Offline handwritten signature verification using local and global features
http://repository.vnu.edu.vn/handle/VNU_123/11767
This
paper presents a new approach to address the problem of offline handwritten
signature verification.
In
contrast to many existing systems, we are interested in making soft decision
rather than a purely binary classification for the signatures under
verification.
To
accomplish this goal, we incorporate both types of features: finer
intensity-based features and global geometry-based features.
Particularly,
the finer features are computed for every sample point of a signature using
histogram of intensities, and the geometry-based features are extracted using
an adaptation of the shape context descriptor.
One
of the advantages of our approach is that the extracted features are very
robust to noise, rotation and scaling change without heavily relying on any
complicated pre-processing steps.
The
extracted features are used to compute the similarity score, followed by a
score calibration process to estimate the corresponding confidence score (i.e.,
using log-likelihood-ratio).
To
validate our work, we submitted our system to the signature verification
competition (SignComp2011) and achieved quite good results.
| Title: | Offline handwritten signature verification using local and global features |
| Authors: | The-Anh Pham , Hong-Ha Le, Nang-Toan Do |
| Keywords: | Signature verification Questioned document examination Handwriting recognition Shape context descriptor Likelihood analysis |
| Issue Date: | 2014 |
| Publisher: | Annals of Mathematics and Artificial Intelligence |
| Abstract: | This paper presents a new approach to address the problem of offline handwritten signature verification. In contrast to many existing systems, we are interested in making soft decision rather than a purely binary classification for the signatures under verification. To accomplish this goal, we incorporate both types of features: finer intensity-based features and global geometry-based features. Particularly, the finer features are computed for every sample point of a signature using histogram of intensities, and the geometry-based features are extracted using an adaptation of the shape context descriptor. One of the advantages of our approach is that the extracted features are very robust to noise, rotation and scaling change without heavily relying on any complicated pre-processing steps. The extracted features are used to compute the similarity score, followed by a score calibration process to estimate the corresponding confidence score (i.e., using log-likelihood-ratio). To validate our work, we submitted our system to the signature verification competition (SignComp2011) and achieved quite good results. |
| URI: | http://repository.vnu.edu.vn/handle/VNU_123/11767 |
| Appears in Collections: | ITI - Papers |
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