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III. Ecosmos: A Revolutionary Fertile, Habitable, Solar-Bioplanet, Incubator LifescapeC. The Information Computation Turn Chaitin, Gregory, et al. Godel’s Way: Exploits into an Undecidable World. Boca Raton: CRC Press, 2011. A unique, engaging dialogue between Argentine-American polymath Chaitin, Brazilian logician Newton da Costa, and Brazilian physicist Francisco Antonio Doria serves to join the incompleteness theorems of Austrian-American Kurt Gödel (1906-1978), a premier 20th century mathematician, with current information-computation and chaotic complexity paradigms. The result, along with books and papers documented herein, could be seen as a crossover from a lumpen machine to an organic genesis by reaffirming this once and future doubleness, herewith akin to software and hardware. The text quotes are from Chaitin’s chapters 2 and 6. From his own website http://cs.umaine.edu/~chaitin can be accessed a plethora of books, video lectures, and papers. The Gödel incompleteness theorem - one cannot prove nor disprove all true mathematical sentences in the usual formal mathematical systems - is frequently presented in textbooks as something that happens in the rarefied realm of mathematical logic, and that has nothing to do with the real world. Practice shows the contrary though; one can demonstrate the validity of the phenomenon in various areas, ranging from chaos theory and physics to economics and even ecology. In this lively treatise, based on Chaitin’s groundbreaking work and on the da Costa-Doria results in physics, ecology, economics and computer science, the authors show that the Gödel incompleteness phenomenon can directly bear on the practice of science and perhaps on our everyday life. (Publisher)
Cooper, S. Barry and Jan van Leeuwen, eds.
Alan Turing: His Work and Impact.
Amsterdam: Elsevier,
2013.
The hundredth anniversary of the British polymath genius in 2012 has occasioned this major retrospect of his contributions from foundational computer logic and encryption to the nature of organic form, along with his 1930’s and 1940’s times. From our 21st century, Turing is then placed in a long train from Gottfried Leibniz, to Stephen Wolfram today (several pieces herein) and many who now advocate a mathematical, program-like source that in some way “computes” universe, life, and human into regnant presence. The 900 page compendium ranges widely over computation principles, information, complexity, languages, evolution of mind, artificial intelligence, and emergent morphogenesis, which AT set on course. The concept of Darwinian evolution one to assume that whatever processes now give rise to the forms we see in biological systems, they must have been carefully shaped by natural selection. But the surprising observation that I have made in at least several cases is that instead – in the computational universe of all possible underlying rules – it seems that biology in effect just samples essentially all possibilities, distributing the results among the species of the Earth. In the abstract, one might think that there could never be any real theory in biology, and that instead all features of current organisms must just be the result of endless historical accidents. But instead it increasingly seems that just by knowing the abstract structure of the computational universe, one can understand the different forms that occur across the biological world. (Wolfram, 757) Crofts, Antony. Life, Information, Entropy, and Time. Complexity. 13/1, 2007. A University of Illinois biochemist attempts to expand the philosophical envelope of thermodynamic thinking in the 21st century to include an inherent semantic essence. This genotype-like quality is seen to infuse and distinguish nature as it manifestly ascends with evolution’s intricate phenotype. However in its passage, termed a ‘chronognosis,’ the immaterial message or meanings do not expend a thermodynamic budget, i.e. increase entropy. By way of a thought through argument, akin to Alwyn Scott’s The Nonlinear Universe, a novel appreciation of Bergson’s ‘elan vital’ can be reintroduced. At the present time, as humankind coalesces an extra-somatic global intelligence, a ‘supra-phenotypical’ phase can lately be discerned. But Crofts holds to the tacit view that these goings on occur as ‘machinery.’ The grand step or leap, which this nascent worldwide mind is making to admit an obvious organic genesis, is not taken. Cuffaro, Michael and Samuel Fletcher. Physical Perspectives on Computation, Computational Perspectives on Physics. Cambridge: Cambridge University Press, 2018. As the title implies, this wide-ranging, authoritative collection covers the on-going cross-synthesis of physical, condensed matter, and quantum phenomena with an algorithmic-informational basis. As this fertile merger proceeds, an epic revolution appears to be coming to fruition in our collaborative, worldwide midst. To wit, it may be possible to at last aver, as long intimated, that this cosmic and Earthly existence is distinguished by a double, generative dimension. Typical chapters are Ontic Pancomputationalism by Gualtiero Piccinini and Neal Anderson, On Characterizing Physical Evolution as Information Processing by Owen Maroney and Christopher Timpson, and The Natural Science of Computation by Dominic Horsman, et al. An Abstract for Quantum Theory as a Principle Theory by Adam Koberinski and Markus Mueller is appended next. We give a condensed and accessible summary of a recent derivation of quantum theory from information-theoretic principles, and use it to study the consequences of this and other reconstructions for our conceptual understanding of the quantum world. Since these principles are to a large extent expressed in computational terminology, we argue that the hypothesis of "physics as computation", if suitably interpreted, attains surprising explanatory power. Similarly as Jeffrey Bub and others, we conclude that quantum theory should be understood as a "principle theory of information", and we regard this view as a partial interpretation of quantum theory. (AK & MM Abstract) D’Ariano, Giacomo Mauro. Physics Without Physics: The Power of Information-Theoretical Principles. International Journal of Theoretical Physics. 