Jeff Mahler scite author profile

Jeff Mahler

4Publications

49Citation Statements Received

87Citation Statements Given

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Affiliations

University of California, Berkeley, Berkeley Systems (United States)

Publications

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Multi-armed bandit models for 2D grasp planning with uncertainty

Laskey

Mahler

McCarthy

et al. 2015

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Abstract-For applications such as warehouse order fulfillment, robot grasps must be robust to uncertainty arising from sensing, mechanics, and control. One way to achieve robustness is to evaluate the performance of candidate grasps by sampling perturbations in shape, pose, and gripper approach and to compute the probability of force closure for each candidate to identify a grasp with the highest expected quality. Since evaluating the quality of each grasp is computationally demanding, prior work has turned to cloud computing. To improve computational efficiency and to extend this work, we consider how MultiArmed Bandit (MAB) models for optimizing decisions can be applied in this context. We formulate robust grasp planning as a MAB problem and evaluate convergence times towards an optimal grasp candidate using 100 object shapes from the Brown Vision 2D Lab Dataset with 1000 grasp candidates per object. We consider the case where shape uncertainty is represented as a Gaussian process implicit surface (GPIS) with Gaussian uncertainty in pose, gripper approach angle, and coefficient of friction. We find that Thompson Sampling and the Gittins index MAB methods converged to within 3% of the optimal grasp up to 10x faster than uniform allocation and 5x faster than iterative pruning.

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Industrial Robot Grasping with Deep Learning using a Programmable Logic Controller (PLC)

Solowjow

Ugalde

Shahapurkar

et al. 2020

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Industrial Robot Grasping with Deep Learning using a Programmable Logic Controller (PLC)

Solowjow¹,

Ugalde²,

Shahapurkar³

et al. 2020

Preprint

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An algorithm for transferring parallel-jaw grasps between 3D mesh subsegments

Matl

Mahler

Goldberg

2017

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Jeff Mahler

Multi-armed bandit models for 2D grasp planning with uncertainty

Industrial Robot Grasping with Deep Learning using a Programmable Logic Controller (PLC)

Industrial Robot Grasping with Deep Learning using a Programmable Logic Controller (PLC)

An algorithm for transferring parallel-jaw grasps between 3D mesh subsegments

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