This paper implements a simple Monte Carlo calibration approach to quantitatively study the Hansen and Imrohoroglu (1992) economy, a GE model with uninsurable employment risk, designed to assess the optimal replacement rate for a public Unemployment Insurance scheme. The results of this sensitivity analysis are consistent with the original findings, but with several caveats. One novel result in particular is that the sampling distribution of the optimal UI is bimodal. Depending on the calibrated parameters, the optimal UI is in one of two regions: a very generous scheme with high replacement rates, where insurance is mainly provided by the UI scheme, or one with low replacement rates, where insurance is mainly achieved through self-insurance. Even in the absence of moral hazard, it is never optimal to provide full insurance. Moreover, for many plausible parameters` con gurations, the welfare maximizing replacement rate does not decrease with the level of MH. The qualitative patterns and quantitative fi ndings are not altered substantially when considering an enlarged labor force, which includes the marginally attached workers. Finally, the parameters representing the hours worked, the leisure share in the households` consumption bundle, and the risk aversion have a fi rst order impact on the average welfare. The determination of the optimal UI scheme depends heavily on them. This fi nding suggests that extra caution should be paid when calibrating these parameters in similar environments.
QED Working Paper Number
1272
Calibration methods
Unemployment Risk
Optimal Unemployment Insurance
Heterogeneous Agents
Incomplete Markets
Computable General Equilibrium
Monte Carlo
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