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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/142658
Multi-unit calibration rejects inherent device variability of chemical sensor arrays
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Inherent sensor variability limits mass-production applications for metal oxide (MOX) gas sensor arrays because calibration for replicas of a sensor array needs to be performed individually. Recently, calibration transfer strategies have been proposed to alleviate calibration costs of new replicas, but they still require the acquisition of transfer samples. In this work, we present calibration models that can be extended to uncalibrated replicas of sensor arrays without acquiring new samples, i.e., general or global calibration models. The developed methodology consists in including multiple replicas of a sensor array in the calibration process such that sensor variability is rejected by the general model. Our approach was tested using replicas of a MOX sensor array in the classification task of six gases and synthetic air, presented at different background humidity and concentration levels. Results showed that direct transfer of individual calibration models provides poor classification accuracy. However, we also found that general calibration models kept predictive performance when were applied directly to new copies of the sensor array. Moreover, we explored, through feature selection, whether particular combinations of sensors and operating temperatures can provide predictive performances equivalent to the calibration model with the complete array, favoring thereby the existence of more robust calibration models.
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SOLÓRZANO, Ana, RODRÍGUEZ-PÉREZ, Raquel, PADILLA, Marta, GRAUNKE, Thorsten, FERNÁNDEZ ROMERO, Luis, MARCO COLÁS, Santiago, FONOLLOSA, Jordi. Multi-unit calibration rejects inherent device variability of chemical sensor arrays. _Sensors and Actuators B-Chemical_. 2018. Vol. 265, núm. 142-154. [consulta: 23 de gener de 2026]. ISSN: 0925-4005. [Disponible a: https://hdl.handle.net/2445/142658]