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008			240224n 000 0 eng d
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100			_e _e _aJohn Ullyses O. Velaroso, Sherwin Carlo R. Cruz. _d _b4 _u _c0 _q16
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245		0	_a _aEnhancement of offline signature verification using support vector machine / _d _b _n _cJohn Ullyses O. Velaroso, Sherwin Carlo R. Cruz. _h6 _p
246			_a _a _b _n _i _f6 _p
249			_i _i _a
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260			_e _e _a _b _f _c _g
264			_3 _3 _a _d _b _cNovember 2022.46
300			_e _e _c28 cm. _a122 pp. _b
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336			_b _atext _2rdacontent
337			_3 _30 _b _aunmediated _2rdamedia
338			_3 _30 _b _avolume _2rdacarrier
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500			_a _aUndergraduate Thesis: (Bachelor of Science in Computer Science) Pamantasan ng Lungsod ng Maynila, 2022. _d _b _c56
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520			_b _b _c _aABSTRACT: Signatures are commonly used for personal verification or signifying an agreement. Therefore, confirming whether a signature is genuine has become a priority in information security. Signature verification methods are continually developed to automate and hasten the process. A study utilized Support Vector Machine to verify offline signatures. This paper proposed an enhancement of the said algorithm by adding preprocessing techniques, using a more robust set of feature extraction methods, utilizing a writer-dependent classifier, and computing the best hyperparameter values of C and Gamma using the Giza Pyramid Construction Algorithm. Two datasets of offline signatures were used to train and test the algorithms. Results showed that the enhanced algorithm significantly performed better than the existing algorithm, with an accuracy score of 96% and FAR and FRR both having 4% using the CEDAR dataset. The GPDS-300 resulted to an accuracy score of 92%, FAR of 11% and FRR of 6%. In comparison to the initial algorithm that resulted with an accuracy score of 83% and, FRR both having 17% using the CEDAR dataset, and 83% accuracy score as well in the GPDS-300, FAR of 17%, and FRR of 16%. _u
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