philosophical anthropology and recent perspectives on imitation can help us to understand this kind of phenomena at the intersection of human and animal fields. In the final sections, the text discusses the consequences of the biomimicry approach in the specific case of architecture and tries to draw some conclusions on the way an anthropology and an aesthetics of human mimicry and imitation can be re-shaped including biomimetics among their assumptions. (shrink)

We argue that the concepts of mechanism and autonomy appear to be antagonistic when autonomy is conflated with agency. Once these concepts are disentangled, it becomes clearer how autonomy emerges from complex forms of control. Subsequently, current biomimetic strategies tend to focus on homeostatic regulatory systems; we propose that research in AI and robotics would do well to incorporate biomimetic strategies that instead invoke models of allostatic mechanisms as a way of understanding how to enhance autonomy in artificial systems.

Smart Farming Technologies raise ethical issues associated with the increased corporatization and industrialization of the agricultural sector. We explore the concept of biomimicry to conceptualize smart farming technologies as ecological innovations which are embedded in and in accordance with the natural environment. Such a biomimetic approach of smart farming technologies takes advantage of its potential to mitigate climate change, while at the same time avoiding the ethical issues related to the industrialization of the agricultural sector. We explore six principles of (...) a natural concept of biomimicry and apply these principles in the context of smart farming technologies. (shrink)

Synthetic biology, materials chemistry and soft robotics are fast becoming leading disciplines within the field of practices which look to nature for inspiration and opportunities. In this article I discuss how these molecular-scale practices fit within the existing trends of bio-informed design defined at the macro level, that is, bionics, biomimetics and more specifically biomimicry. Based on the metaphysical views underlying bio-informed design practices, I argue that none of them currently fit the biomimicry model, as they are not consistently (...) concerned with environmental sustainability. While biomimetic chemistry loosely belongs to the field of biomimetics, and soft robotics to the field of bionics, both practices have a profound impact on their respective fields, as they question the places of nature and engineers. (shrink)

In this paper, I explore how bio-hybrid forms can be created and combined starting from organic forms. The thesis put forward is epistemological: the combinatorial practice of bionics, biomimetics, biorobotics, and all design strategies inspired by nature is not based on a kind of biomimetic inspiration, i. e., on a kind of imitation of nature, but on a practice of translation. To develop this thesis, I focus on the practices of contemporary biorobotics, first examining the practice of translating natural (...) forms into technical artefacts as developed by Raoul Heinrich Francé at the beginning of the 20th century, secondly, analysing the production of robots capable of replicating complex locomotion systems and, finally, investigating the interaction between robots and living organisms (fish). In the last part of the paper, I reflect on the philosophical payoff and broader conditions of possibility for this translational practice. I discuss when and to what extent a translation of biological forms into biotechnical ones is acceptable and point out the notion of form that underlies this practice. Moreover, I draw attention to the need to philosophically investigate what happens between different domains of knowledge – and especially between science and technology. This article is thus an invitation to philosophers to develop a philosophy in the interstices of knowledge production. (shrink)

The Ancient Greeks understood both art and technology (techne) as imitation (mimesis) of Nature (physis). This article argues that the rapidly growing ecological innovation strategy known as biomimicry makes it possible for technology to leave behind the modern goal of “mastering and possessing” Nature and instead to rediscover the initial vocation it shared with art: imitating Nature. This in turn suggests a general strategy for philosophical inquiry into the biomimetic principle of “Nature as model”: the transposition of philosophical analyses of (...) concepts associated primarily with poetics and related fields—mimesis, mimicry, translation, analogy, metaphor, etc.—into the philosophy of biomimicry. (shrink)

