Abstract
The critical analysis of the data glove-based signature identification and forgery detection system emphasizes the essentiality of noise-free signals for input. Lucid inputs are expected for the accuracy enhancement and performance. The raw signals that are captured using 14- and 5-electrode data gloves for this purpose have a noisy and voluminous nature. Reduction of electrodes may reduce the volume but it may also reduce the efficiency of the system. The principal component analysis (PCA) technique has been used for this purpose to condense the volume and enrich the operational data by noise reduction without affecting the efficiency. The advantage of increased discernment in between the original and forged signatures using 14-electrode glove over 5-electrode glove has been discussed here and proved by experiments with many subjects. Calculation of the sum of mean squares of Euclidean distance has been used to project the advantage of our proposed method. 3.1% and 7.5% of equal error rates for 14 and 5 channels further reiterate the effectiveness of this technique.
Highlights
The principal component analysis (PCA) technique has been used for this purpose to condense the volume and enrich the operational data by noise reduction without affecting the efficiency
The emerging trend insignature verification is utilizing the benefits of signal processing over the conventional image processing techniques
In the conventional image processing method [1,2,3], a strong impression of the signature with prescribed ink on a stipulated medium is essential, and it is the key component for further processing
Summary
The emerging trend insignature verification is utilizing the benefits of signal processing over the conventional image processing techniques. The benefits of involving signal processing for this purpose include reduction of equipment complexity, increased robustness against forgery, independence of media, and signature concealment. In the conventional image processing method [1,2,3], a strong impression of the signature with prescribed ink on a stipulated medium is essential, and it is the key component for further processing. The signature image is scanned into digital representation and this digital image is used for key construction.
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