Biomedical Engineering Reference
In-Depth Information
9. K.-T. Tang et al., Development of a portable electronic nose system for the detection and
classification of fruity odours. Sensors 10, 9179-9193 (2010). doi:
10.3390/s101009179
10. M. Mamat et al., An electronic nose for reliable measurement and correct classification of
beverages. Sensors 11, 6435-6453 (2011). doi:
10.3390/s110606435
11. V.O. Olunloyo, T.A. Ibidapo, R. R. Dinrifo, Neural network-based electronic nose for cocoa
beans quality assessment. Agric. Eng. Int. CIGR J. 13(4) (2011)
12. F.
ˇ
A
ˇ
I
´
, L. PRIMORAC et al. Application of electronic nose in honey geographical origin
characterization. J. Central Eur. Agric. 10(1) (2009)
13. N. Bhattacharyya, S. Seth, B. Tudu, P. Tamuly, A. Jana, D. Ghosh, R. Bandyopadhyay, M.
Bhuyan, Monitoring of black tea fermentation process using electronic nose. J. Food Eng. 80,
1146-1156 (2007)
14. S. Linehan, On the application of a consumer preference-based method for designing
products to wine fermentation monitoring devices. Chem. Eng. Comm. 198:255-272 (2011).
Taylor & Francis Group, LLC,ISSN: 0098-6445 print = 1563-5201 online, doi:
10.1080/
15. A. D. Wilson ''Future Applications of Electronic-Nose Technologies in Healthcare and
Biomedicine, Wide Spectra of Quality Control'', Dr. Isin Akyar (Ed.), ISBN: 978-953-307-
683-6, In Tech (2011)
16. M. Trincavelli, S. Coradeschi, A. Loutfi, B.
¨
oderquist, P. Thunberg Member, IEEE, Direct
identification of bacteria in blood culture samples using an electronic nose. IEEE Trans.
Biomedical Eng. 57(12), 2884-2890 (2010)
17. S.Y. Lai, O.F. Deffenderfer, W. Hanson, M.P. Phillips, E.R. Thaler, Identification of upper
respiratory bacterial pathogens with the electronic nose. Laryngoscope 112, 975-979 (2002)
18. M. L. Humphreys, R. Orme, N. Sahgal, C. Kendall,N. Magan, N. Stone Electronic nose
analysis of bronchoalveolar lavage fluid for the diagnosis of ventilator-associated pneumonia.
Intensive Care Society's (ICS) State of the art meeting, December (2007), London, UK
19. S. Aathithan, J.C. Plant, A.N. Chaudry, G.L. French, Diagnosis of bacteriuria by detection of
volatile organic compounds in urine using an automated headspace analyzer with multiple
conducting polymer sensors. J. Clin. Microbiol. 39, 2590-2593 (2001)
20. A.K. Pavlou, N. Magan, C. McNulty, J. Jones, D. Sharp, J. Brown, A.P. Turner, Use of an
electronic nose system for diagnoses of urinary tract infections. Biosens. Bioelectron. 17,
893-899 (2002)
21. A.K. Pavlou, N. Magan, J.M. Jones, J. Brown, P. Klatser, A.P. Turner, Detection of
mycobacterium tuberculosis (TB) in vitro and in situ using an electronic nose in combination
with a neural network system. Biosens. Bioelectron. 20, 538-544 (2004)
22. R. Fend et al., Monitoring haemodialysis using electronic nose and chemometrics. Biosens.
Bioelectron. 19(12), 15 (2004)
23. R. F. Machado, Detection of lung cancer by sensor array analyses of exhaled breath. Am J
Respir Crit Care Med 171: 1286-1291 (2005). doi:
10.1164/rccm.200409-1184O
on March 4,
2005
24. R. Blatt, A. Bonarini, E. Calabro, M. Della Torre, M. Matteucci, U. Pastorino, Lung cancer
identification by an electronic nose based on an array of MOS sensors. Neural Networks,
IJCNN (2007), pp. 1423-1428
25. D. Guo, D. Zhang, N. Li, L. Zhang, J. Yang, A novel breath analysis system based on
electronic olfaction. IEEE Trans. Biomed. Eng. 57(11), 2753-2763 (2010)
26. Arend Kolk et al., Electronic-nose technology in diagnosis of TB patients using sputum
samples. J. Clin. Microbiol. (2010). doi:
10.1128/JCM.00569-10
27. N. Charaklias, H. Raja, M.L. Humphreys, N. Magan, C.A. Kendall, The future of early
disease detection: Applications of E-nose technology in otolaryngology. J. Laryngol. Otol.
124(8), 823-827 (2010)
28. M. T. Momol, M. O. Balaban, F. Korel, A. Odabasia, E. A. Momel, G. Folkes, J. B. Jones,
Discrimination of plant pathogenic bacteria using an electronic nose, Online. Plant health
Progress, (2004)
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