Inflation and deflation of the transfer space

Friedrich, Thomas (2020): Inflation and deflation of the transfer space.

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Abstract

The transfer space is a model of unidirectional substrate transfers from a source to a sink. Source and sink independently follow linear cost and saturating benefit functions. The transfer of substrate within the ensemble has nonlinear effects on the net profit (benefit minus cost) of the ensemble. Superadditivity or subadditivity are a result in comparison to the condition “no transfer” with simple additivity. In this investigation I observe dilution (inflation) and concentration (deflation) of the transfer space. Inflation and deflation change the substrate concentration and the step size of a featureless transfer vehicle called “coin”. Upon dilution the volume of the transfer space is increased and therefore the concentration of substrate is decreased. This leads to a reduction of the step size of a representative coin in comparison to the starting conditions. After concentration the volume is decreased and therefore the concentration of the substrate as well as the step size of the coin is increased relative to the starting condition. Dilution and concentration cause non-linear effects in source, sink, and the ensemble. In symmetric and many asymmetric ensembles (strong and weak) inflation is beneficial to the production of superadditivity but deflation is harmful. In asymmetric ensembles with very high cost in source and low to medium cost in sink (very strong ensemble), I observe a limit where the benefit of inflation turns over and becomes harmful. There, deflation is beneficial. In this model inflation (growth), deflation (scaling down), and division of labour appear to be investment decisions or evolutionary trends coexisting within the transfer space.

Item Type:	MPRA Paper
Original Title:	Inflation and deflation of the transfer space
English Title:	Inflation and deflation of the transfer space
Language:	English
Keywords:	ensemble, source, sink, benefit, cost, net profit, non-linearity, superadditivity, subadditivity, inflation, deflation, division of labour, Cope´s rule
Subjects:	Z - Other Special Topics > Z0 - General > Z00 - General
Item ID:	122584
Depositing User:	Thomas / T Friedrich
Date Deposited:	04 Nov 2024 22:39
Last Modified:	19 Nov 2024 09:39
References:	1. Friedrich T (2019) How peaceful is the harmony of source and sink? MPRA_paper_96764 2. Friedrich T (2018) Evolution towards higher net profit in a population of ensembles of ensembles leads to division of labour. MPRA_paper_85517 3. Friedrich T (2015) The limits of wise exploitation in dependent and independent symmetric ensembles. MPRA_paper_68250 4. Turner P E and Chao L (1999) Prisoner´s dilemma in an RNA virus. Nature 398,441-443 5. Friedrich T (2019) Transfers by force and deception lead to stability in an evolutionary process when controlled by net profit but not by turnover. MPRA_paper_92724 6. Bell, M (2014) Trends of body-size evolution in the fossil record – a growing field. Palaeontology [online], 4, 1-9
URI:	https://mpra.ub.uni-muenchen.de/id/eprint/122584

Available Versions of this Item

• Inflation and deflation of the transfer space. (deposited 14 Oct 2020 13:41)
  • Inflation and deflation of the transfer space. (deposited 04 Nov 2024 22:39) [Currently Displayed]