FPGA-based bio-cybernetic system for lab-on-a-chip automation

机译：用于芯片实验室自动化的基于FPGA的生物网络系统

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In recent years, Lab-on-a-Chip technology has been widely applied to the pharmaceutical and eco-toxicity domains, together with the use of zebrafish as the model organism for performing fish embryo toxicity assay. However, the requirement of constant human attention and lack of fully automated systems have lead into low throughput and slow turnaround time for the experiments. In this paper, a novel FPGA-based bio-cybernetic system is designed to work with Lab-on-a-Chip devices in these experiments for handling zebrafish embryos, controlling chemical liquid perfusion, maintaining micro-environment and acquiring image data periodically for the analysis of embryo development. These functionalities have been demonstrated in the designed system by performing multiple 40-hour continuous experiments.

机译：近年来，芯片实验室技术已广泛应用于药物和生态毒性领域，同时斑马鱼也被用作进行鱼胚毒性分析的模型生物。然而，持续不断的关注和缺乏全自动系统的需求导致了实验的低通量和较慢的周转时间。在本文中，设计了一种新颖的基于FPGA的生物cybernetic系统，以在这些实验中与芯片实验室设备配合使用，以处理斑马鱼胚胎，控制化学液体灌注，维持微环境并定期获取图像数据。胚胎发育分析。通过执行多个40小时连续实验，已在设计的系统中证明了这些功能。

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《International Conference on Mechatronics and Machine Vision in Practice》|2012年|p.140-145|共6页
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作者
Wang Kevin I-Kai; Yeh Johnny; Salcic Zoran; Akagi Jin; Wlodkowic Donald;
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中图分类电磁学与无线电计量;电磁学与无线电计量;
关键词
Bio-cybernetic system; FPGA; Lab-on-a-Chip; MEMS;

机译：生物网络系统; FPGA;芯片实验室; MEMS;

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专利

1. FPGA-based bio-cybernetic automation system for lab-on-a-chip zebrafish embryo arrays [J] . Kevin I-Kai Wang, Johnny Yeh, Zoran Salcic, International Journal of Intelligent Systems Technologies and Applications . 2014,第1a2期

机译：用于芯片实验室斑马鱼胚胎阵列的基于FPGA的生物网络自动化系统
2. Toward microfluidic design automation: a new system simulation toolkit for the in silico evaluation of droplet-based lab-on-a-chip systems [J] . Gleichmann Nils, Malsch Daniell, Horbert Peter, Microfluidics and nanofluidics . 2015,第5a6期

机译：迈向微流控设计自动化：一种新的系统仿真工具套件，用于基于液滴的芯片实验室系统的计算机评估
3. Can Nature Teach us Good Research Practice? A Critical Look at Frederic Vester's Bio-cybernetic Systems Approach [J] . Werner Ulrich Journal of research practice . 2005,第1期

机译：大自然可以教我们良好的研究实践吗？批判弗雷德里克·维斯特（Frederic Vester）的生物网络系统方法
4. FPGA-based bio-cybernetic system for lab-on-a-chip automation [C] . Kevin I-Kai Wang, Johnny Yeh, Zoran Salcic, M2VIP 2012 . 2012

机译：基于FPGA的实验室自动化生物网络学系统
5. Lab-on-a-Chip design automation. [D] . Pfeiffer, Anton Joseph. 2006

机译：芯片实验室设计自动化。
6. FPGA-Based High-Performance Embedded Systems for Adaptive Edge Computing in Cyber-Physical Systems: The ARTICo3 Framework [O] . Alfonso Rodríguez, Juan Valverde, Jorge Portilla, 2018

机译：基于FPGA的高性能嵌入式系统用于网络物理系统中的自适应边缘计算：ARTICo3框架
7. Automation of Dynamic Power Management in FPGA-Based Energy-Constrained Systems [O] . Michal Skuta, Dominik Macko, Katarina Jelemenska 2020

机译：基于FPGA的能量受限系统动态电力管理自动化
8. Modeling and Simulation of Lab-on-a-Chip Systems [R] . Wang, Y. 2005

机译：实验室芯片系统的建模与仿真

FPGA-based bio-cybernetic system for lab-on-a-chip automation

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