On a T1 Transport inequality for the adapted Wasserstein distance
Abstract
The L1 transport-entropy inequality (or T1 inequality), which bounds the 1-Wasserstein distance in terms of the relative entropy, is known to characterize Gaussian concentration. To extend the T1 inequality to laws of discrete-time processes while preserving their temporal structure, we investigate the adapted T1 inequality which relates the 1-adapted Wasserstein distance to the relative entropy. Building on the Bolley--Villani inequality, we establish the adapted T1 inequality under the same moment assumption as the classical T1 inequality.
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