Precision Agriculture Technologies for Management of Plant Diseases

Dear Colleagues,

Improving agricultural productivity requires innovative solutions that offer a better yield and quality for indoor and outdoor farming. Farmers require precision technology to obtain and interpret data to better control crop growth, preventing losses caused by adverse weather conditions or infectious pests and thus facilitating return on investments. Every year, plant diseases contribute to significant losses in global harvest, costing an estimated US$220 billion. Plant disease assessment is conducted to analyze the measurement of disease/pathogens (phythopathometry), which is fundamental for the estimation of disease intensity and crop loss. Abundant use of chemicals such as bactericides, fungicides, and nematicides to control plant diseases is causing adverse effects to many agroecosystems. An accurate and reliable approach is needed in plant disease assessment to increase plant disease identification and severity estimation. With the advances of electronic and information technologies, various sensing systems and algorithms have been developed for early detection of disease symptoms before they are visible to the naked eye. Precision plant protection offers a nondestructive means of managing plant diseases based on the concept of spatiotemporal variability. Currently, there are three main remote sensing platforms for this purpose, including close-range such as ground-based or handheld sensors, middle-range such as drone-based sensors or imaging devices mounted on autonomous unmanned aerial vehicles (UAVs), and far-range platforms such as piloted airplanes or satellite-based sensors. Different customized algorithms and techniques, including artificial intelligent and deep learning methods, have been proposed to process sensor data. Plant disease assessment aids researchers and farmers in evaluating the cause of disease and extent of damage (physical and economic).

This Special Issue is aimed at bringing together research reports that describe new perspectives recently developed in plant disease management, based on innovative tools emerging from basic and applied research. The objective of the Special Issue is to increase awareness of the implications of using precision agriculture solutions for managing plant disease problems in a balanced and optimized manner.

Contributions are expected to deal with (but not limited to) the use of precision agriculture tools, wireless sensors, reflectance spectroscopy, artificial intelligence, wavelet analysis, imaging and non-imaging spectroscopy, wavelet analysis, spectral disease index, and any of the areas described in the keywords that are related to assessment and monitoring of plant diseases.

Dr. Redmond R. Shamshiri
Guest Editor

Manuscript Submission Information

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• Precision agriculture
• Digital agriculture
• Spectral imaging
• Infrared Spectroscopy
• Remote sensing
• Multispectral sensor
• Hyperspectral sensor
• Nondestructive sensing
• Multispectral and hyperspectral sensors and vegetation indexes
• Fluorescence and thermal imaging
• Fluorescence and thermal imaging
• Smart Sensors for determination of plant disease
• Sensors solution for precision agriculture
• Multi-sensor systems, sensor fusion, data fusion
• intelligent sensor for early disease detection
• Vegetation index, NDVI
• Artificial intelligence
• Deep learning
• Wavelet analysis
• principal component analysis
• Monitoring of different growth stages of crops and phenotyping
• Sensors for detection of fruits and quality determination
• Spectral data analytics
• Prescription map
• Detection and identification of crops and weeds
• UAV/Drone
• Advanced characterization techniques
• Big data
• Management zone
• Data management
• In situ sensing