In this paper, we reflect on the concept of nature that is presupposed in biomimetic approaches to technology and innovation. Because current practices of biomimicry presuppose a technological model of nature, it is questionable whether its claim of being a more ecosystem friendly approach to technology and innovation is justified. In order to maintain the potentiality of biomimicry as ecological innovation, we explore an alternative to this technological model of nature. To this end, we reflect on the materiality of natural (...) systems and explore a natural model of nature, which is found in the responsive conativity of matter. This natural model of nature enables us to conceptualize biomimicry as conative responsiveness to the conativity of the biosphere. (shrink)

Over the past decades, self-assembly has attracted a lot of research attention and transformed the relations between chemistry, materials science and biology. The paper explores the impact of the current interest in self-assembly techniques on the traditional debate over the nature of life. The first section describes three different research programs of self-assembly in nanotechnology in order to characterize their metaphysical implications: (1) Hybridization (using the building blocks of living systems for making devices and machines) ; (2) Biomimetics (making (...) artifacts mimicking nature); (3) Integration (a composite of the two previous strategies). The second section focused on the elusive boundary between self-assembly and self-organization tries to map out the various positions adopted by the promoters of self-assembly on the issue of vitalism. (shrink)

Living organisms are the ultimate survivalists, having evolved phenotypes with unprecedented adaptability, ingenuity, resourcefulness, and versatility compared to human technology. To harness these properties, functional descriptions and design principles from all sources of biodiversity information must be collated − including the hundreds of thousands of possible survival features manifest in natural history museum collections, which represent 12% of total global biodiversity. This requires a consortium of expert biologists from a range of disciplines to convert the observations, data, and hypotheses into (...) the language of engineering. We hope to unite multidisciplinary biologists and natural history museum scientists to maximize the coverage of observations, descriptions, and hypotheses relating to adaptation and function across biodiversity, to make it technologically useful. This is to be achieved by developments in meta‐ taxonomic classification, phylogenetics, systematics, biological materials research, structure and morphological characterizations, and ecological data gathering from the collections − the aim being to identify and catalogue features essential for good biomimetic design. (shrink)

Abstract:Environmental epistemology is at present a rather marginal branch of environmental philosophy. The aim of the present article is to propose a major new approach to environmental epistemology, which I propose to call “biomimetic epistemology,” the guiding principle of which is “nature as mentor,” and which, in keeping with this principle, takes as its subject matter both the idea and the phenomenon of learning from nature. Beginning with a brief sketch of biomimetic epistemology covering both its basic traits and its (...) open questions, I then compare and contrast it with what are probably the two main existing approaches to environmental epistemology: Christopher Preston’s “placed-based epistemology,” which focusses on the role of places in the production of knowledge; and Jim Cheney’s “postmodern epistemology,” which goes beyond standard postmodern views of nature as an “agent” in the production of knowledge to consider nature rather as a “conversation partner.” The key conclusions drawn from this exercise of compare and contrast are first, that much may be gained from articulating biomimetic with place-based and postmodern environmental epistemology, and second, that integrating biomimetic epistemology is likely to prove necessary if environmental epistemology is to establish itself as a significant branch of both epistemology and environmental philosophy. (shrink)

This study explores the history of nanotechnology from the perspective of protein engineering, which differs from the history of nanotechnology that has arisen from mechanical and materials engineering; it also demonstrates points of convergence between the two. Focusing on directed evolution—an experimental system of molecular biomimetics that mimics nature as an inspiration for material design—this study follows the emergence of an evolutionary experimental system from the 1960s to the present, by detailing the material culture, practices, and techniques involved. Directed (...) evolution, as an aspect of nanobiotechnology, is also distinct from the dominant biotechnologies of the 20th century. The experimental systems of directed evolution produce new ways of thinking about molecular diversity that could affect concepts concerning both biology and life. (shrink)

