“What we observe is not nature itself, but nature exposed to our method of questioning”.[1]
Werner Heisenberg
With regard to themes and issues of fundamental importance – not only for those who study and do scientific research (in all the scientific-disciplinary fields involved) – about which there is much debate, wrongly presenting them as completely original and innovative, I share some parts extracted from a scientific article from 2021, published in early 2022. I could go back much further: these are theses, an approach, an epistemology, studies and research rooted in almost thirty years of multi/inter/transdisciplinary study and research.
Because, as I have always said, one cannot be an ‘expert on everything’. One always needs in-depth and rigorous study, experience, comparisons and projects with many colleagues from various disciplinary areas, and one must do a lot, a lot of research always ready to accept error and the ‘constitutive emergence’ (1995) of all that is Social and Vital.
[1] Heisenberg W., Physics and Philosophy: the Revolution in Modern Science, Prometheus Books, Buffalo N.Y., 1958
[…]
Rethinking Thought.
Thought: it’s something we haven’t thought about enough, perhaps: thought, thinking, thinking about thought, thoughts on thinking, the search for thought, and then thinking about Nature… notwithstanding the attempts, destined to fail, to reproduce, emulate, simulate thought in all of its complex and indeterminate dimensions, which have always been essential, of vital importance; dimensions nonetheless often deliberately ignored, underestimated, devalued, considered useless, of so little relevance to the civilization of “no-error” automation, which prefers to rely on sophisticated mechanical, artificial and complicated systems, which, if not downright “infallible”, can at least be easily maintained, updated and modified, proffering complete carte blanche to technology à technological “solutionism”*).
And, in doing so, they are following the hegemonic paradigm of contemporary society, founded on precise “logics” functional to the system, constructed on what I have in the past called the “grand illusions of the hypertechnological and hyperconnected civilization” (Dominici, 1996, 2014, 2019a, 2019b, 2019c, 2019d): the illusions of rationality, control, measurability, predictability, and elimination of error; (the aspiration is to “manage” and/or predetermine all mechanisms, including social ones).
A series of illusions, reinforced systematically by the license delegated to technique/technology, reintroducing reductionist and deterministic approaches, analyses and explanations, exclusively based on technical knowledge and skills: that is, those which are guaranteed to best support precisely these very illusions. At this point, considering the accelerations and the exponential expansion of the interdependencies/interconnections/interactions/conditioning that form the local and global neural network of phenomena and processes, we have, paradoxically, returned to the dominion of a neo-positivistic vision/conception of reality.
Above all, what I have so often warned against, apart from the constant simulation(s), is the progressive marginalization of “the Human”, considered “bearer” and potential creator/producer/executor of error (ibidem), of errors, which cannot be “reset” by the system(s); error, which, rather than being perceived as a “source of knowledge and learning” has always been considered an element to be removed and eliminated, even from educational and formative processes. A disastrous prospect, as I have been saying for over twenty years.
Of the five grand illusions in which the hypertechnological civilization is indulging, it is this last illusion – the elimination of error – that is both the most deceptive and misleading, and therefore the most dangerous; the illusion of succeeding in eliminating error (and thus unpredictability) from our organizations and from our lives means eliminating what truly makes us “human beings,” – indeed, what makes us “free human beings”.
A Human is the only “possessor” of the possibility of making mistakes, of committing “errors”, even consciously and deliberately; a Human “factor” and “complex variable” featuring such continual, systemic and emergent unpredictability, which, apart from all else, implicates/involves/requires – necessarily – taking on responsibility (ibidem).
It is precisely these elements – according to the aforementioned paradigm – that must be eliminated/removed in order to allow the construction of social systems that are perfectly functional, efficient, predictable, manageable and pre-determinable, even regarding social behavior, both individual and collective. Societies that have been designed and imagined (?) as perfect “machines” (thus neither intelligent nor capable of adapting to life’s perpetual disruptions and black swans) rather than as the “organisms” and hypercomplex systems that they actually are. Which is to say, the “new Nature” of complex human ecosystems.
