Methods for Processing Mass Spectrometry Signals from Exhaled Gases for Medical Diagnosis

“…The carried out primary transformations provide stability of an initial analytical signal, which, as much as possible, smoothes insignificant fluctuations of molecules of the defined substance and practically eliminates the influence of hardware noise, thereby increasing stability of «the zero line»-background measurements [9].…”

“…The current mean value of tension and dispersion uniquely determinates a normal distribution in each point of measurement and if U(t) − U(t) < ε ⇒ f (p) → δ , where ε and δ are infinitesimal sizes than Z(t) = U(t) − U(t) 2 → δ . The carried out primary transformations provide stability of an initial analytical signal, which, as much as possible, smoothes insignificant fluctuations of molecules of the defined substance and practically eliminates the influence of hardware noise, thereby increasing stability of «the zero line»-background measurements [9].…”

“…It should be noted that the semiconductor sensors manufactured on the basis of tin dioxide (SnO 2 ) alloyed by electromanaging and catalytic impurity fully meet the requirements of modern gas analysis [8]. The gas analysis system that is constructed on the basis of semiconductor sensors and the microprocessor equipment replaces, in many cases, difficult analytical equipment such as chromatographs, IR spectrometers, mass-spectrometers, chromass-spectrometers, and other expensive devices demanding highly skilled service [9].…”

Multisensory Gas Analysis System Based on Reconstruction Attractors

“…The carried out primary transformations provide stability of an initial analytical signal, which, as much as possible, smoothes insignificant fluctuations of molecules of the defined substance and practically eliminates the influence of hardware noise, thereby increasing stability of «the zero line»-background measurements [9].…”

“…The current mean value of tension and dispersion uniquely determinates a normal distribution in each point of measurement and if U(t) − U(t) < ε ⇒ f (p) → δ , where ε and δ are infinitesimal sizes than Z(t) = U(t) − U(t) 2 → δ . The carried out primary transformations provide stability of an initial analytical signal, which, as much as possible, smoothes insignificant fluctuations of molecules of the defined substance and practically eliminates the influence of hardware noise, thereby increasing stability of «the zero line»-background measurements [9].…”

“…It should be noted that the semiconductor sensors manufactured on the basis of tin dioxide (SnO 2 ) alloyed by electromanaging and catalytic impurity fully meet the requirements of modern gas analysis [8]. The gas analysis system that is constructed on the basis of semiconductor sensors and the microprocessor equipment replaces, in many cases, difficult analytical equipment such as chromatographs, IR spectrometers, mass-spectrometers, chromass-spectrometers, and other expensive devices demanding highly skilled service [9].…”

Multisensory Gas Analysis System Based on Reconstruction Attractors

“…Gas detection plays an essential role in atmospheric pollution monitoring, combustion diagnosis, industrial process control, clinical breath analysis, and so forth. 1 To date, various techniques have been developed for trace gas detection, 2 such as electrochemical sensors, 3 mass spectrometry, 4 and optical spectroscopy. [5][6][7][8][9][10] One sensitive and promising optical gas sensing methods is tunable diode laser absorption spectroscopy (TDLAS), which has good gas selectivity and sensitivity, and fast response.…”

Carbon‐based light‐induced thermoelastic spectroscopy for ammonia gas sensing

Polymer-coated quartz tuning fork for enhancing the sensitivity of laser-induced thermoelastic spectroscopy