Reduced order modeling based shape optimization of surface acoustic wave driven microfluidic biochips

Mathematics and Computers in Simulation

Volumn 82, Issue 10, 2012, Pages 1986-2003

  Antil, Harbir ^a   Heinkenschloss, Matthias ^b   Hoppe, Ronald H W ^a,c   Linsenmann, Christopher ^c   Wixforth, Achim ^c  

^a University of Houston   (United States)

^b Rice University   (United States)

^c UNIVERSITY OF AUGSBURG   (Germany)

Author keywords

Balanced truncation model reduction; Compressible Stokes system; Domain decomposition; Microfluidic biochips; Shape optimization

Indexed keywords

ACTIVE DEVICES; ALGORITHMIC TOOLS; BALANCED TRUNCATION; BIOLOGICAL ANALYSIS; COMPRESSIBLE NAVIER-STOKES EQUATIONS; DOMAIN DECOMPOSITIONS; ELECTRIC PULSE; EXPLICIT ERROR BOUNDS; EXTERNAL FORCE; FLUID-FILLED; GEOMETRIC PATTERNS; HIGH FREQUENCY; LARGE-SCALE OPTIMIZATION; MEDICAL STUDIES; MICRO FLUIDIC BIOCHIPS; MODELING APPROACH; MULTIPHYSICS PROBLEMS; MULTISCALES; NANOLITERS; OPTIMAL DESIGN; OPTIMIZATION PROBLEMS; PASSIVE DEVICES; PIEZOELECTRIC EQUATION; PRECISE POSITIONING; PROBLEM SIZE; REDUCED ORDER; REDUCED-ORDER MODELING; STOKES SYSTEM; SURFACE ACOUSTIC WAVES;

ACOUSTIC SURFACE WAVE DEVICES; ACOUSTIC WAVES; ACOUSTOELECTRIC EFFECTS; BIOASSAY; CHEMICAL ANALYSIS; CONTROL THEORY; DOMAIN DECOMPOSITION METHODS; ERROR ANALYSIS; MATHEMATICAL MODELS; MICROFLUIDICS; NAVIER STOKES EQUATIONS; OPTIMAL SYSTEMS; OPTIMIZATION; SHAPE OPTIMIZATION; TRANSPORT PROPERTIES;

BIOCHIPS;

EID: 84865716639     PISSN: 03784754     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.matcom.2010.10.027     Document Type: Conference Paper

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