Sampling-Based Winner Prediction in District-Based Elections
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In a district-based election, we apply a voting rule r to decide the winners in each district, and a candidate who wins in a maximum number of districts is the winner of the election. We present efficient sampling-based algorithms to predict the winner of such district-based election systems in this paper. When r is plurality and the margin of victory is known to be at least ε fraction of the total population, we present an algorithm to predict the winner. The sample complexity of our algorithm is 𝒪(1/ε^4log1/εlog1/δ). We complement this result by proving that any algorithm, from a natural class of algorithms, for predicting the winner in a district-based election when r is plurality, must sample at least Ω(1/ε^4log1/δ) votes. We then extend this result to any voting rule r. Loosely speaking, we show that we can predict the winner of a district-based election with an extra overhead of 𝒪(1/ε^2log1/δ) over the sample complexity of predicting the single-district winner under r. We further extend our algorithm for the case when the margin of victory is unknown, but we have only two candidates. We then consider the median voting rule when the set of preferences in each district is single-peaked. We show that the winner of a district-based election can be predicted with 𝒪(1/ε^4log1/εlog1/δ) samples even when the harmonious order in different districts can be different and even unknown. Finally, we also show some results for estimating the margin of victory of a district-based election within both additive and multiplicative error bounds.
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