2020
DOI: 10.1109/access.2020.3040895
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Hydrofluoroether Impurities—Chemical Detection Using a Deep Learning Laser Speckle Contrast Evolving Spiking Neural Network

Abstract: Hydrofluoroether (HFE) impurities detection is an issue related to detecting chemical contamination within a high volume manufacturing (HVM) chiller caused by a rapid emulated environmental attack. The aftereffects of the cycle emulated attack may eventually create a micro-crack in the heat-exchanger. This event eventually causes the contamination of HFE due to multiple chemical interactions. This study proposes a new classification methodology to detect HFE chemical impurities using induction by a 532nm laser… Show more

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Cited by 2 publications
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“…By the integration of Bayesian AI capability with laser speckle imaging technique as is then called "Intelligent laser speckle classification" (ILSC), the method becomes more efficient for textural features classification. In the current literature, there is only one study [15] which unifies laser speckle contrast imaging with artificial intelligence (neural networks) but differs from our proposed work in terms of its application and outputs. Here, ILSC is an integrated technique [9,16,22] which is comprised of different disciplinary methods, providing high sensitivity and discrimination power to detect subtle differences even at the sub-cellular level.…”
Section: Introductionmentioning
confidence: 99%
“…By the integration of Bayesian AI capability with laser speckle imaging technique as is then called "Intelligent laser speckle classification" (ILSC), the method becomes more efficient for textural features classification. In the current literature, there is only one study [15] which unifies laser speckle contrast imaging with artificial intelligence (neural networks) but differs from our proposed work in terms of its application and outputs. Here, ILSC is an integrated technique [9,16,22] which is comprised of different disciplinary methods, providing high sensitivity and discrimination power to detect subtle differences even at the sub-cellular level.…”
Section: Introductionmentioning
confidence: 99%