Whether “biomimetic” or “bioinspired,” the projects of bioengineering tend to refer their devices or inventions to the biological systems that provide models or originals for detachable functionalities. And yet, they do not satisfy the picturing relation of original and copy. They are mimetic or imitative in the sense of reenacting a function in a different setting with its own principles of composition or its own parameters that select for salience. The taking up of salient features for the purposes of producing (...) a performance of functionality results not in the copy of an original but in its parody. Parodies are not judged for their veracity but for their effectiveness. They have a heuristic value in the context of design and for knowing the world through making and building. In somewhat experimental fashion, this paper seeks to develop a vocabulary for the parodistic qualities of Synthetic Biology, genome editing, or other bioengineering practices. In order to do so, it introduces categories from aesthetics to qualify modeling relations, one of these categories being the notion of “parody” itself. (shrink)

Artificial intelligence has historically been conceptualized in anthropomorphic terms. Some algorithms deploy biomimetic designs in a deliberate attempt to effect a sort of digital isomorphism of the human brain. Others leverage more general learning strategies that happen to coincide with popular theories of cognitive science and social epistemology. In this paper, I challenge the anthropomorphic credentials of the neural network algorithm, whose similarities to human cognition I argue are vastly overstated and narrowly construed. I submit that three alternative supervised learning (...) methods—namely lasso penalties, bagging, and boosting—offer subtler, more interesting analogies to human reasoning as both an individual and a social phenomenon. Despite the temptation to fall back on anthropomorphic tropes when discussing AI, however, I conclude that such rhetoric is at best misleading and at worst downright dangerous. The impulse to humanize algorithms is an obstacle to properly conceptualizing the ethical challenges posed by emerging technologies. (shrink)

In this paper I critically reflect on the sustainability potential of biomimetic technologies by focusing on writings of the German philosopher Peter Sloterdijk. Although I agree with Sloterdijk that biomimetic technologies - or, as he calls them, 'homeotechnologies' - offer specific opportunities for a more peaceful co-existence of humans and nature, I will argue that his reflections are based on a series of problematic assumptions. I will conclude by arguing that the 'homeotechnological turn' can be effected only if it is (...) developed within the context of a different ecological ethos from the technocentric ethos that currently dominates our attitude towards nature. (shrink)

. This paper investigates the mechanisms of knowledge production of twenty-first century robotics-inspired morphology. How robotics influences investigations into the structure, development, and change of organic forms? Which definition of form is presupposed by this new approach to the study of form? I answer these questions by investigating how robots are used to understand and generate new questions about the locomotion of extinct animals in the first case study and in high-performance fishes in the second case study. After having illustrated (...) the landscape of twentieth-century morphology, I will reflect on the definition of form adopted in twenty-first century robotics-inspired morphology as well as on the differences between this approach to the study of form and the so-called nature-inspired disciplines, such as bionics or biomimetics. In the conclusion, I suggest that we are now in a material turn in morphology, characterized by the coexistence of the robotic, the virtual, and the real, which enables an understanding of how the structures and dynamics of shapes change over time. (shrink)

Grasping the identity of hybrids, that is beings which cross the binarism of nature and technology (e.g. genetically-modified organisms (GMOs), syn-bio inventions, biomimetic projects), is problematic since it is still guided by self-evident dualistic categories, either as artefacts or as natural entities. To move beyond the limitations of such a one-sided understanding of hybrids, we suggest turning towards the categories of affordances and the juxtaposition of needs and patterns of proper use, as inspired by the Heideggerian version of phenomenology. Drawing (...) upon selected concepts by Heidegger, we argue that hybrids can be conceptualised as a regenerative design and use to serve the planet. We argue that the ideal type of non-exploitative account of hybrids consists of the adaptive approach to the environment, which does not, however, exclude the possibility of designing and constructing new beings. We also point out that hybrids undermine the divide of being destructive/regenerative which marks the boundaries of nature and technology. (shrink)

