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Communication Dans Un Congrès Année : 1999

Nez électronique et qualité de l'air intérieur

Résumé

Odour characterization from indoor environments is necessary to evaluate perceived indoor air quality or to apprehend the impact of different sources such as ground and wall coverings. Electronic nose technology seems interesting face to time -consuming sensory analysis with trained panels. The sensor array used in this study is based on conducting polymers. In order to understand what type of information comes from the sensor, the responses to 10 emissions of indoor frequently used paints where confronted to odour intensity evaluation of these samples by 13 individuals (olfactory matching method) and to their respective analytical composition. Correspondence Analysis of the different experimental matrixes (10 paints for 13 subjects, 28 sensors and 27 analytical variables) yielded three responses spaces. As samples show dependency, the olfactory space gives only three dimensions, the principal one characterising trigeminal sensation which were confirmed by strong concentrations of aldehydes in alkyd paints. This dimension is the only one retained in sensor interaction space and the most important in the analytical space. Paints classification in the 1-dimensional sensor space or in the first factor of analytical space follows the one found by a specific anosmic individual, whose sole presence increased the number of paints classes from 2 to 3. This result enhances the need to consider interindividual differences in odour characterization. A four-dimensional space including all data has been defined. The samples that cause trigeminal sensations were removed. The remaining data were transformed in ranks. Variables classification allows the identification of five clusters, supposed to correspond to independent ligand-olfactory receptor properties. Classification similitudes were observed between several sensors and some individuals, indicating similar response mechanisms. This approach brings some knowledge on the structure of human olfactory receptors and the number of receptor classes in the long term. As sensors do not take into account the totality of sensory information, the necessity of sensor technology hybridization arises as well as the need to integrate new systems more sensitive based on mass spectrometry. Identical sensor repetition may prove beneficial as a signal convergence tool insuring significant stability and sensitivity gain. Likewise, the analytical method chosen needs the multiplication of different sampling techniques and elaborated separative systems coupled to olfactory sniffing in order to hope to identify and to quantify all of the odorous compounds. Such evolutions are a necessity before attempting to model olfactory information processing by elaborated pattern recognition techniques.
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Dates et versions

hal-00697414 , version 1 (15-05-2012)

Identifiants

  • HAL Id : hal-00697414 , version 1

Citer

Olivier Ramalho. Nez électronique et qualité de l'air intérieur. Eurodeur-Airodeur 1999, 6ème Congrès du Traitement de l'air, des Odeurs et des COVs, Jun 1999, Paris, France. ⟨hal-00697414⟩

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