A multi-hypothesis approach for off-line signature verification with HMMs

A multi-hypothesis approach for off-line signature verification with HMMs

Batista, Luana and Granger, Eric and Sabourin, Robert

Proceedings of the International Conference on Document Analysis and Recognition, ICDAR 2009

Abstract : In this paper, an approach based on the combination of discrete Hidden Markov Models (HMMs) in the ROC space is proposed to improve the performance of off-line signature verification (SV) systems designed from limited and unbalanced training data. This approach is inspired by the multiple-hypothesis principle, and allows the system to choose, from a set of different HMMs, the most suitable solution for a given input sample. By training an ensemble of user-specific HMMs with different number of states, and then combining these models in the ROC space, it is possible to construct a composite ROC curve that provides a more accurate estimation of system’s performance during training and significantly reduces the error rates during operations. The experiments performed by using a real-world SV database with random, simple and skilled forgeries, indicated that the proposed approach can reduce the average error rates by more than 17%. © 2009 IEEE.