The transgressive ontological character of hybrids—entities crossing the ontological binarism of naturalness and artificiality, e.g., biomimetic projects—calls for pondering the question of their ethical status, since metaphysical and moral ideas are often inextricably linked. The example of it is the concept of “moral considerability” and related to it the idea of “intrinsic value” understood as a non-instrumentality of a being. Such an approach excludes hybrids from moral considerations due to their instrumental character. In the paper, we revisit the boundaries of (...) moral considerability by reexamining the legitimacy of identifying intrinsic value with a non-instrumental one. We offer the concept of “functional value,” which we define as a simultaneous contribution to the common good of the ecosystem and the possibility to disclose the full variety of aspects of a being’s identity. We argue that such a value of hybrids allows us to include them into the scope of moral considerability. (shrink)

The transgressive ontological character of hybrids—entities crossing the ontological binarism of naturalness and artificiality, e.g., biomimetic projects—calls for pondering the question of their ethical status, since metaphysical and moral ideas are often inextricably linked. The example of it is the concept of “moral considerability” and related to it the idea of “intrinsic value” understood as a non-instrumentality of a being. Such an approach excludes hybrids from moral considerations due to their instrumental character. In the paper, we revisit the boundaries of (...) moral considerability by reexamining the legitimacy of identifying intrinsic value with a non-instrumental one. We offer the concept of “functional value,” which we define as a simultaneous contribution to the common good of the ecosystem and the possibility to disclose the full variety of aspects of a being’s identity. We argue that such a value of hybrids allows us to include them into the scope of moral considerability. (shrink)

This work utilizes examples from chemical sciences to present fundamentals of dialectics and synergetics. The laws of dialectics remain appropriate at the level of atoms, at the level of molecules, at the level of the reactions, and at the level of ideas. The law of the unity and conflict of opposites is seen, for instance, in the relationships between the ionization energy and electron affinity of atoms, between the forward and back reactions, as well as in the differentiation and integration (...) between the various areas of chemistry. The law of the passage of quantitative changes into qualitative changes describes the transformation properties of the compounds when the number and arrangement of atoms in the molecule undergoes changes. According to this law, the development is accompanied by breaks and jumps. This paper suggests equations for the description of these relationships. The law of the negation of the negation is manifested in the Periodic Law, in the evolution of ideas about the mutual transformation of chemical elements, in the development the concept of triads of elements, etc. Small changes in the conventional Periodic Table on the basis of previously rejected versions allow reflecting secondary and additional periodicity. Synergetics, similarly to dialectics, is dedicated to the studies of general laws of evolution. Synergetics includes highly advanced and specified ideas of dialectics. The cornerstone of synergetics is the principles of self-organization and nonlinearity. Mathematical development of these concepts was substantially facilitated by considering oscillating chemical reactions as an example. These reactions are quite complex and therefore provide adequate models for self-organization. Oscillations may exist only upon execution of specific thermodynamic, mathematical, and chemical conditions. Mechanisms of several oscillatory reactions are briefly reviewed. The construction of novel biomimetic or smart materials based on oscillating reactions is described. (shrink)

In this article, we reflect on the conditions under which new technologies emerge in the Anthropocene and raise the question of how to conceptualize sustainable technologies therein. To this end, we explore an eco-centric approach to technology development, called biomimicry. We discuss opposing views on biomimetic technologies, ranging from a still anthropocentric orientation focusing on human management and control of Earth’s life-support systems, to a real eco-centric concept of nature, found in the responsive conativity of nature. This concept provides the (...) ontological and the epistemological condition for an eco-centric concept of biomimetic technologies in the Anthropocene. We distinguish five principles for this concept that can guide future technological developments. (shrink)

Outlining both historical foundations and the latest research trends, this Research Handbook offers a unique and cutting-edge overview of the numerous avenues to responsible management.Opening with a conceptual mapping of the field, thought leaders such as Henry Mintzberg and Archie Carroll present foundational and controversial views. Frameworks such as sustainability management, responsible leadership, humanistic and biomimetic management are introduced. Glocal approaches include responsible management with Chinese characteristics, West African Yoruba, and American Pragmatism. Exploring frameworks for the responsible management process, such (...) as theories of practice, and for responsible management learning and innovation, readers are introduced to key methods responsible management research, such as participatory action research. Groundbreaking in scope and depth, this Handbook caters to the responsible management research community, particularly to the Academy of Management and to United Nations PRME signatory business schools. Policymakers and practitioners will benefit from its insight into the latest advances in responsible management research. (shrink)

