Results 21 to 30 of about 135,051 (324)

Capacitive Tactile Sensor with Concentric-Shape Electrodes for Three-Axial Force Measurement

Proceedings, 2018
In this paper, a novel capacitive tactile sensing device has proposed and demonstrated to solve coupling problem within the normal force and shear force by the unique design of electrode shape.
Min-Sheng Suen, Rongshun Chen
doaj   +1 more source

A highly sensitive flexible capacitive pressure sensor with hierarchical pyramid micro-structured PDMS-based dielectric layer for health monitoring

Frontiers in Bioengineering and Biotechnology, 2023
Herein, a flexible pressure sensor with high sensitivity was created using a dielectric layer featuring a hierarchical pyramid microstructure, both in simulation and fabrication.
Luyu Lv, Luyu Lv, Tianxiang Liu, Tianxiang Liu, Ting Jiang, Jiamin Li, Jiamin Li, Jie Zhang, Jie Zhang, Qihui Zhou, Qihui Zhou, Rajendra Dhakal, Xiao Li, Yuanyue Li, Zhao Yao, Zhao Yao   +15 more
doaj   +1 more source

The Accurate Measurement of a Micromechanical Force Using Force-Sensitive Capacitances [PDF]

, 1994
A sensor for the precise and accurate measurement of micromechanical forces is presented. The sensor is based on the capacitive detection of force-induced deflection of a microstructure and integrated charge readout.
Regtien, P.P.L., Wolffenbuttel, M.R.
core   +4 more sources

Capacitive flexible force sensor

Procedia Engineering, 2010
AbstractWe have realized a flexible force sensor, composed of four redundant capacitors, the operation of which is based on the measurement of a load-induced capacitance change. We use polyimide both as flexible substrate and as elastic dielectric between two levels of finger-shaped aluminum electrodes.
Dobrzynska J A, Gijs M A
openaire   +1 more source

3-Axis Fully-Integrated Capacitive Tactile Sensor with Flip-Bonded CMOS on LTCC Interposer

Sensors, 2017
This paper reports a 3-axis fully integrated differential capacitive tactile sensor surface-mountable on a bus line. The sensor integrates a flip-bonded complementary metal-oxide semiconductor (CMOS) with capacitive sensing circuits on a low temperature ...
Sho Asano, Masanori Muroyama, Takahiro Nakayama, Yoshiyuki Hata, Yutaka Nonomura, Shuji Tanaka   +5 more
doaj   +1 more source

Evaluation of Polytyramine Film and 6-Mercaptohexanol Self-Assembled Monolayers as the Immobilization Layers for a Capacitive DNA Sensor Chip: A Comparison

Sensors, 2021
The performance of a biosensor is associated with the properties of an immobilization layer on a sensor chip. In this study, gold sensor chips were modified with two different immobilization layers, polytyramine film and 6-mercaptohexanol self-assembled ...
Ally Mahadhy, Bo Mattiasson, Eva StåhlWernersson, Martin Hedström   +3 more
doaj   +1 more source

Wearable Capacitive-based Wrist-worn Gesture Sensing System [PDF]

, 2017
Gesture control plays an increasingly significant role in modern human-machine interactions. This paper presents an innovative method of gesture recognition using flexible capacitive pressure sensor attached on user’s wrist towards computer vision and ...
Dahiya, Ravinder, Heidari, Hadi, Liang, Xiangpeng   +2 more
core   +1 more source

Large-Area and Low-Cost Force/Tactile Capacitive Sensor for Soft Robotic Applications

Sensors, 2022
This paper presents a novel design and development of a low-cost and multi-touch sensor based on capacitive variations. This new sensor is very flexible and easy to fabricate, making it an appropriate choice for soft robot applications.
Amir Pagoli, Frédéric Chapelle, Juan-Antonio Corrales-Ramon, Youcef Mezouar, Yuri Lapusta   +4 more
doaj   +1 more source

Quantum theory of fluctuations in a cold damped accelerometer [PDF]

, 1999
We present a quantum network approach to real high sensitivity measurements. Thermal and quantum fluctuations due to active as well as passive elements are taken into account.
Courty, Jean-Michel, Grassia, Francesca, Reynaud, Serge, Touboul, Pierre   +3 more
core   +2 more sources

The LISA pathfinder mission [PDF]

, 2015
ISA Pathfinder (LPF), the second of the European Space Agency's Small Missions for Advanced Research in Technology (SMART), is a dedicated technology validation mission for future spaceborne gravitational wave detectors, such as the proposed eLISA ...
Armano, M, Audley, H, Auger, G, Baird, J, Binetruy, P, Born, M, Bortoluzzi, D, Brandt, N, Bursi, A, Caleno, M, Cavalleri, A, Cesarini, A, Cruise, M, Danzmann, K, Diepholz, I, Dolesi, R, Dunbar, N, Ferraioli, L, Ferroni, V, Fitzsimons, E, Freschi, M, Gallegos, J, Gerndt, R, Gesa, L I, Giardini, D, Gibert, F, Giusteri, R, Grimani, C, Harrison, I, Heinzel, G, Hewitson, M, Hollington, D, Hueller, M, Huesler, J, Inchauspé, H, Jennrich, O, Jetzer, P, Johlander, B, Karnesis, N, Kaune, B, Killow, C., Korsakova, N, Lloro, I, Maarschalkerweerd, R, Madden, S, Mance, D, Marirrodriga, C García, Martin-Porqueras, F, Martín, V, Mateos, I, McNamara, P, Mendes, J, Mendes, L, Moroni, A, Nofrarias, M, Paczkowski, S, Perez, J A Romera, Perreur-Lloyd, M., Petiteau, A, Pivato, P, Plagnol, E, Prat, P, Ragnit, U, Ramos-Castro, J, Reiche, J, Robertson, D., Rozemeijer, H, Russano, G, Sarra, P, Schleicher, A, Slutsky, J, Sopuerta, C F, Sumner, T, Texier, D, Thorpe, J, Trenkel, C, Tu, H B, Vetrugno, D, Vitale, S, Wanner, G, Ward, H., Waschke, S, Wass, P, Wealthy, D, Weber, W, Wen, S, Wittchen, A, Zanoni, C, Ziegler, T, Zweifel, P   +89 more
core   +3 more sources