Litcius/Paper detail

A Two-Step Machine Learning Approach for Crop Disease Detection Using GAN and UAV Technology

Aaditya Prasad, Nikhil Mehta, Matthew Horak, Wan D. Bae

2022Remote Sensing29 citationsDOIOpen Access PDF

Abstract

Automated plant diagnosis is a technology that promises large increases in cost-efficiency for agriculture. However, multiple problems reduce the effectiveness of drones, including the inverse relationship between resolution and speed and the lack of adequate labeled training data. This paper presents a two-step machine learning approach that analyzes low-fidelity and high-fidelity images in sequence, preserving efficiency as well as accuracy. Two data-generators are also used to minimize class imbalance in the high-fidelity dataset and to produce low-fidelity data that are representative of UAV images. The analysis of applications and methods is conducted on a database of high-fidelity apple tree images which are corrupted with class imbalance. The application begins by generating high-fidelity data using generative networks and then uses these novel data alongside the original high-fidelity data to produce low-fidelity images. A machine learning identifier identifies plants and labels them as potentially diseased or not. A machine learning classifier is then given the potentially diseased plant images and returns actual diagnoses for these plants. The results show an accuracy of 96.3% for the high-fidelity system and a 75.5% confidence level for our low-fidelity system. Our drone technology shows promising results in accuracy when compared to labor-based methods of diagnosis.

Topics & Concepts

FidelityComputer scienceArtificial intelligenceDroneMachine learningData miningBiologyTelecommunicationsGeneticsSmart Agriculture and AIRemote Sensing in AgricultureDate Palm Research Studies