An integrated LOC hydrodynamic focuser with a CNN-based camera system for cell counting application

2011 IEEE Biomedical Circuits and Systems Conference, BioCAS 2011

Volumn , Issue , 2011, Pages 301-304

  Laki, András ^a,b   Rattalino, Ismael ^a,c   Corinto, Fernando ^a   Iván, Kristóf ^b   Demarchi, Danilo ^a   Civera, Pierluigi ^a  

^a POLITECNICO DI TORINO   (Italy)

^b PÁZMÁNY PÉTER CATHOLIC UNIVERSITY   (Hungary)

^c ISTITUTO ITALIANO DI TECNOLOGIA   (Italy)

Author keywords

[No Author keywords available]

Indexed keywords

ANALYZER SYSTEM; BIOLOGICAL LIQUIDS; BIOMEDICAL FLUIDS; CAMERA SYSTEMS; CELL COUNTING; CELL DETECTION; FLUIDIC SYSTEMS; LAB-ON-A-CHIP; LIQUID FLOW; MICRO-FLUIDIC DEVICES; OPTICAL ANALYSIS; REAL-TIME IMAGE PROCESSING;

ALGORITHMS; BIOCOMPATIBILITY; CELLS; CELLULAR NEURAL NETWORKS; HYDRODYNAMICS; IMAGE PROCESSING; LIQUIDS; MICROFLUIDICS; OPTICAL DATA PROCESSING; OPTICAL SYSTEMS;

ELECTRIC NETWORK ANALYSIS;

EID: 84855647656     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/BioCAS.2011.6107787     Document Type: Conference Paper

References (11)

1. A. Laki, I. Rattalino, A. Sanginario, N. Piacentini, K. Ivan, D. Lapadatu, J. Taylor, D. Demarchi and P. Civera, An integrated and mixed technology LOC hydrodynamic focuser for cell counting application, Biomedical Circuits and Systems Conference (BioCAS), 2010 IEEE, pp.74-77, 2010.
2. K. Roberts, M. Parmeswaran, M. Moore and R.S. Muller A silicon microfabricated aperture for counting cells using the aperture impedance technique, Engineering Solutions for the Next Millennium. 1999 IEEE Canadian Conference on Electrical and Computer Engineering, pp.1668-1673, 1999.
3. M. L. Shuler, R. Aris and H. M. Tsuchiya, Hydrodynamic Focusing and Electronic Cell-Sizing Techniques, Appl. Environ. Microbiol., pp.384-388, 1972.
4. L. Cui, T. Zhang and H. Morgan, Optical particle detection integrated in a dielectrophoretic lab-on-a-chip" in Journal of Micromechanics and Microengineering, 12, 7-12, 2002.
5. Y. Fainman, L. Lee, D. Psaltis and C. Yang, Optofluidics: Fundamentals, Devices, and Applications, McGraw Hill Professional, 2009.
6. D. Di Carlo, D. Irimia, R. G. Tompkins and M. Toner, Continuous inertial focusing, ordering, and separation of particles in microchannels, Proceedings of the National Academy of Sciences, 104, 48, pp. 18892-18897, 2007.
7. F. Corinto, F. Biey and M. Gilli,Non-linear coupled CNN models for multiscale image analysis, International Journal of Circuit Theory and Applications, pp.77-88, 2006.
8. D. Lapadatu, MultiMEMS Design handbook version 4.2, SensoNor Technologies, 2009.
9. G. B. Lee, C. C. Chang, S. B. Huang and R. J. Yang, The hydrodynamic focusing effect inside rectangular microchannels in Journal of Micromechanics and Microengineering, 16, p. 1024-1032, 2006.
10. M. Brendel and T. Roska, Adaptive image sensing and enhancement using the cellular neural network universal machine, International Journal of Circuit Theory and Applications, pp.287-312, 2002.
11. F. Sapuppo, M. Bucolo, M. Intaglietta, L. Fortuna and P. Arena, A cellular nonlinear network: real-time technology for the analysis of microfluidic phenomena in blood vessels, Nanotechnology, pp.54-63, 2006.