Emergent Bioanalogous Properties of Blockchain-based Distributed Systems.

IF 1.9 4区物理与天体物理 Q2 BIOLOGY Origins of Life and Evolution of Biospheres Pub Date : 2021-06-01 Epub Date: 2021-08-07 DOI:10.1007/s11084-021-09608-1

Oleg Abramov, Kirstin L Bebell, Stephen J Mojzsis

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引用次数: 3

Abstract

We apply a novel definition of biological systems to a series of reproducible observations on a blockchain-based distributed virtual machine (dVM). We find that such blockchain-based systems display a number of bioanalogous properties, such as response to the environment, growth and change, replication, and homeostasis, that fit some definitions of life. We further present a conceptual model for a simple self-sustaining, self-organizing, self-regulating distributed 'organism' as an operationally closed system that would fulfill all basic definitions and criteria for life, and describe developing technologies, particularly artificial neural network (ANN) based artificial intelligence (AI), that would enable it in the near future. Notably, such systems would have a number of specific advantages over biological life, such as the ability to pass acquired traits to offspring, significantly improved speed, accuracy, and redundancy of their genetic carrier, and potentially unlimited lifespans. Public blockchain-based dVMs provide an uncontained environment for the development of artificial general intelligence (AGI) with the capability to evolve by self-direction.

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基于区块链的分布式系统的新兴生物类似特性。

我们将生物系统的新定义应用于基于区块链的分布式虚拟机(dVM)上的一系列可重复观察。我们发现，这种基于区块链的系统显示出许多生物类似的特性，例如对环境的响应、生长和变化、复制和动态平衡，这些都符合生命的某些定义。我们进一步提出了一个简单的自我维持、自我组织、自我调节的分布式“有机体”的概念模型，作为一个操作封闭的系统，它将满足生命的所有基本定义和标准，并描述了发展中的技术，特别是基于人工神经网络(ANN)的人工智能(AI)，这将在不久的将来实现它。值得注意的是，与生物生命相比，这样的系统将具有许多特定的优势，例如将获得的特征传递给后代的能力，显著提高了遗传载体的速度、准确性和冗余性，以及潜在的无限寿命。基于公共区块链的dvm为人工通用智能(AGI)的发展提供了一个不受约束的环境，具有自我进化的能力。

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来源期刊

Origins of Life and Evolution of Biospheres 生物-生物学

CiteScore

3.20

自引率

15.00%

发文量

审稿时长

>12 weeks

期刊介绍： The subject of the origin and early evolution of life is an inseparable part of the general discipline of Astrobiology. The journal Origins of Life and Evolution of Biospheres places special importance on the interconnection as well as the interdisciplinary nature of these fields, as is reflected in its subject coverage. While any scientific study which contributes to our understanding of the origins, evolution and distribution of life in the Universe is suitable for inclusion in the journal, some examples of important areas of interest are: prebiotic chemistry and the nature of Earth''s early environment, self-replicating and self-organizing systems, the theory of the RNA world and of other possible precursor systems, and the problem of the origin of the genetic code. Early evolution of life - as revealed by such techniques as the elucidation of biochemical pathways, molecular phylogeny, the study of Precambrian sediments and fossils and of major innovations in microbial evolution - forms a second focus. As a larger and more general context for these areas, Astrobiology refers to the origin and evolution of life in a cosmic setting, and includes interstellar chemistry, planetary atmospheres and habitable zones, the organic chemistry of comets, meteorites, asteroids and other small bodies, biological adaptation to extreme environments, life detection and related areas. Experimental papers, theoretical articles and authorative literature reviews are all appropriate forms for submission to the journal. In the coming years, Astrobiology will play an even greater role in defining the journal''s coverage and keeping Origins of Life and Evolution of Biospheres well-placed in this growing interdisciplinary field.