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Free keywords:
Computer Science, Computer Vision and Pattern Recognition, cs.CV,Computer Science, Artificial Intelligence, cs.AI,Computer Science, Robotics, cs.RO
Abstract:
Understanding physical phenomena is a key competence that enables humans and
animals to act and interact under uncertain perception in previously unseen
environments containing novel object and their configurations. Developmental
psychology has shown that such skills are acquired by infants from observations
at a very early stage.
In this paper, we contrast a more traditional approach of taking a
model-based route with explicit 3D representations and physical simulation by
an end-to-end approach that directly predicts stability and related quantities
from appearance. We ask the question if and to what extent and quality such a
skill can directly be acquired in a data-driven way bypassing the need for an
explicit simulation.
We present a learning-based approach based on simulated data that predicts
stability of towers comprised of wooden blocks under different conditions and
quantities related to the potential fall of the towers. The evaluation is
carried out on synthetic data and compared to human judgments on the same
stimuli.