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W2019647580 abstract "Control systems for lab on chip devices require careful characterisation and design for optimal performance. Traditionally, this involves either extremely computationally expensive simulations or lengthy iteration of laboratory experiments, prototype design, and manufacture. In this paper, an efficient control simulation technique, valid for typical microchannels, Computed Interpolated Flow Hydrodynamics (CIFH), is described that is over 500 times faster than conventional time integration techniques. CIFH is a hybrid approach, utilising a combination of pre-computed flows and hydrodynamic equations and allows the efficient simulation of dynamic control systems for the transport of cells through micro-fluidic devices. The speed-ups achieved by using pre-computed CFD solutions mapped to an n-dimensional control parameter space, significantly accelerate the evaluation and improvement of control strategies and chip design. Here, control strategies for a naturally unstable device geometry, the microfluidic cross-slot, have been simulated and optimal parameters have been found for proposed devices capable of trapping and sorting cells." @default.
W2019647580 created "2016-06-24" @default.
W2019647580 creator A5001467573 @default.
W2019647580 creator A5027079017 @default.
W2019647580 creator A5037317469 @default.
W2019647580 date "2011-01-01" @default.
W2019647580 modified "2023-09-23" @default.
W2019647580 title "Feedback control system simulator for the control of biological cells in microfluidic cross slots and integrated microfluidic systems" @default.
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W2019647580 cites W1991742987 @default.
W2019647580 cites W1995623318 @default.
W2019647580 cites W1995762323 @default.
W2019647580 cites W1996522799 @default.
W2019647580 cites W1996712958 @default.
W2019647580 cites W1997943453 @default.
W2019647580 cites W2000465700 @default.
W2019647580 cites W2001045671 @default.
W2019647580 cites W2002145259 @default.
W2019647580 cites W2002460618 @default.
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W2019647580 cites W2007458429 @default.
W2019647580 cites W2009285310 @default.
W2019647580 cites W2012016215 @default.
W2019647580 cites W2017985531 @default.
W2019647580 cites W2022348895 @default.
W2019647580 cites W2022977019 @default.
W2019647580 cites W2024464330 @default.
W2019647580 cites W2029330485 @default.
W2019647580 cites W2035570689 @default.
W2019647580 cites W2044665398 @default.
W2019647580 cites W2049518461 @default.
W2019647580 cites W2053050332 @default.
W2019647580 cites W2054761920 @default.
W2019647580 cites W2057534880 @default.
W2019647580 cites W2060020528 @default.
W2019647580 cites W2066591699 @default.
W2019647580 cites W2066651072 @default.
W2019647580 cites W2073764164 @default.
W2019647580 cites W2079764906 @default.
W2019647580 cites W2079832375 @default.
W2019647580 cites W2081711923 @default.
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W2019647580 cites W2086244192 @default.
W2019647580 cites W2087070363 @default.
W2019647580 cites W2089247555 @default.
W2019647580 cites W2091893634 @default.
W2019647580 cites W2105165030 @default.
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W2019647580 cites W2121343738 @default.
W2019647580 cites W2128193911 @default.
W2019647580 cites W2133574187 @default.
W2019647580 cites W2140103530 @default.
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W2019647580 cites W2159227567 @default.
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W2019647580 doi "https://doi.org/10.1039/c1lc20191c" @default.
W2019647580 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21611664" @default.
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