If we picture the global ecosystem as an immense tissue of neural networks, the goals and functions of artificial intelligence and automation processes, designed and assembled by human beings, are to gradually substitute our human and relational networks and mechanisms. The ambiguity and the ambivalence, the multidimensionality and the unpredictability of human beings, the extreme variability and diversity of all living things, are wildly incompatible with the axioms of this civilization of automation and algorithms (Domingos, 2015).
These very algorithms that allow no ambivalence or ambiguity.
I have spoken, in the past, of a “new epistemological fracture” (1996), regarding the profound impact of artificial intelligence on the architecture of knowledge, praxis and life experiences, similar in significance to the groundbreaking introduction of chaos theory and its implications.
The “nature” we are now confronting is the intrinsically problematic, hypercomplex nature of our social systems, which is no longer attributable solely to the (albeit very significant) categories of risk, uncertainty, vulnerability, liquidity and so forth.
In the meantime, however, we humans keep endeavoring to control and cage the immense complexity of the human and the social, of the vitality of spirit and the “non-observable”, within models and mathematical formulas, in infinite sequences of data and numbers, in molecules, synapses, hormones, chemical reactions. In doing so, we also try to visualize what cannot be visualized; the very idea that something can escape our “sight” or our control terrifies us.
And it is precisely this attitude which prevents us from being prepared, which dooms us to an eternal apprehension of black swans (Taleb, 2007) (a metaphor that goes back to very ancient times – and a classical example of post-rationalization), little aware that emergency is a connotative element of complex systems.
Black Swans and other inadequate paradigms
Our very lives are emergency, infinite, non-linear sequences of dynamic processes involving both emergency and the emergent, which are manifested in every possible imaginable and non-imaginable, unpredictable manner.
I will go further: our lives are an “infinite sequence of black swans” (Dominici 1995-2020) of various shades and hues, featuring a primordial ambivalence and apparently irresoluble contradictions. Speaking of which, I have the impression that quite often, in many different instances of social and organizational praxes, those who insist on this concept/metaphor of “black swans”, when faced with situations/dynamics that have escaped their control, are simply attempting to utilize/construct post-rationalizations in order to reassure themselves and those around them that, despite a few unexpected episodes, everything else is totally under control and neatly foreseeable.
In this way, once again the “illusion of control” – of becoming the master of chance and of one’s own destiny – continues to maintain its hegemony, not only in terms of a social and organizational “collective unconscious”, but very tangibly, despite the evidence of its complete inconsistency and inadequacy. Because, as said above, all social and human life is characterized by these endless, non-linear series of black swans, whose constitutive elements are unpredictability, complexity and systemic dynamism. The complexity of living things, not to mention that of social groups, is never completely intelligible or comprehensible; it is never reducible/ascribable to mathematical formulas or to more or less infinite strings of data. It is obvious that this characteristic has profound implications with respect to the feasibility of representing, visualizing, modeling or even communicating this same complexity. In fact, any analysis, praxis, representation, model or communication of a complex system inevitably becomes integral and fundamental part of this system, both in terms of observation and of perception (individual and collective), hence cannot reduce – or simplify – the very complexity of which it is part. And our awareness of this is still quite feeble.
Speaking of “simplification”, this has become a buzz word used to perpetuate the digitalization of life, an effort which does not result in “clarifying” complexity or guiding society to a harmonious cohabitation — it should be kept in mind that the opposite of complexity is not simplification, but reductionism – on the contrary, these dynamics and processes often lead to an obsessive search for simplification at all costs, even when it is actually dangerous to simplify, for example in education (Dewey, 1916, 1929, 1933; Dominici, 2005-2021, Nussbaum, 2010; Robinson, 2015), communication and democracy.
Our attempt to inhabit the hypercomplexity of this global civilization – an ecosystem of ecosystems (1996) – must take into account its intrinsically structural fragility and vulnerability, correlated with those factors that have always made it seem (seem, not be!) perfectly functional, efficient, hyper-modern, rational, super-accelerated, suitable for a “civilization without error or anomalies” – perfectly (apparently) controllable and predictable in every aspect and dimension, or if not, with the ambition of becoming so in the shortest time possible.
