Modeling the Optical Sensing Principle of the PapillArray Tactile Sensor

2021 IEEE Sensors Pub Date : 2021-10-31 DOI:10.1109/SENSORS47087.2021.9639546
Pablo Martinez Ulloa, David Córdova Bulens, Benjamin Xia, Heba Khamis, S. Redmond
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引用次数: 1

Abstract

The PapillArray tactile sensor is a promising friction-based tactile sensor that uses a pinhole-camera-based transduction principle to sense the movement and forces experienced by soft silicone pillars. In this work, we develop and validate a simulation model of its mechanical and optical behavior. The simulated behavior approximates the response of the physical prototype, with differences explained by manufacturing imprecision. The developed simulation methodology will enable rapid design iteration of future revisions based on this novel optical transduction method, decreasing the design cycle duration and increasing the odds of creating successful hardware sensor prototypes.
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乳头阵列触觉传感器光学传感原理建模
PapillArray触觉传感器是一种很有前途的基于摩擦的触觉传感器,它使用基于针孔摄像头的转导原理来感知柔软硅胶柱所经历的运动和力。在这项工作中,我们开发并验证了其机械和光学行为的仿真模型。模拟的行为近似于物理原型的响应,与制造不精确的差异解释。开发的仿真方法将使基于这种新型光转导方法的未来版本的快速设计迭代成为可能,减少设计周期持续时间,增加创建成功硬件传感器原型的几率。
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2021 IEEE Sensors
2021 IEEE Sensors
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