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Metode prepoznavanja obrazov ob nenadzorovanih pogojih zajema slik
ID Kalanj, Dušan (Author), ID Solina, Franc (Mentor) More about this mentor... This link opens in a new window

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MD5: D41614799287C5507CBE2C2BACEEFBB6
PID: 20.500.12556/rul/4a7bb337-e1f4-4a21-b3b2-27a7796ef3dd

Abstract
V okviru magistrskega dela smo preiskovali prepoznavanje obrazov pri nenadzorovanih pogojih, kamor prištevamo spremenljivo pozo in osvetlitev, obrazni izraz, nizko ločljivost, staranje, prekrivanje ter infrardeče slike. Delo tako vsebuje pregled področja ter temeljit opis metodologije, uporabljene pri prototipu sistema za prepoznavanje obrazov, ki je nastal v procesu. Pri tem smo se osredotočili na korak ekstrakcije značilk, preučili pa smo tudi različne rešitve v korakih normalizacije, zmanjševanja dimenzionalnosti ter klasifikacije. Delo se zaključi z analizo doseženih rezultatov pri testih na bazah obrazov FERET, SCface in ChokePoint, kjer smo preučili tudi efekt frontalizacije. Pri bazah SCface in ChokePoint smo, vsaj kolikor nam je znano, dosegli najboljse rezultate v literaturi.

Language:Slovenian
Keywords:Prepoznavanje obrazov, nenadzorovani pogoji, ekstrakcija značilk, normalizacija, zmanjševanje dimenzionalnosti, FERET, SCface, ChokePoint
Work type:Master's thesis/paper
Organization:FRI - Faculty of Computer and Information Science
Year:2016
PID:20.500.12556/RUL-86788 This link opens in a new window
Publication date in RUL:28.10.2016
Views:1593
Downloads:416
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Secondary language

Language:English
Title:Face recognition methods under uncontrolled conditions of image capture
Abstract:
In the scope of this master thesis we investigated the problem of face recognition in unconstrained environments, where a system has to be robust against varying face pose, expression and illumination as well as low resolution, ageing of subjects and infrared capturing mode. The work contains a survey of the field and a detailed description of the methodology used in the making of the face recognition system prototype that was developed in the process. While focusing on feature extraction, we also examined different solutions in the stages of normalization, dimensionality reduction and classication. The work concludes with an analysis of the results achieved during testing, which was performed on the FERET, SCface and ChokePoint datasets. On the first two of the three mentioned datasets we also examined the effect of frontalization. To the best of our knowledge, we achieved the best results in literature on SCface and ChokePoint datasets.

Keywords:Face recognition, uncontrolled conditions, feature extraction, normalization, dimensionality reduction, FERET, SCface, ChokePoint

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