A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop

A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop

Weeds affects crops health as it shares water and nutrients from the soil, as a result it decreases crop yield. Manual weedicide spray through bag-pack is hazardous to human health. Localized autonomous weedicide spray through aerial spraying units can help save water, weedicide chemical and effect...

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Main Authors: S. Imran Moazzam, Umar S. Khan, Waqar S. Qureshi, Mohsin I. Tiwana, Nasir Rashid, Waleed S. Alasmary, Javaid Iqbal, Amir Hamza
Format: Article
Language:English
Published: IEEE 2021-01-01
Series:IEEE Access
Subjects:
Autonomous weed detection
drone weed detection
deep learning in agriculture
multispectral image processing
Online Access:https://ieeexplore.ieee.org/document/9525394/
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spelling doaj-b771b2bc22de44138113afd9d4f99f242021-09-09T23:00:41ZengIEEEIEEE Access2169-35362021-01-01912169812171510.1109/ACCESS.2021.31090159525394A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet CropS. Imran Moazzam0https://orcid.org/0000-0002-9289-5467Umar S. Khan1Waqar S. Qureshi2https://orcid.org/0000-0003-0176-8145Mohsin I. Tiwana3Nasir Rashid4https://orcid.org/0000-0003-0499-8042Waleed S. Alasmary5https://orcid.org/0000-0002-4349-144XJavaid Iqbal6https://orcid.org/0000-0001-9601-2302Amir Hamza7Robot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanRobot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanRobot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanRobot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanRobot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanDepartment of Computer Science, Umm Al Qura University, Makkah, Saudi ArabiaRobot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanRobot Design and Development Laboratory, National Centre of Robotics and Automation (NCRA), National University of Sciences and Technology, Islamabad, PakistanWeeds affects crops health as it shares water and nutrients from the soil, as a result it decreases crop yield. Manual weedicide spray through bag-pack is hazardous to human health. Localized autonomous weedicide spray through aerial spraying units can help save water, weedicide chemical and effect less on human health. Such systems require multi-spectral cues to classify crop, weed, and soil surface. Our focus in this paper is on the detection of weeds in the sugar beet crop, using air-borne multispectral camera sensors, which is considered as an alternative crop to sugarcane to obtain sugar in Pakistan. We developed a new framework for weed identification; a patch-based classification approach as appose to semantic segmentation that is more realistic for real-time intelligent aerial spraying systems. Our approach converts 3-class pixel classification problem into a 2-class crop-weed patch classification problem which in turns improves crop and weed classification accuracy. For classification, we developed a new VGG-Beet convolutional neural network (CNN), which is based on generic VGG16 (visual graphics group) CNN model with 11 convolutional layers. For experiments, we captured a sugar beet dataset with 3-channel multispectral sensor with a ground sampling distance (GSD) of 0.2 cm/pixel and a height of 4 meters. For better comparison, we used two publicly available sugar beet crop aerial imagery datasets, captured using a 5-channel multispectral sensor and a 4-Channel multispectral sensor with a ground sampling distance of 1cm and a height of 10 meters. We observed that patch-based method is more robust to different lighting conditions. To produce low cost weed detection system usage of Agrocam sensor is recommended, for higher accuracy Red Edge and Sequoia multispectral sensors with more channels should be deployed. We observed higher crop-weed accuracy and lower testing time for our patch-based approach as compared to U-Net and Deeplab based semantic segmentation networks.https://ieeexplore.ieee.org/document/9525394/Autonomous weed detectiondrone weed detectiondeep learning in agriculturemultispectral image processing
collection DOAJ
language English
format Article
sources DOAJ
author S. Imran Moazzam
Umar S. Khan
Waqar S. Qureshi
Mohsin I. Tiwana
Nasir Rashid
Waleed S. Alasmary
Javaid Iqbal
Amir Hamza
spellingShingle S. Imran Moazzam
Umar S. Khan
Waqar S. Qureshi
Mohsin I. Tiwana
Nasir Rashid
Waleed S. Alasmary
Javaid Iqbal
Amir Hamza
A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop
IEEE Access
Autonomous weed detection
drone weed detection
deep learning in agriculture
multispectral image processing
author_facet S. Imran Moazzam
Umar S. Khan
Waqar S. Qureshi
Mohsin I. Tiwana
Nasir Rashid
Waleed S. Alasmary
Javaid Iqbal
Amir Hamza
author_sort S. Imran Moazzam
title A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop
title_short A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop
title_full A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop
title_fullStr A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop
title_full_unstemmed A Patch-Image Based Classification Approach for Detection of Weeds in Sugar Beet Crop
title_sort patch-image based classification approach for detection of weeds in sugar beet crop
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2021-01-01
description Weeds affects crops health as it shares water and nutrients from the soil, as a result it decreases crop yield. Manual weedicide spray through bag-pack is hazardous to human health. Localized autonomous weedicide spray through aerial spraying units can help save water, weedicide chemical and effect less on human health. Such systems require multi-spectral cues to classify crop, weed, and soil surface. Our focus in this paper is on the detection of weeds in the sugar beet crop, using air-borne multispectral camera sensors, which is considered as an alternative crop to sugarcane to obtain sugar in Pakistan. We developed a new framework for weed identification; a patch-based classification approach as appose to semantic segmentation that is more realistic for real-time intelligent aerial spraying systems. Our approach converts 3-class pixel classification problem into a 2-class crop-weed patch classification problem which in turns improves crop and weed classification accuracy. For classification, we developed a new VGG-Beet convolutional neural network (CNN), which is based on generic VGG16 (visual graphics group) CNN model with 11 convolutional layers. For experiments, we captured a sugar beet dataset with 3-channel multispectral sensor with a ground sampling distance (GSD) of 0.2 cm/pixel and a height of 4 meters. For better comparison, we used two publicly available sugar beet crop aerial imagery datasets, captured using a 5-channel multispectral sensor and a 4-Channel multispectral sensor with a ground sampling distance of 1cm and a height of 10 meters. We observed that patch-based method is more robust to different lighting conditions. To produce low cost weed detection system usage of Agrocam sensor is recommended, for higher accuracy Red Edge and Sequoia multispectral sensors with more channels should be deployed. We observed higher crop-weed accuracy and lower testing time for our patch-based approach as compared to U-Net and Deeplab based semantic segmentation networks.
topic Autonomous weed detection
drone weed detection
deep learning in agriculture
multispectral image processing
url https://ieeexplore.ieee.org/document/9525394/
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