Subcarrier-based path-integrating strain sensor array utilizing fiber Bragg gratings

1994 ◽  
Author(s):  
Michael A. Davis ◽  
Alan D. Kersey ◽  
Timothy A. Berkoff ◽  
David G. Bellemore
Keyword(s):  
Sensor Array ◽  
Fiber Bragg Gratings ◽  
Strain Sensor ◽  
Bragg Gratings ◽  
Strain Sensor Array

Development of Flexible Piezoelectric Strain Sensor Array

2017 ◽  
Vol 137 (12) ◽  
pp. 438-443
Author(s):  
Takahiro Yamashita ◽  
Seiichi Takamatsu ◽  
Hironao Okada ◽  
Toshihiro Itoh ◽  
Takeshi Kobayashi
Keyword(s):  
Sensor Array ◽  
Strain Sensor ◽  
Piezoelectric Strain ◽  
Strain Sensor Array

Wavelength Multiplexed Sub-Nano-Strain Resolution Optical Fiber Strain Sensor Array

2021 ◽  
Author(s):  
Feisheng Wu ◽  
Jiageng Chen ◽  
Qingwen Liu ◽  
Shuangxiang Zhao ◽  
Bingxin Xu ◽  
...  
Keyword(s):  
Optical Fiber ◽  
Sensor Array ◽  
Strain Sensor ◽  
Strain Sensor Array

P-136: Resistive Type 2D Mapping Positional Strain Sensor Array for Advanced Tactile Displays

2018 ◽  
Vol 49 (1) ◽  
pp. 1909-1912
Author(s):  
Jun Ho Lee ◽  
Jae Sang Heo ◽  
Sang Hui Moon ◽  
Min Uk Lee ◽  
Jae Hyun Kim ◽  
...  
Keyword(s):  
Sensor Array ◽  
Strain Sensor ◽  
Tactile Displays ◽  
Resistive Type ◽  
Strain Sensor Array

scholarly journals Tactile Sensor Array with Fiber Bragg Gratings in Quasi-Distributed Sensing

2018 ◽  
Vol 2018 ◽  
pp. 1-8 ◽  
Author(s):  
Marcelo A. Pedroso ◽  
Lucas H. Negri ◽  
Marcos A. Kamizi ◽  
José L. Fabris ◽  
Marcia Muller
Keyword(s):  
Differential Evolution ◽  
Compressive Sensing ◽  
Sensor Array ◽  
Fiber Bragg Gratings ◽  
Tactile Sensor ◽  
Bragg Gratings ◽  
Central Position ◽  
Reconstruction Method ◽  
Sensing System ◽  
Tactile Sensor Array

This work describes the development of a quasi-distributed real-time tactile sensing system with a reduced number of fiber Bragg grating-based sensors and reports its use with a reconstruction method based on differential evolution. The sensing system is comprised of six fiber Bragg gratings encapsulated in silicone elastomer to form a tactile sensor array with total dimensions of 60 × 80 mm, divided into eight sensing cells with dimensions of 20 × 30 mm. Forces applied at the central position of the sensor array resulted in linear response curves for the gratings, highlighting their coupled responses and allowing the application of compressive sensing. The reduced number of sensors regarding the number of sensing cells results in an undetermined inverse problem, solved with a compressive sensing algorithm with the aid of differential evolution method. The system is capable of identifying and quantifying up to four different loads at four different cells with relative errors lower than 10.5% and signal-to-noise ratio better than 12 dB.

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