Optimization of Sensors to be Used in a Voltammetric Electronic Tongue Based on Clustering Metrics

Sarma, Munmi; Romero, Noelia; Cetó, Xavier; Valle, Manel del

doi:10.3390/s20174798

Cited by 9 publications

(6 citation statements)

References 30 publications

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“…To illustrate the potential of the proposed approach, four different scenarios of increasing complexity were considered; namely, identification of different opioids without and with mixing them with different cutting agents, and the quantification of opioids mixtures, without or with the presence of different cutting agents. For each of them, a different set of samples was prepared and measured with the proposed sensor arrays (after optimization of the sensors chosen [10]), submitting afterwards the obtained responses to the appropriate chemometric model depending whether a qualitative or quantitative response was sought. For all the supervised models, the sets of samples were split into two subsets: train subset (used to fit the model) and test subset (used to assess its performance).…”

Section: Resultsmentioning

confidence: 99%

“…The first step was the analytical characterization of the voltammetric responses of the different electrodes towards the different dugs considered, to ensure that there is some response, and that differentiated responses are also obtained between the different electrodes. Next, voltammograms were submitted to PCA, and the clustering observed was used to select the optimal sensor array for each scenario [10].…”

Section: A Identification Of Different Drugsmentioning

confidence: 99%

See 1 more Smart Citation

Experiences in the detection of drugs of abuse in smuggling seizures and forensic samples using electronic tongue principles

Cetó¹,

Bonet-San-Emeterio²,

Ortiz-Aguayo³

et al. 2022

2022 IEEE International Symposium on Olfaction and Electronic Nose (ISOEN)

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The application of voltammetric sensors to the analysis of illicit drugs in combination with different chemometric tools to achieve their identification and quantification is explored herein. The aim is to process the whole voltammograms obtained from different sensors as a unique profile, and analyze those with the aid of pattern recognition methods that allow the extraction of a characteristic fingerprint, rather than focusing on the oxidation peaks associated to each of the drugs. To this aim, different arrays of electrodes were prepared to analyzed samples employing square wave voltammetry (SWV). Next, identification of different drugs was achieved by means of principal component analysis (PCA) and linear discriminant analysis (LDA), while their quantification was attained by partial least squares (PLS) modelling.

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Section: Resultsmentioning

confidence: 99%

Section: A Identification Of Different Drugsmentioning

confidence: 99%

Experiences in the detection of drugs of abuse in smuggling seizures and forensic samples using electronic tongue principles

Cetó¹,

Bonet-San-Emeterio²,

Ortiz-Aguayo³

et al. 2022

2022 IEEE International Symposium on Olfaction and Electronic Nose (ISOEN)

View full text Add to dashboard Cite

show abstract

“…To address this question, several attempts to formalize sensor selection for the electronic tongue have been proposed recently. Several works propose the use of Principal Component Analysis (PCA) for the simultaneous assessment of sensitivity and the reproducibility of sensors, permitting the selection of the most suitable ones for particular analytical tasks [10][11][12]. Measurements with several sensors are carried out in the individual solutions of analytes with varying or equal concentrations, and the PCA model is calculated using sensor responses.…”

Section: Introductionmentioning

confidence: 99%

“…Measurements with several sensors are carried out in the individual solutions of analytes with varying or equal concentrations, and the PCA model is calculated using sensor responses. In 2020, Sarma et al [10] proposed a visual examination of the PCA scores and loading plots for selecting sensors discriminating between samples. In other studies [11][12][13], PCA was employed in combination with different clustering indices calculated using PCA scores, such as F factor, Dunn, Davies-Bouldin, Silhouette, and Calinski-Harabasz.…”

Section: Introductionmentioning

confidence: 99%

Sensor Selection for an Electronic Tongue for the Rapid Detection of Paralytic Shellfish Toxins: A Case Study

Raposo,

Gomes,

Costa

et al. 2024

Chemosensors

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The performance of an electronic tongue can be optimized by varying the number and types of sensors in the array and by employing data-processing methods. Sensor selection is typically performed empirically, with sensors picked up either by analyzing their characteristics or through trial and error, which does not guarantee an optimized sensor array composition. This study focuses on developing a method for sensor selection for an electronic tongue using simulated sensor data and Lasso regularization. Simulated sensor responses were calculated using sensor parameters such as sensitivity and selectivity, which were determined in the individual analyte solutions. Sensor selection was carried out using Lasso regularization, which removes redundant or highly correlated variables without much loss of information. The objective of the optimization of the sensor array was twofold, aiming to minimize both quantification errors and the number of sensors in the array. The quantification of toxins belonging to one of the groups of marine toxins—paralytic shellfish toxins (PSTs)—using arrays of potentiometric chemical sensors was used as a case study. Eight PSTs corresponding to the toxin profiles in bivalves due to the two common toxin-producing phytoplankton species, G. catenatum (dcSTX, GTX5, GTX6, and C1+2) and A. minitum (STX, GTX2+3), as well as total sample toxicity, were included in the study. Experimental validation with mixed solutions of two groups of toxins confirmed the suitability of the proposed method of sensor array optimization with better performance obtained for the a priori optimized sensor arrays. The results indicate that the use of simulated sensor responses and Lasso regularization is a rapid and efficient method for the selection of an optimized sensor array.

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“…In particular, potentiometric Electronic Tongues (ETs) comprising an array of low-selective chemical sensors [5] have proven to be useful for remote sensing applications and monitoring changes in liquid composition over time [6]. A popular approach to optimize the design of ETs has been to evaluate the sensitivity of individual sensors in samples containing only one target analyte [7] or training machine learning models on all possible combinations of available sensors [8]. This contribution proposes an alternative, generalized data-driven method for designing such systems, as follows:…”

Section: Introductionmentioning

confidence: 99%

Feature importance methods unveiling the cross-sensitive response of an integrated sensor array to quantify major cations in drinking water

2022

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A proof-of-concept system comprising a miniaturized sensor array, feature extraction and machine learning pipeline was evaluated for the direct quantification of the concentrations of three major cations, Ca 2+ , Mg 2+ , and Na + , in drinking water. Feature importance methods were applied to discover dependencies between the transient potentiometric responses of sensing materials and the cation concentrations. The proposed framework supports design of cross-sensitive sensor arrays to accelerate water testing, providing a complementary approach to traditional chemical analysis for monitoring water quality.

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Optimization of Sensors to be Used in a Voltammetric Electronic Tongue Based on Clustering Metrics

Cited by 9 publications

References 30 publications

Experiences in the detection of drugs of abuse in smuggling seizures and forensic samples using electronic tongue principles

Experiences in the detection of drugs of abuse in smuggling seizures and forensic samples using electronic tongue principles

Sensor Selection for an Electronic Tongue for the Rapid Detection of Paralytic Shellfish Toxins: A Case Study

Feature importance methods unveiling the cross-sensitive response of an integrated sensor array to quantify major cations in drinking water

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