Distance And Orientation Estimation Of Graspable Objects In Natural And Artificial Systems

Eris Chinellato; Angel P. del Pobil

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Distance And Orientation Estimation Of Graspable Objects In Natural And Artificial Systems

机译：自然和人造系统中可抓取物体的距离和方向估计

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摘要

Being able to estimate pose and location of nearby objects is a fundamental skill for any natural or artificial agent actively interacting with its environment. The methods for extraction and integration of visual cues employed in artificial systems are usually very different from the solutions found in nature. We present a biologically plausible model of distance and orientation estimation based on neuroscience findings that is suitable to be implemented in a robotic vision-based grasping setup. Key novelties of the model are the use of simple retinal and proprioceptive data, and the integration between stereoptic and perspective cues.

机译：能够估计附近物体的姿势和位置是任何自然或人工代理与其环境互动的基本技能。人工系统中使用的视觉提示的提取和整合方法通常与自然界中的解决方案有很大不同。我们提出了一种基于神经科学发现的距离和方向估计的生物学上可行的模型，该模型适合在基于机器人视觉的抓取设置中实施。该模型的主要新颖之处在于使用了简单的视网膜和本体感受数据，以及立体和透视提示之间的整合。

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来源
《Neurocomputing》 |2009年第6期|p.879-886|共8页
作者
Eris Chinellato; Angel P. del Pobil;
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作者单位

Robotic Intelligence Lab, Universitat Jaume I, Castellan de la Plana, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
关键词
vision-based grasping; pose estimation; cue integration; neural coding;

机译：基于视觉的抓握;姿势估计;线索整合;神经编码;

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1. Night Vision Goggle Objective Lens Focusing at Different Distances Using Artificial Objects, Natural Objects and the Hoffman 20/20~(TM) Tester [J] . H. Lee Task, Alan R. Pinkus Safe Journal . 2003,第1期

机译：使用人工物体，自然物体和霍夫曼20/20〜（TM）测试仪将夜视镜物镜聚焦在不同距离上
2. The influence of different-distance radiotechnical system parameters and the beaming object space position on accuracy of its height estimation [J] . Astapenko Yu. A., Vakulenko A. A., Shipilov M. M. Радиотехника . 2002,第61期

机译：不同距离的无线电技术系统参数和波束目标空间位置对其高度估计精度的影响
3. The influence of different-distance radiotechnical system parameters and the beaming object space position on accuracy of its height estimation [J] . Astapenko Yu. A., Vakulenko A. A., Shipilov M. M. Радиотехника . 2002,第61期

机译：不同距离无线电技术系统参数的影响与光束对象空间位置对其高度估计精度的影响
4. Adaptive synergy control for a dexterous artificial hand based on grasped object orientation [C] . Karnati Nareen, Kent Benjamin A., Engeberg Erik D. 2012 12th International Conference on Control, Automation and Systems. . 2012

机译：基于抓取物体方向的灵巧人工手自适应协同控制
5. Multi-Directional Slip Detection Between Artificial Fingers and a Grasped Object. [D] . Hsia, Albert. 2012

机译：人造手指和已抓取物体之间的多向滑动检测。
6. Parietal Cortex Integrates Saccade and Object Orientation Signals to Update Grasp Plans [O] . Bianca R. Baltaretu, Simona Monaco, Jena Velji-Ibrahim, 2020

机译：Paretal Cortex将扫视和对象方向信号集成到更新掌握计划
7. Estimation of Relative Orientation Between Robot Hand and Grasped Object [O] . Yasuyuki FUNAHASHI, Takayoshi YAMADA 1995

机译：机器人手和掌握对象之间的相对取向的估计
8. Artificial Neural System for Object Classification and Orientation Estimation [R] . Grogan, T. A., Johnson, J. D., Kuhl, F. 1991

机译：用于目标分类和方向估计的人工神经系统

Distance And Orientation Estimation Of Graspable Objects In Natural And Artificial Systems

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