Detecting dependence structure: visualization and inference

Identifying dependency between two random variables is a fundamental problem. Clear interpretability and ability of a procedure to provide information on the form of the possible dependence is particularly important in evaluating dependencies. We introduce a new estimator of the quantile dependence function and pertinent local acceptance regions. This leads to insightful visualization and evaluation of underlying dependence structure. We also propose a test of independence of two random variables, pertinent to this new estimator. Our procedures are based on ranks and we derive a finite-sample theory that guarantees the inferential validity of our solutions at any given sample size. The procedures are simple to implement and computationally efficient. Large-sample consistency of the proposed test is also proved. We show that, in terms of power, new test is one of the best statistics for independence testing when considering a wide range of alternative models. Finally, we demonstrate use of our approach to visualize dependence structure and to detect local departures from independence through analyzing some datasets.