Strategic Gaussian Signaling under Linear Sensitivity Mismatch

This paper analyzes Stackelberg Gaussian signaling games under linear sensitivity mismatch, generalizing standard additive and constant-bias models. We characterize the Stackelberg equilibrium structure for both noiseless and noisy signaling regimes. In the noiseless case, we show that the encoder selectively reveals information along specific eigenspaces of a cost-mismatch matrix. We then extend the analysis to the noisy regime and derive analytical thresholds for the existence of informative equilibria, demonstrating a sharp phase transition where communication collapses into silence if the sensitivity mismatch is sufficiently high, in contrast with the fully revealing equilibria often found in constant-bias models.