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This book describes automatic methods for the design of droplet
microfluidic networks. The authors discuss simulation and design
methods which support the design process of droplet microfluidics
in general, as well as design methods for a dedicated droplet
routing mechanism, namely passive droplet routing. The methods
discussed allow for simulating a microfluidic design on a
high-abstraction level, which facilitates early validation of
whether a design works as intended, automatically dimensioning a
microfluidic design, so that constraints like flow conditions are
satisfied, and automatically generating meander designs for the
respective needs and fabrication settings. Dedicated methods for
passive droplet routing are discussed and allow for designing
application-specific architectures for a given set of experiments,
as well as generating droplet sequences realizing the respective
experiments. Together, these methods provide a comprehensive
"toolbox" for designers working on droplet microfluidic networks in
general and an integrated design flow for the passive droplet
routing mechanism in particular. Provides both a comprehensive
"toolbox" for designers working on droplet microfluidic networks in
general and an integrated design flow for the passive droplet
routing mechanism in particular; Describes for the first time CAD
methods for droplet microfluidic networks, along with the first
integrated design process; Includes open source implementations, in
order to reach the largest possible user group within the domain of
microfluidics.
This book describes automatic methods for the design of droplet
microfluidic networks. The authors discuss simulation and design
methods which support the design process of droplet microfluidics
in general, as well as design methods for a dedicated droplet
routing mechanism, namely passive droplet routing. The methods
discussed allow for simulating a microfluidic design on a
high-abstraction level, which facilitates early validation of
whether a design works as intended, automatically dimensioning a
microfluidic design, so that constraints like flow conditions are
satisfied, and automatically generating meander designs for the
respective needs and fabrication settings. Dedicated methods for
passive droplet routing are discussed and allow for designing
application-specific architectures for a given set of experiments,
as well as generating droplet sequences realizing the respective
experiments. Together, these methods provide a comprehensive
"toolbox" for designers working on droplet microfluidic networks in
general and an integrated design flow for the passive droplet
routing mechanism in particular. Provides both a comprehensive
"toolbox" for designers working on droplet microfluidic networks in
general and an integrated design flow for the passive droplet
routing mechanism in particular; Describes for the first time CAD
methods for droplet microfluidic networks, along with the first
integrated design process; Includes open source implementations, in
order to reach the largest possible user group within the domain of
microfluidics.
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