56/1, 2017. In a special Quantum Relativity issue in honor of David Finkelstein (1929-2016) the innovative Georgia Tech theorist and once editor of this journal, the University of Pavia physicist (search) advances a paradigm shift from an earlier particulate phase to rightly include nature’s computational creativity, a revolution that DF long advocated. Something is in the air, and in the cosmos, due to realizations of a universe to human circuitous course by way of various “bit to it” digital program operations. Along with papers by Stephon Alexander, Lee Smolin, Heinrich Saller, and others is The Life Machine: A Quantum Metaphor for Living Matter by Mario Rasetti. David Finkelstein was very fond of the new information-theoretic paradigm of physics advocated by John Archibald Wheeler and Richard Feynman. Only recently, however, the paradigm has concretely shown its full power, with the derivation of quantum theory and of free quantum field theory from informational principles. The paradigm has opened for the first time the possibility of avoiding physical primitives in the axioms of the physical theory, allowing a refoundation of the whole physics over logically solid grounds. In addition to such methodological value, the new information-theoretic derivation of quantum field theory is particularly interesting for establishing a theoretical framework for quantum gravity, with the idea of obtaining gravity itself as emergent from the quantum information processing, as also suggested by the role played by information in the holographic principle. (Abstract)
Davies, Paul.
The Demon in the Machine: How Hidden Webs of Information are Solving the Mystery of Life.
London: Allen Lane,
2019.
The British physicist and popular author is now at Arizona State University as director of the BEYOND Center for Fundamental Concepts in Science. This latest volume since 2010 draws upon collegial projects and papers, plus meetings with many co-investigators such as Gregory Chaitin, Stuart Kauffman, Steven Benner, David Chalmers to Lee Cronin, Philip Ball, Giulio Tononi, Michael Levin, and more so to range from cosmos to consciousness. The result is a clearest glimpse to date of a 21st century integral reunion of biology and physics, human and universe, via a missing generative, informative principle. A lot of the ideas I present here originate with my colleague Sara Walker at ASU who has greatly influenced my thinking over the past five years. Sara shares my enthusiasm for seeking a grand unified theory of physics and biology organized around the concept of information. “Life is the next great frontier of physics” she declares. (2) Davies, Paul and Niels Gregersen, eds. Information and the Nature of Reality: From Physics to Metaphysics. Cambridge: Cambridge University Press, 2010. Another prescient volume from a Templeton conference whose History, Physics, Biology, Philosophy and Theology sections provide a good entry to a waxing 21st century shift from matter-energy only to include, once again, a primacy of Logos word and creative content. In addition to the editors, contributors include Ernan McMullin, Philip Clayton, Seth Lloyd, John Maynard Smith, Terrence Deacon, Jesper Hoffmeyer, Holmes Rolston, Keith Ward, John Haught. But 18 men in all, surely closer to truth but still constrained by computer and machine analogues. For some entries, Paul Davies’ “Universe from Bit” draws on John Archibald Wheeler’s self-observing and selecting reality, which is gaining currency. Biochemist and theologian Arthur Peacocke finds the new complexity sciences to provide scientific support for a “panentheistism” that reveals both an active transcendence and fertile immanence. Impressive evidence for the naturalistic view of language seems to be found in the language-like arrangement of genetic information. Thus, as is well known, the genetic alphabet is grouped in higher-order informational units, which in genetic handwriting take over the functions of words, sentences, and so forth. And, like human language, genetic information has a hierarchical structure, which is unfolded in a complex feedback mechanism – a process that shows all the properties of a communication process between the genome and its physical context. (Brend-Olaf Kuppers, 175) De Castro, Leandro Nunes. Fundamentals of Natural Computing. Boca Raton: Chapman & Hall/CRC, 2006. A 650 page compendium by a Catholic University of Santos, Brazil, computer scientist which provides a good overview of attempts to limn from a greater creative nature its broad repertoire of computational processes, so as to avail and continue in computer designs. Our interest is to then note what kind of “nature” is assumed, which de Castro expands beyond Darwinian evolutionary algorithms. General Concepts are thus drawn from the complexity sciences such Agents, Interactivity, Connectivity, Self-Organization, Emergence, and onto Fractal Geometry. In regard, examples in genetic, neural and immune systems along with swarm intelligence, artificial life, and quantum phenomena are inclusively reviewed. By these lights, a