Prophet Inequalities: Competing with the Top $\ell$ Items is Easy

We explore a novel variant of the classical prophet inequality problem, where the values of a sequence of items are drawn i.i.d. from some distribution, and an online decision maker must select one item irrevocably. We establish that the competitive ratio between the expected optimal performance of the online decision maker compared to that of a prophet, who uses the average of the top $\ell$ items, must be greater than $\ell/c_{\ell}$, with $c_{\ell}$ the solution to an integral equation. We prove that this lower bound is larger than $1-1/(\exp(\ell)-1)$. This implies that the bound converges exponentially fast to $1$ as $\ell$ grows. In particular, the bound for $\ell=2$ is $2/c_{2} \approx 0.966$ which is much closer to $1$ than the classical bound of $0.745$ for $\ell=1$. Additionally, the proposed algorithm can be extended to a more general scenario, where the decision maker is permitted to select $k$ items. This subsumes the $k$ multi-unit i.i.d. prophet problem and provides the current best asymptotic guarantees, as well as enables broader understanding in the more general framework. Finally, we prove a nearly tight competitive ratio when only static threshold policies are allowed.