ICTACT Journal on Soft Computing

Open Access Open Access  Restricted Access Subscription Access

Intelligent Agents and Deep Learning Algorithm Based Semantic Segmentation for Precision Agriculture on Smart Farming Solutions


Affiliations
1 Department of Information Technology, Sri Krishna Arts and Science College, India
2 Department of Pharmaceutical Technology, Paavai Engineering College, India
3 Department of Information Technology, Government College of Engineering, Erode, India

   Subscribe/Renew Journal


Background: The precision agriculture sector benefits greatly from advanced semantic segmentation techniques for land cover mapping and crop monitoring. Traditional methods often struggle with accuracy and efficiency due to the complexity of agricultural environments. Problem: Existing segmentation methods lack the ability to handle the diversity and scale of agricultural images effectively, leading to suboptimal classification and segmentation results. Method: This study introduces a three-stage semantic segmentation process leveraging deep learning and intelligent agents. The process begins with feature extraction using Chaotic Evolutionary Agents and parallel coding, followed by feature fusion and enhancement to create comprehensive feature maps. In the segmentation stage, a dual approach is adopted: region-based classification with U-Net for region candidates and pixelbased classification for fine-grained results. The final stage involves post-processing with boundary optimization to refine segmentation outputs. Results: The proposed method shows a significant improvement in segmentation accuracy and computational efficiency compared to existing methods. The method achieves an average accuracy of 92.5% and a reduction in processing time by 30% compared to traditional algorithms.

Keywords

Semantic Segmentation, Deep Learning, Precision Agriculture, U-Net, Chaotic Evolutionary Agents
Subscription Login to verify subscription
User
Notifications
Font Size

Abstract Views: 108




  • Intelligent Agents and Deep Learning Algorithm Based Semantic Segmentation for Precision Agriculture on Smart Farming Solutions

Abstract Views: 108  | 

Authors

N. Karthik
Department of Information Technology, Sri Krishna Arts and Science College, India
B. Dhevahi
Department of Pharmaceutical Technology, Paavai Engineering College, India
P. Thangavel
Department of Information Technology, Government College of Engineering, Erode, India
S. Mohanasundaram
Department of Information Technology, Government College of Engineering, Erode, India

Abstract


Background: The precision agriculture sector benefits greatly from advanced semantic segmentation techniques for land cover mapping and crop monitoring. Traditional methods often struggle with accuracy and efficiency due to the complexity of agricultural environments. Problem: Existing segmentation methods lack the ability to handle the diversity and scale of agricultural images effectively, leading to suboptimal classification and segmentation results. Method: This study introduces a three-stage semantic segmentation process leveraging deep learning and intelligent agents. The process begins with feature extraction using Chaotic Evolutionary Agents and parallel coding, followed by feature fusion and enhancement to create comprehensive feature maps. In the segmentation stage, a dual approach is adopted: region-based classification with U-Net for region candidates and pixelbased classification for fine-grained results. The final stage involves post-processing with boundary optimization to refine segmentation outputs. Results: The proposed method shows a significant improvement in segmentation accuracy and computational efficiency compared to existing methods. The method achieves an average accuracy of 92.5% and a reduction in processing time by 30% compared to traditional algorithms.

Keywords


Semantic Segmentation, Deep Learning, Precision Agriculture, U-Net, Chaotic Evolutionary Agents