Khaidem, Luckyson and Saha, Snehanshu and Kar, Saibal and Mathur, Archana and Saha, Sriparna (2020): Expert Habitat: A Colonization Conjecture for Exoplanetary Habitability via penalized multi-objective optimization and Swarm Clustering based candidate validation.
Preview |
PDF
MPRA_paper_109939.pdf Download (1MB) | Preview |
Abstract
Colonization opportunities and interstellar trade are not remote possibilities if feasible habitable worlds are discovered. The Economics here relies heavily on the Science and the necessary conditions to be inspected when looking for life on planets beyond our solar system. The physical conditions demand structural similarity of an extra-solar planet (exoplanet) to Earth, and the necessary bio-chemical conditions needed to sustain life in the planet. These two aspects are commonly referred to as earth-similarity and habitability, respectively. We propose a novel bi-objective optimization framework as a tool to measuring Earth Similarity Score (CDHS). This is succeeded by investigating possible interactions between Earth-similarity and habitability. The investigation is conducted via two variants of penalized multi-objective particle swarm optimization: Speed Constrained Multi-objective PSO (SMPSO) and a novel variant of Multi-Objective Quantum PSO (MOQPSO). The optimization framework dispenses of classical gradient descent/ascent approach (GD/GA) by replacing it with SMPSO and MOQPSO. The approach to the production relations commonly adopted in production economics can be a natural influence for modeling habitability in exoplanets. An insightful demonstration establishes this claim. The scores reveal potentially habitable planets for interstellar trade. An analytical model of colonization in an exoplanet is also presented where we derive conditions for interstellar migration using the time to travel to such a planet (if possible) as one of the key parameters.
| Item Type: | MPRA Paper |
|---|---|
| Original Title: | Expert Habitat: A Colonization Conjecture for Exoplanetary Habitability via penalized multi-objective optimization and Swarm Clustering based candidate validation |
| Language: | English |
| Keywords: | Exoplanetary Habitability Score, Particle Swarm Optimization,Multi-Objective Optimization, Interstellar Trade, Game Theory, ProductionEconomics |
| Subjects: | D - Microeconomics > D2 - Production and Organizations F - International Economics > F0 - General O - Economic Development, Innovation, Technological Change, and Growth > O3 - Innovation ; Research and Development ; Technological Change ; Intellectual Property Rights |
| Item ID: | 109939 |
| Depositing User: | Saibal Kar |
| Date Deposited: | 28 Sep 2021 05:01 |
| Last Modified: | 28 Sep 2021 05:01 |
| References: | [1] M. C. LoPresto, H. Ochoa, Searching for potentially habitable extra solar planets: a directed-study using real data from the nasa kepler-mission, Physics Education 52 (6) (2017) 065016. [2] H. P. Shuch, Searching for Extraterrestrial Intelligence: SETI past, present, and future, Springer Science & Business Media, 2011. [3] K. Bora, S. Saha, S. Agrawal, M. Safonova, S. Routh, A. Narasimhamurthy, Cd-hpf: New habitability score via data analytic modeling, Astronomy and Computing 17 (2016) 129–143. [4] S. Saha, S. Basak, M. Safonova, K. Bora, S. Agrawal, P. Sarkar, J. Murthy, Theoretical validation of potential habitability via analytical and boosted tree methods: An optimistic study on recently discovered exoplanets, Astronomy and computing 23 (2018) 141–150. [5] L. Irwin, A. Méndez, A. Fairén, D. Schulze-Makuch, Assessing the possibility of biological complexity on other worlds, with an estimate of the occurrence of complex life in the milky way galaxy, Challenges 5 (1) (2014) 159–174. doi:10.3390/challe5010159. URL https://doi.org/10.3390/challe5010159 [6] L. Kaltenegger, S. Udry, F. Pepe, A habitable planet around hd 85512? (2011). arXiv:arXiv:1108.3561. [7] A. Mendez, A thermal planetary habitability classification for exoplanets (2011). URL http://phl.upr.edu/library/notes/ habitabilitymetricsandclassificationsforexoplanets [8] D. Schulze-Makuch, A. Méndez, A. G. Fairén, P. von Paris, C. Turse, G. Boyer, A. F. Davila, M. R. de Sousa António, D. Catling, L. N. Irwin, A two-tiered approach to assessing the habitability of exoplanets, Astrobiology 11 (10) (2011) 1041–1052. doi:10.1089/ast.2010.0592. URL https://doi.org/10.1089/ast.2010.0592 [9] M. Safonova, J. Murthy, Y. A. Shchekinov, Age aspects of habitability, International Journal of Astrobiology 15 (2) (2015) 93–105. doi:10.1017/ s1473550415000208. URL https://doi.org/10.1017/s1473550415000208 [10] S.-S. Huang, The problem of life in the universe and the mode of star formation, Publications of the Astronomical Society of the Pacific 71 (1959)421. doi:10.1086/127417. URL https://doi.org/10.1086/127417 [11] |
| URI: | https://mpra.ub.uni-muenchen.de/id/eprint/109939 |
All papers reproduced by permission. Reproduction and distribution subject to the approval of the copyright owners.
 |
View Item |
