Browsing by Subject "Mixed strategy"
Now showing items 18 of 8

Article
Conditional valueatrisk: Structure and complexity of equilibria
(2017)Conditional ValueatRisk, denoted as CVaRα, is becoming the prevailing measure of risk over two paramount economic domains: the insurance domain and the financial domain

Article
Facets of the fully mixed Nash equilibrium conjecture
(2010)In this work, we continue the study of the many facets of the Fully Mixed Nash Equilibrium Conjecture, henceforth abbreviated as the FMNE Conjecture, in selfish routing for the special case of n identical users over two ...

Article
Minimizing Expectation Plus Variance
(2015)We consider strategic games in which each player seeks a mixed strategy to minimize her cost evaluated by a concave valuationV (mapping probability distributions to reals)

Article
Minimizing expectation plus variance
(2012)We consider strategic games in which each player seeks a mixed strategy to minimize her cost evaluated by a concave valuation V (mapping probability distributions to reals)

Article
A new model for selfish routing
(2004)In this work, we introduce and study a new model for selfish routing over noncooperative networks that combines features from the two such best studied models, namely the KP model and the Wardrop model in an interesting ...

Article
The structure and complexity of Nash equilibria for a selfish routing game
(2009)In this work, we study the combinatorial structure and the computational complexity of Nash equilibria for a certain game that models selfish routing over a network consisting of m parallel links. We assume a collection ...

Article
The structure and complexity of Nash equilibria for a selfish routing game
(2002)In this work, we study the combinatorial structure and the computational complexity of Nash equilibria for a certain game that models selfish routing over a network consisting of m parallel links. We assume a collection ...

Article
Which is the worstcase Nash equilibrium?
(2003)A Nash equilibrium of a routing network represents a stable state of the network where no user finds it beneficial to unilaterally deviate from its routing strategy. In this work, we investigate the structure of such ...