Interdigital flexible tactile sensor based on Velostat

IF 1.6 4区 工程技术 Q3 INSTRUMENTS & INSTRUMENTATION
Haifeng Fang, Yangyang Wei, Shuo Dong
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引用次数: 0

Abstract

Purpose Tactile sensation is an important sensory function for robots in contact with the external environment. To better acquire tactile information about objects, this paper aims to propose a three-layer structure of the interdigital flexible tactile sensor. Design/methodology/approach The sensor consists of a bottom electrode layer, a middle pressure-sensitive layer and a top indenter layer. First, the pressure sensitive material, structure design, fabrication process and circuit design of the sensor are introduced. Then, the calibration and performance test of the designed sensor is carried out. Four functions are used to fit and calibrate the relationship between the output voltage of the sensor and the contact force. Finally, the contact force sensing test of different weight objects and the flexible test of the sensor are carried out. Findings The performance test results show that the sensitivity of the sensor is 0.93 V/N when it is loaded with 0–3 N and 0.23 V/N when it is loaded with 3–5 N. It shows good repeatability, and the cross-interference between the sensing units is generally low. The contact force sensing test results of different weight objects show that the proposed sensor performs well in contact force. Each part of the sensor is a flexible material, allowing the sensor to achieve bending deformation, so that the sensor can better perceive the contact signs of the grasped object. Practical implications The sensor can paste the surface of the paper robot’s gripper to measure the contact force of the grasping object and estimate the contour of the object. Originality/value In this paper, a three-layer interdigital flexible tactile sensor is proposed, and the structural parameters of the interdigital electrode are designed to improve the sensitivity and response speed of the sensor. The indenter with three shapes of the prism, square cylinder and hemisphere is preliminarily designed and the prism indenter with better conduction force is selected through finite element analysis, which can concentrate the external force in the sensing area to improve the sensitivity. The sensor designed in this paper can realize the measurement of contact force, which provides a certain reference for the field of robot tactile.
基于Velostat的数字柔性触觉传感器
目的:运动感觉是机器人与外界环境接触时的一项重要感觉功能。为了更好地获取物体的触觉信息,本文提出了一种三层结构的数字间柔性触觉传感器。该传感器由底部电极层、中间压敏层和顶部压头层组成。首先介绍了传感器的压敏材料、结构设计、制作工艺和电路设计。然后,对所设计的传感器进行了标定和性能测试。使用四个函数拟合和校准传感器输出电压与接触力之间的关系。最后,进行了不同重量物体的接触力传感试验和传感器的柔性试验。性能测试结果表明,该传感器在0 ~ 3 N负载下的灵敏度为0.93 V/N,在3 ~ 5 N负载下的灵敏度为0.23 V/N。它具有良好的重复性,并且传感单元之间的交叉干扰一般较低。不同重量物体的接触力传感试验结果表明,该传感器具有良好的接触力传感性能。传感器的每个部分都是柔性材料,允许传感器实现弯曲变形,从而使传感器更好地感知被抓取物体的接触迹象。该传感器可以粘贴在造纸机器人的夹持器表面,测量抓取物体的接触力,估计物体的轮廓。提出了一种三层数字间柔性触觉传感器,设计了数字间电极的结构参数,提高了传感器的灵敏度和响应速度。初步设计了棱柱形、方圆柱形和半球形三种形状的压头,并通过有限元分析选择了传导力较好的棱柱形压头,将外力集中在传感区域,提高了灵敏度。本文设计的传感器可以实现接触力的测量,为机器人触觉领域提供一定的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Sensor Review
Sensor Review 工程技术-仪器仪表
CiteScore
3.40
自引率
6.20%
发文量
50
审稿时长
3.7 months
期刊介绍: Sensor Review publishes peer reviewed state-of-the-art articles and specially commissioned technology reviews. Each issue of this multidisciplinary journal includes high quality original content covering all aspects of sensors and their applications, and reflecting the most interesting and strategically important research and development activities from around the world. Because of this, readers can stay at the very forefront of high technology sensor developments. Emphasis is placed on detailed independent regular and review articles identifying the full range of sensors currently available for specific applications, as well as highlighting those areas of technology showing great potential for the future. The journal encourages authors to consider the practical and social implications of their articles. All articles undergo a rigorous double-blind peer review process which involves an initial assessment of suitability of an article for the journal followed by sending it to, at least two reviewers in the field if deemed suitable. Sensor Review’s coverage includes, but is not restricted to: Mechanical sensors – position, displacement, proximity, velocity, acceleration, vibration, force, torque, pressure, and flow sensors Electric and magnetic sensors – resistance, inductive, capacitive, piezoelectric, eddy-current, electromagnetic, photoelectric, and thermoelectric sensors Temperature sensors, infrared sensors, humidity sensors Optical, electro-optical and fibre-optic sensors and systems, photonic sensors Biosensors, wearable and implantable sensors and systems, immunosensors Gas and chemical sensors and systems, polymer sensors Acoustic and ultrasonic sensors Haptic sensors and devices Smart and intelligent sensors and systems Nanosensors, NEMS, MEMS, and BioMEMS Quantum sensors Sensor systems: sensor data fusion, signals, processing and interfacing, signal conditioning.
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