Tolerances in the fabrication of metal oxide (MOX) gas sensors lead to inter-device variability in baseline and sensitivity, even for sensors of the same fabrication batch. This has traditionally forced the use of individual calibration models (ICMs) built specifically for each sensor unit, which requires an expensive and time-consuming calibration process and hinders sensor replacement. We propose Global calibration models (GCMs) built using the responses of multiple sensor units, and then applied to a new sensor unit that is not part of the calibration set. GCM have been already successfully applied to transfer calibration models between sensor arrays (electronic noses) for classification tasks. In this work, we investigate the use of suc...
Abstract. In efforts to improve methane source characterisation, networks of cheap high-frequency in...
Electrochemical gas sensors require regular maintenance to check and secure proper functioning. Stan...
Two microchips, each with four identical microstructured sensors using SnO2 nanowires as sensing mat...
Inherent sensor variability limits mass-production applications for metal oxide (MOX) gas sensor arr...
AbstractInherent variability of chemical sensors makes necessary individual calibration of chemical ...
Inherent variability of chemical sensors makes it necessary to calibrate chemical detection systems ...
Inherent variability of chemical sensors makes it necessary to calibrate chemical detection systems ...
A chemical detection platform composed of 14 temperature-modulated metal oxide semiconductor (MOX) g...
Shifts in working temperature are an important issue that prevents the successful transfer of calibr...
Dedicated methods for quantification and identification of reducing gases based on model-based tempe...
Although metal oxide semiconductors are a promising candidate for accurate indoor air quality asses...
More and more metal oxide semiconductor (MOS) gas sensors with digital interfaces are entering the ...
For decades, Metal oxide (MOX) gas sensors have been commercially available and used in various appl...
Scalable and effective calibration is a fundamental requirement for Low Cost Air Quality Monitoring ...
Applications like air quality, fire detection and detection of explosives require selective and quan...
Abstract. In efforts to improve methane source characterisation, networks of cheap high-frequency in...
Electrochemical gas sensors require regular maintenance to check and secure proper functioning. Stan...
Two microchips, each with four identical microstructured sensors using SnO2 nanowires as sensing mat...
Inherent sensor variability limits mass-production applications for metal oxide (MOX) gas sensor arr...
AbstractInherent variability of chemical sensors makes necessary individual calibration of chemical ...
Inherent variability of chemical sensors makes it necessary to calibrate chemical detection systems ...
Inherent variability of chemical sensors makes it necessary to calibrate chemical detection systems ...
A chemical detection platform composed of 14 temperature-modulated metal oxide semiconductor (MOX) g...
Shifts in working temperature are an important issue that prevents the successful transfer of calibr...
Dedicated methods for quantification and identification of reducing gases based on model-based tempe...
Although metal oxide semiconductors are a promising candidate for accurate indoor air quality asses...
More and more metal oxide semiconductor (MOS) gas sensors with digital interfaces are entering the ...
For decades, Metal oxide (MOX) gas sensors have been commercially available and used in various appl...
Scalable and effective calibration is a fundamental requirement for Low Cost Air Quality Monitoring ...
Applications like air quality, fire detection and detection of explosives require selective and quan...
Abstract. In efforts to improve methane source characterisation, networks of cheap high-frequency in...
Electrochemical gas sensors require regular maintenance to check and secure proper functioning. Stan...
Two microchips, each with four identical microstructured sensors using SnO2 nanowires as sensing mat...