A System for Automatic Rice Disease Detection from Rice Paddy Images Serviced via a Chatbot

Autor: Sujin Patarapuwadol, Apichon Kitvimonrat, Kantip Kiratiratanapruk, Pitchayagan Temniranrat, Wasin Sinthupinyo
Jazyk: angličtina
Rok vydání: 2020
Předmět:
FOS: Computer and information sciences
0106 biological sciences
Computer science
Computer Vision and Pattern Recognition (cs.CV)
Computer Science - Computer Vision and Pattern Recognition
Systems and Control (eess.SY)
Horticulture
computer.software_genre
Machine learning
01 natural sciences
Chatbot
Electrical Engineering and Systems Science - Systems and Control
FOS: Electrical engineering
electronic engineering
information engineering

Artificial neural network
business.industry
Deep learning
Process (computing)
Forestry
04 agricultural and veterinary sciences
Object detection
Computer Science Applications
Software deployment
040103 agronomy & agriculture
0401 agriculture
forestry
and fisheries

Paddy field
Artificial intelligence
Line (text file)
business
Agronomy and Crop Science
computer
010606 plant biology & botany
Popis: A LINE Bot System to diagnose rice diseases from actual paddy field images was developed and presented in this paper. It was easy-to-use and automatic system designed to help rice farmers improve the rice yield and quality. The targeted images were taken from the actual paddy environment without special sample preparation. We used a deep learning neural networks technique to detect rice diseases from the images. We developed an object detection model training and refinement process to improve the performance of our previous research on rice leave diseases detection. The process was based on analyzing the model's predictive results and could be repeatedly used to improve the quality of the database in the next training of the model. The deployment model for our LINE Bot system was created from the selected best performance technique in our previous paper, YOLOv3, trained by refined training data set. The performance of the deployment model was measured on 5 target classes and found that the Average True Positive Point improved from 91.1% in the previous paper to 95.6% in this study. Therefore, we used this deployment model for Rice Disease LINE Bot system. Our system worked automatically real-time to suggest primary diagnosis results to the users in the LINE group, which included rice farmers and rice disease specialists. They could communicate freely via chat. In the real LINE Bot deployment, the model's performance was measured by our own defined measurement Average True Positive Point and was found to be an average of 78.86%. The system was fast and took only 2-3 s for detection process in our system server.
19 pages, 6 figures
Databáze: OpenAIRE