The paradox of scientific expertise is that the growth of science leads to a fragmentation of scientific expertise. To resolve this paradox, this paper probes three hypotheses: 1) All scientific knowledge is perspectival. 2) The perspectival structure of science leads to specific forms of knowledge asymmetries. 3) Such perspectival knowledge asymmetries must be handled through second order perspectives. We substantiate these hypotheses on the basis of a perspectivist philosophy of science grounded in Peircean semiotics and autopoietic systems theory. Perspectivism is an important elaboration of constructivist approaches to help overcome problems in cross-disciplinary collaboration and use of science, and thereby make society better able to solve complex, real-world problems.
Context: The problems that are most in need of interdisciplinary collaboration are “wicked problems,” such as food crises, climate change mitigation, and sustainable development, with many relevant aspects, disagreement on what the problem is, and contradicting solutions. Such complex problems both require and challenge interdisciplinarity. Problem: The conventional methods of interdisciplinary research fall short in the case of wicked problems because they remain first-order science. Our aim is to present workable methods and research designs for doing second-order science in domains where there are many different scientific knowledges on any complex problem. Method: We synthesize and elaborate a framework for second-order science in interdisciplinary research based on a number of earlier publications, experiences from large interdisciplinary research projects, and a perspectivist theory of science. Results: The second-order polyocular framework for interdisciplinary research is characterized by five principles. Second-order science of interdisciplinary research must: 1. draw on the observations of first-order perspectives, 2. address a shared dynamical object, 3. establish a shared problem, 4. rely on first-order perspectives to see themselves as perspectives, and 5. be based on other rules than first-order research. Implications: The perspectivist insights of second-order science provide a new way of understanding interdisciplinary research that leads to new polyocular methods and research designs. It also points to more reflexive ways of dealing with scientific expertise in democratic processes. The main challenge is that this is a paradigmatic shift, which demands that the involved disciplines, at least to some degree, subscribe to a perspectivist view. Constructivist content: Our perspectivist approach to science is based on the second-order cybernetics and systems theories of von Foerster, Maruyama, Maturana & Varela, and Luhmann, coupled with embodied theories of cognition and semiotics as a general theory of meaning from von Uexküll and Peirce.
This paper has a dual purpose. On the one hand, it suggests ways of making autopoietic theory more precise and more operational for concrete communication analysis. I discuss concepts such as distinction, system, bound- ary, environment, perturbation, and compen- sation. The explication of the concepts is ba- sed on catastrophe theory, and in order to make them operational I emphasise their affinity to traditional semiotics and communi- cation theory. On the other hand I propose changes to the semiotic tradition in order to incorporate insights from autopoietic theory, namely that the human condition is characte- rised by the phenomenon of self-reference and therefore also by the unavoidability of para- doxes. Firstly, this means that truth cannot be a basic semiotic concept; instead the notion of stability is suggested. Secondly, in order to act in a paradoxical context, we need to unfold the paradox in time, which again calls for a dynamic theory of meaning.
This paper is a discussion of the sustainability of a concept of World compatible with the “operative constructivism” and the operative conception of observation of the Theory of Systems, according to Niklas Luhmann. The paper scrutinizes the concepts of observation of H. von Foerster, H. Maturana, G. Günther and N. Luhmann providing the general framework of the “operative constructivism.” Particularly, the paper will focus on N. Luhmann’s understanding of the role of observation in the constitution of the self-reference of the social systems of the Modern Society. The case of the ”System of Art” will be briefly inspected. What place shall we concede to the idea of an “objective” world, according to the Theory of Systems? Are Systems “objective”? According to N. Luhmann, for the description of systems only operations are “objective.” However, an operation is not an entity, which means that we need to depict a new kind of “ob-jects,” very different from the “thing-objectivity” of the ancient Metaphysics and different from the Cartesian concept of “res.” What means objectivity according to the Theory of Systems? This question was at stake in the formulation of N. Luhmann’s Die Gesellschaft der Gesellschaft: Society is “weder Subjekt noch Objekt.” This paper attempts to address this formula.
In this paper, I describe what I consider to be some of the similarities between semiotics and second-order cybernetics. Particular attention is paid to the importance of interpretation and recursion in both fields. A distinction is made between the concept of representation in representational realism and representation as the stand-for relationship. Two models derived from cybernetic theory, ‘a recursive theory of communication’ and ‘levels of experience, ’ are discussed from a semiotic perspective and possible educational implications are described
The paper presents a discussion of the epistemological and ontological problems of attempts to found information concepts on the often implicit mechanistic idea that the physical sciences hold the key to the nature of reality and information. It is furthermore shown through an analysis of the ethological and the Batesonian understanding of cognition and behavior that it is impossible to remove the fundamental epistemological position of the observer through a definition of information as neg-entropy. Instead Maturana and Varela’s concepts of autopoiesis and multiverse are invoked. But where the idea to derive information from the concept of negentropy is too physicalistic Maturana’s idea of a multiverse seems to be too close to a constructivistic idealism. To develop a more fruitful non-reductionistic world view it is shown that the more pragmatic understanding of physics, where thermodynamics is understood as the basic discipline and mechanics as an idealization, opens for a non-reductionistic con-ceptualization of chaos. Attention is drawn to C. S. Peirce’s conception of pure chance as living spontaneity which is to some degree regular as a realistic but non-reductionistic theory, which comprises a solution to the different world view problems of Bateson and Maturana. A fruitful connection between second order cybernetics and semiotics will then be possible and a bridge between the technical-scientific and the humanistic-social parts of cybernetics can be developed.
