Jong Seob Song scite author profile

Jong Seob Song

5Publications

6Citation Statements Received

57Citation Statements Given

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Affiliations

INTRASOFT International (Luxembourg), Hanyang University

Publications

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Deep Learning Algorithms Correctly Classify Brassica rapa Varieties Using Digital Images

Jung

Song²,

Hong

et al. 2021

Front. Plant Sci.

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Efficient and accurate methods of analysis are needed for the huge amount of biological data that have accumulated in various research fields, including genomics, phenomics, and genetics. Artificial intelligence (AI)-based analysis is one promising method to manipulate biological data. To this end, various algorithms have been developed and applied in fields such as disease diagnosis, species classification, and object prediction. In the field of phenomics, classification of accessions and variants is important for basic science and industrial applications. To construct AI-based classification models, three types of phenotypic image data were generated from 156 Brassica rapa core collections, and classification analyses were carried out using four different convolutional neural network architectures. The results of lateral view data showed higher accuracy compared with top view data. Furthermore, the relatively low accuracy of ResNet50 architecture suggested that definition and estimation of similarity index of phenotypic data were required before the selection of deep learning architectures.

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Construction of deep learning-based disease detection model in plants

Jung

Song

Shin

et al. 2023

Sci Rep

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Accurately detecting disease occurrences of crops in early stage is essential for quality and yield of crops through the decision of an appropriate treatments. However, detection of disease needs specialized knowledge and long-term experiences in plant pathology. Thus, an automated system for disease detecting in crops will play an important role in agriculture by constructing early detection system of disease. To develop this system, construction of a stepwise disease detection model using images of diseased-healthy plant pairs and a CNN algorithm consisting of five pre-trained models. The disease detection model consists of three step classification models, crop classification, disease detection, and disease classification. The ‘unknown’ is added into categories to generalize the model for wide application. In the validation test, the disease detection model classified crops and disease types with high accuracy (97.09%). The low accuracy of non-model crops was improved by adding these crops to the training dataset implicating expendability of the model. Our model has the potential to apply to smart farming of Solanaceae crops and will be widely used by adding more various crops as training dataset.

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Radioactive waste repackaging simulation based on MATLAB/Simulink

Lee

Song

Woo

et al. 2023

Annals of Nuclear Energy

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Measurement-Based Performance Investigation on Mobile Video Streaming in LTE-A Cell Edge Areas

Song

Jin

Kwon

et al. 2019

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Mobile User Capacity Analysis of LTE-A Systems Based on Field Measurement Data

Song

Jin

Kwon

et al. 2019

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Jong Seob Song

Deep Learning Algorithms Correctly Classify Brassica rapa Varieties Using Digital Images

Construction of deep learning-based disease detection model in plants

Radioactive waste repackaging simulation based on MATLAB/Simulink

Measurement-Based Performance Investigation on Mobile Video Streaming in LTE-A Cell Edge Areas

Mobile User Capacity Analysis of LTE-A Systems Based on Field Measurement Data

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