Standard

Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games. / Zhou, Jiangjing; Mazalov, Vladimir.

2024. 315-333 Работа представлена на 23 International Conference on Mathematical Optimization Theory and Operations Research , Омск, Российская Федерация.

Результаты исследований: Материалы конференцийматериалыРецензирование

Harvard

Zhou, J & Mazalov, V 2024, 'Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games', Работа представлена на 23 International Conference on Mathematical Optimization Theory and Operations Research , Омск, Российская Федерация, 30/06/24 - 6/07/24 стр. 315-333.

APA

Zhou, J., & Mazalov, V. (2024). Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games. 315-333. Работа представлена на 23 International Conference on Mathematical Optimization Theory and Operations Research , Омск, Российская Федерация.

Vancouver

Zhou J, Mazalov V. Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games. 2024. Работа представлена на 23 International Conference on Mathematical Optimization Theory and Operations Research , Омск, Российская Федерация.

Author

Zhou, Jiangjing ; Mazalov, Vladimir. / Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games. Работа представлена на 23 International Conference on Mathematical Optimization Theory and Operations Research , Омск, Российская Федерация.19 стр.

BibTeX

@conference{ddcf4bb21d7042989127a1f51598a5a6,
title = "Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games",
abstract = "This paper investigates the dynamics of coalition stability in pollution control games that are built on networks. It specifically focuses on the concept of dynamically stable coalition partitions involving three asymmetric players. At first, the research presents the model and clearly identifies optimal strategies for players in various coalition forms. In order to evaluate the dynamic stability of these coalitions, the system additionally calculates the time-consistent Imputation Distribution Procedure (IDP) for players belonging to different coalitions. This work presents a novel idea of dynamically Nash stable coalition partitions, which is defined using the IDP, in contrast to the traditional definition. By accurately identifying the IDP as specified, we may attain dynamically Nash stable coalition partitions in the simulation results.",
author = "Jiangjing Zhou and Vladimir Mazalov",
year = "2024",
language = "русский",
pages = "315--333",
note = "23 International Conference on Mathematical Optimization Theory and Operations Research , , MOTOR 2024 ; Conference date: 30-06-2024 Through 06-07-2024",
url = "https://motor24.oscsbras.ru/pages/en_index.html",

}

RIS

TY - CONF

T1 - Dynamic Stability of Coalition Structures in Network-Based Pollution Control Games

AU - Zhou, Jiangjing

AU - Mazalov, Vladimir

N1 - Conference code: 23

PY - 2024

Y1 - 2024

N2 - This paper investigates the dynamics of coalition stability in pollution control games that are built on networks. It specifically focuses on the concept of dynamically stable coalition partitions involving three asymmetric players. At first, the research presents the model and clearly identifies optimal strategies for players in various coalition forms. In order to evaluate the dynamic stability of these coalitions, the system additionally calculates the time-consistent Imputation Distribution Procedure (IDP) for players belonging to different coalitions. This work presents a novel idea of dynamically Nash stable coalition partitions, which is defined using the IDP, in contrast to the traditional definition. By accurately identifying the IDP as specified, we may attain dynamically Nash stable coalition partitions in the simulation results.

AB - This paper investigates the dynamics of coalition stability in pollution control games that are built on networks. It specifically focuses on the concept of dynamically stable coalition partitions involving three asymmetric players. At first, the research presents the model and clearly identifies optimal strategies for players in various coalition forms. In order to evaluate the dynamic stability of these coalitions, the system additionally calculates the time-consistent Imputation Distribution Procedure (IDP) for players belonging to different coalitions. This work presents a novel idea of dynamically Nash stable coalition partitions, which is defined using the IDP, in contrast to the traditional definition. By accurately identifying the IDP as specified, we may attain dynamically Nash stable coalition partitions in the simulation results.

M3 - материалы

SP - 315

EP - 333

T2 - 23 International Conference on Mathematical Optimization Theory and Operations Research

Y2 - 30 June 2024 through 6 July 2024

ER -

ID: 127703133