Higher-criticism for sparse multi-sensor change-point detection

We present a procedure based on higher criticism (Dohono \& Jin 2004) to address the sparse multi-sensor quickest change-point detection problem. Namely, we aim to detect a change in the distribution of the multi-sensor that might affect a few sensors out of potentially many, while those affected sensors, if they exist, are unknown to us in advance. Our procedure involves testing for a change point in individual sensors and combining multiple tests using higher criticism. As a by-product, our procedure also indicates a set of sensors suspected to be affected by the change. We demonstrate the effectiveness of our method compared to other procedures using extensive numerical evaluations. We analyze our procedure under a theoretical framework involving normal data sensors that might experience a change in both mean and variance. We consider individual tests based on the likelihood ratio or the generalized likelihood ratio statistics and show that our procedure attains the information-theoretic limits of detection. These limits coincide with existing litereature when the change is only in the mean.