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A Low-Cost Efficient System for Monitoring Microalgae Density Using Gaussian Process

Dung K. Nguyen, Linh Nguyen, Dung Viet Le

2021IEEE Transactions on Instrumentation and Measurement16 citationsDOI

Abstract

This paper presents a low-cost system for efficiently monitoring density of microalgae in a closed cultivation system such as a photobioreactor. In fact, microalgal density can be accurately determined by manually counting methods such as the direct microscopic count technique. However, the manual approaches are cumbersome, time-consuming and impractical to be implemented in a closed cultivation system. Therefore, in the proposed monitoring system, microalgae are first proposed to be pumped from a culturing tank in to a sample container placed inside a dark box. A low-cost camera is utilized to capture images of microalgae through the transparent sample container under artificial light. It is then proposed to represent microalgal density through two average pixel values of red and green color channels of the corresponding image. Moreover, Gaussian process is exploited to statistically learn a data-driven model of microalgae density given the measured images. The learned model can then be used to effectively predict density of microalgae where only their corresponding image data is required. The proposed approach was evaluated in a real-world closed bioreactor system of culturing Chlorella vulgaris microalgae, where the model was trained by 100 images selected randomly from 125 ones. In 10000 random runs, accuracy of the estimated density results is about 8.6% (± 1.8%).

Topics & Concepts

Gaussian processProcess (computing)Computer scienceGaussianPhysicsQuantum mechanicsOperating systemAlgal biology and biofuel productionSpaceflight effects on biology