Humidity Sensors

doi:10.3390/books978-3-03921-123-4

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Humidity Sensors

Advances in Reliability, Calibration and Application

Edited by

July 2019

198 pages

ISBN978-3-03921-122-7 (Paperback)
ISBN978-3-03921-123-4 (PDF)

https://doi.org/10.3390/books978-3-03921-123-4

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This book is a reprint of the Special Issue Humidity Sensors: Advances in Reliability, Calibration and Application that was published in

Chemistry & Materials Science

Engineering

Environmental & Earth Sciences

Summary

Humidity detection has deep significance for the scientific research surrounding medical care and human performance, and the industrial development of agriculture, geography and automated instruments. This special issue aims to showcase some of the advancements in humidity sensor design and calibration, and its applications. The selected papers cover a variety of humidity sensor-related topics including material science, chemistry and industrial engineering. Through dedicated contributions from peer reviewers and the editorial team, this book aims to offers reader some insight into the field of humidity sensor development and use.

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Paperback

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Keywords

capacitive humidity sensors; SHT75; carbon dioxide; humidity; Mars in-situ measurements; experimental simulation chambers; Martian atmosphere; low temperature; low pressure; CO₂; reliability model; humidity sensor; self-recovery; dependent competing failure; random shocks; infrared radiant source; Monte Carlo method; emissivity; calibration; humidity; relative humidity; consumer grade weather stations; calibration; winter fire risk; Trace moisture; ball SAW sensor; surface acoustic wave; permeation tube; bio fuel; microwave resonator; moisture measurement; paper mill; time domain reflectometry; TDR; frequency domain; FD; porous materials; building materials; moisture; three-dimensional graphene foams; humidity sensor; fast response; user interaction; agriculture; capacitive sensors; dielectric constant; remote sensing; surface soil water content; humidity sensor; capacitive; PI; SIDE; IDE; calibration points; saturated salt solutions; humidity sensors; measurement uncertainty; humidity; transient response; body-seat interface; thermal impact; sitting rate; dual temperature-humidity sensor