Abstract
This paper presents inapproximability results for paradigmatic multi-dimensional truthful mechanism design problems.We first show a lower bound of 2−1n for the scheduling problem with n unrelated machines (formulated as a mechanism design problem in the seminal paper of Nisan and Ronen on Algorithmic Mechanism Design). Our lower bound applies to universally-truthful randomized mechanisms, regardless of any computational assumptions on the running time of these mechanisms. Moreover, it holds even for the wider class of truthfulness-in-expectation mechanisms.We then turn to Bayesian settings and show a lower bound of 1.2 for Bayesian Incentive-Compatible (BIC) mechanisms. No lower bounds for truthful mechanisms in multi-dimensional settings which incorporate randomness were previously known.Next, we define the workload-minimization problem in networks. We prove lower bounds for the inter-domain routing setting presented by Feigenbaum, Papadimitriou, Sami, and Shenker.Finally, we prove lower bounds for Max–Min fairness, Min–Max fairness, and envy minimization.
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