000			04918cam a2200325Ii 4500
001			9781315220253
008			180706s2002 flua ob 001 0 eng d
020			_a9781315220253 _q(e-book : PDF)
020			_z9780849312762 _q(hardback)
024	7		_a10.1201/9781315220253 _2doi
035			_a(OCoLC)52200427
050		4	_aR857.N34 _bZ48 2002
082	0	4	_a610.28 _bZ632
100	1		_aZhang, Tianhao, _d1970- _eauthor. _914045
245	1	0	_aMicroelectrofluidic systems : _bmodeling and simulation / _cTianhao Zhang, Krishnendu Chakrabarty, Richard B. Fair.
264		1	_aBoca Raton : _bCRC Press, _c2002.
300			_a1 online resource (xxvi, 257 pages).
490	0		_aNano- and microscience, engineering, technology, and medicine series
504			_aIncludes bibliographical references (pages 243-254) and index.
505	8		_aMachine generated contents note: 1 Introduction -- Modeling and Simulation Issues -- Modeling and Simulation Needs -- Computational Architectures for MEFS -- Hierarchical Modeling and Simulation -- Advanced Hierarchical Design Methodology -- Hierarchical Design and Simulation Optimization -- System Design Language Uniformity -- Overview -- 2 Hierarchical Modeling -- MEFS Dynamic Modeling and Simulation at Circuit Level -- Classification of Dynamic System Models -- Fundamental Variables -- Relationships between Fundamental Variables -- Kirchhoffian Networks -- The Equivalent Circuit Modeling Method -- MEFS System-level Modeling and Simulation -- MEFS System-level Modeling -- MEFS System-level Simulation -- Statistical Analysis Capacity -- Conclusion -- 3 SystemC-based Hierarchical Design Environment -- Suitability of Modeling Languages for Hierarchical Design -- VHDL-AMS Suitability for Circuit-level Modeling and Sim- -- ulation -- VHDL Suitability for System-level Modeling and Simula- -- tion -- Performance Language-SLAM -- C/C++ and Matlab -- SystemC -- Building Design Environment with SystemC -- Hierarchical Design Environment -- System-level Modeling Package -- Circuit-level Component Modeling Package -- Numerical Simulation Package -- Optimization/Verification Package -- Conclusion -- 4 System-level Simulation and Performance Evaluation -- MEFS Computing and Architecture -- Architectural Concepts -- Architecture Proposal -- Reconfigurable Architectural Functional Requirements -- Potential Architecture -- Performance Modeling and Simulation -- Hierarchical Modeling and Simulation Methodology -- MEFS Hierarchical Perspective -- Hierarchical Performance Evaluation Strategy -- Modeling and Simulation Language -- Micro-Chemical Handling System -- Stochastic Performance Modeling -- Thermal Catalyzing Process Functionality -- Microvalve Lumped-element Nodal Modeling -- System Performance Analysis and Design Optimization -- Architectural Optimization -- Microsystem Performance Sensitivity Analysis -- Microsystem Performance Estimation with Traffic Variation -- Conclusion -- 5 Circuit-level Optimization -- Simulation Design Methodology -- Bootstrap Method -- Factorial Design -- Optimization Verification -- Subjective Verification -- Objective Verification -- On-target Design Optimization -- Statistical Modeling and Response Analyses -- Statistical Modeling of a Microvalve -- Search for On-target Design Point -- Sensitivity Analysis -- Robust Design Optimization -- Statistical Response Analysis -- Statistical Response Analysis of Microresonators -- Design Optimization of Microvalves -- Application Flexibility Optimization -- Design Approach -- Determining the Performance Flexibility -- Optimization Procedure -- Case Study: Microvalve Modeling and Optimal Design -- Conclusion -- 6 Performance Evaluation -- Introduction -- Polymerase Chain Reaction (PCR) -- PCR Detection for DNA Concentration -- PCR Purification -- Acquisition Assumption -- Continuous-flow PCR System -- Three-way Microvalve -- Sequential Continuous-flow PCR System -- Detectable PCR System -- Reconfigurable PCR System -- Droplet-based PCR System -- A Droplet-based PCR System -- Physical Implementation -- Comparison between Continuous-flow PCR and Droplet PCR -- System Design Complexity -- Performance Evaluation -- Scheduling of Microfluidic Operations for Reconfigurable Two-Dimensional -- Electrowetting Arrays -- Introduction -- Two-dimensional Electrowetting Array -- Schedule Optimization -- Droplet-based PCR Systems -- 7 Conclusion -- A VHDL Queuing Model -- B Hierarchical Environment with SystemC -- References -- Index.
650		0	_aBiomedical engineering. _93292
650		0	_aMicroelectromechanical systems. _96063
650		0	_aNanotechnology. _94707
650		0	_aPolymerase chain reaction _xAutomation. _914046
700	1		_aChakrabarty, Krishnendu. _914047
700	1		_aFair, Richard B. _914048
776	0	8	_iPrint version: _z9780849312762
856	4	0	_uhttps://www.taylorfrancis.com/books/9781420040494 _zClick here to view.
942			_cEBK
999			_c70595 _d70595