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| Publications [#67683] of Richard B. Fair
Papers Published
- Zhang, T. and Cao, F. and Dewey, A.M. and Fair, R.B. and Chakrabarty, K., Performance analysis of microelectrofluidic systems using hierarchical modeling and simulation,
IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, vol. 48 no. 5
(2001),
pp. 482 - 491 [82.938358]
(last updated on 2007/04/17)
Abstract:
With the development of increasingly complex microelectrofluidic devices and systems, system-level performance analysis is becoming an important aspect of design. System-level performance analysis is challenging because coupled-energy dynamics link system-level performance with component-level operation, thus necessitating a hierarchical approach to modeling and simulation. This paper presents a hierarchical modeling and simulation method for microelectrofluidic systems, in particular, and composite microsystems, in general. High-level stochastic queueing modeling is combined with low-level nodal modeling to support simulation accuracy with low simulation times. Results are reported for a microchemical handling system. System-level performance analysis is carried out and applied to architectural design optimization.
Keywords:
Fluidic devices;Performance;Computer simulation;Biomedical engineering;Chemical analysis;Computer hardware description languages;
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