Automatic identification of harmful algae based on multiple convolutional neural networks and transfer learning

Abstract: The monitoring of harmful algae is very important for the maintenance of the aquatic ecological environment. Traditional algae monitoring methods require professionals with substantial experience in algae species, which are time-consuming, expensive and limited in practice. The automatic classification of algae cell images and the identification of harmful algae images were realized by the combination of multiple Convolutional Neural Networks (CNNs) and deep learning techniques based on transfer learning in th… Show more

“…2 ) without use of the fluorescence data, we employed transfer learning by fine-tuning the pre-trained ResNet50V2 network to ensure a fair comparison with other methods, 22 as transfer learning was considered state-of-the-art by very recent literature for plankton classification because of its significantly higher accuracy than traditional methods. 23 ResNet50V2 was trained for 10 epochs for the new output layer followed by fine tuning (learning rate = 10 −5 ) for 50 epochs for the whole model. The model was then evaluated by classifying phytoplankton images to their taxonomic orders on the testing dataset, achieving an accuracy of 86.5%.…”

AI facilitated fluoro-electrochemical phytoplankton classification

“…2 ) without use of the fluorescence data, we employed transfer learning by fine-tuning the pre-trained ResNet50V2 network to ensure a fair comparison with other methods, 22 as transfer learning was considered state-of-the-art by very recent literature for plankton classification because of its significantly higher accuracy than traditional methods. 23 ResNet50V2 was trained for 10 epochs for the new output layer followed by fine tuning (learning rate = 10 −5 ) for 50 epochs for the whole model. The model was then evaluated by classifying phytoplankton images to their taxonomic orders on the testing dataset, achieving an accuracy of 86.5%.…”

AI facilitated fluoro-electrochemical phytoplankton classification

“…Transfer learning (Yang et al 2022) is a widely-employed machine learning technique that utilizes the knowledge acquired from a pre-trained Convolutional Neural Network (CNN) model to enhance the performance of a novel model for a related task, such as the classification of microscopic images of desmids. In this process, the features learned from the pre-trained model are reused and fine-tuned on a new dataset to adapt the model to a new task.…”

Automatic Classification of Desmids using Transfer Learning

“…Although some recent works [41] , [42] , [43] explore the use of deep learning for phytoplankton tasks, they are based on marine phytoplankton and do not approach both detection and recognition tasks. Two related works have explored the use of deep learning object detectors for phytoplankton detection and recognition in freshwater samples.…”

Phytoplankton detection and recognition in freshwater digital microscopy images using deep learning object detectors