This contribution addresses the anthropocenic challenge from a dialectical perspective, combining a diagnostics of the present with a prognostic of the emerging future. It builds on the oeuvres of two prominent dialectical thinkers, namely Georg Wilhelm Friedrich Hegel and Pierre Teilhard de Chardin. Hegel himself was a pre-anthropocenic thinker who did not yet thematise the anthropocenic challenge as such, but whose work allows us to emphasise the unprecedented newness of the current crisis. I will especially focus on his views on (...) Earth as a planetary process, emphasising that the “spirit” of technoscience is basically monitoring the impacts of its own activities on geochemistry and evolution. Subsequently, I will turn attention to Teilhard de Chardin, a palaeontologist and philosopher rightfully acknowledged as one of the first thinkers of the Anthropocene whose oeuvre provides a mediating middle term between Hegel’s conceptual groundwork and the anthropocenic present. Notably, I will discuss his views on self-directed evolution, on the on-going absorption of the biosphere by the noosphere, and on emerging options for “sublating” the current crisis into a synthetic convergence towards the Omega point. I will conclude that, after disclosing the biomolecular essence of life, biotechnology must now take a radical biomimetic turn ; that reflection itself must become distributed and collective; and, that the anthropocenic crisis must be sublated into the noocene. (shrink)

This article addresses three paradoxes of biomimicry. First of all: how can biomimicry be as old as technology as such and at the same time decidedly innovative and new? Secondly: how can biomimicry both entail a 'naturalisation' of technology and a 'technification' of nature? And finally: how can biomimicry be perceived as nature-friendly but at the same time (potentially at least) as a pervasive biotechnological assault on nature? Contemporary (technoscientific) biomimicry, I will argue, aims to mimic nature at the level (...) of biomolecular processes and structures: contemporary biomimicry as micro-biomimicry. Moreover, building on Aristotle, Delbrück and Schrödinger, I will emphasise that what is mimicked by contemporary (technoscientific) biomimicry, in contrast to traditional (artisanal) instances of biomimicry, is not the morphological form (eidos), but rather the program or formula (logos;) of living systems. Contemporary biomimicry is 'in accordance with nature', but not in the traditional sense. Rather, building on decades of biomolecular research, it strives to reconcile nature and technology against the backdrop of advanced technicity. But biomimetics will only achieve its goals if it is not pursued purely as a technological endeavour, but complemented by an ethos of sustainability and respect for nature. These claims will be elucidated with the help of two case studies: a research project (namely the BaSyC project, launched in 2017 and aimed at producing a synthetic cell) and a science novel (namely Ian McEwan's Solar, which concerns the epistemic and moral challenges involved in artificial photosynthesis). (shrink)

We are at the crux of a return of animals to the battlefield. Framed as an improvement over current limitations of biomimetic devices, couplings of microelectrical mechanical systems with insect bodies are currently being designed and created in laboratories, with funding from military agencies. Moving beyond the external attachment of computerized ‘backpacks’, MEMS are being implanted into larval stages to allow for living tissue to envelop otherwise fragile circuitry and electronics: the creation of bioelectronic interfaces. The weaponization of animals, with (...) insect cyborgs as a first step—a foundation for the remaking of more complex species—is an anthropocentric solution to an anthropocentric problem. Speciesism is the normative context in which technoscientific discourse and such approaches to nanoscience and nanotechnology are situated. This is a network of actors and relationships within and across science and society. Animals are framed as mechanical devices that can be dis/enhanced for human ends. This paper engages with the remaking of species, the blurring of boundaries between mechanism and organism, and the implications of the effective disappearance of the animal as key sociotechnological challenges. (shrink)

