Models, algorithms, and distributional robustness in Nash games and related problems / ナッシュゲームと関連する問題におけるモデル・アルゴリズム・分布的ロバスト性

Hori, Atsushi

23 March 2023

京都大学 / 新制・課程博士 / 博士(情報学) / 甲第24741号 / 情博第829号 / 新制||情||139(附属図書館) / 京都大学大学院情報学研究科数理工学専攻 / (主査)教授 山下 信雄, 教授 太田 快人, 教授 永持 仁 / 学位規則第4条第1項該当 / Doctor of Informatics / Kyoto University / DFAM

Nash game

variational inequality problem

distributionally robust optimization

game theory

expected residual minimization

noncooperative game

007

Noncooperative Games for Autonomous Consumer Load Balancing Over Smart Grid

Agarwal, Tarun

2010 August 1900

Traditionally, most consumers of electricity pay for their consumption according to a fixed-rate. The few existing implementations of real time pricing have been restricted to large industrial consumers, where the benefits could justify the high implementation cost. With the advancement of Smart Grid technologies, large scale implementation of variable-rate metering will be more practical. Consumers will be able to control their electricity consumption in an automated fashion, where one possible scheme is to have each individual maximize their own utility as a noncooperative game. In this thesis, noncooperative games are formulated among the consumers of Smart Grid with two real-time pricing schemes, where the Nash equilibrium operation points are investigated for their uniqueness and load balancing properties. The first pricing scheme charges a price according to the average cost of electricity borne by the retailer and the second charges according to a time-variant increasing-block price. The zero revenue model and the constant revenue rate model, are the two revenue models being considered. The relationship between these games and certain congestion games, known as atomic flow games from the computer networking community, is demonstrated. It is shown that the proposed noncooperative game formulation falls under the class of atomic splittable flow games. It is shown that the Nash equilibrium exists for four different cases, with different pricing schemes and revenue models, and is shown to be unique for three of the cases, under certain conditions. It is shown that both pricing schemes lead to similar electricity loading patterns when consumers are interested only in the minimization of electricity costs. Finally, the conditions under which the increasing-block pricing scheme is preferred over the average cost based pricing scheme are discussed.

Game Theory

Noncooperative Game

Atomic Splittable Flow Game

Nash Equilibrium

Smart Grid

Real Time Pricing

Increasing-Block Pricing

Capacity allocation and rescheduling in supply chains

Liu, Zhixin

20 September 2007

No description available.

Business Administration, Management

deterministic scheduling

rescheduling for new job disruptions

heuristic worstcase analysis

branch and bound algorithm

supply chain

capacity allocation

cooperative game

value of coordination

noncooperative game

auction mechanism