This paper discusses how the second order cybernetics of von Foerster, Maturana, Varela and Luhmann, can be fruitfully integrated with Peirce’s semiotics through the bio-semiotics of Hoffmeyer. The conclusion is that what distinguish animals from machines is that they are autopoietic, have code-duality and through their living organization constitutes a biological interpretant. Through this they come to inhabit a new life world: their games of life take place in their own semiotic Umwelt (von Uexküll). It is the biological context and the history of the species and the individual the determine the meaning of signs in the structural couplings that constitutes the channels of communication. Inspired by Wittgenstein’s theory of language games as the context that determines semantic content of the expressions of sentences, we suggest that animals participate in sign games.
This article praises the development of second-order cybernetics by von Foerster, Maturana and Varela as an important step in deepening our understanding of the biopsychological foundation of the dynamics of cognition and communication. Luhmann’s development of the theory into the realm of social communication is seen as a necessary and important move. The differentiation between biological, psychological and socialcommunicative autopoiesis and the introduction of a technical concept of meaning is central. Furthermore, Varela’s development of Spencer Brown’s ‘Laws of Form’ from a dual to a triadic categorical basic structure is considered vital. Finally the paper shows that second-order cybernetics lacks explicit and ontological concepts of emotion, meaning and a concept of signs. C. S. Peirce’s theory is introduced for this purpose. It is then shown that both theories are triadic and second order, and therefore can be fruitfully fused to a cybersemiotics.
In the context of the question of the emergence of mind in evolution the present paper argues that the concept of linguistic motivation, through the theory of embodiment in cognitive semantics, can be connected with the concept of motivation in ethology. This connection is established through Lakoff and Johnson’s embodied cognitive semantics on the one hand and on the other hand through the theory of biosemiotics. The biosemiotics used is based on C. S. Peirce´s semiotics and the work of J. von Uexkull. Motivation will in this context be understood as a decisive factor in determining which kind of interpretant a living system constructs when perturbed by a significant disturbance in its signification sphere. From this basis the concept of sign stimuli in Ethology, based on the concept of innate release response mechanism (IRM,) is paralleled with the concept of embodied metaphorical categorization based on the concept of idealized cognitive models (ICM). It is realized that we are dealing with motivation on two different levels, that of the linguistic and that of the perceptual-behavioral level. The connection is made through pragmatic language and sign theory viewing language as getting its meaning through language games integrated in cultural life forms and animals signs to get their meaning through sign games and natural life forms. Further connection is made through the common insight of the significant role of embodiment to create signification through the construction of a signification sphere. The later concept is a Peircian biosemiotic conceptualization of von Uexkull’s orginal Umwelt concept.
This paper discusses various suggestions for a philosophical framework for a trans-disciplinary information science or a semiotic doctrine. These are: the mechanical materialistic, the pan-informational, the Luhmanian second order cybernetic approach, Peircian biosemiotics and finally the pan-semiotic approach. The limitations of each are analysed. The conclusion is that we will not have to choose between either a cybernetic-informational or a semiotic approach. A combination of a Peircian-based biosemiotics with autopoiesis theory, second order cybernetics and information science is suggested in a five-levelled cybersemiotic framework. The five levels are 1) a level of Firstness, 2) a level of mechanical matter, energy and force as Secondness, 3) a cybernetic and thermodynamic level of information, 4) a level of sign games and 5) a level of conscious language games. These levels are then used to differentiate levels of information systems, sign and language games in human communication. In our model Maturana and Varela’s description of the logic of the living as autopoietic is accepted and expanded with Luhmann’s generalization of the concept of autopoiesis, to cover also to psychological and socio-communicative systems. Adding a Peircian concept of semiosis to Luhmann’s theory in the framework of biosemiotics enables us to view the interplay of mind and body as a sign play. I have in a previous publication (see list of references) suggested the term “sign play” pertaining to exosemiotics processes between animals in the same species by stretching Wittgenstein’s language concept into the animal world of signs. The new concept of intrasemiotics designates the semiosis of the interpenetration between biological and psychological autopoietic systems as Luhmann defines them in his theory. One could therefore view intrasemiotics as the interplay between Lorenz’ biological defined motivations and Freud’s Id, understood as the psychological aspect of many of the natural drives. In the last years of the development of his theory, Lorenz worked with the idea of how emotional feedback introduced just a little learning through pleasurable feelings into instinctive systems because, as he reasoned, there must be some kind of reward of going through instinctive movements, thus making possible the appetitive searching behaviour for sign stimuli. But he never found an acceptable way of modelling motivation in biological science. I am suggesting a cybersemiotic model to combine these approaches, defining various concepts like thought-semiotics, phenosemiotic and intrasemiotics, combining them with the already known concepts of exosemiotics, ecosemiotics, and endosemiotics into a new view of self-organizing semiotic processes in living systems. Thus a new semiotic level of description is generated, where mind-body interactions can be understood on the same description level.