![]() Author’s email: book presents investigations into the world of info-computational nature, in which information constitutes the structure, while computational process amounts to its change. An international research and critique community in evo compu devo systems theories, free and open to all qualified scholars, may be joined at. We use the phrase “evo devo” without the hyphen here, to distinguish this speculative philosophy and systems theory from the legitimate science of “evo-devo” biology, from which we seek insights. By the close the paper, the reader should have some concrete and at least partially testable ideas on what is likely to be intrinsically unpredictable and what may be statistically predictable about cosmic culture (what we call an evo devo framework), and some understanding of how processes of universal development may constrain cosmic culture, chaining it to particular patterns of hierarchy emergence, communication, behavior, and life cycle, and thereby explaining the Fermi Paradox, as we shall propose. apparent accelerating emergence, on Earth, of increasingly postbiological (technological) forms of intelligence, and their likely future trajectories.apparently hierarchical emergence of increasingly matter and energy efficient and matter and energy dense substrates (platforms) for adaptation and computation.increasing spatial and temporal (space-time) locality of universal complexity development.Aunger 2007), seen over the last half of the universe’s life history, in contrast to deceleration during the first half accelerating advances in universal complexity (under particular metrics, e.g.Our framework will try to reconcile the majority of unpredictable, evolutionary features of universal emergence with a special subset of potentially statistically predictable and developmental universal trends, including: We will briefly model our universe as an evolutionary, computational, and developmental system−as an “evo compu devo” universe (abbreviated “evo devo” universe hereafter). ![]() ![]() In such systems we can distinguish evolutionary processes that are stochastic, creative, and “divergent,” and developmental processes that produce statistically predictable, robust, conservative, and “convergent” structures and trajectories. In organic systems, adaptive evolutionary development guides the production of intelligent, ordered and complex structures. We also briefly consider implications of such a framework for cosmic culture. In this paper we explore ways this framework might be extended with insights from information and computation studies and evolutionary developmental (evo-devo) biology. The underlying paradigm for cosmology is theoretical physics. ![]()
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