 |
    |
Active Random Forests: An Application to Autonomous Unfolding of Clothes*
Andreas Doumanoglou1, 2, Tae-Kyun Kim1, Xiaowei Zhao1, and Sotiris Malassiotis2
1Imperial College London, London, UK
2Center for Research and Technology Hellas (CERTH), Thessaloniki, Greece
Abstract. We present Active Random Forests, a novel framework to address active vision problems. State of the art focuses on best viewing parameters selection based on single view classifiers. We propose a multi-view classifier where the decision mechanism of optimally changing viewing parameters is inherent to the classification process. This has many advantages: a) the classifier exploits the entire set of captured images and does not simply aggregate probabilistically per view hypotheses; b) actions are based on learnt disambiguating features from all views and are optimally selected using the powerful voting scheme of Random Forests and c) the classifier can take into account the costs of actions. The proposed framework is applied to the task of autonomously unfolding clothes by a robot, addressing the problem of best viewpoint selection in classification, grasp point and pose estimation of garments. We show great performance improvement compared to state of the art methods.
Keywords: Active Vision, Active Random Forests, Deformable Object Recognition, Robotic Vision
Electronic Supplementary Material:
LNCS 8693, p. 644 ff.
lncs@springer.com
© Springer International Publishing Switzerland 2014