TITLE:
Virtual GDP Engine: The Loop-Conveyor Problem in Sustainable Economics, and a Method for Formalizing Carnot-Like Dynamism and Win-Win & Sharing
AUTHORS:
Masayuki Matsui
KEYWORDS:
Pair-Map Ellipse Theory, Loop Theory, Carnot-Like Dynamism, Digital GDP Engine, Matsui’s Equation
JOURNAL NAME:
Theoretical Economics Letters,
Vol.12 No.3,
June
16,
2022
ABSTRACT: This paper considers a hypothetical Carnot-like loop
dynamism (powered by “money energy”) in nature versus artificial bodies, and
considers income growth and distribution theory (economic entities) within a
sustainable loop conveyor system in the world, along with its dynamism and
efficiency. This loop theory schema is a dissection of the elliptic theory of
pair-map microcosms, and can be expected to be the same for the self-moving
mechanism of artificial bodies, such as virtual (digital) self-driving cars on
the pair map (2D/3D). This discussion first begins with the examination of a
linear “Taylor system” for a virtual GDP body, and loop theory. Matsui’s
equation for flow time (flow number) can be used to present an example of
formulation of two-level optimization, based on a closed-loop conveyor divided
into “unloading” and “loading” sides. Lastly, the harmonic gain-sharing problem
that faces economic bodies using a numerical and harmonic example of Win-win
& sharing is also analyzed by a heuristic base.