Exploring Speed and Energy Tradeoffs in Droplet Transport for Digital Microfluidic Biochips
Published Web Location
http://www1.cs.ucr.edu/faculty/philip/papers/conferences/aspdac14/aspdac14-routing.pdfAbstract
This paper transforms the problem of droplet routing for digital microfluidic biochips (DMFBs) from the discrete into the continuous domain, based on the observation that droplet transport velocity is a function of the actuation voltage applied to electrodes that control the devices. A new formulation of the DMFB droplet routing problem is introduced for the continuous domain, which attempts to minimize total energy consumption while meeting a timing constraint. Henceforth, DMFBs should be viewed as continuous, highly integrated cyber-physical systems that interact with and manipulate physical quantities, as opposed to inherently discrete and fully synchronized devices. © 2014 IEEE.
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