Hiroyuki Okuda scite author profile

We present a method that estimates graspability measures on a single depth map for grasping objects randomly placed in a bin. Our method represents a gripper model by using two mask images, one describing a contact region that should be filled by a target object for stable grasping, and the other describing a collision region that should not be filled by other objects to avoid collisions during grasping. The graspability measure is computed by convolving the mask images with binarized depth maps, which are thresholded differently in each region according to the minimum height of the 3D points in the region and the length of the gripper. Our method does not assume any 3-D model of objects, thus applicable to general objects. Our representation of the gripper model using the two mask images is also applicable to general grippers, such as multi-finger and vacuum grippers. We apply our method to bin picking of piled objects using a robot arm and demonstrate fast pick-and-place operations for various industrial objects. IEEE International Conference on Robotics and Automation (ICRA)This work may not be copied or reproduced in whole or in part for any commercial purpose. Permission to copy in whole or in part without payment of fee is granted for nonprofit educational and research purposes provided that all such whole or partial copies include the following: a notice that such copying is by permission of Mitsubishi Electric Research Laboratories, Inc.; an acknowledgment of the authors and individual contributions to the work; and all applicable portions of the copyright notice. Copying, reproduction, or republishing for any other purpose shall require a license with payment of fee to Mitsubishi Electric Research Laboratories, Inc. All rights reserved. Abstract-We present a method that estimates graspability measures on a single depth map for grasping objects randomly placed in a bin. Our method represents a gripper model by using two mask images, one describing a contact region that should be filled by a target object for stable grasping, and the other describing a collision region that should not be filled by other objects to avoid collisions during grasping. The graspability measure is computed by convolving the mask images with binarized depth maps, which are thresholded differently in each region according to the minimum height of the 3D points in the region and the length of the gripper. Our method does not assume any 3-D model of objects, thus applicable to general objects. Our representation of the gripper model using the two mask images is also applicable to general grippers, such as multi-finger and vacuum grippers. We apply our method to bin picking of piled objects using a robot arm and demonstrate fast pick-and-place operations for various industrial objects.

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A Study on Limit State Design Method for Prestressed Concrete Sleepers

Wakui¹,

Okuda²

1997

Doboku Gakkai Ronbunshu

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A pilot test plan of the thermochemical water-splitting iodine–sulfur process

Kubo

Kasahara

Okuda

et al. 2004

Nuclear Engineering and Design

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A Simple and Efficient Numerical Method for Dynamic Interaction Analysis of a High-Speed Train and Railway Structure During an Earthquake

Tanabe

Matsumoto

Wakui

et al. 2008

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In this paper, a simple and efficient numerical method to solve for the dynamic interaction of a high-speed train and railway structure during an earthquake is given. The motion of the train is modeled in multibody dynamics with nonlinear springs and dampers used to connect components. An efficient mechanical model for contact dynamics between the wheel and rail during an earthquake is presented. The railway structure is modeled with various finite elements. A nonlinear spring element based on a trilinear elastic-plastic material model is given for the concrete railway structure during an earthquake. A substructure model where a train runs repeatedly has been devised to obtain an approximated combined motion of the long train with many cars connected and the railway structure during an earthquake. A modal method has been developed to solve large-scale nonlinear equations of motion of the train and railway structure effectively. Based on the present method, a computer program DIASTARS for the dynamic interaction analysis of a Shinkansen train (high-speed train in Japan) and the railway structure during an earthquake has been developed. Numerical examples are demonstrated.

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Development of an electrochemical cell for efficient hydrogen production through the IS process

et al. 2004

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Modeling and Analysis of Driving Behavior Based on a Probability-Weighted ARX Model

Okuda

Ikami

Suzuki

et al. 2013

IEEE Trans. Intell. Transport. Syst.

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Discovering Association Rules on Experiences from Large-Scale Blog Entries

Kurashima

Fujimura

Okuda

2009

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Steering assisting system for obstacle avoidance based on personalized potential field

Noto

Okuda

Tazaki

et al. 2012

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Hiroyuki Okuda

Fast graspability evaluation on single depth maps for bin picking with general grippers

A Study on Limit State Design Method for Prestressed Concrete Sleepers

A pilot test plan of the thermochemical water-splitting iodine–sulfur process

A Simple and Efficient Numerical Method for Dynamic Interaction Analysis of a High-Speed Train and Railway Structure During an Earthquake

Development of an electrochemical cell for efficient hydrogen production through the IS process

Modeling and Analysis of Driving Behavior Based on a Probability-Weighted ARX Model

Discovering Association Rules on Experiences from Large-Scale Blog Entries

Steering assisting system for obstacle avoidance based on personalized potential field

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