AI-Based Detection of Droplets and Bubbles in Digital Microfluidic Biochips

2023 Design, Automation & Test in Europe Conference & Exhibition (DATE) Pub Date : 2023-04-01 DOI:10.23919/DATE56975.2023.10136887

Jianan Xu, Wenjie Fan, J. Madsen, Georgi Tanev, Luca Pezzarossa

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Abstract

Digital microfluidic biochips exploit the electrowet-ting on dielectric effect to move and manipulate microliter-sized liquid droplets on a planar surface. This technology has the potential to automate and miniaturize biochemical processes, but reliability is often an issue. The droplets may get temporarily stuck or gas bubbles may impede their movement leading to a disruption of the process being executed. However, if the position and size of the droplets and bubbles are known at run-time, these undesired effects can be easily mitigated by the biochip control system. This paper presents an AI-based computer vision solution for real-time detection of droplets and bubbles in DMF biochips and its implementation that supports cloud-based deployment. The detection is based on the YOLOv5 framework in combination with custom pre and post-processing techniques. The YOLOv5 neural network is trained using our own data set consisting of 5115 images. The solution is able to detect droplets and bubbles with real-time speed and high accuracy and to differentiate between them even in the extreme case where bubbles coexist with transparent droplets.

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数字微流控生物芯片中液滴和气泡的人工智能检测

数字微流控生物芯片利用电介质上的电润湿效应来移动和操纵平面上微升大小的液滴。这项技术有可能实现生化过程的自动化和小型化，但可靠性往往是个问题。液滴可能会暂时被卡住，或者气泡可能会阻碍它们的运动，导致正在执行的过程中断。然而，如果液滴和气泡的位置和大小在运行时已知，这些不良影响可以很容易地通过生物芯片控制系统减轻。本文提出了一种基于人工智能的计算机视觉解决方案，用于实时检测DMF生物芯片中的液滴和气泡，并支持基于云的部署。检测基于YOLOv5框架，结合自定义预处理和后处理技术。YOLOv5神经网络是使用我们自己的由5115张图像组成的数据集进行训练的。该解决方案能够实时快速、高精度地检测液滴和气泡，即使在气泡与透明液滴共存的极端情况下也能区分它们。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 Design, Automation & Test in Europe Conference & Exhibition (DATE)

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