Title :
On-line signature verification using LPC cepstrum and neural networks
Author :
Wu, Quen-Zong ; Jou, I-Chang ; Lee, Suh-Yin
fDate :
2/1/1997 12:00:00 AM
Abstract :
An on-line signature verification scheme based on linear prediction coding (LPC) cepstrum and neural networks is proposed. Cepstral coefficients derived from linear predictor coefficients of the writing trajectories are calculated as the features of the signatures. These coefficients are used as inputs to the neural networks. A number of single-output multilayer perceptrons (MLPs), as many as the number of words in the signature, are equipped for each registered person to verify the input signature. If the summation of output values of all MLPs is larger than the verification threshold, the input signature is regarded as a genuine signature; otherwise, the input signature is a forgery. Simulations show that this scheme can detect the genuineness of the input signatures from a test database with an error rate as low as 4%
Keywords :
cepstral analysis; feature extraction; feedforward neural nets; handwriting recognition; linear predictive coding; multilayer perceptrons; simulation; LPC cepstrum; cepstral coefficients; error rate; forgery; input signature; linear prediction coding cepstrum; linear predictor coefficients; neural networks; on-line signature verification scheme; output values; registered person; signature genuineness; simulations; single-output multilayer perceptrons; test database; verification threshold; words; writing trajectories; Cepstral analysis; Cepstrum; Forgery; Handwriting recognition; Linear predictive coding; Multilayer perceptrons; Neural networks; Testing; Trajectory; Writing;
Journal_Title :
Systems, Man, and Cybernetics, Part B: Cybernetics, IEEE Transactions on
DOI :
10.1109/3477.552197
