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Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections. / Ryzhenkov, Alexander.

World-Systems Evolution and Global Futures. ред. / Tessaleno Campos Devezas; João Carlos Correia Leitão; Yuri Yegorov; Dmitry Chistilin. Springer Science and Business Media B.V., 2023. стр. 49-81 4 (World-Systems Evolution and Global Futures).

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Ryzhenkov, A 2023, Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections. в TC Devezas, JCC Leitão, Y Yegorov & D Chistilin (ред.), World-Systems Evolution and Global Futures., 4, World-Systems Evolution and Global Futures, Springer Science and Business Media B.V., стр. 49-81. https://doi.org/10.1007/978-3-031-16477-4_4

APA

Ryzhenkov, A. (2023). Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections. в T. C. Devezas, J. C. C. Leitão, Y. Yegorov, & D. Chistilin (Ред.), World-Systems Evolution and Global Futures (стр. 49-81). [4] (World-Systems Evolution and Global Futures). Springer Science and Business Media B.V.. https://doi.org/10.1007/978-3-031-16477-4_4

Vancouver

Ryzhenkov A. Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections. в Devezas TC, Leitão JCC, Yegorov Y, Chistilin D, Редакторы, World-Systems Evolution and Global Futures. Springer Science and Business Media B.V. 2023. стр. 49-81. 4. (World-Systems Evolution and Global Futures). doi: 10.1007/978-3-031-16477-4_4

Author

Ryzhenkov, Alexander. / Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections. World-Systems Evolution and Global Futures. Редактор / Tessaleno Campos Devezas ; João Carlos Correia Leitão ; Yuri Yegorov ; Dmitry Chistilin. Springer Science and Business Media B.V., 2023. стр. 49-81 (World-Systems Evolution and Global Futures).

BibTeX

@inbook{49fe8cab309f43a7b56307191f337ef9,
title = "Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections",
abstract = "The Ramsey–Cass–Koopmans model (M-1) relies on the “neoclassical” dogma of declining marginal utility of consumer goods that can take place under non-realistic assumptions besides the dead abstraction of perfect foresight. This model consists of two ODEs—for private consumption and for capital intensity, both are related to labour input in efficiency units. A positive (strongly destabilizing) second-order feedback loop connects these variables. M-1 possesses a saddle stationary state. Linearized M-1 has a saddle path that is allegedly stable optimal solution gained through the Pontryagin maximum principle with an initial private consumption as a jump variable. An existence of such a non-resilient saddle path is practically excluded in M-1. This utter instability leads to typical outcomes outside a viable region: the first with complete destruction of fixed production assets, the second with usage of asymptotically 100% of net output for accumulation of fixed production assets. This unsound model should be not included in realistic models for avoiding wrong economic and climate projections as well as heavy policy risks. An alternative model R-1 with robust proportional and derivative control over private consumption with historically given initial conditions enables socially efficient extended reproduction.",
keywords = "Aggravation mode, Capital accumulation, Catastrophic loss, Pro-labour politico-economic strategy, Robust control",
author = "Alexander Ryzhenkov",
note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.",
year = "2023",
doi = "10.1007/978-3-031-16477-4_4",
language = "English",
series = "World-Systems Evolution and Global Futures",
publisher = "Springer Science and Business Media B.V.",
pages = "49--81",
editor = "Devezas, {Tessaleno Campos} and Leit{\~a}o, {Jo{\~a}o Carlos Correia} and Yuri Yegorov and Dmitry Chistilin",
booktitle = "World-Systems Evolution and Global Futures",

}

RIS

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T1 - Why the Ramsey–Koopmans–Cass Model Underlying Noticeable Integrated Assessment Models Is Misleading in Economic and Climate Projections

AU - Ryzhenkov, Alexander

N1 - Publisher Copyright: © 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.

PY - 2023

Y1 - 2023

N2 - The Ramsey–Cass–Koopmans model (M-1) relies on the “neoclassical” dogma of declining marginal utility of consumer goods that can take place under non-realistic assumptions besides the dead abstraction of perfect foresight. This model consists of two ODEs—for private consumption and for capital intensity, both are related to labour input in efficiency units. A positive (strongly destabilizing) second-order feedback loop connects these variables. M-1 possesses a saddle stationary state. Linearized M-1 has a saddle path that is allegedly stable optimal solution gained through the Pontryagin maximum principle with an initial private consumption as a jump variable. An existence of such a non-resilient saddle path is practically excluded in M-1. This utter instability leads to typical outcomes outside a viable region: the first with complete destruction of fixed production assets, the second with usage of asymptotically 100% of net output for accumulation of fixed production assets. This unsound model should be not included in realistic models for avoiding wrong economic and climate projections as well as heavy policy risks. An alternative model R-1 with robust proportional and derivative control over private consumption with historically given initial conditions enables socially efficient extended reproduction.

AB - The Ramsey–Cass–Koopmans model (M-1) relies on the “neoclassical” dogma of declining marginal utility of consumer goods that can take place under non-realistic assumptions besides the dead abstraction of perfect foresight. This model consists of two ODEs—for private consumption and for capital intensity, both are related to labour input in efficiency units. A positive (strongly destabilizing) second-order feedback loop connects these variables. M-1 possesses a saddle stationary state. Linearized M-1 has a saddle path that is allegedly stable optimal solution gained through the Pontryagin maximum principle with an initial private consumption as a jump variable. An existence of such a non-resilient saddle path is practically excluded in M-1. This utter instability leads to typical outcomes outside a viable region: the first with complete destruction of fixed production assets, the second with usage of asymptotically 100% of net output for accumulation of fixed production assets. This unsound model should be not included in realistic models for avoiding wrong economic and climate projections as well as heavy policy risks. An alternative model R-1 with robust proportional and derivative control over private consumption with historically given initial conditions enables socially efficient extended reproduction.

KW - Aggravation mode

KW - Capital accumulation

KW - Catastrophic loss

KW - Pro-labour politico-economic strategy

KW - Robust control

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T3 - World-Systems Evolution and Global Futures

SP - 49

EP - 81

BT - World-Systems Evolution and Global Futures

A2 - Devezas, Tessaleno Campos

A2 - Leitão, João Carlos Correia

A2 - Yegorov, Yuri

A2 - Chistilin, Dmitry

PB - Springer Science and Business Media B.V.

ER -

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