In this paper, we reflect on the concept of nature that is presupposed in biomimetic approaches to technology and innovation. Because current practices of biomimicry presuppose a technological model of nature, it is questionable whether its claim of being a more ecosystem friendly approach to technology and innovation is justified. In order to maintain the potentiality of biomimicry as ecological innovation, we explore an alternative to this technological model of nature. To this end, we reflect on the materiality of natural (...) systems and explore a natural model of nature, which is found in the responsive conativity of matter. This natural model of nature enables us to conceptualize biomimicry as conative responsiveness to the conativity of the biosphere. (shrink)

Comprising almost a third of greenhouse gas emissions and having an equally prominent role in pollution of soils, fresh water, coastal ecosystems, and food chains in general, agriculture is, alongside industry and electricity/heat production, one of the three biggest anthropogenic causes of breaching the planetary boundaries. Most of the problems in agriculture, like soil degradation and diminishing biodiversity, are caused by unfit uses of existing technologies and approaches mimicking the agriculturally-relevant functioning natural ecosystems seem necessary for appropriate organization of our (...) toxic and entropic agro-technologies. Our thesis is that eco-curative and sustainable uses of agro-technology require a paradigm shift from the chemical model of agro-systems to the ecological system-design model of agriculture. Particularly, following the new biomimetic paradigm of ecological innovation, we question in what sense can we mimic natural solutions in agriculture. We discern among Integrated agriculture and Permaculture, analyze their biomimetic status from the perspective of the philosophy of biomimicry, and argue that the former nature-mentored approach is a more appropriate solution for sustainable broadscale agriculture necessary for the growing world. However, it is not clear how this agricultural bio-integration will interact with the predicted automatization of work, urban demographic momentum, and the Earth system instability, and can the Permaculture alternative emerge as a social safety-net for the anticipated technologically-redundant or economically or environmentally endangered workers. We argue both for the importance to understand Permaculture as a social safety-net and as experimental testing ground for cutting edge biomimetic technologies. (shrink)

Comprising almost a third of greenhouse gas emissions and having an equally prominent role in pollution of soils, fresh water, coastal ecosystems, and food chains in general, agriculture is, alongside industry and electricity/heat production, one of the three biggest anthropogenic causes of breaching the planetary boundaries. Most of the problems in agriculture, like soil degradation and diminishing biodiversity, are caused by unfit uses of existing technologies and approaches mimicking the agriculturally-relevant functioning natural ecosystems seem necessary for appropriate organization of our (...) toxic and entropic agro-technologies. Our thesis is that eco-curative and sustainable uses of agro-technology require a paradigm shift from the chemical model of agro-systems to the ecological system-design model of agriculture. Particularly, following the new biomimetic paradigm of ecological innovation, we question in what sense can we mimic natural solutions in agriculture. We discern among Integrated agriculture and Permaculture, analyze their biomimetic status from the perspective of the philosophy of biomimicry, and argue that the former nature-mentored approach is a more appropriate solution for sustainable broadscale agriculture necessary for the growing world. However, it is not clear how this agricultural bio-integration will interact with the predicted automatization of work, urban demographic momentum, and the Earth system instability, and can the Permaculture alternative emerge as a social safety-net for the anticipated technologically-redundant or economically or environmentally endangered workers. We argue both for the importance to understand Permaculture as a social safety-net and as experimental testing ground for cutting edge biomimetic technologies. (shrink)