The dominating themes are “know-how”, automatisms, facts and figures, and the exaltation of velocity. In the meantime, we continue to neglect thinking about the social and cultural construction of the Person or the citizen, we continue to avoid “caring about and taking care of ourselves, of others, of our community and of society”, in other words, we continue to not to think of the long-term period; one could say that we continue not to think at all, whilst standing on the brink of a quantum leap into a “new nature” that indubitably calls for a radically new system of thought.
The observable and non-observable*: complex vs. complicated systems
The ongoing paradigm shift and profound anthropological transformation (1996) – only in part “technological” – not only (re)define, but actually create new dimensions, openings, epistemological implications that require new thinking and new thought, as well as different approaches and methods (and their integration), other than new instruments for collection and analysis. In all fields of research and action, and with subtle variations, throughout the diverse disciplines and sectors, no longer are universal laws and rules on nature being sought, through reductionist and deterministic approaches; but it has been acknowledged, on the basis of studies, theories and fundamental scientific discoveries (not only among what are called the “hard sciences”) that the analysis and explanation/interpretation of a phenomenon, of a process, of a system’s complexity, can no longer come down to/be reduced to empirical observation and to the knowledge of simple properties (evident and measurable in quantitative terms), characterizing the components/parts making up the system that is being observed.
Awareness of the ever more strategic and relevant role of the observer, as both a conditioning and conditioned element, has spread more and more widely, awareness that an empirical “scientific” observation can no longer be considered “neutral”, “external” or totally “objective” with respect to the system referred to and to the object-system being observed; awareness that an observer is inevitably a participant in what he/she is observing, affecting and at the same time being affected, changing and being changed.
Awareness and acknowledgement that we cannot observe isolated “objects”, even objects isolated from their context under “ideal conditions”, but rather “systems”, “relations”, dynamics”, characterized by levels of interconnection and interdependency that call urgently for a systemic and multi/inter/trans-disciplinary approach to complexity. Since this awareness has taken hold, therefore, the objective has no longer been (will no longer be) that of identifying and recognizing analogies and common structural elements within more or less complex phenomena, but of bringing to light the fact that phenomena and dynamics that are apparently similar or identical display non-linear, irregular and unpredictable behaviors and reactions.
Order, balance, simplicity, linearity, causality, dichotomies, dialectical relations – just to name a few – are accompanied, if not substituted, by newer “key” concepts, such as complexity, chaos, non-linearity, disorder, entropy, irregularity, dynamicity, variety, etc. – which open and reveal extraordinarily intriguing scenarios and trajectories, fascinating but at the same time difficult to interpret; above all, which open and reveal new pathways for study and research, to which we cannot shirk from accompanying corresponding new epistemologies and, it goes without saying, epistemological transformations.
It might be useful at this point to consider the difference between two terms which are often – and erroneously – used as synonyms. We need to understand that complex systems – since I am speaking about human and social systems, the term used to describe these (and all living systems) is generally “complex adaptive systems”–are by no means equivalent to “complicated systems”: the latter term refers to the world of objects, things and machines: complicated systems are mechanical and artificial, and can be described using mathematical formulas and quantitative measurements.
