ワイヤレスで電池不要の電子「ステッカー」が、触れる物体間の力を測定する(Wireless, Battery-free Electronic ‘Stickers’ Gauge Forces Between Touching Objects)

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2023-10-10 カリフォルニア大学サンディエゴ校(UCSD)

ワイヤレスで電池不要の電子「ステッカー」が、触れる物体間の力を測定する(Wireless, Battery-free Electronic ‘Stickers’ Gauge Forces Between Touching Objects)
This so-called “force sticker” is a thin, flexible electronic device that measures forces between objects in contact. Photos by David Baillot/UC San Diego Jacobs School of Engineering

◆カリフォルニア大学サンディエゴのエンジニアは、電子の「ステッカー」を開発し、物体同士の力を測定することができるようにしました。これらのステッカーはワイヤレスでバッテリー不要で、狭いスペースに適しています。
◆これにより、ロボットの触覚機能向上やVR、ARの没入体験の向上、バイオメディカルデバイスのスマート化、産業機器の安全監視、倉庫の在庫管理の正確性向上など、多くの用途が可能です。力ステッカーはさまざまな分野に革命をもたらす可能性があります。

<関連情報>

ForceSticker: ワイヤレス、バッテリーレス、薄くて柔軟な力センサー ForceSticker: Wireless, Batteryless, Thin & Flexible Force Sensors

Agrim Gupta,Daegue Park,Shayaun Bashar,Cedric Girerd,Nagarjun Bhat,Siddhi Mundhra,Tania K. Morimoto,Dinesh Bharadia
Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies  Published:28 March 2023
DOI:https://doi.org/10.1145/3580793

Abstract

Any two objects in contact with each other exert a force that could be simply due to gravity or mechanical contact, such as any ubiquitous object exerting weight on a platform or the contact between two bones at our knee joints. The most ideal way of capturing these contact forces is to have a flexible force sensor which can conform well to the contact surface. Further, the sensor should be thin enough to not affect the contact physics between the two objects. In this paper, we showcase the design of such thin, flexible sticker-like force sensors dubbed as ‘ForceStickers’, ushering into a new era of miniaturized force sensors. ForceSticker achieves this miniaturization by creating new class of capacitive force sensors which avoid both batteries, as well as wires. The wireless and batteryless readout is enabled via hybrid analog-digital backscatter, by piggybacking analog sensor data onto a digitally identified RFID link. Hence, ForceSticker finds natural applications in space and battery-constraint in-vivo usecases, like force-sensor backed orthopaedic implants, surgical robots. Further, ForceSticker finds applications in ubiquiti-constraint scenarios. For example, these force-stickers enable cheap, digitally readable barcodes that can provide weight information, with possible usecases in warehouse integrity checks. To meet these varied application scenarios, we showcase the general framework behind design of ForceSticker. With ForceSticker framework, we design 4mm*2mm sensor prototypes, with two different polymer layers of ecoflex and neoprene rubber, having force ranges of 0-6N and 0-40N respectively, with readout errors of 0.25, 1.6 N error each (<5% of max. force). Further, we stress test ForceSticker by >10,000 force applications without significant error degradation. We also showcase two case-studies onto the possible applications of ForceSticker: sensing forces from a toy knee-joint model and integrity checks of warehouse packaging.

0402電気応用
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