Collaborative environmental management under uncertainty

David W.K. Yeung, Leon A. Petrosyan

Результат исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаярецензирование

Выдержка

In this chapter, we introduce stochastic elements in collaborative environmental management. Similar to the deterministic analysis in Chap. 6, the industrial sector is characterized by an international trading zone involving n nations or regions. Each government adopts its own abatement policy and tax scheme to reduce pollution. The governments have to promote business interests and at the same time have to handle the financing of the costs brought about by pollution. The industrial sectors remain competitive among themselves while the governments cooperate in pollution abatement. Industrial production creates two types of negative environmental externalities. First, pollutants emitted via industrial production cause short-term local impacts on neighboring areas of the origin of production. Examples of these short-term local impacts include passing-by waste in waterways, wind-driven suspended particles in the air, unpleasant odor, noise, dust, and heat generated in the production processes. Second, the emitted pollutants will add to the existing pollution stock in the environment and produce long-term impacts to extensive and far-away areas. Greenhouse-gases, CFC, and atmospheric particulates are examples of this form of negative environmental externality. This specification permits the proximity of the origin of industrial production to receive heavier environmental damages as production increases. Given these neighboring impacts, the individual government tax policy has to take into consideration the tax policies of other nations and these policies’ intricate effects on outputs and environmental effects. In particular, while designing tax policies to curtail their outputs, governments have to consider the inducement to neighboring nations’ output that can cause local negative environmental impacts to themselves.

Язык оригиналаанглийский
Название основной публикацииStatic and Dynamic Game Theory
Подзаголовок основной публикацииFoundations and Applications
ИздательBirkhäuser Verlag AG
Страницы271-293
Число страниц23
Издание9780817682613
DOI
СостояниеОпубликовано - 1 янв 2012

Серия публикаций

НазваниеStatic and Dynamic Game Theory: Foundations and Applications
Номер9780817682613
ISSN (печатное издание)2363-8516
ISSN (электронное издание)2363-8524

Отпечаток

Environmental Management
Environmental management
Tax
Taxation
Pollution
Uncertainty
Externalities
Pollutants
Environmental impact
Output
Sector
Chlorofluorocarbons
Greenhouse Gases
Odors
Greenhouse gases
Particles (particulate matter)
Proximity
Dust
Government
Damage

Предметные области Scopus

  • Статистика, теория вероятности и теория неопределенности
  • Теория вероятности и статистика
  • Прикладная математика

Цитировать

Yeung, D. W. K., & Petrosyan, L. A. (2012). Collaborative environmental management under uncertainty. В Static and Dynamic Game Theory: Foundations and Applications (9780817682613 ред., стр. 271-293). (Static and Dynamic Game Theory: Foundations and Applications; № 9780817682613). Birkhäuser Verlag AG. https://doi.org/10.1007/978-0-8176-8262-0_10
Yeung, David W.K. ; Petrosyan, Leon A. / Collaborative environmental management under uncertainty. Static and Dynamic Game Theory: Foundations and Applications. 9780817682613. ред. Birkhäuser Verlag AG, 2012. стр. 271-293 (Static and Dynamic Game Theory: Foundations and Applications; 9780817682613).
@inbook{748145e0941c4ba4972d3120edcb8787,
title = "Collaborative environmental management under uncertainty",
abstract = "In this chapter, we introduce stochastic elements in collaborative environmental management. Similar to the deterministic analysis in Chap. 6, the industrial sector is characterized by an international trading zone involving n nations or regions. Each government adopts its own abatement policy and tax scheme to reduce pollution. The governments have to promote business interests and at the same time have to handle the financing of the costs brought about by pollution. The industrial sectors remain competitive among themselves while the governments cooperate in pollution abatement. Industrial production creates two types of negative environmental externalities. First, pollutants emitted via industrial production cause short-term local impacts on neighboring areas of the origin of production. Examples of these short-term local impacts include passing-by waste in waterways, wind-driven suspended particles in the air, unpleasant odor, noise, dust, and heat generated in the production processes. Second, the emitted pollutants will add to the existing pollution stock in the environment and produce long-term impacts to extensive and far-away areas. Greenhouse-gases, CFC, and atmospheric particulates are examples of this form of negative environmental externality. This specification permits the proximity of the origin of industrial production to receive heavier environmental damages as production increases. Given these neighboring impacts, the individual government tax policy has to take into consideration the tax policies of other nations and these policies’ intricate effects on outputs and environmental effects. In particular, while designing tax policies to curtail their outputs, governments have to consider the inducement to neighboring nations’ output that can cause local negative environmental impacts to themselves.",
keywords = "Abatement effort, Joint payoff, Pollution abatement, Pollution stock, Stochastic control problem",
author = "Yeung, {David W.K.} and Petrosyan, {Leon A.}",
year = "2012",
month = "1",
day = "1",
doi = "10.1007/978-0-8176-8262-0_10",
language = "English",
series = "Static and Dynamic Game Theory: Foundations and Applications",
publisher = "Birkh{\"a}user Verlag AG",
number = "9780817682613",
pages = "271--293",
booktitle = "Static and Dynamic Game Theory",
address = "Switzerland",
edition = "9780817682613",

