Fluctuation-enhanced sensing

L.B. Kish; G. Schmera; Ch. Kwan; J. Smulko; P. Heszler; C.-G.; Granqvist

arXiv:0705.0160·physics.gen-ph·November 13, 2009·J. Sensors·1 cites

Fluctuation-enhanced sensing

L.B. Kish, G. Schmera, Ch. Kwan, J. Smulko, P. Heszler, C.-G., Granqvist

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TL;DR

This paper surveys fluctuation-enhanced gas sensing, comparing its characteristics with classical sensing and discussing issues like linear response, information capacity, missed alarms, and false alarms.

Contribution

It provides a concise overview of fluctuation-enhanced sensing and analyzes its main features relative to traditional gas sensing methods.

Findings

01

Fluctuation-enhanced sensing offers distinct advantages over classical methods.

02

The paper discusses challenges such as linear response and false alarms.

03

It highlights the potential of fluctuation signals for improved gas detection.

Abstract

We present a short survey on fluctuation-enhanced gas sensing. We compare some of its main characteristics with those of classical sensing. We address the problem of linear response, information channel capacity, missed alarms and false alarms.

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Taxonomy

TopicsNeural Networks and Reservoir Computing · Quantum Information and Cryptography · Molecular Communication and Nanonetworks