2003
DOI: 10.1016/s0925-4005(03)00338-1
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Electronic nose for space program applications

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Cited by 80 publications
(51 citation statements)
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“…For these devices, a suitable feature needed to be chosen for extraction and use in the main processing step. Peak magnitude was selected due to its prevalent use within standard e-nose devices [1]- [3]. Both an e-nose ( ) and an advanced form of z-nose™ (an e-nose preceded by a GC column) ( ) were extracted and processed, so both classes of device could be considered as comparison (7) (8) The final feature extraction considered is referred to as crossconvolution.…”
Section: B Feature Extractionmentioning
confidence: 99%
See 1 more Smart Citation
“…For these devices, a suitable feature needed to be chosen for extraction and use in the main processing step. Peak magnitude was selected due to its prevalent use within standard e-nose devices [1]- [3]. Both an e-nose ( ) and an advanced form of z-nose™ (an e-nose preceded by a GC column) ( ) were extracted and processed, so both classes of device could be considered as comparison (7) (8) The final feature extraction considered is referred to as crossconvolution.…”
Section: B Feature Extractionmentioning
confidence: 99%
“…Their sensing ability is heavily affected by environmental factors: general drift due to temperature, humidity and background noise, sensor variations and sensor poisoning. These problems, in addition to often wanting to detect very low concentrations (below PPM) of the odor in air [2], [3], make the design of an electronic nose difficult even with expensive autosamplers and the supply of clean air.…”
Section: Introductionmentioning
confidence: 99%
“…• Ein Leitendes-Polymer-Sensor [8,43,46] • Ein Schwingquarz-Sensor [7,38,44] • der Luftüberwachung in Raumstationen [114].…”
Section: A Elektronische Nasenunclassified
“…They widely uses chemical gas sensors which shows drift in time series computations and starts to give improper readings containing certain amounts of drift. There are several commercial applications of EN emerging such as food industry [3], environment monitor and control [4], public safety [5], fire detection [5], space applications [6], etc. In the human olfactory system the main components are mucous membrane (which dissolves the molecule of the breath in air) epithelium (recepting layer of human nose which produces electrical signals on each chemical reaction), bulb (receives the electrical signal sent by the epithelium after reception), cortex (receiving end of the brain and further it redirects the signals to other regions of brain accordingly) and higher brain (which finally recognizes the odour).…”
Section: Introductionmentioning
confidence: 99%