Polymer–Magnetic Composite Fibers for Remote-Controlled Drug Release

The latest generation of convolutional neural networks (CNNs) has achieved impressive results in the field of image classification. This paper is concerned with a new approach to the development of plant disease recognition model, based on leaf image classification, by the use of deep convolutional networks. Novel way of training and the methodology used facilitate a quick and easy system implementation in practice. The developed model is able to recognize 13 different types of plant diseases out of healthy leaves, with the ability to distinguish plant leaves from their surroundings. According to our knowledge, this method for plant disease recognition has been proposed for the first time. All essential steps required for implementing this disease recognition model are fully described throughout the paper, starting from gathering images in order to create a database, assessed by agricultural experts. Caffe, a deep learning framework developed by Berkley Vision and Learning Centre, was used to perform the deep CNN training. The experimental results on the developed model achieved precision between 91% and 98%, for separate class tests, on average 96.3%.

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Solving Current Limitations of Deep Learning Based Approaches for Plant Disease Detection

Arsenović

et al. 2019

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Plant diseases cause great damage in agriculture, resulting in significant yield losses. The recent expansion of deep learning methods has found its application in plant disease detection, offering a robust tool with highly accurate results. The current limitations and shortcomings of existing plant disease detection models are presented and discussed in this paper. Furthermore, a new dataset containing 79,265 images was introduced with the aim to become the largest dataset containing leaf images. Images were taken in various weather conditions, at different angles, and daylight hours with an inconsistent background mimicking practical situations. Two approaches were used to augment the number of images in the dataset: traditional augmentation methods and state-of-the-art style generative adversarial networks. Several experiments were conducted to test the impact of training in a controlled environment and usage in real-life situations to accurately identify plant diseases in a complex background and in various conditions including the detection of multiple diseases in a single leaf. Finally, a novel two-stage architecture of a neural network was proposed for plant disease classification focused on a real environment. The trained model achieved an accuracy of 93.67%.

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Deep Learning for Plant Diseases: Detection and Saliency Map Visualisation

et al. 2018

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Transferability of Neural Network Approaches for Low-rate Energy Disaggregation

Murray

Stanković

Lulic³

et al. 2019

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Credit Card Fraud Detection - Machine Learning methods

et al. 2019

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FaceTime — Deep learning based face recognition attendance system

et al. 2017

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Convolutional Neural Network Based SMS Spam Detection

Popovac

Karanovic

Sladojević

et al. 2018

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Process Mining Possibilities and Challenges: A Case Study

Dakić

Sladojević

Lolić

et al. 2019

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Srdjan Sladojević

Deep Neural Networks Based Recognition of Plant Diseases by Leaf Image Classification

Solving Current Limitations of Deep Learning Based Approaches for Plant Disease Detection

Deep Learning for Plant Diseases: Detection and Saliency Map Visualisation

Transferability of Neural Network Approaches for Low-rate Energy Disaggregation

Credit Card Fraud Detection - Machine Learning methods

FaceTime — Deep learning based face recognition attendance system

Convolutional Neural Network Based SMS Spam Detection

Process Mining Possibilities and Challenges: A Case Study

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