Novel Algorithmic Estimation of Extraterrestrial Intelligent Civilizations and Attributes per Planetary Continuum through Statistical Simulation and Civilization Modeling

Authors

  • SRIRAM ELANGO Aspiring Scientists' Summer Internship Program Intern
  • Michael Summers Aspiring Scientists' Summer Internship Program Mentor

DOI:

https://doi.org/10.13021/jssr2021.3250

Abstract

In the field of Astrobiology, a quantitative approach has not been made to predict the number of extraterrestrial intelligent civilizations that may have existed on a habitable planet as well their corresponding properties, such as intelligence, lifespan, and recovery time. Prior research indicates that numerous planetary systems within the Milky Way Galaxy are of over six billion years in age, implying many planets, if sustainable to life, may have had several cycles of civilizations emergence and self-destruction, suggesting the ruins of advanced civilizations should be commonplace within the galaxy. We investigate this problem by utilizing statistical algorithmic simulations to predict and estimate the number of civilizations(both future and extinct) that may arise within a planetary continuum, further generating the accompanying characteristics of said civilizations. Within the model, factors such as self-induced extinction/destruction, natural civilization decay, planetary disasters, and civilization rediscovery have been incorporated to examine the pathways a civilization can encounter. Our results corroborate the notion that on many of the older planets in our galaxy, civilizations may have existed, however most have ultimately died out within a short period, further limiting the search for current extraterrestrial intelligence, but strengthening the approach of interstellar archeology.

Published

2022-12-13

Issue

Section

College of Science: Department of Physics and Astronomy

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