A new parallel mechanism for 6-DOF micro displacement and orientation measurement based on optical fiber flexure hinges

机译：基于光纤弯曲铰链的6 DOF微位移和方向测量的新平行机制

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An optical fiber flexure hinge (OFFH) is presented which incorporate sensor with elastic kinematic pair, they are built into a parallel mechanism for in situ 6-DOF micro displacement and orientation measurement. The operation principle is based on bending measurement of flexure hinge itself by curvature optical fiber sensor. The OFFH curvature measurement model is analyzed. The calibration model and method is designed and a 6-DOF micro position and orientation measurement experiment system has been set up. This new sensor is compact, with wide measurement range and small measurement force, which is suitable for multi-dimensional micro operating system in situ micro position and orientation close loop control.

机译：提出了一种光纤弯曲铰链（偏离），其包括具有弹性运动对的传感器，它们被构建为原位6-DOF微位移和取向测量的并联机构。操作原理基于曲率光纤传感器弯曲铰链本身的弯曲测量。分析了脱斜曲率测量模型。设计了校准模型和方法，并设置了6-DOF微位置和方向测量实验系统。该新传感器紧凑，具有宽测量范围和小型测量力，适用于原位微位置和取向闭环控制的多维微操作系统。

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《IEEE International Symposium on Assembly and Manufacturing》|2013年||共4页
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Liu Renqiang; Jeffrey Ge Q.; Gao Feng; Liu Pinkuan;
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中图分类机械制造工艺;
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6-DOF micro displacement and orientation measurement; curvature optical fiber sensor; micro operating system; optical fiber flexure hinge;

机译：6-DOF微位移和方向测量;曲率光纤传感器;微操作系统;光纤弯曲铰链;

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4. A new parallel mechanism for 6-DOF micro displacement and orientation measurement based on optical fiber flexure hinges [C] . Liu Renqiang, Jeffrey Ge Q., Gao Feng, IEEE International Symposium on Assembly and Manufacturing . 2013

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A new parallel mechanism for 6-DOF micro displacement and orientation measurement based on optical fiber flexure hinges

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