nonlinear, self-organizing universe is engaged, but without yet recognizing this represents a significant shift and discovery. Deutsch, David. The Fabric of Reality. New York: Penguin Putnam, 1997. A work of physics and philosophy which finds the central character and measure of the universe to be an increase in relative knowledge as lately embodied in intelligent human beings. This perception, based on four strands of quantum theory, evolution, epistemology and computation, goes on to join life as “knowledge-bearing matter” with the developmental cosmos. Deutsch, David. The Beginning of Infinity. New York: Penguin, 2012. Some 15 years after The Fabric of Reality, in the midst of his Constructor theory work, the Oxford University polymath physicist offers a unique, engaging meditation upon our awesome reality, aided by chapter summaries. To wit, the objective physical world does contain real knowledge which is amenable to human discovery. In regard peoples are “universal constructors” thus meant to learn and continue the project, with a true “anthropocentric” identity. And David does not disappoint with quanta and multiverse pyrotechnics, akin to Max Tegmark. In this important new book, David Deutsch, an award-winning pioneer in the field of quantum computation, argues that explanations have a fundamental place in the universe. They have unlimited scope and power to cause change, and the quest to improve them is the basic regulating principle not only of science but of all successful human endeavor. This stream of ever improving explanations has infinite reach, according to Deutsch: we are subject only to the laws of physics, and they impose no upper boundary to what we can eventually understand, control, and achieve. In his previous book, The Fabric of Reality, Deutsch describe the four deepest strands of existing knowledge-the theories of evolution, quantum physics, knowledge, and computation-arguing jointly they reveal a unified fabric of reality. In this new book, he applies that worldview to a wide range of issues and unsolved problems, from creativity and free will to the origin and future of the human species. (Publisher) Deutsch, David and Chiara Marletto. Constructor Theory of Information. arXiv:1405.5563. The Oxford University, Center for Quantum Computation, theorist is joined by an Oxford condensed matter physicist to enter a latest view upon a quantum universe better understood by way of primal, emergent, ever reiterated programs. To gloss, natural meta-laws do indeed exist which as they run serve to sequentially generate (construct) universe and now observant, participator human. The project website constructortheory.org cites an earlier version (search) and popular articles. All of which begs translation. We present a theory of information expressed solely in terms of which transformations of physical systems are possible and which are impossible - i.e. in constructor-theoretic terms. Although it includes conjectured laws of physics that are directly about information, independently of the details of particular physical instantiations, it does not regard information as an a priori mathematical or logical concept, but as something whose nature and properties are determined by the laws of physics alone. It does not suffer from the circularity at the foundations of existing information theory (namely that information and distinguishability are each defined in terms of the other). It explains the relationship between classical and quantum information, and reveals the single, constructor-theoretic property underlying the most distinctive phenomena associated with the latter, including the lack of in-principle distinguishability of some states, the impossibility of cloning, the existence of pairs of variables that cannot simultaneously have sharp values, the fact that measurement processes can be both deterministic and unpredictable, the irreducible perturbation caused by measurement, and entanglement (locally inaccessible information). (Abstract) Diaz Nafria, Jose and Rainer Zimmermann. Emergence and Evolution of Meaning: The General Definition of Information (GDI) Revisiting Program. Information. 3/472, 4/240, 2013. Published as Part I: The Progressive Perspective: Top-down, and Part II: The Regressive Perspective: Bottom-up, University of Leon, Spain, and Munich University of Applied Sciences engineers (Google each for more credits and papers) contribute to this mostly European project to advance theoretical understandings of a cumulative, significant knowledge as a prime natural quality. With such a properly explained physical basis, an evolutionary emergence from a cosmic origin to human societies can be defined as a progressive, biosemiotic codification of its meaningful, edifying content. That is, in translation, are we simply trying to say as if a parents to children genetic code? In this second part of our inquiry into the emergence and evolution of meaning, the category of meaning is explored from the manifestation of reality in its corresponding level of interaction towards the interpretation of such reality (the first part deals correspondingly with an appropriate top-down approach). Based on the physical constraints of manifestation through electromagnetic waves, which constitutes the base of animal vision, we analyze the limits of the meaning-offer of such a manifestation, which allows us, on the one hand, to compare the efficiency of natural evolution in the reception of such meaning-offers; on the other hand, to analyze the conditions of developing agency able to acknowledge the reality underlying its manifestation. (Abstract, Part II)
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