Aggregation is one of the most widespread phenomena in animal groups and often represents a collective dynamic response to environmental conditions. In social species the underlying mechanisms mostly obey self-organized principles. This phenomenon constitutes a powerful model to decouple purely social components from ecological factors. Here we used a model of cockroach aggregation to address the problems of sensitivity of collective patterns and control of aggregation dynamics. The individual behavioural rules and the emergent collective patterns were previously quantified and modelled (...) by Jeanson et al.. We first present the diverse spatio-temporal patterns of a derived model in response to parameter changes, either involving social or non-social interactions. This sensitivity analysis is then extended to evaluate the evolution of these patterns in mixed societies of sub-populations with different behavioural parameters. Simple linear or highly non-linear collective responses emerge. We discuss their potential application to control animal populations by infiltration of biomimetic autonomous robots that mimic cockroach behaviour. We suggest that detailed behavioural models are a prerequisite to do so. (shrink)

This article discusses the concept of Biomimicry, which has been applying in many fields, from nanotechnology to robotics. It is appearing in smart materials and machinic intelligence, for diverse purposes, being inspired by natural processes and organisms. The main application of Biomimicry has been to produce artifacts and ideas from what we can know about what nature has already done. While the mimesis has been removed from the vocabulary of Art, the works of some artists are still full of possibilities (...) to discuss under the concept of Biomimetics. Many artists have dedicated themselves to the development of works using the poiesis of hybridization and mimicry. How close they approach of Biomimetics? As examples, are brought Walmor Corrêa, Patrícia Piccinini, Liu Xue, Berlinde De Bruyckere, Alessandro Boezio, Joan Fontcoberta and Pere Formiguera. This discussion is the starting point for introduce my project “VIRIDIUM”, in which I´m developing some semiautonomous and translucent robots, printed in 3D. The poetic basis is the possibility that nature has in hybridizing and evolving, spontaneously, as well as being hybridized by genetic manipulation. I propose the development of objects / beings that do not exist in the nature but refer and simulate behaviors of those who inhabit the world, in different kingdoms of Nature. I describe the first stage of the project, which focuses the Plantae kingdom. Afterwards of the Biomimicry and darwinian evolution concepts I bring the concept of Artification, as a possible model of understanding the poetic process, both in “VIRIDIUM” and in the works of the artists chosen. (shrink)

Neosentience, a potentially new branch of scientific inquiry related to artificial intelligence, was first suggested in a paper by Bill Seaman as part of a new embodied robotic paradigm, arising out of ongoing theoretical research with Otto E. Rossler. Seaman, artist-researcher, and Rossler, theoretical biologist and physicist, have been examining the potential of generating an intelligent, embodied, multimodal sensing and computational robotic system. Although related to artificial intelligence the goal of this system is the creation of an entity exhibiting a (...) new form of sentience. Its unique qualities will be discussed. Sentience is not yet used in the formal languages of either cognitive science or artificial intelligence. Two related approaches are (1) the generation of artificial minds via parallel processing, in a robotic system; (2) an alternative approach is the generation of an electrochemical computer as a robotic system. Biomimetics, along with state-of-the-art computer visualization is employed. The electrochemical paradigm has a complexity that exceeds standard computational means. The scientific and the poetic elements of the project are motivated by human sentience. The sentient entity is initially modelled on our functional definition of human sentience. The system involves synthetic drives as a new element. We seek to articulate the differences to living brains. This transdisciplinary approach necessitates different forms of inquiry to inform this project such as cognitive science including psychology, education/learning, neuroscience, linguistics, philosophy, anthropology, biology and the arts. We believe that this area of research to be of importance. (shrink)

In this article, we investigate how to explain the difference between traditional design, engineering, and technology—which have exploited nature and put increasing pressure on Earth’s carrying capacity since the industrial revolution—and biomimetic design—which claims to explore nature’s sustainable solutions and promises to be regenerative by design. We reflect on the concept of mimesis. Mimesis assumes a continuity between the natural environment as a regenerative model and measure for sustainable design that is imitated and reproduced in biomimetic design, engineering, and technology. (...) We conceptualize mimesis in terms of two interdependent boundary conditions: differentiation and participation. We subsequently develop four characteristics of biomimicry as regenerative design, engineering, and technology: technological mimesis is 1) a participative differentiation of nature; 2) supplemental to natural mimesis in biomimetic design; 3) the participative differentiation of technological mimesis is constitutive of nature; 4) the participative differentiation of technological mimesis is always limited. (shrink)

