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We design new deterministic CONGEST approximation algorithms for maximum weight independent set (MWIS) in sparse graphs. As our main results, we obtain new (1+) -approximation algorithms as well as algorithms whose approximation ratio depend strictly on, in graphs with maximum degree and arboricity. For (deterministic) (1+) -approximation, the current state-of-the-art is due to a recent breakthrough by Faour et al. \ SODA 2023 that showed an O (^2 (W) (1/) + ^*n) -round algorithm, where W is the largest node-weight (this bound translates to O (^2 n (1/) ) under the common assumption that W=poly (n) ). As for -dependent approximations, a deterministic CONGEST (8 (1+) ) -approximation algorithm with runtime O (^3 n (1/) ) can be derived by combining the aforementioned algorithm of Faour et al. \ with a method presented by Kawarabayashi et al. \ DISC 2020.
Yuval Gil (Wed,) studied this question.