Items where Mentor is "Kristan, doc. dr. Matej"
Maja Zadnikar (2016) A system for visual object tracker optimization and analysis. EngD thesis.
Ajda Lampe (2016) Semantic segmentation of images for indoor place recognition. EngD thesis.
Vitjan Zavrtanik (2016) Efficient region proposals for polip detection. EngD thesis.
Patrik Vinovrški (2016) Structure from motion based on homogeneous regions. EngD thesis.
Blaž Peterlin (2016) An improved dynamic graph tracking algorithm. EngD thesis.
Samo Šela (2016) Fine localization of wood knots using computer vision methods. EngD thesis.
Bor Juroš (2015) Automatic detection of infantry trenches based on terrain height maps. EngD thesis.
Luka Čehovin (2015) A hierarchical adaptive model for robust short-term visual tracking. PhD thesis.
Jan Markočič (2015) Computer vision as a navigation aid for visually impaired. EngD thesis.
Kristijan Shirgoski (2015) Computer-vision based polyp detection in underwater images. EngD thesis.
Alan Lukežič (2015) Improved robust part-based model for visual object tracking. MSc thesis.
Gašper Tomažič (2015) Computer-vision-based car logotype detection and recognition. EngD thesis.
Domen Rački (2015) Object detection with constellations of keypoints. MSc thesis.
Franc Oven (2014) Obstacle detection through sensor fusion is unmanned surface vehicles. EngD thesis.
Tina Strgar (2014) A key-point based approach for long-term visual tracking. EngD thesis.
Matic Švab (2014) Computer-vision-based tree trunk recognition. EngD thesis.
Jon Natanael Muhovič (2014) Object tracking by a generalized Hough transform. EngD thesis.
Aleksandar Dimitriev (2014) Avtonomna segmentacija slik z Markovim slučajnim poljem. EngD thesis.
Miha Pleško (2014) Object Recognition as a Web Service. EngD thesis.
Nejc Saje (2013) An efficient camera-based approach for estimating time-to-collision. EngD thesis.
Marko Škrjanec (2013) Computer vision based automatic fruit recognition. EngD thesis.
Alan Lukežič (2012) Computer-vision-based autonomous control for quadrocopter. EngD thesis.