Second-order stochastic dominance answers the question “Under what conditions will all risk-averse agents prefer x~2 to x~1 ?” Consider the following related question: “Under what conditions will all risk-averse agents who prefer lottery x~1 to a reference lottery ω~ also prefer lottery x~2 to that reference lottery?” Each of these two questions is an example of a broad category of questions of great relevance for the economics of risk. The second question is an example of a contingent risk comparison, while the question behind second-order stochastic dominance is an example of a non-contingent risk comparison. The stochastic order arising from a contingent risk comparison is obviously weaker than that arising from the corresponding non-con...
International audienceWe provide new characterizations of the preference for additive and multiplica...
We examine an important class of decision problem under uncertainty that entails the standarrd portf...
Chapter 2, titled “First-order stochastic dominance, framing effects & risk preferences”, experiment...
Second-order stochastic dominance answers the question “Under what conditions will all risk-averse a...
In addition to showing the connection between parallel contingent and noncontingent risk comparison ...
There are commonly accepted and objective decision rules, which are consistent with rationality, for...
Stochastic dominance is a partial order on risky assets (“gamblesâ€) that is based on the uniform ...
The decision-making situation under risk is defined and the certainty equivalent of a lottery with u...
We develop a continuum of stochastic dominance rules, covering preferences from first- to second-ord...
We provide new characterizations of the preference for additive and multiplicative risk apportionmen...
We develop a theory of decision making and General Equilibrium for contingent markets when incomplet...
We study the interplay of probabilistic sophistication, second order stochastic dominance, and uncer...
Stochastic dominance is a crucial tool for the analysis of choice under risk. It is typically analyz...
Fishburn and Vickson (Stochastic dominance: an approach to decision-making under risk, Lexington Boo...
We examine an important class of decision problems under uncertainty that entails the standard portf...
International audienceWe provide new characterizations of the preference for additive and multiplica...
We examine an important class of decision problem under uncertainty that entails the standarrd portf...
Chapter 2, titled “First-order stochastic dominance, framing effects & risk preferences”, experiment...
Second-order stochastic dominance answers the question “Under what conditions will all risk-averse a...
In addition to showing the connection between parallel contingent and noncontingent risk comparison ...
There are commonly accepted and objective decision rules, which are consistent with rationality, for...
Stochastic dominance is a partial order on risky assets (“gamblesâ€) that is based on the uniform ...
The decision-making situation under risk is defined and the certainty equivalent of a lottery with u...
We develop a continuum of stochastic dominance rules, covering preferences from first- to second-ord...
We provide new characterizations of the preference for additive and multiplicative risk apportionmen...
We develop a theory of decision making and General Equilibrium for contingent markets when incomplet...
We study the interplay of probabilistic sophistication, second order stochastic dominance, and uncer...
Stochastic dominance is a crucial tool for the analysis of choice under risk. It is typically analyz...
Fishburn and Vickson (Stochastic dominance: an approach to decision-making under risk, Lexington Boo...
We examine an important class of decision problems under uncertainty that entails the standard portf...
International audienceWe provide new characterizations of the preference for additive and multiplica...
We examine an important class of decision problem under uncertainty that entails the standarrd portf...
Chapter 2, titled “First-order stochastic dominance, framing effects & risk preferences”, experiment...