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Design and Testing of Digital Microfluidic Biochips

This book provides a comprehensive methodology for automated design, test and diagnosis, and use of robust, low-cost, and manufacturable digital microfluidic systems. It focuses on the development of a comprehensive CAD optimization framework for digital microfluidic biochips that unifies different...

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Bibliographic Details
Main Authors: Zhao, Yang. (Author), Chakrabarty, Krishnendu. (Author)
Corporate Author: SpringerLink (Online service)
Format: Electronic
Language:English
Published: New York, NY : Springer New York : Imprint: Springer, 2013.
Subjects:
Engineering.
Electronics.
Systems engineering.
Biomedical engineering.
Circuits and Systems.
Biomedical Engineering.
Electronics and Microelectronics, Instrumentation.
Online Access:https://ezaccess.library.uitm.edu.my/login?url=http://dx.doi.org/10.1007/978-1-4614-0370-8
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245 1 0 |a Design and Testing of Digital Microfluidic Biochips  |c by Yang Zhao, Krishnendu Chakrabarty.  |h [electronic resource] / 
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505 0 # |a Introduction -- Cross-Contamination Avoidance for Droplet Routing -- Synchronization of Concurrently-Implemented Fluidic Operations in Pin-Constrained Biochips -- Optimization of Droplet Routing and Control-Pin Mapping to Electrodes -- Built-In Self Test and Diagnosis -- On-Line Testing and Test Generation -- Integrated Control-Path Design and Error Recovery -- Conclusions. 
520 # # |a This book provides a comprehensive methodology for automated design, test and diagnosis, and use of robust, low-cost, and manufacturable digital microfluidic systems. It focuses on the development of a comprehensive CAD optimization framework for digital microfluidic biochips that unifies different design problems. With the increase in system complexity and integration levels, biochip designers can utilize the design methods described in this book to evaluate different design alternatives, and carry out design-space exploration to obtain the best design point. Describes practical design automation tools that address different design problems (e.g., synthesis, droplet routing, control-pin mapping, testing and diagnosis, and error recovery) in a unified manner; Applies test pattern generation and error-recovery techniques for digital microfluidics-based biochips; Uses real bioassays as evaluation examples, e.g., multiplexed in vitro human physiological fluids diagnostics, PCR, protein crystallization. � 
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