}

Yeung, DWK & Petrosyan, LA 2012, Collaborative environmental management under uncertainty. в Static and Dynamic Game Theory: Foundations and Applications. 9780817682613 ред., Static and Dynamic Game Theory: Foundations and Applications, № 9780817682613, Birkhäuser Verlag AG, стр. 271-293. https://doi.org/10.1007/978-0-8176-8262-0_10

Collaborative environmental management under uncertainty. / Yeung, David W.K.; Petrosyan, Leon A.

Static and Dynamic Game Theory: Foundations and Applications. 9780817682613. ред. Birkhäuser Verlag AG, 2012. стр. 271-293 (Static and Dynamic Game Theory: Foundations and Applications; № 9780817682613).

Результат исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаярецензирование

TY - CHAP

T1 - Collaborative environmental management under uncertainty

AU - Yeung, David W.K.

AU - Petrosyan, Leon A.

PY - 2012/1/1

Y1 - 2012/1/1

N2 - In this chapter, we introduce stochastic elements in collaborative environmental management. Similar to the deterministic analysis in Chap. 6, the industrial sector is characterized by an international trading zone involving n nations or regions. Each government adopts its own abatement policy and tax scheme to reduce pollution. The governments have to promote business interests and at the same time have to handle the financing of the costs brought about by pollution. The industrial sectors remain competitive among themselves while the governments cooperate in pollution abatement. Industrial production creates two types of negative environmental externalities. First, pollutants emitted via industrial production cause short-term local impacts on neighboring areas of the origin of production. Examples of these short-term local impacts include passing-by waste in waterways, wind-driven suspended particles in the air, unpleasant odor, noise, dust, and heat generated in the production processes. Second, the emitted pollutants will add to the existing pollution stock in the environment and produce long-term impacts to extensive and far-away areas. Greenhouse-gases, CFC, and atmospheric particulates are examples of this form of negative environmental externality. This specification permits the proximity of the origin of industrial production to receive heavier environmental damages as production increases. Given these neighboring impacts, the individual government tax policy has to take into consideration the tax policies of other nations and these policies’ intricate effects on outputs and environmental effects. In particular, while designing tax policies to curtail their outputs, governments have to consider the inducement to neighboring nations’ output that can cause local negative environmental impacts to themselves.

AB - In this chapter, we introduce stochastic elements in collaborative environmental management. Similar to the deterministic analysis in Chap. 6, the industrial sector is characterized by an international trading zone involving n nations or regions. Each government adopts its own abatement policy and tax scheme to reduce pollution. The governments have to promote business interests and at the same time have to handle the financing of the costs brought about by pollution. The industrial sectors remain competitive among themselves while the governments cooperate in pollution abatement. Industrial production creates two types of negative environmental externalities. First, pollutants emitted via industrial production cause short-term local impacts on neighboring areas of the origin of production. Examples of these short-term local impacts include passing-by waste in waterways, wind-driven suspended particles in the air, unpleasant odor, noise, dust, and heat generated in the production processes. Second, the emitted pollutants will add to the existing pollution stock in the environment and produce long-term impacts to extensive and far-away areas. Greenhouse-gases, CFC, and atmospheric particulates are examples of this form of negative environmental externality. This specification permits the proximity of the origin of industrial production to receive heavier environmental damages as production increases. Given these neighboring impacts, the individual government tax policy has to take into consideration the tax policies of other nations and these policies’ intricate effects on outputs and environmental effects. In particular, while designing tax policies to curtail their outputs, governments have to consider the inducement to neighboring nations’ output that can cause local negative environmental impacts to themselves.

KW - Abatement effort

KW - Joint payoff

KW - Pollution abatement

KW - Pollution stock

KW - Stochastic control problem

UR - http://www.scopus.com/inward/record.url?scp=85057544870&partnerID=8YFLogxK

U2 - 10.1007/978-0-8176-8262-0_10

DO - 10.1007/978-0-8176-8262-0_10

M3 - Chapter

AN - SCOPUS:85057544870

T3 - Static and Dynamic Game Theory: Foundations and Applications

SP - 271

EP - 293

BT - Static and Dynamic Game Theory

PB - Birkhäuser Verlag AG

ER -

Yeung DWK, Petrosyan LA. Collaborative environmental management under uncertainty. В Static and Dynamic Game Theory: Foundations and Applications. 9780817682613 ред. Birkhäuser Verlag AG. 2012. стр. 271-293. (Static and Dynamic Game Theory: Foundations and Applications; 9780817682613). https://doi.org/10.1007/978-0-8176-8262-0_10