Litcius/Paper detail

Robusta coffee leaf diseases detection based on MobileNetV2 model

Yazid Aufar, Tesdiq Prigel Kaloka

2022International Journal of Power Electronics and Drive Systems/International Journal of Electrical and Computer Engineering20 citationsDOIOpen Access PDF

Abstract

<span lang="EN-US">Indonesia is a major exporter and producer of coffee, and coffee cultivation adds to the nation's economy. Despite this, coffee remains vulnerable to several plant diseases that may result in significant financial losses for the agricultural industry. Traditionally, plant diseases are detected by expert observation with the naked eye. Traditional methods for managing such diseases are arduous, time-consuming, and costly, especially when dealing with expansive territories. Using a model based on transfer learning and deep learning model, we present in this study a technique for classifying Robusta coffee leaf disease photos into healthy and unhealthy classes. The MobileNetV2 network serves as the model since its network design is simple. Therefore, it is likely that the suggested approach will be deployed further on mobile devices. In addition, the transfer learning and experimental learning paradigms. Because it is such a lightweight net, the MobileNetV2 system serves as the foundational model. Results on Robusta coffee leaf disease datasets indicate that the suggested technique can achieve a high level of accuracy, up to 99.93%. The accuracy of other architectures besides MobileNetV2 such as DenseNet169 is 99.74%, ResNet50 architecture is 99.41%, and InceptionResNetV2 architecture is 99.09%.</span>

Topics & Concepts

ExpansiveDeep learningArtificial intelligenceComputer scienceArchitectureAgricultureTransfer of learningMachine learningBiologyGeographyEcologyComposite materialCompressive strengthMaterials scienceArchaeologySmart Agriculture and AIAgricultural Development and ManagementAgricultural Research and Practices