BiographyI am a third-year Ph.D. student at the Computer Vision Laboratory. I received my M.Sc. in Electrical Engineering in early 2014. My research interests include machine learning techniques for visual tracking and probabilistic models for point cloud registration.
CVPR 2017 paper ECO: Efficient Convolution Operators for Tracking accepted.
Best paper award at ICPR 2016 for "Deep Motion Features for Visual Tracking".
TPAMI journal paper about the DSST tracker accepted.
ResearchECO: Efficient Convolution Operators for Tracking, CVPR 2017
In this work we tackle the key causes behind the problems of computational complexity and over-fitting in advanced DCF trackers.Beyond Correlation Filters: Learning Continuous Convolution Operators for Visual Tracking, ECCV 2016 (oral)
In this work we develop a theoretical framework for discriminatevly learning a convolution operator in the continuous spatial domain. Our formulation enables a natural integration of multi-resolution deep feature maps. In addition, our continuous formulation is capable of accurate sub-pixel localization of the target.A Probabilistic Framework for Color-Based Point Set Registration, CVPR 2016
In work we propose a probabilistic point set registration framework that exploits available color information associated with the points. Our method is based on a model of the joint distribution of 3D-point observations and their color information. We derive an EM algorithm for jointly estimating the model parameters and the relative transformations. The proposed model captures discriminative color information, while being computationally efficient.Adaptive Decontamination of the Training Set: A Unified Formulation for Discriminative Visual Tracking, CVPR 2016
In this work we propose a unified formulation for alleviating the problem of corrupted training samples in tracking-by-detection methods. This is achieved by minimizing a joint loss over both target appearance model and the training sample quality weights. Our approach is generic and can be integrated into any discriminative tracking framework.Learning Spatially Regularized Correlation Filters for Visual Tracking, ICCV 2015
In this work we propose Spatially Regularized Discriminative Correlation Filters (SRDCF) for tracking. This effectively mitigates the unwanted boundary effects, which limits the performance of standard correlation based trackers. The SRDCF tracker won the recent OpenCV Challenge and achieved the best result in the VOT-TIR2015 challenge.Scale Estimation for Visual Tracking, TPAMI, BMVC 2014
Here we investigate the problem of accurate and fast scale estimation for visual tracking. The proposed Discriminative Scale Space Tracker (DSST) won the Visual Object Tracking (VOT) 2014 challenge.Coloring Visual Tracking, CVPR 2014 (oral)
In this work, we investigated how to incorporate color information into visual tracking.
PublicationsSee my Google Scholar profile or my dblp page for a list of publications.
Computer Vision Laboratory
Department of Electrical Engineering
SE-581 83 Linköping, Sweden
+46(0)13-28 18 49
Visit me at:
Building B, Campus Valla
- first floor, corridor A,
- between entrances B27 and B29
Informationsansvarig: Martin Danelljan
Senast uppdaterad: 2017-02-28