A general methodology for population analysis
Petar Lazov and
Igor Lazov
Physica A: Statistical Mechanics and its Applications, 2014, vol. 415, issue C, 557-594
Abstract:
For a given population with N — current and M — maximum number of entities, modeled by a Birth–Death Process (BDP) with size M+1, we introduce utilization parameter ρ, ratio of the primary birth and death rates in that BDP, which, physically, determines (equilibrium) macrostates of the population, and information parameter ν, which has an interpretation as population information stiffness. The BDP, modeling the population, is in the state n, n=0,1,…,M, if N=n. In presence of these two key metrics, applying continuity law, equilibrium balance equations concerning the probability distribution pn, n=0,1,…,M, of the quantity N, pn=Prob{N=n}, in equilibrium, and conservation law, and relying on the fundamental concepts population information and population entropy, we develop a general methodology for population analysis; thereto, by definition, population entropy is uncertainty, related to the population. In this approach, what is its essential contribution, the population information consists of three basic parts: elastic (Hooke’s) or absorption/emission part, synchronization or inelastic part and null part; the first two parts, which determine uniquely the null part (the null part connects them), are the two basic components of the Information Spectrum of the population. Population entropy, as mean value of population information, follows this division of the information. A given population can function in information elastic, antielastic and inelastic regime. In an information linear population, the synchronization part of the information and entropy is absent. The population size, M+1, is the third key metric in this methodology. Namely, right supposing a population with infinite size, the most of the key quantities and results for populations with finite size, emerged in this methodology, vanish.
Keywords: Information and entropy, null, elastic and synchronization parts; Utilization parameter, information stiffness and population size; Information linear population; Elastic, antielastic and inelastic regimes of functioning; Population information (a)symmetry and entropy hysteresis; Coefficients of unpredictability and information elasticity (search for similar items in EconPapers)
Date: 2014
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Citations: View citations in EconPapers (3)
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Persistent link: https://EconPapers.repec.org/RePEc:eee:phsmap:v:415:y:2014:i:c:p:557-594
DOI: 10.1016/j.physa.2014.08.031
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