In a scheduling problem where agents can opt out, we show that the familiar Random Priority (RP) a rule can be improved upon by another mechanism dubbed Probabilistic Serial (PS). Both mechanisms are nonmanipulable in a strong sense, but the latter is Pareto superior to the former and serves a larger (expected number of agents. The PS equilibrium outcome is easier to compute than the RP outcome; on the other hand RP is easier to implement than PS. We show that the improvement of PS over RP is significant but small: at most a couple of percentage points in the relative welfare gain and the relative difference in quantity served. We conjecture that the latter never exceeds 8.33 %. Both gains vanish when the number of agents is large.
A mechanism for the random assignment problem takes agents' private preferences over items as input ...
The probabilistic serial (PS) rule is one of the most prominent randomized rules for the assignment ...
International audienceThis paper characterizes the second-best mechanism chosen by a benevolent plan...
In a scheduling problem where agents can opt out, we show that the familiar Random Priority (RP) a r...
The article examines the scheduling model with opting out of agents. The planner/manager controls a ...
The random priority (random serial dictatorship) mechanism is a common method for assigning objects ...
All agents have the same ordinal ranking over all objects, receiving no object (opting out) may be p...
Abstract. The random priority (random serial dictatorship) mechanism is a common method for assignin...
A random assignment is ordinally efficient if it is not stochastically dominated with respect to ind...
Abstract. The random priority (random serial dictatorship) mechanism is a common method for assignin...
I study large random assignment economies with a continuum of agents and a finite number of object t...
Consider the following random process: we are given n queues, into which elements of increasing labe...
The existing priority-based object allocation literature restricts objects’ priorities to be determi...
Abstract. In the random assignment problem, the probabilistic serial mechanism (Bo-gomolnaia and Mou...
I study large random assignment economies with a continuum of agents and a \u85nite number of object...
A mechanism for the random assignment problem takes agents' private preferences over items as input ...
The probabilistic serial (PS) rule is one of the most prominent randomized rules for the assignment ...
International audienceThis paper characterizes the second-best mechanism chosen by a benevolent plan...
In a scheduling problem where agents can opt out, we show that the familiar Random Priority (RP) a r...
The article examines the scheduling model with opting out of agents. The planner/manager controls a ...
The random priority (random serial dictatorship) mechanism is a common method for assigning objects ...
All agents have the same ordinal ranking over all objects, receiving no object (opting out) may be p...
Abstract. The random priority (random serial dictatorship) mechanism is a common method for assignin...
A random assignment is ordinally efficient if it is not stochastically dominated with respect to ind...
Abstract. The random priority (random serial dictatorship) mechanism is a common method for assignin...
I study large random assignment economies with a continuum of agents and a finite number of object t...
Consider the following random process: we are given n queues, into which elements of increasing labe...
The existing priority-based object allocation literature restricts objects’ priorities to be determi...
Abstract. In the random assignment problem, the probabilistic serial mechanism (Bo-gomolnaia and Mou...
I study large random assignment economies with a continuum of agents and a \u85nite number of object...
A mechanism for the random assignment problem takes agents' private preferences over items as input ...
The probabilistic serial (PS) rule is one of the most prominent randomized rules for the assignment ...
International audienceThis paper characterizes the second-best mechanism chosen by a benevolent plan...