An experimental device to provide substitute tactile sensation from the anaesthetic hand

Pfeiffer, Erich A.; Rhode, C. Martin; Fabric, S. I.

doi:10.1007/bf02474175

Cited by 11 publications

(2 citation statements)

References 6 publications

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“…From the inception of piezoresistive sensors [1][2][3][4] to the evolution of electronic products, [5][6][7] the advent of flexible sensors has introduced a revolutionary shift in our lifestyle. Flexible sensors are typically attached to certain parts of the human body where DOI: 10.1002/admt.202302162 they collect mechanical, physical, or chemical stimuli to identify and record human health or movements.…”

Section: Introductionmentioning

confidence: 99%

Reviews on Flexible Force Sensors Based on Fiber Assemblies with Mass Production Efficiency

Wu,

Jin,

Xia

et al. 2024

Adv Materials Technologies

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Flexible force sensors show great potential applications in smart wearable devices based on their softness and ease of deformation. Textiles are extremely compatible with the human body, where mechanical forces generated by human movements and physiological activities create rich application scenarios for flexible force sensors. Currently, the bottleneck in the development of flexible sensors depends on the breakthrough of mass production efficiency, which has been a research focus in recent years to accelerate the application of smart textiles in various fields. This work reviews the research progress of flexible force sensors based on fiber assemblies with mass production efficiency, which is discussed in four aspects: sensing mechanisms, structure design, preparation methods, and application. Finally, the challenges faced by mass production of flexible force sensors are analyzed and summarized, and a few inspirations for their future development direction are provided.

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Section: Introductionmentioning

confidence: 99%

Reviews on Flexible Force Sensors Based on Fiber Assemblies with Mass Production Efficiency

Wu,

Jin,

Xia

et al. 2024

Adv Materials Technologies

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“…and Wahl, 1990). E-skin related research before 1990s was devoted to the fabrication of sensors with tactile sensation, but it encountered bottlenecks in both device resolutions and material flexibility (Pfeiffer et al, 1969). After 1990s, the emergence of flexible materials improved the flexibility and stretchability of tactile sensors (Talat, 1991;Ko, 1996), which laid the foundation of E-skin research (Scott, 1997).…”

mentioning

confidence: 99%

Advances in electronic skin research: a bibliometric analysis

Chen

et al. 2023

Front. Mater.

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Background: E-skin (electronic skin) is an active research area in human-computer interaction and artificial intelligence.Methods: A bibliometric analysis was performed to evaluate publications in the E-skin field between 2000 and 2021 based on the Web of Science (WoS) databases.Results: A total of 4,954 documents were identified. A detailed overview of E-skin research was presented from aspects of productive countries/regions, institutions, journals, citations, highly cited papers, keywords, and emerging topics. With the emergence of new functional materials, structural design, 3D printing, and nanofabrication techniques, E-skin research has achieved dramatic progress after 2013. Scholars and institutions in China, the United States and South Korea are leading the way in E-skin research. Pressure sensor, strain sensor, and flexible electronics are the most focused directions at present and Internet of things is the most emerging topic.Conclusion: E-skin research has achieved dramatic progress but there is still quite a challenging task in practical applications. Manufacturing process simplification, cost reduction, functional integration, energy supply, and biocompatibility are vital for the future development of E-skin.

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A Fluid Mechanics Approach to the Problem of Sensory Feedback in Prosthetic Devices

Davis

Schneck

1980

Biofluid Mechanics · 2

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An experimental device to provide substitute tactile sensation from the anaesthetic hand

Cited by 11 publications

References 6 publications

Reviews on Flexible Force Sensors Based on Fiber Assemblies with Mass Production Efficiency

Reviews on Flexible Force Sensors Based on Fiber Assemblies with Mass Production Efficiency

Advances in electronic skin research: a bibliometric analysis

A Fluid Mechanics Approach to the Problem of Sensory Feedback in Prosthetic Devices

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