Wednesday, November 13, 2019

Evolution of the Internet: A Rhizomatic Application of Darwin :: Internet Web Cyberspace Essays

Evolution of the Internet Evolution is the process Charles Darwin described – the story he told – to explain the diversity of the planet. Evolution exists in nature as the interplay between linear natural selection and random events. This randomness necessitates a nonlinear model for exploring evolution as a whole, and as randomness is increasingly recognized as the dominant evolutionary force, "evolutionary schemas may be forced to abandon the old model of the tree and descent" (Deleuze 33). If we take a rhizome as an evolutionary model instead of a tree, this "connects any point to any other point" (Deleuze 35) and allows for nonlinear progression. Once the model for evolution is freed from its directed linear path, it can be applied to disciplines outside of biology. The internet has evolved in much the same way as life on earth. Just as "all life on Earth... started with a single origin of life" (Mayr 21) and has grown increasingly complex, "the Internet grew from a single experimental network... to a globe-spanning system linking millions of computers" (Abbate 1). Both processes began with a single entity that turned into populations by increasing its complexity and diversity. While the "spreading out" of organisms on the planet is governed by the Second Law of Thermodynamics, the parallel "spreading out" of information on the Internet is the result of a different kind of entropy. As populations and diversity increase, entropy escalates: in the internet's infancy, there were so few users that there was limited cyber-interaction among them (Abbate 84), but as more users signed on and more documents became available, there was further interaction and thus accelerated evolution. The same kind of order / disorder, expansion / contraction binaries that drive the evolution of life on earth can be applied to the evolution of the internet. In life, these opposing pairs catalyze speciation. On the internet, they create the kind of categories used in directories to organize information and by browsers to recognize different types of documents (HTML, PHP, PDF, JPEG, etc.). Whether the evolution of life and of the internet is occurring as a process moving toward "perfection" is irrelevant: both systems are in transition, suspended in "continuous flux" (Mayr 7) in a race toward ever-increasing complexity and diversity. Both of these parallel processes must be considered rhizomatically. Neither the internet nor life has progressed along a clear line. Alongside and around the "main" trajectory of evolution, there exists "aparallel evolution" (Deleuze 33). Evolution of the Internet: A Rhizomatic Application of Darwin :: Internet Web Cyberspace Essays Evolution of the Internet Evolution is the process Charles Darwin described – the story he told – to explain the diversity of the planet. Evolution exists in nature as the interplay between linear natural selection and random events. This randomness necessitates a nonlinear model for exploring evolution as a whole, and as randomness is increasingly recognized as the dominant evolutionary force, "evolutionary schemas may be forced to abandon the old model of the tree and descent" (Deleuze 33). If we take a rhizome as an evolutionary model instead of a tree, this "connects any point to any other point" (Deleuze 35) and allows for nonlinear progression. Once the model for evolution is freed from its directed linear path, it can be applied to disciplines outside of biology. The internet has evolved in much the same way as life on earth. Just as "all life on Earth... started with a single origin of life" (Mayr 21) and has grown increasingly complex, "the Internet grew from a single experimental network... to a globe-spanning system linking millions of computers" (Abbate 1). Both processes began with a single entity that turned into populations by increasing its complexity and diversity. While the "spreading out" of organisms on the planet is governed by the Second Law of Thermodynamics, the parallel "spreading out" of information on the Internet is the result of a different kind of entropy. As populations and diversity increase, entropy escalates: in the internet's infancy, there were so few users that there was limited cyber-interaction among them (Abbate 84), but as more users signed on and more documents became available, there was further interaction and thus accelerated evolution. The same kind of order / disorder, expansion / contraction binaries that drive the evolution of life on earth can be applied to the evolution of the internet. In life, these opposing pairs catalyze speciation. On the internet, they create the kind of categories used in directories to organize information and by browsers to recognize different types of documents (HTML, PHP, PDF, JPEG, etc.). Whether the evolution of life and of the internet is occurring as a process moving toward "perfection" is irrelevant: both systems are in transition, suspended in "continuous flux" (Mayr 7) in a race toward ever-increasing complexity and diversity. Both of these parallel processes must be considered rhizomatically. Neither the internet nor life has progressed along a clear line. Alongside and around the "main" trajectory of evolution, there exists "aparallel evolution" (Deleuze 33).

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