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Zebrafish Larvae Phenotype Classification from Bright-field Microscopic Images Using a Two-Tier Deep-Learning Pipeline

Shang Shang, Sijie Lin, Fengyu Cong

2020Applied Sciences23 citationsDOIOpen Access PDF

Abstract

Classification of different zebrafish larvae phenotypes is useful for studying the environmental influence on embryo development. However, the scarcity of well-annotated training images and fuzzy inter-phenotype differences hamper the application of machine-learning methods in phenotype classification. This study develops a deep-learning approach to address these challenging problems. A convolutional network model with compressed separable convolution kernels is adopted to address the overfitting issue caused by insufficient training data. A two-tier classification pipeline is designed to improve the classification accuracy based on fuzzy phenotype features. Our method achieved an averaged accuracy of 91% for all the phenotypes and maximum accuracy of 100% for some phenotypes (e.g., dead and chorion). We also compared our method with the state-of-the-art methods based on the same dataset. Our method obtained dramatic accuracy improvement up to 22% against the existing method. This study offers an effective deep-learning solution for classifying difficult zebrafish larvae phenotypes based on very limited training data.

Topics & Concepts

Artificial intelligenceOverfittingComputer scienceDeep learningMachine learningPipeline (software)Convolutional neural networkPhenotypePattern recognition (psychology)BiologyArtificial neural networkGeneProgramming languageBiochemistryCell Image Analysis TechniquesWater Quality Monitoring TechnologiesDigital Imaging for Blood Diseases
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