Adaptive error recovery in MEDA biochips based on droplet-aliquot operations and predictive analysis

机译：基于液滴等分运算和预测分析的MEDA生物芯片中的自适应错误恢复

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Digital microfluidic biochips (DMFBs) are being increasingly used in biochemistry labs for automating bioassays. However, traditional DMFBs suffer from some key shortcomings: 1) inability to vary droplet volume in a flexible manner; 2) difficulty of integrating on-chip sensors; 3) the need for special fabrication processes. To overcome these problems, DMFBs based on micro-electrode-dot-array (MEDA) have recently be-en proposed. However, errors are likely to occur on a MEDA DMFB due to chip defects and the unpredictability inherent to biochemical experiments. We present fine-grained error-recovery solutions for MEDA by exploiting real-time sensing and advanced MEDA-specific droplet operations. The proposed methods rely on adaptive droplet-aliquot operations and predictive analysis of mixing. Experimental results on three representative benchmarks demonstrate the efficiency of the proposed error-recovery strategy.

机译：数字微流控生物芯片（DMFB）越来越多地用于生物化学实验室，以实现生物测定的自动化。但是，传统的DMFB存在一些主要缺点：1）无法灵活地改变液滴的体积; 2）集成片上传感器的难度; 3）需要特殊的制造工艺。为了克服这些问题，近来已经提出了基于微电极点阵列（MEDA）的DMFB。但是，由于芯片缺陷和生化实验固有的不可预测性，在MEDA DMFB上可能会发生错误。我们通过利用实时感测和高级MEDA特定液滴操作为MEDA提供细粒度的错误恢复解决方案。所提出的方法依赖于自适应的液滴等分操作和混合的预测分析。在三个有代表性的基准上的实验结果证明了所提出的错误恢复策略的效率。

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《IEEE/ACM International Conference on Computer-Aided Design》|2017年|615-622|共8页
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Zhanwei Zhong; Zipeng Li; Krishnendu Chakrabarty;
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Sensors; Microelectrodes; Liquids; Software; Real-time systems; DNA;

机译：传感器;微电极;液体;软件;实时系统; DNA;

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1. Adaptive and Roll-Forward Error Recovery in MEDA Biochips Based on Droplet-Aliquot Operations and Predictive Analysis [J] . Zhanwei Zhong, Zipeng Li, Krishnendu Chakrabarty Multi-Scale Computing Systems, IEEE Transactions on . 2018,第4期

机译：基于液滴等分运算和预测分析的MEDA生物芯片自适应和前滚错误恢复
2. Offline Error Detection in MEDA-Based Digital Microfluidic Biochips Using Oscillation-Based Testing Methodology [J] . Shukla Vineeta, Hussin Fawnizu Azmadi, Hamid Nor Hisham, Journal of Electronic Testing: Theory and Applications: Theory and Applications . 2017,第5期

机译：使用基于振荡的测试方法的基于Meda的数字微流体Biochips的离线错误检测
3. Security assessment for routing‑based synthesis on cyberphysical MEDA‑based digital microfluidic biochip [J] . Das Chandan, Muhuri Samya, Chakraborty Sarit, SN Applied Sciences . 2021,第8期

机译：基于网络肢体的数字微流体Biochip的路由roust-基合成的安全评估
4. Adaptive error recovery in MEDA biochips based on droplet-aliquot operations and predictive analysis [C] . Zhanwei Zhong, Zipeng Li, Krishnendu Chakrabarty IEEE/ACM International Conference on Computer-Aided Design . 2017

机译：基于液滴 - 等分试样操作和预测分析的Meda Biochips中的自适应错误恢复
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机译：MEDAS项目基于计算机的医疗决策分析系统的设计和建模。
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机译：基于抗独特型抗体的电化学五重生物芯片检测方法用于现场现场检测与生物恐怖有关的低分子量毒素
7. Flow-Based Biochips: Fault-Tolerant Design and Error Recovery [O] . Pop Paul 2015

机译：基于流的生物芯片：容错设计和错误恢复
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Adaptive error recovery in MEDA biochips based on droplet-aliquot operations and predictive analysis

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