In this paper, we explore digitally fabricated aesthetic enhancements and modifications of the body as well as digitally fabricated fauna habitats. We will address how we utilize speculative works through our bio inspired digitally fabricated designs via two of our most recent projects: {skin} D.E.E.P. and in silico et in situ. Through these two projects we explore cultural implications of the intersection of technology and biologically inspired art/design. Technology has provided an ever increasing amount of data which has facilitated the (...) way data can be used in aesthetic explorations. Technology can redefine the human experience by enhancing our senses, experiences, and forms of expression. In our work {skin} D.E.E.P., we explore these ideas via augmentation through wearables and biomimetic expressions on the skin through digitally fabricated prosthetics. {skin} D.E.E.P. employs temporary biomimetic skin patterns via wearable 3D printed exoskeletons. The first series of this work mimics the patterns and textures of animal skin via ephemeral impressions onto human skin. Taking inspiration from shedding snakeskin, we shed the outer layer by removing the 3D printed prosthesis. The epidermis retains the negative imprint of the prosthetic mimicking the look of serpent skin. The dermis reestablishes the smooth form of the human skin as it heals itself within the hour, erasing the ephemeral imprint, symbolically representing rebirth and renewal. Investigating the ephemeral aesthetic of textured patterns on human skin will not by any means provide a solution to an engineering problem, yet acts as a larger philosophical basis to conduct a discussion about the possibilities of blending bio inspired designs. The manifestation of data into physical form occurs via digital fabrication in our most recent series in silico et in situ: fauna habitats in the age of voxels, where we aim to create a new ecosystem for animals and to potentially augment their habitat. The habitats include pollinator waterers, spider habitats and turtle basking platforms. This project pushes forward with a new piece—the development of a 20-foot avian sculpture that will solely exist to support the habitat of the Chimney Swift species. The Chimney Swift is a near-threatened bird species in the US. in silico et in situ investigates the interplay of art, nature and technology by contextualizing sculptural works and placing these sculptures into nature. The project serves as a breeding ground for a larger dialogue about nature, culture, human intervention, design art and technology. Providing the artwork in the public sphere, barrier free in nature, fosters this discourse. (shrink)

This paper approaches the ‘Drexler-Smalley’ debate on nanotechnology from a neglected angle – the common denominator of ‘the frontier’ as a metaphor for scientific exploration. For Bensaude-Vincent, the debate exemplifies the clash of ‘two cultures’ – the ‘artificialist’ and biomimetic’ schools. For us, the portrayal of nanosphere as ‘new frontier’ stymies the prospect of genuine inter-cultural debate on the direction of molecular engineering. Drawing on Brandon, the‘dominium’ impulse of European imperialism is contrasted to the ‘communitas’ tradition of Native America. Proposing (...) a single label – hybridist – for both schools, we juxtapose to this approach the holistic disposition of indigenous North American science. (shrink)

This paper approaches the ‘Drexler-Smalley’ debate on nanotechnology from a neglected angle – the common denominator of ‘the frontier’ as a metaphor for scientific exploration. For Bensaude-Vincent, the debate exemplifies the clash of ‘two cultures’ – the ‘artificialist’ and biomimetic’ schools. For us, the portrayal of nanosphere as ‘new frontier’ stymies the prospect of genuine inter-cultural debate on the direction of molecular engineering. Drawing on Brandon, the‘dominium’ impulse of European imperialism is contrasted to the ‘communitas’ tradition of Native America. Proposing (...) a single label – hybridist – for both schools, we juxtapose to this approach the holistic disposition of indigenous North American science. (shrink)