Perception of physical stability and center of mass of 3-D objects

Cholewiak, Steven A.; Fleming, Roland W.; Singh, Manish

doi:10.1167/15.2.13

Cited by 27 publications

(24 citation statements)

References 16 publications

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“…Shape perception is crucial for many tasks including object recognition1234, guiding reaching and handling actions5678, and making other high-level inferences about object properties, such as whether an object is physically stable or likely to topple over91011. However, estimating and representing object shape from the retinal image is far from trivial1341213141516.…”

mentioning

confidence: 99%

Visual perception of shape altered by inferred causal history

Spröte

Schmidt

Fleming

2016

Sci Rep

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One of the main functions of vision is to represent object shape. Most theories of shape perception focus exclusively on geometrical computations (e.g., curvatures, symmetries, axis structure). Here, however, we find that shape representations are also profoundly influenced by an object’s causal origins: the processes in its past that formed it. Observers placed dots on objects to report their perceived symmetry axes. When objects appeared ‘complete’—created entirely by a single generative process—responses closely approximated the object’s geometrical axes. However, when objects appeared ‘bitten’—as if parts had been removed by a distinct causal process—the responses deviated significantly from the geometrical axes, as if the bitten regions were suppressed from the computation of symmetry. This suppression of bitten regions was also found when observers were not asked about symmetry axes but about the perceived front and back of objects. The findings suggest that visual shape representations are more sophisticated than previously appreciated. Objects are not only parsed according to what features they have, but also to how or why they have those features.

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mentioning

confidence: 99%

Visual perception of shape altered by inferred causal history

Spröte

Schmidt

Fleming

2016

Sci Rep

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“…B. Stability Prediction from Still Images g) Inspiration from Human Studies: Research in [24], [4] suggests the combinations of the most salient features in the scenes are insufficient to capture people's judgments, however, contemporary study reveals human's perception of visual information, in particular some geometric feature, like critical angle [27], [28] plays an important role in the process. Regardless of the actual inner mechanism for humans to parse the visual input, it is clear there is a mapping f involving visual input I to the stability prediction P .…”

Section: A Synthetic Datamentioning

confidence: 99%

Visual stability prediction for robotic manipulation

Leonardis

Fritz

2017

2017 IEEE International Conference on Robotics and Automation (ICRA)

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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 objects 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 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 at run-time.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. We first evaluate the approach on synthetic data and compared the results to human judgments on the same stimuli. Further, we extend this approach to reason about future states of such towers that in turn enables successful stacking.

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“…Humans synthesize the Center of Mass (CoM) position and the support polygon to infer the stability of objects [13]. On the other hand, physics engines, such as Open Dynamics Engine (ODE), have been used for evaluating structural stability of object compositions [14].…”

Section: Related Workmentioning

confidence: 99%

Autonomous robotic stone stacking with online next best object target pose planning

Furrer

Wermelinger

Yoshida

et al. 2017

2017 IEEE International Conference on Robotics and Automation (ICRA)

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Predominately, robotic construction is applied as prefabrication in structured indoor environments with standard building materials. Our work, on the other hand, focuses on utilizing irregular materials found on-site, such as rubble and rocks, for autonomous construction. We present a pipeline that detects randomly placed objects in a scene that are used by our next best stacking pose searching method employing gradient descent with a random initial orientation, exploiting a physics engine. This approach is validated in an experimental setup using a robotic manipulator by constructing balancing vertical stacks without mortars and adhesives. We show the results of eleven consecutive trials to form such towers autonomously using four arbitrarily in front of the robot placed rocks.

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Perception of physical stability and center of mass of 3-D objects

Cited by 27 publications

References 16 publications

Visual perception of shape altered by inferred causal history

Visual perception of shape altered by inferred causal history

Visual stability prediction for robotic manipulation

Autonomous robotic stone stacking with online next best object target pose planning

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