Add to ORKGMetal oxide sensors are largely studied in electronic nose field for gas detection or identification. They are robust, easy to use and have good sensitivity to many gases in the ppm range. However, the drift and low response-time of these chemical sensors constitute an important barrier in their utilization especially when low concentrations of gaseous atmospheres should be detected. To resolve these limitations many possibilities have been investigated to enhance either the sensor properties or the measurement conditions and the data analysis procedures. This paper presents the performance comparison of several features extracted from the sensor response signals. Particularly, a new transient feature corresponding to the inflexion point of...
We address the problem of detecting changes in the activity of a distant gas source from the respons...
A low-cost gas sensor array with low-power consumption consisting of two chemical sensors based on d...
© 2021 American Chemical Society. This is an Open Access article. https://creativecommons.org/licens...
AbstractThis paper presents the performance of metal oxide gas sensor response processing for the co...
International audienceThis paper seeks to highlight the importance of the knowledge of metal oxide g...
In this thesis work, a novel operating principle for a temperature modulatedelectronic ...
International audienceOver the past 20 years, there has been growing development in gas detection sy...
International audienceFor lots of applications, new systems based on gas sensor array and called ele...
We present three different time-domain characterization techniques for resistive metal-oxide gas sen...
This thesis addresses the problem of detecting changes in the activity of a distant gas source from ...
The performance of gas sensor will differ and vary due to the surrounding environment changing, the ...
The intermittency of the instantaneous concentration of a turbulent chemical plume is a fundamental ...
One of the most serious limitations to the practical utilization of solid-state gas sensors is the d...
Phase-space methods combined with metal oxide gas sensors are introduced for the first time. The use...
Metal oxide gas sensors (MOX) are widely used in olfactory systems for their high sensitivity and lo...
We address the problem of detecting changes in the activity of a distant gas source from the respons...
A low-cost gas sensor array with low-power consumption consisting of two chemical sensors based on d...
© 2021 American Chemical Society. This is an Open Access article. https://creativecommons.org/licens...
AbstractThis paper presents the performance of metal oxide gas sensor response processing for the co...
International audienceThis paper seeks to highlight the importance of the knowledge of metal oxide g...
In this thesis work, a novel operating principle for a temperature modulatedelectronic ...
International audienceOver the past 20 years, there has been growing development in gas detection sy...
International audienceFor lots of applications, new systems based on gas sensor array and called ele...
We present three different time-domain characterization techniques for resistive metal-oxide gas sen...
This thesis addresses the problem of detecting changes in the activity of a distant gas source from ...
The performance of gas sensor will differ and vary due to the surrounding environment changing, the ...
The intermittency of the instantaneous concentration of a turbulent chemical plume is a fundamental ...
One of the most serious limitations to the practical utilization of solid-state gas sensors is the d...
Phase-space methods combined with metal oxide gas sensors are introduced for the first time. The use...
Metal oxide gas sensors (MOX) are widely used in olfactory systems for their high sensitivity and lo...
We address the problem of detecting changes in the activity of a distant gas source from the respons...
A low-cost gas sensor array with low-power consumption consisting of two chemical sensors based on d...
© 2021 American Chemical Society. This is an Open Access article. https://creativecommons.org/licens...