A Conjecture on Group Decision Accuracy in Voter Networks through the Regularized Incomplete Beta Function

This paper presents a conjecture on the regularized incomplete beta function in the context of majority decision systems modeled through a voter framework. We examine a network where voters interact, with some voters fixed in their decisions while others are free to change their states based on the influence of their neighbors. We demonstrate that as the number of free voters increases, the probability of selecting the correct majority outcome converges to $1-I_{0.5}(\alpha,\beta)$, where $I_{0.5}(\alpha,\beta)$ is the regularized incomplete beta function. The conjecture posits that when $\alpha > \beta$, $1-I_{0.5}(\alpha,\beta) > \alpha/(\alpha+\beta)$, meaning the group's decision accuracy exceeds that of an individual voter. We provide partial results, including a proof for integer values of $\alpha$ and $\beta$, and support the general case using a probability bound. This work extends Condorcet's Jury Theorem by incorporating voter dependence driven by network dynamics, showing that group decision accuracy can exceed individual accuracy under certain conditions.