These systems are “observable” in all their parts and dimension, their actions are predictable and can be modified or corrected; furthermore, it is possible to break down their parts in order to understand their behavior and functions. The totality of a complicated system, in fact, is equal to its number of parts, whereas, on the contrary, in a complex system, the whole is greater than the sum of its parts. Complicated systems, of course, cannot create themselves, but are created by living (human) beings, while complexity, instead, is an essential characteristic of all living beings, in other words of biological, human, social and relational systems, characterized by non-linear dynamics and by numerous intersecting levels of interconnection, interdependency, feedback, self-generation and self-organization, giving rise to emergent properties, processes, dynamics, characteristics, events and actions (Weaver, 1948; Heisenberg, 1958, 1959, 1976, 1999, 2002; Simon, 1962; Feynman, 1963; Hayek von, 1964; Neumann von, 1966; Emery, 1969; Anderson, 1972; Bateson, 1972, 1979; Morin, 1973-2004; Holland, 1975; Capra, 1975, 1996; Le Moigne, 1977; Haken, 1977; Mandelbrot, 1977; Prigogine-Stengers, 1979, 1984; Maturana-Varela, 1980, 1985; Heisenberg et al., 1980; Prigogine, 1980; Foerster von, 1981; Kauffman, 1971, 1993; Luhmann, 1984, 1990; Gell-Mann, 1994, 1995; Krugman, 1996; Prigogine, 1996; Laszlo, 1996; Bar-Yam, 1997; Diamond, 1997, 2005; Mathews et al.,1999; Barabási, 2002; Israel, 2005; Dominici, 2005-2021; Nicolis-Nicolis, 2007; Montuori, 2014; Gentili, 2018; Turner-Baker, 2019).
Each part (arranged in a hierarchy of interconnected sub-systems) and each process is capable of conditioning and changing the behavior and the (non-linear and non-deterministic) evolution of the entire system. These complex adaptive systems, which are “open” systems, subject, that is, to external stimulation and influences from the surrounding environment/ecosystems, follow an irreversible arrow of time, and are thus described as “dissipative” systems.
It is an oxymoron, therefore, to speak about “managing”, “governing”, “programming” or “controlling” complex systems, and endeavoring to predict their evolution, simplify their dynamics or reduce their complexity is equally futile. In particular, complex systems, especially social and human systems, may not share the same space-time: consequently their interactions can take place even at extremely significant distances in time and space. As an afterthought, it may well be, that in describing the properties and peculiarities of complex systems, a more accurate definition of “Nature” itself can be inferred.
Thus, “reality” and “what is real” unveil themselves to be increasingly more complex and unpredictable than the scientific paradigms that have observed and investigated them up to this moment. In the emblematic words of the renowned mathematician and physicist of the late 1800s, Henri Poincaré, “If we knew exactly the laws of nature and the situation of the universe at the initial moment, we could predict exactly the situation of that same universe at a succeeding moment. But, even if it were the case that the natural laws had no longer any secret for us, we could still only know the initial situation approximately. If that enabled us to predict the succeeding situation with the same approximation, that is all we require, and we should say that the phenomenon had been predicted, that it is governed by laws. But it is not always so; it may happen that small differences in the initial conditions produce very great ones in the final phenomena. A small error in the former will produce an enormous error in the latter. Prediction becomes impossible, and we have the fortuitous phenomenon.” (Poincaré, 1908:68).
Order and disorder, order and chaos (Lorenz, 1963; Gleick, 1987; Stewart, 1989; Taleb, 2012), linearity and non-linearity, predictability and unpredictability, equilibrium and dynamicity/entropy, not only mix and blend, but they also coexist. In other words, complexity and chaos have been recognized (albeit rather belatedly) as integral dimensions of the Vital, the Human and the Social (Weber, 1922a, 1922b; Mead, 1932; Parsons, 1951; Watzlawick et al., 1967; Morin, 1977-2004; Habermas, 1981; Weick, 1993; Todorov, 1995); a complexity whose dynamics of transformation and non-linear, complex evolution never cease.
The relationships, even the dialectical rapports, between norms/regularity and chance/exception are completely overturned, with profound implications, not only for disciplinary fields but also, and above all, for common sense knowledge, for scientific knowledge, for people’s lives, for social systems, for democracies”.
[…] TO BE CONTINUED
Research Article
“The Digital Mockingbird: Anthropological Transformation and the “New Nature”, in World Futures.The Journal of New Paradigm, Routhledge, Feb. 2022.
#research #transdisciplinarity #education #AI #FutureofEducation #ComplexSystems #EducationForAll #PeerReviewed
https://doi.org/10.1080/02604027.2022.2028539
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